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We offer all stock windshields for any make & model Harley Davidson.

We offer a full line of colors, laser & CNC engraving for individuals, clubs and organizations. We will beat anyone’s quality & price!

Harley-Davidson Inc (NYSE: HOG, formerly HDI), often abbreviated H-D or Harley, is an American motorcycle manufacturer. Founded in Milwaukee, Wisconsin, during the first decade of the 20th century, it was one of two major American motorcycle manufacturers to survive the Great Depression. Harley-Davidson also survived a period of poor quality control and competition from Japanese manufacturers.

The company sells heavyweight (over 750 cc) motorcycles designed for cruising on highways. Harley-Davidson motorcycles (popularly known as "Harleys") have a distinctive design and exhaust note. They are especially noted for the tradition of heavy customization that gave rise to the chopper style of motorcycle. Except for the modern VRSC model family, current Harley-Davidson motorcycles reflect the styles of classic Harley designs. Harley-Davidson's attempts to establish itself in the light motorcycle market have met with limited success and have largely been abandoned since the 1978 sale of its Italian Aermacchi subsidiary.

Harley-Davidson sustains a loyal brand community which keeps active through clubs, events, and a museum. Licensing of the Harley-Davidson brand and logo accounted for $40 million (0.8%) of the company's net revenue in 2010.

History

BeginningIn 1901, William S. Harley, age 22, drew up plans for a small engine with a displacement of 7.07 cubic inches (116 cc) and four-inch (102 mm) flywheels. The engine was designed for use in a regular pedal-bicycle frame. Over the next two years, Harley and his childhood friend Arthur Davidson labored on their motor-bicycle using the northside Milwaukee machine shop at the home of their friend, Henry Melk. It was finished in 1903 with the help of Arthur's brother, Walter Davidson. Upon completion, the boys found their power-cycle unable to conquer Milwaukee's modest hills without pedal assistance. Will Harley and the Davidsons quickly wrote off their first motor-bicycle as a valuable learning experiment.

Work immediately began on a new and improved second-generation machine. This first "real" Harley-Davidson motorcycle had a bigger engine of 24.74 cubic inches (405 cc) with 9.75 inches (25 cm) flywheels weighing 28 lb (13 kg). The machine's advanced loop-frame pattern was similar to the 1903 Milwaukee Merkel motorcycle (designed by Joseph Merkel, later of Flying Merkel fame). The bigger engine and loop-frame design took it out of the motorized-bicycle category and would help define what a modern motorcycle should contain in the years to come. The boys also received help with their bigger engine from outboard motor pioneer Ole Evinrude, who was then building gas engines of his own design for automotive use on Milwaukee's Lake Street.

Prototype

The prototype of the new loop-frame Harley-Davidson was assembled in a 10 × 15 ft (3.0 × 4.6 m) shed in the Davidson family backyard. Most of the major parts, however, were made elsewhere, including some probably fabricated at the West Milwaukee rail shops where oldest brother William A. Davidson was then tool room foreman. This prototype machine was functional by September 8, 1904, when it competed in a Milwaukee motorcycle race held at State Fair Park. It was ridden by Edward Hildebrand and placed fourth. This is the first documented appearance of a Harley-Davidson motorcycle in the historical record.

In January 1905, small advertisements were placed in the "Automobile and Cycle Trade Journal" that offered bare Harley-Davidson engines to the do-it-yourself trade. By April, complete motorcycles were in production on a very limited basis. That year, the first Harley-Davidson dealer, Carl H. Lang of Chicago, sold three bikes from the dozen or so built in the Davidson backyard shed. (Some years later the original shed was taken to the Juneau Avenue factory where it would stand for many decades as a tribute to the Motor Company's humble origins. Unfortunately, the first shed was accidentally destroyed by contractors in the early 1970s during a clean-up of the factory yard.)

In 1906, Harley and the Davidson brothers built their first factory on Chestnut Street (later Juneau Avenue). This location remains Harley-Davidson's corporate headquarters today. The first Juneau Avenue plant was a 40 × 60 ft (12 × 18 m) single-story wooden structure. The company produced about 50 motorcycles that year.

1907 model.

Harley-Davidson 1,000 cc HT 1916In 1907, William S. Harley graduated from the University of Wisconsin–Madison with a degree in mechanical engineering. That year additional factory expansion came with a second floor and later with facings and additions of Milwaukee pale yellow ("cream") brick. With the new facilities production increased to 150 motorcycles in 1907. The company was officially incorporated that September. They also began selling their motorcycles to police departments around this time, a market that has been important to them ever since.

Production in 1905 and 1906 were all single-cylinder models with 26.84 cubic inches (440 cc) engines. In February 1907 a prototype model with a 45-degree V-Twin engine was displayed at the Chicago Automobile Show. Although shown and advertised, very few V-Twin models were built between 1907 and 1910. These first V-Twins displaced 53.68 cubic inches (880 cc) and produced about 7 horsepower (5.2 kW). This gave about double the power of the first singles. Top speed was about 60 mph (100 km/h). Production jumped from 450 motorcycles in 1908 to 1,149 machines in 1909.

Harley-Davidson works in 1911By 1911, some 150 makes of motorcycles had already been built in the United States – although just a handful would survive the 1910s.

In 1911, an improved V-Twin model was introduced. The new engine had mechanically operated intake valves, as opposed to the "automatic" intake valves used on earlier V-Twins that opened by engine vacuum. With a displacement of 49.48 cubic inches (811 cc), the 1911 V-Twin was smaller than earlier twins, but gave better performance. After 1913 the majority of bikes produced by Harley-Davidson would be V-Twin models.

By 1913, the yellow brick factory had been demolished and on the site a new 5-story structure of reinforced concrete and red brick had been built. Begun in 1910, the red brick factory with its many additions would take up two blocks along Juneau Avenue and around the corner on 38th Street. Despite the competition, Harley-Davidson was already pulling ahead of Indian and would dominate motorcycle racing after 1914. Production that year swelled to 16,284 machines.

World War IIn 1917, the United States entered World War I and the military demanded motorcycles for the war effort. Harleys had already been used by the military in the Pancho Villa Expedition but World War I was the first time the motorcycle had been adopted for combat service.[citation needed] Harley-Davidson provided about 15,000 machines to the military forces during World War I.

1920s

Harley-Davidson 1000 cc HT 1923By 1920, Harley-Davidson was the largest motorcycle manufacturer in the world. Their motorcycles were sold by dealers in 67 countries. Production was 28,189 machines.

In 1921, a Harley-Davidson, ridden by Otto Walker, was the first motorcycle ever to win a race at an average speed of over 100 mph (160 km/h).

During the 1920s, several improvements were put in place, such as a new 74 cubic inch (1,200 cc) V-Twin, introduced in 1922, and the "Teardrop" gas tank in 1925. A front brake was added in 1928 although notably only on the J/JD models.

In the late summer of 1929, Harley-Davidson introduced its 45 cubic inches (737 cc) flathead V-Twin to compete with the Indian 101 Scout and the Excelsior Super X.[19] This was the "D" model, produced from 1929 to 1931.[20] Riders of Indian motorcycles derisively referred to this model as the "three cylinder Harley" because the generator was upright and parallel to the front cylinder. The 2.745 in (69.7 mm) bore and 3.8125 in (96.8 mm) stroke would continue in most versions of the 750 engine; exceptions include the XA and the XR-750.

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SteelHorseShades.Com Lightning Orange Bagger windshield

steelhorseshades.com

We offer all stock windshields for any make & model Harley Davidson.

We offer a full line of colors, laser & CNC engraving for individuals, clubs and organizations. We will beat anyone’s quality & price!

Harley-Davidson Inc (NYSE: HOG, formerly HDI), often abbreviated H-D or Harley, is an American motorcycle manufacturer. Founded in Milwaukee, Wisconsin, during the first decade of the 20th century, it was one of two major American motorcycle manufacturers to survive the Great Depression. Harley-Davidson also survived a period of poor quality control and competition from Japanese manufacturers.

The company sells heavyweight (over 750 cc) motorcycles designed for cruising on highways. Harley-Davidson motorcycles (popularly known as "Harleys") have a distinctive design and exhaust note. They are especially noted for the tradition of heavy customization that gave rise to the chopper style of motorcycle. Except for the modern VRSC model family, current Harley-Davidson motorcycles reflect the styles of classic Harley designs. Harley-Davidson's attempts to establish itself in the light motorcycle market have met with limited success and have largely been abandoned since the 1978 sale of its Italian Aermacchi subsidiary.

Harley-Davidson sustains a loyal brand community which keeps active through clubs, events, and a museum. Licensing of the Harley-Davidson brand and logo accounted for $40 million (0.8%) of the company's net revenue in 2010.

History

BeginningIn 1901, William S. Harley, age 22, drew up plans for a small engine with a displacement of 7.07 cubic inches (116 cc) and four-inch (102 mm) flywheels. The engine was designed for use in a regular pedal-bicycle frame. Over the next two years, Harley and his childhood friend Arthur Davidson labored on their motor-bicycle using the northside Milwaukee machine shop at the home of their friend, Henry Melk. It was finished in 1903 with the help of Arthur's brother, Walter Davidson. Upon completion, the boys found their power-cycle unable to conquer Milwaukee's modest hills without pedal assistance. Will Harley and the Davidsons quickly wrote off their first motor-bicycle as a valuable learning experiment.

Work immediately began on a new and improved second-generation machine. This first "real" Harley-Davidson motorcycle had a bigger engine of 24.74 cubic inches (405 cc) with 9.75 inches (25 cm) flywheels weighing 28 lb (13 kg). The machine's advanced loop-frame pattern was similar to the 1903 Milwaukee Merkel motorcycle (designed by Joseph Merkel, later of Flying Merkel fame). The bigger engine and loop-frame design took it out of the motorized-bicycle category and would help define what a modern motorcycle should contain in the years to come. The boys also received help with their bigger engine from outboard motor pioneer Ole Evinrude, who was then building gas engines of his own design for automotive use on Milwaukee's Lake Street.

Prototype

The prototype of the new loop-frame Harley-Davidson was assembled in a 10 × 15 ft (3.0 × 4.6 m) shed in the Davidson family backyard. Most of the major parts, however, were made elsewhere, including some probably fabricated at the West Milwaukee rail shops where oldest brother William A. Davidson was then tool room foreman. This prototype machine was functional by September 8, 1904, when it competed in a Milwaukee motorcycle race held at State Fair Park. It was ridden by Edward Hildebrand and placed fourth. This is the first documented appearance of a Harley-Davidson motorcycle in the historical record.

In January 1905, small advertisements were placed in the "Automobile and Cycle Trade Journal" that offered bare Harley-Davidson engines to the do-it-yourself trade. By April, complete motorcycles were in production on a very limited basis. That year, the first Harley-Davidson dealer, Carl H. Lang of Chicago, sold three bikes from the dozen or so built in the Davidson backyard shed. (Some years later the original shed was taken to the Juneau Avenue factory where it would stand for many decades as a tribute to the Motor Company's humble origins. Unfortunately, the first shed was accidentally destroyed by contractors in the early 1970s during a clean-up of the factory yard.)

In 1906, Harley and the Davidson brothers built their first factory on Chestnut Street (later Juneau Avenue). This location remains Harley-Davidson's corporate headquarters today. The first Juneau Avenue plant was a 40 × 60 ft (12 × 18 m) single-story wooden structure. The company produced about 50 motorcycles that year.

1907 model.

Harley-Davidson 1,000 cc HT 1916In 1907, William S. Harley graduated from the University of Wisconsin–Madison with a degree in mechanical engineering. That year additional factory expansion came with a second floor and later with facings and additions of Milwaukee pale yellow ("cream") brick. With the new facilities production increased to 150 motorcycles in 1907. The company was officially incorporated that September. They also began selling their motorcycles to police departments around this time, a market that has been important to them ever since.

Production in 1905 and 1906 were all single-cylinder models with 26.84 cubic inches (440 cc) engines. In February 1907 a prototype model with a 45-degree V-Twin engine was displayed at the Chicago Automobile Show. Although shown and advertised, very few V-Twin models were built between 1907 and 1910. These first V-Twins displaced 53.68 cubic inches (880 cc) and produced about 7 horsepower (5.2 kW). This gave about double the power of the first singles. Top speed was about 60 mph (100 km/h). Production jumped from 450 motorcycles in 1908 to 1,149 machines in 1909.

Harley-Davidson works in 1911By 1911, some 150 makes of motorcycles had already been built in the United States – although just a handful would survive the 1910s.

In 1911, an improved V-Twin model was introduced. The new engine had mechanically operated intake valves, as opposed to the "automatic" intake valves used on earlier V-Twins that opened by engine vacuum. With a displacement of 49.48 cubic inches (811 cc), the 1911 V-Twin was smaller than earlier twins, but gave better performance. After 1913 the majority of bikes produced by Harley-Davidson would be V-Twin models.

By 1913, the yellow brick factory had been demolished and on the site a new 5-story structure of reinforced concrete and red brick had been built. Begun in 1910, the red brick factory with its many additions would take up two blocks along Juneau Avenue and around the corner on 38th Street. Despite the competition, Harley-Davidson was already pulling ahead of Indian and would dominate motorcycle racing after 1914. Production that year swelled to 16,284 machines.

World War IIn 1917, the United States entered World War I and the military demanded motorcycles for the war effort. Harleys had already been used by the military in the Pancho Villa Expedition but World War I was the first time the motorcycle had been adopted for combat service.[citation needed] Harley-Davidson provided about 15,000 machines to the military forces during World War I.

1920s

Harley-Davidson 1000 cc HT 1923By 1920, Harley-Davidson was the largest motorcycle manufacturer in the world. Their motorcycles were sold by dealers in 67 countries. Production was 28,189 machines.

In 1921, a Harley-Davidson, ridden by Otto Walker, was the first motorcycle ever to win a race at an average speed of over 100 mph (160 km/h).

During the 1920s, several improvements were put in place, such as a new 74 cubic inch (1,200 cc) V-Twin, introduced in 1922, and the "Teardrop" gas tank in 1925. A front brake was added in 1928 although notably only on the J/JD models.

In the late summer of 1929, Harley-Davidson introduced its 45 cubic inches (737 cc) flathead V-Twin to compete with the Indian 101 Scout and the Excelsior Super X.[19] This was the "D" model, produced from 1929 to 1931.[20] Riders of Indian motorcycles derisively referred to this model as the "three cylinder Harley" because the generator was upright and parallel to the front cylinder. The 2.745 in (69.7 mm) bore and 3.8125 in (96.8 mm) stroke would continue in most versions of the 750 engine; exceptions include the XA and the XR-750.

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Motorcycles VIN Decoder

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This locomotive is arriving in Luxembourg, coming from Trier with a summer train Köln – Port Bou (french-spanish border), entirely with SNCF old material. This train does not exist anymore. The Diesel locomotive was part of a group of 4 locomotives built in Belgium for Luxembourg Railways, with GM motors and under NoHAB licence. The SNCB purchased a more important group of these machines. This one has been withdrawn from regular service, sold to a belgian association, the PFT, and is still running for special trains but with the normal belgian green livery and number 202.020 Luxembourg – 07/1994 – Photo : J.J.B.

WOW!!

Here's a blast from the past!!

Back in the late '70's, Melbourne radio station 3XY ran give-aways with Coke, the major prizes being wild (for then) custom vans - Easy Roller (a Bedford), Denimachine (a Valiant van), and Freedom Machine.

This is the Freedom Machine (although, the same style van was know as Easy Roller in some other states...)...

Last registered in 2000, and currently stripped for a resto to (hopefully!) its original state...

+++ DISCLAIMER +++

Nothing you see here is real, even though the model, the conversion or the presented background story might be based historical facts. BEWARE!

Some background:

The Dornier Do 319 was directly inspired by the (modest) successes experienced by the Messerschmitt Me 262 fighter, the world's first operational jet-powered fighter aircraft. Design work started before World War II began, but problems with engines, metallurgy and top-level interference kept the aircraft from operational status with the Luftwaffe until mid-1944.

Production numbers remained low, though, reaching roundabout 20 aircraft (even this number is uncertain) until the end of the war, and no Do 319 survived the hostilities.

General characteristics:

Crew: 1 pilot plus up to 2 passengers

Length: 10.80 m (35 ft 4 1/2 in)

Wingspan: 12.60 m (41 ft 6 in)

Height: 3.78 m (12 ft 4 1/2 in)

Wing area: 26.8 m² (288 ft²)

Aspect ratio: 7.32

Empty weight: 4,120 kg (9,075 lb)

Loaded weight: 6,830 kg (15,044 lb)

Max. take-off weight: 7,385 kg (16,266 lb)

Powerplant:

2× Junkers Jumo 004 B-1 turbojets, 8.8 kN (1,980 lbf) each

Performance:

Maximum speed: 820 km/h (510 mph)

Range: 1,200 km (652 mi)

2,100 km (1,300 mi) with extra internal fuel cells

Service ceiling: 10,850 m (35,538 ft)

Rate of climb: 1,000 m/min (At max weight of 7,130 kg) (3,275 ft/min)

Armament:

Provisions for 4× 30 mm MK 108 cannon in the nose, but rarely mounted

The kit and its assembly:

Another entry for the “Flying Boat, Seaplane and Amphibian” Group Build at whatifmodelers.com in late 2017, and the result of a spontaneous inspiration from a drawing of a Luft’46/fantasy creation of a Me 262 fuselage with a planning bottom, a parasol(!) wing and a single jet engine exhausting right above the cockpit, and no (visible) stabilizing floats at all. Rather spurious.

Well, nevertheless, the Me 262 jet fighter has a very shark-like profile and shape, and it has already been converted into flying boats or even submarines by modelers, and I decided to create my personal interpretation of the theme. I remembered a lone He 115 float in my stash (maybe 35 years old or even more!), and when I held to a Me 262 fuselage the parts had almost the same length and width. So, creating a flying boat jet fighter seemed like a realistic task.

Things started straightforward with an 1:72 Smer Me 262 fighter, which is actually the vintage Heller two-seater night fighter with a new fuselage and canopy. My kit of choice would have been the Matchbox kit, but the Heller kit is also O.K., due to its simplicity and simple construction.

Creating something amphibian from a Me 262 is not a trivial task, though. With its low wings and underslung engine nacelles there’s a lot to be changed until you get a plausible floatplane. Another challenge is to integrate some form of stabilizer/outrigger floats, what also influences the wings’ position. Placing the engines where they are safe from spray ingestion is also a serious matter – you have to get the high and the intakes as far forward as possible.

Doing some legwork I found some similar builds, and they all did not convince me. And, after all, I wanted to create my own “design”; in order to incorporate some realism I eventually settled on Dornier’s typical WWII designs like the Do 18 and Do 24. These elegant aircraft had a common, elegant trait: low stub wings as stabilizer floats, paired with high wings (in the case of the Do 18 held by a massive central pylon) which carried the engine out of the water’s reach. This appeared like a feasible layout for my conversion, even though it would mean a total re-construction of the kit, or rather assembling it in a way that almost no part was glued into the intended place!

Work started with the cockpit, which had to be moved forward in order to make room for the wings behind the canopy, placed high on a pylon above the fuselage. For this stunt, the cockpit opening and the place in front of it (where the original front fuselage tank would be) were cut out and switched. The cockpit tub was moved forward and trimmed in order to fit into the new place. The nose section was filled with lead, because the stub wings/floats would allow a retractable landing gear to be added, too, making the aircraft a true amphibian!

The He 115 float was cut down in order to fit under the OOB Me 262 fuselage, and a front wheel well was integrated for a tricycle landing gear. Once the fuselage was closed, the planning bottom was added and the flanks sculpted with putty – lots of it.

In the meantime the Me 262 wing received a thorough re-arrangement, too. Not only were the engine nacelles moved to the upper wing surface (cutting the respective wing and intake sections of the nacelles off/out and turning them around 180°), the original connecting ventral wing part with the landing gear wells were turned upside down, too, the landing gear covers closed (with the respective OOB parts) and the inner wing sections modified into a gull wing, raising the engines even further. VERY complex task, and blending/re-shaping everything took a lot of PSR, too.

Under the central wing section I added a pylon left over from a Smer Curtiss SC Seahawk kit, because a massive Do 18-esque construction was out of question for a fast jet aircraft. The gaps were filled with putty, too.

In order to keep the stabilizers free from water spray they were moved upwards on the fin, too. The original attachment points were sanded away and hidden under putty, and the OOB stabilizers placed almost at the top at the fin.

Finding suitable stub wings/floats became a challenge: they have to be relatively thick (yielding buoyancy and also offering room for the retractable landing gear), but also short with not-so-rounded tips. It took a while until I found suitable donor parts in the form of the tips of an 1:32 AH-64 Apache (!) stabilizer! They were simply cut off, and openings for the main landing gear cut into their lower sides.

Once glued to the lower flanks and the stabilizers in place it was time to place the wing. In the meantime the moved cockpit had been blended to the fuselage, and initial tests indicated that the pylon would have to be placed right behind the canopy – actually on top of the end of the clear part. As a consequence the canopy was cut into pieces and its rear section integrated into the fuselage (more PSR).

However, the relatively thin and slender central pylon from the Curtiss SC indicated that some more struts would be necessary in order to ensure stability – very retro, and not really suited for a jet-powered aircraft. And the more I looked at the layout, the more I became convinced that the wings and engines were in a plausible position, but placed too high.

What started next were several sessions in which I shortened the pylon step by step, until I was satisfied with the overall proportions. This went so far that almost everything of the pylon had gone, and the wings almost rested directly on the Me 262’s spine!

However, this new layout offered the benefit of rendering the extra struts obsolete, since I decided to fill the small gap between wing and fuselage into a single, massive fairing. This would also mean more internal space, and consequently the original idea of a jet-powered combat aircraft was modified into a fast multi-purpose amphibian vehicle for special tasks, capable of transporting personnel behind enemy lines with a quick move.

More PSR, though, and after some finishing touches like a scratched landing gear (front leg/wheel from an Italeri Bae Hawk, main struts from a Mistercraft PZL Iskra trainer, wheels from an Academy OV-10 Bronco and with improvised covers), several antennae and mooring lugs made from wire, the aircraft was ready for painting. On the downside, though, almost any surface detail had been lost due to the massive, overall body sculpting – but the application of the light zigzag pattern helped to recreate some “illusionary” details like flaps or panel lines. ;-)

Painting and markings:

Originally, when the Seeschwalbe was still conceived as a fighter, the model was to receive a daylight scheme in typical German naval aircraft colors (RLM 72/73/65). But this plan changed when the aircraft’s role became a ‘special purpose’ transporter for covert operations.

Nocturnal operations appeared plausible, so that the scheme became much more murky: from above, a splinter scheme with RLM 73 and RLM 74 (naval dark green and dark, greenish grey, both from the ModelMaster Authentic enamel paint range) was applied as a basis, and the undersides became black – as if standard daylight colors had been overpainted, a frequent practice.

Since this black paint was made from soot, it easily wore away and many Luftwaffe machines with improvised black undersides quickly gained a rather shaggy look. I wanted to re-create this look, and built up the lower paint accordingly: In an initial step, RLM76 (I used Humbrol 87, which is a tad darker than the RLM tone, for less contrast with the black) was painted on the lower wing surfaces, the fuselage with a medium waterline and the fin. Once dry, the national marking decals were added. Then a coat of thinned Revell Acrylics 6 Tar Black was applied on top of the lower surfaces, including the lower decals, and later wet-sanded in order to reveal some of the grey underneath for a worn look.

In order to break up the aircraft’s outlines, esp. at low altitude, a disruptive meander pattern in light grey (RLM 76) was painted on top of the upper surfaces. For this task, I thinned Humbrol’s 247 enamel and used a simple brush, painting the curls free-handedly. The finish looks pretty convincing, and it mimics well the technique with which those improvised patterns were applied in the field in real life: quickly, with anything at hand. The way the finish turned out, the pattern could have been applied with a broad brush – the use of a spray gun was rather uncommon, and IMHO the use of an airbrush on a model to recreate such a zigzag pattern rarely leads to convincing results?

This pattern was painted tightly around all the upper markings, and the markings themselves were kept at a minimum. For instance, the tactical code only comprises the aircraft’s individual letter “Blue O” behind the fuselage cross, which indicates an air staff machine. This would, following the official German squadron code system, be confirmed by an “A”, following as a fourth digit. The squadron’s code (“P7”, which is fictional, just like the aircraft’s sea reconnaissance squadron itself) was omitted, too. Such minimal markings became a frequent practice towards the final war stages, though, and it fits the aircraft’s special duty role well. The only individual marking is a squadron badge under the cockpit – lent from an Italian night fighter and placed on a dark blue disc. Another, subtle indicator for the aircraft’s operator are the blue air intake center bodies, repeating the staff flight’s blue color code.

Only some light weathering was done, with dry-brushed light grey on the leading edges, and finally the kit was sealed with matt acrylic varnish (Italeri). In a final step, some very light dry-brushing with aluminum was done on some of the fuselage edges, esp. the spray dams, and the position lights were painted with translucent paint over a silver base.

A messy project, in many ways, but I am happy with result. Most stunning is IMHO the fact that all major parts for this compact flying boat actually come from a single, simple Me 262 kit – but visually there’s not much of the left from the jet fighter. But it’s also amazing that the proportions look right, and the whole thing quite plausible and Dornier-esque! Turned out better than expected.

1-12-13 Wyndham Street Races

AJS was the name used for cars and motorcycles made by the Wolverhampton, England, company A. J. Stevens & Co. Ltd, from 1909 to 1931, by then holding 117 motorcycle world records. After the firm was sold, the name continued to be used by Matchless, Associated Motorcycles and Norton-Villiers on four-stroke motorcycles till 1969, and since the name's resale in 1974, on lightweight, two-stroke scramblers and today on small-capacity roadsters and cruisers.

Motorcycle History:

Joe Stevens, father of Harry, George, Albert John (‘Jack’), and Joe Stevens Junior, was an engineer who owned the Stevens Screw Company Ltd, in Wednesfield, near Wolverhampton. Stevens had a reputation for quality engineering before the company built its first motorcycle in 1897, using a Mitchell single-cylinder four-stroke imported from the USA. Before long, Stevens began making engines, starting off with a better-built version of the Mitchell but the family soon developed their own designs, including parallel-twins and V-twins, which were sold as proprietary engines to other manufacturers, including Werner, Wolf and Clyno.

In 1909, after a Wearwell motorcycle fitted with a Stevens side-valve single-cylinder engine won a trophy for a 24-hour non-stop run in 1909, Jack Stevens decided to contest the Tourist Trophy in the Isle of Man. A new company, A J Stevens & Co (AJS), was founded, with premises in Retreat Street, Wolverhampton, to manufacture motorcycles and the first model appeared at the Motor Cycle Show in 1910. Its engine, a two-speed 298 cc side-valve, was made to come within the 300 cc limit for Junior machines in the 1911 Isle of Man TT races and was slightly larger than the 292 cc used for the proprietary engines. Jack Stevens came 16th on AJS's official entry, one place behind private owner J.D. Corke on an identical machine.

Albert John Stevens lent his initials to the company, but it was a family concern. In 1922 for example, Harry Stevens acted as managing director, George Stevens as commercial manager, Joe Stevens Junior managing the experimental section and Jack Stevens as production manager.

AJS did not contest the 1912 TT as it was busy satisfying the demand for its products, but was 10th in the 1913 Junior. With the Junior limit raised to 350 cc for 1914, the AJS motorcycle had grown to 349 cc, with four-speed gears and chain final drive. AJS won first, second, third, fourth and sixth place in the Junior 1914 Isle of Man TT race that year. The old Screw Company’s facilities could not cope with the demand and with the company reconstituted as A.J. Stevens (1914) Ltd, AJS moved to a new factory built around Graiseley House, in the Blakenhall district, a short distance south of the Retreat Street premises, which were relegated to the being the company's office and repair department. The 349 cc machine (known as the 2 3⁄4 hp) was most in demand but the company also produced an 800 cc (6 hp) V-twin.

On 3 November 1916, the Ministry of Munitions prohibited the production of non-military motorcycles, and AJS went over to manufacturing munitions, but in early 1917 the Ministry received an order from Russia for military vehicles, and AJS was given a contract to produce part of the order with its AJS Model D machine. This kept AJS busy until Ministry of Munitions restrictions were lifted in January 1919.

When production of the 350 resumed in 1920, it was much improved. The side-valve engine was replaced by a new overhead-valve design that produced 10 bhp. It also had internal expanding brakes and chain primary drive. Cyril Williams won the first post war 1920 Isle of Man TT Junior race on his 350, even though he had to push the motorcycle home for almost four miles (mostly downhill) after a breakdown. AJS took the first four places in the 1921 Isle of Man TT, and Howard R Davies bettered his second place in the Junior by winning the Senior on the same 350 cc AJS. This was the first time a 350 had won the 500 cc Senior TT race. In 1922 Manxman Tom Sheard won the Junior on an AJS, with G Grinton, also on an AJS, taking second.

The 1922 machine was a classic design that would become famous as the ‘Big Port’ on account of its large-diameter exhaust port and pipe (initially 1⅝ inches, but changed in successive years). The OHV 350 would be the mainstay of the company’s racing efforts until 1927 and in production form (first offered to the public in 1923), was also AJS’s most popular sports motorcycle throughout the 1920s. At this time, the company produced a comprehensive range of other models ranging from 250 to 1,000 cc. These were generally given a model number, plus letter to denote the year of manufacture (for example, E meant 1924, F 1925, G 1926).

In 1929 for example, the AJS range consisted of: M1 Deluxe 996 cc side-valve V-twin £76/10/0; M2 Standard 996 cc side-valve V-twin £66/0/0; M3 Deluxe Touring 349 cc side-valve single £48/10/0; M4 Deluxe Sporting 349 cc side-valve single £48/10/0; M5 Standard Sporting 349 cc side-valve single £45/0/0; M6 349 cc overhead-valve single £54/10/0 (twin port), £52/0/0 (single port); MR6 Special Sports 349 cc overhead-valve single £62/0/0; M7 349 cc overhead-camshaft single £62/0/0; M8 498 cc overhead-valve single £62/0/0 (twin port), £59/10/0 (single port); MR8 Special Sports 498 cc overhead-valve single £72/0/0; M9 Deluxe Touring 498 cc side-valve £54/0/0; M10 498 cc overhead-camshaft single £72/0/0; M12 Lightweight 248 cc side-valve single £39/17/6. Several of these were intended to pull one of the 12 AJS sidecars also on offer, including sports, touring and commercial models.

By 1927, it had become clear that push-rod overhead-valve designs were becoming dated in racing, so AJS introduced two new chain-driven overhead-camshaft racing models, the 349 cc K7 and the 498 cc K10. Jimmy Simpson rode a 350 to third place in the Junior TT and won races in Europe but in 1928 AJS used the overhead-valve engine in the TT. In 1929 there were again two machines with an overhead cam, this time the 349 cc M7 and the 498 cc M10. Wal Handley came second in the 1929 Junior TT for AJS. The following year Jimmie Guthrie won the 1930 Lightweight TT on a 250 cc AJS.

In 1931, the AJS S3 V-twin was released, a 496 cc transverse V-twin tourer with shaft primary drive and alloy cylinder heads. It had been expensive to develop and was slow to sell. Even though it held 117 world records, the AJS company was now in financial trouble.

Stevens Motorcycles -

The Stevens brothers tried again and started a new company as Stevens Brothers (Wolverhampton) Ltd to make 3-wheel delivery vans. (They could not call them AJS, as that name belonged to the Colliers.) These used a 588 cc single-cylinder engine driving the rear wheels through a 3-speed gearbox and chain drive. The van could carry 5 cwt. It was improved in 1935 with shaft drive and uprated to 8 cwt. The last ones were made in 1936. In 1934 they also produced a new range of motorcycles under the Stevens name. These were made until 1938 after which the company continued until 1956 as a general engineering business.

AJS Racing under AMC:

Under AMC the AJS badge may have been put on the 'bread and butter'; Matchless motorcycles, but the Colliers were mindful of the AJS racing heritage, and used the name on some innovative racing machinery.

These racing bikes kept the AJS name alive.

In 1935, at the Olympia Show, an air-cooled SOHC AJS 50° V4 was shown, a fully equipped road going version, which did not make it into production. In 1936 Harold Daniell rode a supercharged race version in the Isle of Man Senior TT, but despite its high top speed, it lacked acceleration.

In 1939, a water-cooled and supercharged version of the 495 cc AJS V4 was built to compete against the supercharged BMWs then dominating racing. In 1939 the dry sump V4 was the first bike to lap the Ulster Grand Prix course at over 100 mph (160 km/h). It weighed 405 lb (184 kg). and its top speed was 135 mph (217 km/h). Then World War II intervened.

At the end of the 1940s and start of the 1950s, the AJS Porcupine, a 500 cc forward-facing parallel twin, and the AJS 7R (32 bhp, 350 cc OHC single) were being raced alongside their AMC stablemates the Matchless G50 (effectively a 500 cc 7R) and by 1951, the Matchless G45 (a 500 cc vertical twin). The AJS Porcupine had been designed for supercharging, before the rules changed banning supercharged racing motorcycles, but even so, Les Graham won the 1949 World Championship on an unsupercharged AJS E90 500 cc Porcupine.

In 1951 AJS development engineer Ike Hatch developed a 75.5 mm bore × 78 mm stroke, three-valve-head version of the 7R making 36 bhp (27 kW). It was called the AJS 7R3, and was Ike's response to the Italian multi-cylinder racers. They did well enough in their first year, not as well the second. For 1954 Jack Williams, the works team manager, developed the bike further, lowering the engine in the frame, and making some tuning changes that gave 40 bhp (30 kW) @ 7800 rpm. It immediately won the first two rounds of the World Championship and took first at the Isle of Man TT. These were factory specials, but one has survived, and a second has been reconstructed from spares.

AMC withdrew from the world of works and one-off road racing at the end of the 1954, with the death of Ike Hatch, and in the face of fierce competition from the other European bikes. After this AJS made a production version of the standard two-valve AJS 7R, for privateers. In 1954 Norton was also moved to the Plumstead works.

With the G15 line, AMC had built on the merits of the G12 but there were numerous changes to frame, forks, swinging arm, primary chaincase, transmission, cycle parts and lubrication system. The P11 was the last line of bikes with bonds to AMC. It used a modified G85CS frame but there were stronger forks, completely new cycle parts (making some was rather costly), altered lubrication and modified primary chaincases, to mention a few.

The G15 series was offered as 3 brands: Matchless G15 comprising G15Mk2, G15CS and G15CSR; AJS Model 33 comprising M33Mk2, M33CS and M33CSR; and last not least Norton N15CS (no Norton-branded roadster made as it would compete against the Atlas). The G15 series was produced from 1963 to 1969. They were initially for export only, but by 1965 these models were available in UK and Europe too.

Associated Motorcycles and the AJS name eventually ended up with Norton-Villiers in 1966. In late 1968 the Plumstead works at Burrage Grove, where engines from the Wolverhampton plant and frames from the Manchester plant were assembled into complete machines, were presented with a Greater London Council compulsory purchase order. The Plumstead works closed in July 1969. It is believed that production of the G15 series was halted late in 1968 (model year 1969) with unsold samples on offer through 1969. The AJS Model 33 was the last AJS badged four-stroke produced.

AJS Motorcycles Ltd Today:

AJS Motorcycles Ltd. is headed by Nick Brown (eldest son of Fluff Brown) and is a family run business. Since 2002 AJS have distributed a range of 124 cc to 300 cc Chinese-produced road bikes in trail, roadster and custom cruiser styles. Their main market is Learner Legal 125's. The business also sells Stormer/Villiers Starmaker spares and Classic competition accessories.

Source: en.wikipedia.org/wiki/AJS

The ‘Pataphysical Slot Machine is on exhibit at the Mill Valley Library this month. Visitors to this unique art project seem to really enjoy the experience: their faces tell the whole story in this photo album. Overall, the slot machine seems to have a positive social impact: it makes people happy, gets them inspired -- and can help some of them become art makers.

Come see the slot machine this month! Our poetic oracle awaits you every weekend, to share words of wisdom about your life and future.

The exhibit is open from 1 to 5pm every Saturday and Sunday in October, in the downstairs conference room of the Mill Valley Library.

Pataphysical Studio members will be on hand to demo the Slot Machine and share what they have learned while building this interactive art project.

Learn more: pataphysics.us/join-the-unveiling-of-the-slot-machine

View more photos of the exhibit: www.flickr.com/photos/fabola/albums/72157659147117739

+++ DISCLAIMER +++

Nothing you see here is real, even though the model, the conversion or the presented background story might be based historical facts. BEWARE!

Some background:

The Dornier Do 319 was directly inspired by the (modest) successes experienced by the Messerschmitt Me 262 fighter, the world's first operational jet-powered fighter aircraft. Design work started before World War II began, but problems with engines, metallurgy and top-level interference kept the aircraft from operational status with the Luftwaffe until mid-1944.

Production numbers remained low, though, reaching roundabout 20 aircraft (even this number is uncertain) until the end of the war, and no Do 319 survived the hostilities.

General characteristics:

Crew: 1 pilot plus up to 2 passengers

Length: 10.80 m (35 ft 4 1/2 in)

Wingspan: 12.60 m (41 ft 6 in)

Height: 3.78 m (12 ft 4 1/2 in)

Wing area: 26.8 m² (288 ft²)

Aspect ratio: 7.32

Empty weight: 4,120 kg (9,075 lb)

Loaded weight: 6,830 kg (15,044 lb)

Max. take-off weight: 7,385 kg (16,266 lb)

Powerplant:

2× Junkers Jumo 004 B-1 turbojets, 8.8 kN (1,980 lbf) each

Performance:

Maximum speed: 820 km/h (510 mph)

Range: 1,200 km (652 mi)

2,100 km (1,300 mi) with extra internal fuel cells

Service ceiling: 10,850 m (35,538 ft)

Rate of climb: 1,000 m/min (At max weight of 7,130 kg) (3,275 ft/min)

Armament:

Provisions for 4× 30 mm MK 108 cannon in the nose, but rarely mounted

The kit and its assembly:

Another entry for the “Flying Boat, Seaplane and Amphibian” Group Build at whatifmodelers.com in late 2017, and the result of a spontaneous inspiration from a drawing of a Luft’46/fantasy creation of a Me 262 fuselage with a planning bottom, a parasol(!) wing and a single jet engine exhausting right above the cockpit, and no (visible) stabilizing floats at all. Rather spurious.

Well, nevertheless, the Me 262 jet fighter has a very shark-like profile and shape, and it has already been converted into flying boats or even submarines by modelers, and I decided to create my personal interpretation of the theme. I remembered a lone He 115 float in my stash (maybe 35 years old or even more!), and when I held to a Me 262 fuselage the parts had almost the same length and width. So, creating a flying boat jet fighter seemed like a realistic task.

Things started straightforward with an 1:72 Smer Me 262 fighter, which is actually the vintage Heller two-seater night fighter with a new fuselage and canopy. My kit of choice would have been the Matchbox kit, but the Heller kit is also O.K., due to its simplicity and simple construction.

Creating something amphibian from a Me 262 is not a trivial task, though. With its low wings and underslung engine nacelles there’s a lot to be changed until you get a plausible floatplane. Another challenge is to integrate some form of stabilizer/outrigger floats, what also influences the wings’ position. Placing the engines where they are safe from spray ingestion is also a serious matter – you have to get the high and the intakes as far forward as possible.

Doing some legwork I found some similar builds, and they all did not convince me. And, after all, I wanted to create my own “design”; in order to incorporate some realism I eventually settled on Dornier’s typical WWII designs like the Do 18 and Do 24. These elegant aircraft had a common, elegant trait: low stub wings as stabilizer floats, paired with high wings (in the case of the Do 18 held by a massive central pylon) which carried the engine out of the water’s reach. This appeared like a feasible layout for my conversion, even though it would mean a total re-construction of the kit, or rather assembling it in a way that almost no part was glued into the intended place!

Work started with the cockpit, which had to be moved forward in order to make room for the wings behind the canopy, placed high on a pylon above the fuselage. For this stunt, the cockpit opening and the place in front of it (where the original front fuselage tank would be) were cut out and switched. The cockpit tub was moved forward and trimmed in order to fit into the new place. The nose section was filled with lead, because the stub wings/floats would allow a retractable landing gear to be added, too, making the aircraft a true amphibian!

The He 115 float was cut down in order to fit under the OOB Me 262 fuselage, and a front wheel well was integrated for a tricycle landing gear. Once the fuselage was closed, the planning bottom was added and the flanks sculpted with putty – lots of it.

In the meantime the Me 262 wing received a thorough re-arrangement, too. Not only were the engine nacelles moved to the upper wing surface (cutting the respective wing and intake sections of the nacelles off/out and turning them around 180°), the original connecting ventral wing part with the landing gear wells were turned upside down, too, the landing gear covers closed (with the respective OOB parts) and the inner wing sections modified into a gull wing, raising the engines even further. VERY complex task, and blending/re-shaping everything took a lot of PSR, too.

Under the central wing section I added a pylon left over from a Smer Curtiss SC Seahawk kit, because a massive Do 18-esque construction was out of question for a fast jet aircraft. The gaps were filled with putty, too.

In order to keep the stabilizers free from water spray they were moved upwards on the fin, too. The original attachment points were sanded away and hidden under putty, and the OOB stabilizers placed almost at the top at the fin.

Finding suitable stub wings/floats became a challenge: they have to be relatively thick (yielding buoyancy and also offering room for the retractable landing gear), but also short with not-so-rounded tips. It took a while until I found suitable donor parts in the form of the tips of an 1:32 AH-64 Apache (!) stabilizer! They were simply cut off, and openings for the main landing gear cut into their lower sides.

Once glued to the lower flanks and the stabilizers in place it was time to place the wing. In the meantime the moved cockpit had been blended to the fuselage, and initial tests indicated that the pylon would have to be placed right behind the canopy – actually on top of the end of the clear part. As a consequence the canopy was cut into pieces and its rear section integrated into the fuselage (more PSR).

However, the relatively thin and slender central pylon from the Curtiss SC indicated that some more struts would be necessary in order to ensure stability – very retro, and not really suited for a jet-powered aircraft. And the more I looked at the layout, the more I became convinced that the wings and engines were in a plausible position, but placed too high.

What started next were several sessions in which I shortened the pylon step by step, until I was satisfied with the overall proportions. This went so far that almost everything of the pylon had gone, and the wings almost rested directly on the Me 262’s spine!

However, this new layout offered the benefit of rendering the extra struts obsolete, since I decided to fill the small gap between wing and fuselage into a single, massive fairing. This would also mean more internal space, and consequently the original idea of a jet-powered combat aircraft was modified into a fast multi-purpose amphibian vehicle for special tasks, capable of transporting personnel behind enemy lines with a quick move.

More PSR, though, and after some finishing touches like a scratched landing gear (front leg/wheel from an Italeri Bae Hawk, main struts from a Mistercraft PZL Iskra trainer, wheels from an Academy OV-10 Bronco and with improvised covers), several antennae and mooring lugs made from wire, the aircraft was ready for painting. On the downside, though, almost any surface detail had been lost due to the massive, overall body sculpting – but the application of the light zigzag pattern helped to recreate some “illusionary” details like flaps or panel lines. ;-)

Painting and markings:

Originally, when the Seeschwalbe was still conceived as a fighter, the model was to receive a daylight scheme in typical German naval aircraft colors (RLM 72/73/65). But this plan changed when the aircraft’s role became a ‘special purpose’ transporter for covert operations.

Nocturnal operations appeared plausible, so that the scheme became much more murky: from above, a splinter scheme with RLM 73 and RLM 74 (naval dark green and dark, greenish grey, both from the ModelMaster Authentic enamel paint range) was applied as a basis, and the undersides became black – as if standard daylight colors had been overpainted, a frequent practice.

Since this black paint was made from soot, it easily wore away and many Luftwaffe machines with improvised black undersides quickly gained a rather shaggy look. I wanted to re-create this look, and built up the lower paint accordingly: In an initial step, RLM76 (I used Humbrol 87, which is a tad darker than the RLM tone, for less contrast with the black) was painted on the lower wing surfaces, the fuselage with a medium waterline and the fin. Once dry, the national marking decals were added. Then a coat of thinned Revell Acrylics 6 Tar Black was applied on top of the lower surfaces, including the lower decals, and later wet-sanded in order to reveal some of the grey underneath for a worn look.

In order to break up the aircraft’s outlines, esp. at low altitude, a disruptive meander pattern in light grey (RLM 76) was painted on top of the upper surfaces. For this task, I thinned Humbrol’s 247 enamel and used a simple brush, painting the curls free-handedly. The finish looks pretty convincing, and it mimics well the technique with which those improvised patterns were applied in the field in real life: quickly, with anything at hand. The way the finish turned out, the pattern could have been applied with a broad brush – the use of a spray gun was rather uncommon, and IMHO the use of an airbrush on a model to recreate such a zigzag pattern rarely leads to convincing results?

This pattern was painted tightly around all the upper markings, and the markings themselves were kept at a minimum. For instance, the tactical code only comprises the aircraft’s individual letter “Blue O” behind the fuselage cross, which indicates an air staff machine. This would, following the official German squadron code system, be confirmed by an “A”, following as a fourth digit. The squadron’s code (“P7”, which is fictional, just like the aircraft’s sea reconnaissance squadron itself) was omitted, too. Such minimal markings became a frequent practice towards the final war stages, though, and it fits the aircraft’s special duty role well. The only individual marking is a squadron badge under the cockpit – lent from an Italian night fighter and placed on a dark blue disc. Another, subtle indicator for the aircraft’s operator are the blue air intake center bodies, repeating the staff flight’s blue color code.

Only some light weathering was done, with dry-brushed light grey on the leading edges, and finally the kit was sealed with matt acrylic varnish (Italeri). In a final step, some very light dry-brushing with aluminum was done on some of the fuselage edges, esp. the spray dams, and the position lights were painted with translucent paint over a silver base.

A messy project, in many ways, but I am happy with result. Most stunning is IMHO the fact that all major parts for this compact flying boat actually come from a single, simple Me 262 kit – but visually there’s not much of the left from the jet fighter. But it’s also amazing that the proportions look right, and the whole thing quite plausible and Dornier-esque! Turned out better than expected.

SteelHorseShades.Com blue Bagger windshield

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We offer all stock windshields for any make & model Harley Davidson.

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Harley-Davidson Inc (NYSE: HOG, formerly HDI), often abbreviated H-D or Harley, is an American motorcycle manufacturer. Founded in Milwaukee, Wisconsin, during the first decade of the 20th century, it was one of two major American motorcycle manufacturers to survive the Great Depression. Harley-Davidson also survived a period of poor quality control and competition from Japanese manufacturers.

The company sells heavyweight (over 750 cc) motorcycles designed for cruising on highways. Harley-Davidson motorcycles (popularly known as "Harleys") have a distinctive design and exhaust note. They are especially noted for the tradition of heavy customization that gave rise to the chopper style of motorcycle. Except for the modern VRSC model family, current Harley-Davidson motorcycles reflect the styles of classic Harley designs. Harley-Davidson's attempts to establish itself in the light motorcycle market have met with limited success and have largely been abandoned since the 1978 sale of its Italian Aermacchi subsidiary.

Harley-Davidson sustains a loyal brand community which keeps active through clubs, events, and a museum. Licensing of the Harley-Davidson brand and logo accounted for $40 million (0.8%) of the company's net revenue in 2010.

History

BeginningIn 1901, William S. Harley, age 22, drew up plans for a small engine with a displacement of 7.07 cubic inches (116 cc) and four-inch (102 mm) flywheels. The engine was designed for use in a regular pedal-bicycle frame. Over the next two years, Harley and his childhood friend Arthur Davidson labored on their motor-bicycle using the northside Milwaukee machine shop at the home of their friend, Henry Melk. It was finished in 1903 with the help of Arthur's brother, Walter Davidson. Upon completion, the boys found their power-cycle unable to conquer Milwaukee's modest hills without pedal assistance. Will Harley and the Davidsons quickly wrote off their first motor-bicycle as a valuable learning experiment.

Work immediately began on a new and improved second-generation machine. This first "real" Harley-Davidson motorcycle had a bigger engine of 24.74 cubic inches (405 cc) with 9.75 inches (25 cm) flywheels weighing 28 lb (13 kg). The machine's advanced loop-frame pattern was similar to the 1903 Milwaukee Merkel motorcycle (designed by Joseph Merkel, later of Flying Merkel fame). The bigger engine and loop-frame design took it out of the motorized-bicycle category and would help define what a modern motorcycle should contain in the years to come. The boys also received help with their bigger engine from outboard motor pioneer Ole Evinrude, who was then building gas engines of his own design for automotive use on Milwaukee's Lake Street.

Prototype

The prototype of the new loop-frame Harley-Davidson was assembled in a 10 × 15 ft (3.0 × 4.6 m) shed in the Davidson family backyard. Most of the major parts, however, were made elsewhere, including some probably fabricated at the West Milwaukee rail shops where oldest brother William A. Davidson was then tool room foreman. This prototype machine was functional by September 8, 1904, when it competed in a Milwaukee motorcycle race held at State Fair Park. It was ridden by Edward Hildebrand and placed fourth. This is the first documented appearance of a Harley-Davidson motorcycle in the historical record.

In January 1905, small advertisements were placed in the "Automobile and Cycle Trade Journal" that offered bare Harley-Davidson engines to the do-it-yourself trade. By April, complete motorcycles were in production on a very limited basis. That year, the first Harley-Davidson dealer, Carl H. Lang of Chicago, sold three bikes from the dozen or so built in the Davidson backyard shed. (Some years later the original shed was taken to the Juneau Avenue factory where it would stand for many decades as a tribute to the Motor Company's humble origins. Unfortunately, the first shed was accidentally destroyed by contractors in the early 1970s during a clean-up of the factory yard.)

In 1906, Harley and the Davidson brothers built their first factory on Chestnut Street (later Juneau Avenue). This location remains Harley-Davidson's corporate headquarters today. The first Juneau Avenue plant was a 40 × 60 ft (12 × 18 m) single-story wooden structure. The company produced about 50 motorcycles that year.

1907 model.

Harley-Davidson 1,000 cc HT 1916In 1907, William S. Harley graduated from the University of Wisconsin–Madison with a degree in mechanical engineering. That year additional factory expansion came with a second floor and later with facings and additions of Milwaukee pale yellow ("cream") brick. With the new facilities production increased to 150 motorcycles in 1907. The company was officially incorporated that September. They also began selling their motorcycles to police departments around this time, a market that has been important to them ever since.

Production in 1905 and 1906 were all single-cylinder models with 26.84 cubic inches (440 cc) engines. In February 1907 a prototype model with a 45-degree V-Twin engine was displayed at the Chicago Automobile Show. Although shown and advertised, very few V-Twin models were built between 1907 and 1910. These first V-Twins displaced 53.68 cubic inches (880 cc) and produced about 7 horsepower (5.2 kW). This gave about double the power of the first singles. Top speed was about 60 mph (100 km/h). Production jumped from 450 motorcycles in 1908 to 1,149 machines in 1909.

Harley-Davidson works in 1911By 1911, some 150 makes of motorcycles had already been built in the United States – although just a handful would survive the 1910s.

In 1911, an improved V-Twin model was introduced. The new engine had mechanically operated intake valves, as opposed to the "automatic" intake valves used on earlier V-Twins that opened by engine vacuum. With a displacement of 49.48 cubic inches (811 cc), the 1911 V-Twin was smaller than earlier twins, but gave better performance. After 1913 the majority of bikes produced by Harley-Davidson would be V-Twin models.

By 1913, the yellow brick factory had been demolished and on the site a new 5-story structure of reinforced concrete and red brick had been built. Begun in 1910, the red brick factory with its many additions would take up two blocks along Juneau Avenue and around the corner on 38th Street. Despite the competition, Harley-Davidson was already pulling ahead of Indian and would dominate motorcycle racing after 1914. Production that year swelled to 16,284 machines.

World War IIn 1917, the United States entered World War I and the military demanded motorcycles for the war effort. Harleys had already been used by the military in the Pancho Villa Expedition but World War I was the first time the motorcycle had been adopted for combat service.[citation needed] Harley-Davidson provided about 15,000 machines to the military forces during World War I.

1920s

Harley-Davidson 1000 cc HT 1923By 1920, Harley-Davidson was the largest motorcycle manufacturer in the world. Their motorcycles were sold by dealers in 67 countries. Production was 28,189 machines.

In 1921, a Harley-Davidson, ridden by Otto Walker, was the first motorcycle ever to win a race at an average speed of over 100 mph (160 km/h).

During the 1920s, several improvements were put in place, such as a new 74 cubic inch (1,200 cc) V-Twin, introduced in 1922, and the "Teardrop" gas tank in 1925. A front brake was added in 1928 although notably only on the J/JD models.

In the late summer of 1929, Harley-Davidson introduced its 45 cubic inches (737 cc) flathead V-Twin to compete with the Indian 101 Scout and the Excelsior Super X.[19] This was the "D" model, produced from 1929 to 1931.[20] Riders of Indian motorcycles derisively referred to this model as the "three cylinder Harley" because the generator was upright and parallel to the front cylinder. The 2.745 in (69.7 mm) bore and 3.8125 in (96.8 mm) stroke would continue in most versions of the 750 engine; exceptions include the XA and the XR-750.

FBI Stolen motorcycles

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Motorcycles VIN Decoder

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Entry in category 1. Object of study; Copyright CC-BY-NC-ND: Giacomo Valle

These pictures depict the fascinating and accomplished research of neuroprosthetics connecting the human nervous system with bionic limbs. Striving to close the gap between humans and machines, this neuroscientific research combines the knowledge of neuroscience and medicine, as well as engineering and artificial intelligence, with the fundamentals of psychology. It works to create prosthetic limbs that use the body’s complex senses and nervous system to restore sensory-motor functions lost after an injury or a disease.

The pictures report the neurosurgical procedure to connect a bionic leg prosthesis with the peripheral nervous system of a lower-limb amputee. The human tibial nerve is implanted with neural electrodes able to communicate with the brain via the electrical stimulation of the nerves. In this way, it is possible to artificially restore the sense of touch after an amputation enabling to feel sensations from the prosthetic device. The man and machine are finally connected.

United States Marine Corp Eagle, Globe & Anchor Harley Davidson windshield from SteelHorseShades.Com

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We offer all stock windshields for any make & model Harley Davidson.

We offer a full line of colors, laser & CNC engraving for individuals, clubs and organizations. We will beat anyone’s quality & price!

Harley-Davidson Inc (NYSE: HOG, formerly HDI), often abbreviated H-D or Harley, is an American motorcycle manufacturer. Founded in Milwaukee, Wisconsin, during the first decade of the 20th century, it was one of two major American motorcycle manufacturers to survive the Great Depression. Harley-Davidson also survived a period of poor quality control and competition from Japanese manufacturers.

The company sells heavyweight (over 750 cc) motorcycles designed for cruising on highways. Harley-Davidson motorcycles (popularly known as "Harleys") have a distinctive design and exhaust note. They are especially noted for the tradition of heavy customization that gave rise to the chopper style of motorcycle. Except for the modern VRSC model family, current Harley-Davidson motorcycles reflect the styles of classic Harley designs. Harley-Davidson's attempts to establish itself in the light motorcycle market have met with limited success and have largely been abandoned since the 1978 sale of its Italian Aermacchi subsidiary.

Harley-Davidson sustains a loyal brand community which keeps active through clubs, events, and a museum. Licensing of the Harley-Davidson brand and logo accounted for $40 million (0.8%) of the company's net revenue in 2010.

History

BeginningIn 1901, William S. Harley, age 22, drew up plans for a small engine with a displacement of 7.07 cubic inches (116 cc) and four-inch (102 mm) flywheels. The engine was designed for use in a regular pedal-bicycle frame. Over the next two years, Harley and his childhood friend Arthur Davidson labored on their motor-bicycle using the northside Milwaukee machine shop at the home of their friend, Henry Melk. It was finished in 1903 with the help of Arthur's brother, Walter Davidson. Upon completion, the boys found their power-cycle unable to conquer Milwaukee's modest hills without pedal assistance. Will Harley and the Davidsons quickly wrote off their first motor-bicycle as a valuable learning experiment.

Work immediately began on a new and improved second-generation machine. This first "real" Harley-Davidson motorcycle had a bigger engine of 24.74 cubic inches (405 cc) with 9.75 inches (25 cm) flywheels weighing 28 lb (13 kg). The machine's advanced loop-frame pattern was similar to the 1903 Milwaukee Merkel motorcycle (designed by Joseph Merkel, later of Flying Merkel fame). The bigger engine and loop-frame design took it out of the motorized-bicycle category and would help define what a modern motorcycle should contain in the years to come. The boys also received help with their bigger engine from outboard motor pioneer Ole Evinrude, who was then building gas engines of his own design for automotive use on Milwaukee's Lake Street.

Prototype

The prototype of the new loop-frame Harley-Davidson was assembled in a 10 × 15 ft (3.0 × 4.6 m) shed in the Davidson family backyard. Most of the major parts, however, were made elsewhere, including some probably fabricated at the West Milwaukee rail shops where oldest brother William A. Davidson was then tool room foreman. This prototype machine was functional by September 8, 1904, when it competed in a Milwaukee motorcycle race held at State Fair Park. It was ridden by Edward Hildebrand and placed fourth. This is the first documented appearance of a Harley-Davidson motorcycle in the historical record.

In January 1905, small advertisements were placed in the "Automobile and Cycle Trade Journal" that offered bare Harley-Davidson engines to the do-it-yourself trade. By April, complete motorcycles were in production on a very limited basis. That year, the first Harley-Davidson dealer, Carl H. Lang of Chicago, sold three bikes from the dozen or so built in the Davidson backyard shed. (Some years later the original shed was taken to the Juneau Avenue factory where it would stand for many decades as a tribute to the Motor Company's humble origins. Unfortunately, the first shed was accidentally destroyed by contractors in the early 1970s during a clean-up of the factory yard.)

In 1906, Harley and the Davidson brothers built their first factory on Chestnut Street (later Juneau Avenue). This location remains Harley-Davidson's corporate headquarters today. The first Juneau Avenue plant was a 40 × 60 ft (12 × 18 m) single-story wooden structure. The company produced about 50 motorcycles that year.

1907 model.

Harley-Davidson 1,000 cc HT 1916In 1907, William S. Harley graduated from the University of Wisconsin–Madison with a degree in mechanical engineering. That year additional factory expansion came with a second floor and later with facings and additions of Milwaukee pale yellow ("cream") brick. With the new facilities production increased to 150 motorcycles in 1907. The company was officially incorporated that September. They also began selling their motorcycles to police departments around this time, a market that has been important to them ever since.

Production in 1905 and 1906 were all single-cylinder models with 26.84 cubic inches (440 cc) engines. In February 1907 a prototype model with a 45-degree V-Twin engine was displayed at the Chicago Automobile Show. Although shown and advertised, very few V-Twin models were built between 1907 and 1910. These first V-Twins displaced 53.68 cubic inches (880 cc) and produced about 7 horsepower (5.2 kW). This gave about double the power of the first singles. Top speed was about 60 mph (100 km/h). Production jumped from 450 motorcycles in 1908 to 1,149 machines in 1909.

Harley-Davidson works in 1911By 1911, some 150 makes of motorcycles had already been built in the United States – although just a handful would survive the 1910s.

In 1911, an improved V-Twin model was introduced. The new engine had mechanically operated intake valves, as opposed to the "automatic" intake valves used on earlier V-Twins that opened by engine vacuum. With a displacement of 49.48 cubic inches (811 cc), the 1911 V-Twin was smaller than earlier twins, but gave better performance. After 1913 the majority of bikes produced by Harley-Davidson would be V-Twin models.

By 1913, the yellow brick factory had been demolished and on the site a new 5-story structure of reinforced concrete and red brick had been built. Begun in 1910, the red brick factory with its many additions would take up two blocks along Juneau Avenue and around the corner on 38th Street. Despite the competition, Harley-Davidson was already pulling ahead of Indian and would dominate motorcycle racing after 1914. Production that year swelled to 16,284 machines.

World War IIn 1917, the United States entered World War I and the military demanded motorcycles for the war effort. Harleys had already been used by the military in the Pancho Villa Expedition but World War I was the first time the motorcycle had been adopted for combat service.[citation needed] Harley-Davidson provided about 15,000 machines to the military forces during World War I.

1920s

Harley-Davidson 1000 cc HT 1923By 1920, Harley-Davidson was the largest motorcycle manufacturer in the world. Their motorcycles were sold by dealers in 67 countries. Production was 28,189 machines.

In 1921, a Harley-Davidson, ridden by Otto Walker, was the first motorcycle ever to win a race at an average speed of over 100 mph (160 km/h).

During the 1920s, several improvements were put in place, such as a new 74 cubic inch (1,200 cc) V-Twin, introduced in 1922, and the "Teardrop" gas tank in 1925. A front brake was added in 1928 although notably only on the J/JD models.

In the late summer of 1929, Harley-Davidson introduced its 45 cubic inches (737 cc) flathead V-Twin to compete with the Indian 101 Scout and the Excelsior Super X.[19] This was the "D" model, produced from 1929 to 1931.[20] Riders of Indian motorcycles derisively referred to this model as the "three cylinder Harley" because the generator was upright and parallel to the front cylinder. The 2.745 in (69.7 mm) bore and 3.8125 in (96.8 mm) stroke would continue in most versions of the 750 engine; exceptions include the XA and the XR-750.

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United States Marine Corp Eagle, Globe, and Anchor

The Eagle, Globe, and Anchor is the official emblem and insignia of the United States Marine Corps. The current emblem traces its roots in the designs and ornaments of the early Continental Marines as well as the British Royal Marines. The present emblem, adopted in 1966, differs from the emblem of 1868 only by a change in the eagle. Before that time many devices, ornaments, and distinguishing marks followed one another as official badges of the Corps.

History

Early insignia, seen today on modern uniform buttons

American Civil War era insignia In 1776, the device consisted of a fouled anchor (tangled in its rope) of silver or pewter. Changes were made in 1798, 1821, and 1824. In 1834, it was prescribed that a brass eagle be worn on the hat, the eagle to measure 3.5 inches (89 mm) from wingtip to wingtip. An eagle clutching a fouled anchor with thirteen six-pointed stars above was used on uniform buttons starting in 1804. This same insignia is used today on the buttons of Marine dress and service uniforms, with the six-pointed stars changed to five-pointed stars.

During the early years numerous distinguishing marks were prescribed, including "black cockades", "scarlet plumes", and "yellow bands and tassels". In 1859, the first version of the present color scheme for the officer's dress uniform insignia appeared on an elaborate device of solid white metal and yellow metal. The design included a United States shield, half wreath, a bugle, and the letter "M."

In 1868, the Commandant, Brigadier General Jacob Zeilin, appointed a board "to decide and report upon the various devices of cap ornaments of the Marine Corps." On November 13, 1868, the board recommended the modern insignia. It was approved by the Commandant four days later, and by the Secretary of the Navy on November 19, 1868.

Design and symbolism

Eagle, Globe, and Anchor for the dress uniform: officer (left) & enlisted (right)

The emblem recommended by the 1868 board consisted of a globe (showing the continents of the Western Hemisphere) intersected by a fouled anchor, and surmounted by a spread eagle. On the emblem itself, there is a ribbon, clasped in the eagle's beak, bearing the Latin motto "Semper Fidelis" (Always Faithful). The uniform ornaments omit the motto ribbon.

The general design of the emblem was probably derived from the Royal Marines' "Globe and Laurel." The globe on the U.S. Marine emblem signifies continuing historical service in any part of the world. The eagle represents the United States. The anchor, which dates back to the founding of the Corps in 1775, acknowledges the naval tradition of the Marines and their continual service under the command of the Department of the Navy.

There are some differences between the uniform ornaments for enlisted Marines and officers. The enlisted Marines ornament is a single piece of gold-colored metal. The Officers ornament is slightly larger, and is of silver with gold additions: The Globe and Eagle are silver; the continents on the globe are gold; the anchor is gold; the rope fouling the anchor is silver. Also, the anchor is of slightly different design, the rope is of a different type and is coiled differently, and the eagle's stance is different. Finally, the island of Cuba is represented in the stylized map of the Americas on the enlisted ornament Globe, but not on the Officers ornament. This has no political significance: on the Officers ornament, the continents are represented by gold metal appliqué, and Cuba would be a very small separate bit of metal that could easily fall off.

The globe signifies USMC service around the world. The Eagle represents America and the Anchor represents the naval traditions of the Corps, which date back to its founding in 1775 and its continued service under the Department of the Navy. It is also said that the emblem represents the three areas the Marines serve “On Land, In Air and Sea”.

Current emblem and seal

United States Marine Corps seal In 1954, the Commandant, General Lemuel C. Shepherd, Jr., requested the design of an official seal for the Corps.

The new seal included the traditional Eagle, Globe, and Anchor emblem in gold, with the Globe and anchor rope in silver. The eagle is depicted with wings displayed, standing upon the western hemisphere of the terrestrial globe, and holding in his beak a white ribbon bearing the Marine Corps motto "Semper Fidelis" (Always Faithful) with the hemisphere superimposed on a fouled anchor. An American Bald Eagle replaced the crested eagle depicted on the 1868 emblem.

The emblem is displayed on a scarlet background encircled with a Navy blue band bearing the phrases "Department of the Navy" above and "United States Marine Corps" below in white letters, the whole edged in a gold rope rim.

President Eisenhower approved the design on June 22, 1954. The emblem as shown on the seal was adopted in 1955 as the official Marine Corps emblem.

Haas Automation uses its own machines extensively to produce parts to build more Haas machines. In fact, nearly 75% of the metalcutting machines in the Haas machine shop –­ more than 200 –­ are Haas machines. This row of 9 EC-400PP Pallet Pool HMCs is busy pumping out servomotor mounts, ballscrew nut housings, and other precision components for the extensive Haas product line.

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Harley-Davidson Inc (NYSE: HOG, formerly HDI), often abbreviated H-D or Harley, is an American motorcycle manufacturer. Founded in Milwaukee, Wisconsin, during the first decade of the 20th century, it was one of two major American motorcycle manufacturers to survive the Great Depression. Harley-Davidson also survived a period of poor quality control and competition from Japanese manufacturers.

The company sells heavyweight (over 750 cc) motorcycles designed for cruising on highways. Harley-Davidson motorcycles (popularly known as "Harleys") have a distinctive design and exhaust note. They are especially noted for the tradition of heavy customization that gave rise to the chopper style of motorcycle. Except for the modern VRSC model family, current Harley-Davidson motorcycles reflect the styles of classic Harley designs. Harley-Davidson's attempts to establish itself in the light motorcycle market have met with limited success and have largely been abandoned since the 1978 sale of its Italian Aermacchi subsidiary.

Harley-Davidson sustains a loyal brand community which keeps active through clubs, events, and a museum. Licensing of the Harley-Davidson brand and logo accounted for $40 million (0.8%) of the company's net revenue in 2010.

History

BeginningIn 1901, William S. Harley, age 22, drew up plans for a small engine with a displacement of 7.07 cubic inches (116 cc) and four-inch (102 mm) flywheels. The engine was designed for use in a regular pedal-bicycle frame. Over the next two years, Harley and his childhood friend Arthur Davidson labored on their motor-bicycle using the northside Milwaukee machine shop at the home of their friend, Henry Melk. It was finished in 1903 with the help of Arthur's brother, Walter Davidson. Upon completion, the boys found their power-cycle unable to conquer Milwaukee's modest hills without pedal assistance. Will Harley and the Davidsons quickly wrote off their first motor-bicycle as a valuable learning experiment.

Work immediately began on a new and improved second-generation machine. This first "real" Harley-Davidson motorcycle had a bigger engine of 24.74 cubic inches (405 cc) with 9.75 inches (25 cm) flywheels weighing 28 lb (13 kg). The machine's advanced loop-frame pattern was similar to the 1903 Milwaukee Merkel motorcycle (designed by Joseph Merkel, later of Flying Merkel fame). The bigger engine and loop-frame design took it out of the motorized-bicycle category and would help define what a modern motorcycle should contain in the years to come. The boys also received help with their bigger engine from outboard motor pioneer Ole Evinrude, who was then building gas engines of his own design for automotive use on Milwaukee's Lake Street.

Prototype

The prototype of the new loop-frame Harley-Davidson was assembled in a 10 × 15 ft (3.0 × 4.6 m) shed in the Davidson family backyard. Most of the major parts, however, were made elsewhere, including some probably fabricated at the West Milwaukee rail shops where oldest brother William A. Davidson was then tool room foreman. This prototype machine was functional by September 8, 1904, when it competed in a Milwaukee motorcycle race held at State Fair Park. It was ridden by Edward Hildebrand and placed fourth. This is the first documented appearance of a Harley-Davidson motorcycle in the historical record.

In January 1905, small advertisements were placed in the "Automobile and Cycle Trade Journal" that offered bare Harley-Davidson engines to the do-it-yourself trade. By April, complete motorcycles were in production on a very limited basis. That year, the first Harley-Davidson dealer, Carl H. Lang of Chicago, sold three bikes from the dozen or so built in the Davidson backyard shed. (Some years later the original shed was taken to the Juneau Avenue factory where it would stand for many decades as a tribute to the Motor Company's humble origins. Unfortunately, the first shed was accidentally destroyed by contractors in the early 1970s during a clean-up of the factory yard.)

In 1906, Harley and the Davidson brothers built their first factory on Chestnut Street (later Juneau Avenue). This location remains Harley-Davidson's corporate headquarters today. The first Juneau Avenue plant was a 40 × 60 ft (12 × 18 m) single-story wooden structure. The company produced about 50 motorcycles that year.

1907 model.

Harley-Davidson 1,000 cc HT 1916In 1907, William S. Harley graduated from the University of Wisconsin–Madison with a degree in mechanical engineering. That year additional factory expansion came with a second floor and later with facings and additions of Milwaukee pale yellow ("cream") brick. With the new facilities production increased to 150 motorcycles in 1907. The company was officially incorporated that September. They also began selling their motorcycles to police departments around this time, a market that has been important to them ever since.

Production in 1905 and 1906 were all single-cylinder models with 26.84 cubic inches (440 cc) engines. In February 1907 a prototype model with a 45-degree V-Twin engine was displayed at the Chicago Automobile Show. Although shown and advertised, very few V-Twin models were built between 1907 and 1910. These first V-Twins displaced 53.68 cubic inches (880 cc) and produced about 7 horsepower (5.2 kW). This gave about double the power of the first singles. Top speed was about 60 mph (100 km/h). Production jumped from 450 motorcycles in 1908 to 1,149 machines in 1909.

Harley-Davidson works in 1911By 1911, some 150 makes of motorcycles had already been built in the United States – although just a handful would survive the 1910s.

In 1911, an improved V-Twin model was introduced. The new engine had mechanically operated intake valves, as opposed to the "automatic" intake valves used on earlier V-Twins that opened by engine vacuum. With a displacement of 49.48 cubic inches (811 cc), the 1911 V-Twin was smaller than earlier twins, but gave better performance. After 1913 the majority of bikes produced by Harley-Davidson would be V-Twin models.

By 1913, the yellow brick factory had been demolished and on the site a new 5-story structure of reinforced concrete and red brick had been built. Begun in 1910, the red brick factory with its many additions would take up two blocks along Juneau Avenue and around the corner on 38th Street. Despite the competition, Harley-Davidson was already pulling ahead of Indian and would dominate motorcycle racing after 1914. Production that year swelled to 16,284 machines.

World War IIn 1917, the United States entered World War I and the military demanded motorcycles for the war effort. Harleys had already been used by the military in the Pancho Villa Expedition but World War I was the first time the motorcycle had been adopted for combat service.[citation needed] Harley-Davidson provided about 15,000 machines to the military forces during World War I.

1920s

Harley-Davidson 1000 cc HT 1923By 1920, Harley-Davidson was the largest motorcycle manufacturer in the world. Their motorcycles were sold by dealers in 67 countries. Production was 28,189 machines.

In 1921, a Harley-Davidson, ridden by Otto Walker, was the first motorcycle ever to win a race at an average speed of over 100 mph (160 km/h).

During the 1920s, several improvements were put in place, such as a new 74 cubic inch (1,200 cc) V-Twin, introduced in 1922, and the "Teardrop" gas tank in 1925. A front brake was added in 1928 although notably only on the J/JD models.

In the late summer of 1929, Harley-Davidson introduced its 45 cubic inches (737 cc) flathead V-Twin to compete with the Indian 101 Scout and the Excelsior Super X.[19] This was the "D" model, produced from 1929 to 1931.[20] Riders of Indian motorcycles derisively referred to this model as the "three cylinder Harley" because the generator was upright and parallel to the front cylinder. The 2.745 in (69.7 mm) bore and 3.8125 in (96.8 mm) stroke would continue in most versions of the 750 engine; exceptions include the XA and the XR-750.

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We offer a full line of colors, laser & CNC engraving for individuals, clubs and organizations. We will beat anyone’s quality & price!

Harley-Davidson Inc (NYSE: HOG, formerly HDI), often abbreviated H-D or Harley, is an American motorcycle manufacturer. Founded in Milwaukee, Wisconsin, during the first decade of the 20th century, it was one of two major American motorcycle manufacturers to survive the Great Depression. Harley-Davidson also survived a period of poor quality control and competition from Japanese manufacturers.

The company sells heavyweight (over 750 cc) motorcycles designed for cruising on highways. Harley-Davidson motorcycles (popularly known as "Harleys") have a distinctive design and exhaust note. They are especially noted for the tradition of heavy customization that gave rise to the chopper style of motorcycle. Except for the modern VRSC model family, current Harley-Davidson motorcycles reflect the styles of classic Harley designs. Harley-Davidson's attempts to establish itself in the light motorcycle market have met with limited success and have largely been abandoned since the 1978 sale of its Italian Aermacchi subsidiary.

Harley-Davidson sustains a loyal brand community which keeps active through clubs, events, and a museum. Licensing of the Harley-Davidson brand and logo accounted for $40 million (0.8%) of the company's net revenue in 2010.

History

BeginningIn 1901, William S. Harley, age 22, drew up plans for a small engine with a displacement of 7.07 cubic inches (116 cc) and four-inch (102 mm) flywheels. The engine was designed for use in a regular pedal-bicycle frame. Over the next two years, Harley and his childhood friend Arthur Davidson labored on their motor-bicycle using the northside Milwaukee machine shop at the home of their friend, Henry Melk. It was finished in 1903 with the help of Arthur's brother, Walter Davidson. Upon completion, the boys found their power-cycle unable to conquer Milwaukee's modest hills without pedal assistance. Will Harley and the Davidsons quickly wrote off their first motor-bicycle as a valuable learning experiment.

Work immediately began on a new and improved second-generation machine. This first "real" Harley-Davidson motorcycle had a bigger engine of 24.74 cubic inches (405 cc) with 9.75 inches (25 cm) flywheels weighing 28 lb (13 kg). The machine's advanced loop-frame pattern was similar to the 1903 Milwaukee Merkel motorcycle (designed by Joseph Merkel, later of Flying Merkel fame). The bigger engine and loop-frame design took it out of the motorized-bicycle category and would help define what a modern motorcycle should contain in the years to come. The boys also received help with their bigger engine from outboard motor pioneer Ole Evinrude, who was then building gas engines of his own design for automotive use on Milwaukee's Lake Street.

Prototype

The prototype of the new loop-frame Harley-Davidson was assembled in a 10 × 15 ft (3.0 × 4.6 m) shed in the Davidson family backyard. Most of the major parts, however, were made elsewhere, including some probably fabricated at the West Milwaukee rail shops where oldest brother William A. Davidson was then tool room foreman. This prototype machine was functional by September 8, 1904, when it competed in a Milwaukee motorcycle race held at State Fair Park. It was ridden by Edward Hildebrand and placed fourth. This is the first documented appearance of a Harley-Davidson motorcycle in the historical record.

In January 1905, small advertisements were placed in the "Automobile and Cycle Trade Journal" that offered bare Harley-Davidson engines to the do-it-yourself trade. By April, complete motorcycles were in production on a very limited basis. That year, the first Harley-Davidson dealer, Carl H. Lang of Chicago, sold three bikes from the dozen or so built in the Davidson backyard shed. (Some years later the original shed was taken to the Juneau Avenue factory where it would stand for many decades as a tribute to the Motor Company's humble origins. Unfortunately, the first shed was accidentally destroyed by contractors in the early 1970s during a clean-up of the factory yard.)

In 1906, Harley and the Davidson brothers built their first factory on Chestnut Street (later Juneau Avenue). This location remains Harley-Davidson's corporate headquarters today. The first Juneau Avenue plant was a 40 × 60 ft (12 × 18 m) single-story wooden structure. The company produced about 50 motorcycles that year.

1907 model.

Harley-Davidson 1,000 cc HT 1916In 1907, William S. Harley graduated from the University of Wisconsin–Madison with a degree in mechanical engineering. That year additional factory expansion came with a second floor and later with facings and additions of Milwaukee pale yellow ("cream") brick. With the new facilities production increased to 150 motorcycles in 1907. The company was officially incorporated that September. They also began selling their motorcycles to police departments around this time, a market that has been important to them ever since.

Production in 1905 and 1906 were all single-cylinder models with 26.84 cubic inches (440 cc) engines. In February 1907 a prototype model with a 45-degree V-Twin engine was displayed at the Chicago Automobile Show. Although shown and advertised, very few V-Twin models were built between 1907 and 1910. These first V-Twins displaced 53.68 cubic inches (880 cc) and produced about 7 horsepower (5.2 kW). This gave about double the power of the first singles. Top speed was about 60 mph (100 km/h). Production jumped from 450 motorcycles in 1908 to 1,149 machines in 1909.

Harley-Davidson works in 1911By 1911, some 150 makes of motorcycles had already been built in the United States – although just a handful would survive the 1910s.

In 1911, an improved V-Twin model was introduced. The new engine had mechanically operated intake valves, as opposed to the "automatic" intake valves used on earlier V-Twins that opened by engine vacuum. With a displacement of 49.48 cubic inches (811 cc), the 1911 V-Twin was smaller than earlier twins, but gave better performance. After 1913 the majority of bikes produced by Harley-Davidson would be V-Twin models.

By 1913, the yellow brick factory had been demolished and on the site a new 5-story structure of reinforced concrete and red brick had been built. Begun in 1910, the red brick factory with its many additions would take up two blocks along Juneau Avenue and around the corner on 38th Street. Despite the competition, Harley-Davidson was already pulling ahead of Indian and would dominate motorcycle racing after 1914. Production that year swelled to 16,284 machines.

World War IIn 1917, the United States entered World War I and the military demanded motorcycles for the war effort. Harleys had already been used by the military in the Pancho Villa Expedition but World War I was the first time the motorcycle had been adopted for combat service.[citation needed] Harley-Davidson provided about 15,000 machines to the military forces during World War I.

1920s

Harley-Davidson 1000 cc HT 1923By 1920, Harley-Davidson was the largest motorcycle manufacturer in the world. Their motorcycles were sold by dealers in 67 countries. Production was 28,189 machines.

In 1921, a Harley-Davidson, ridden by Otto Walker, was the first motorcycle ever to win a race at an average speed of over 100 mph (160 km/h).

During the 1920s, several improvements were put in place, such as a new 74 cubic inch (1,200 cc) V-Twin, introduced in 1922, and the "Teardrop" gas tank in 1925. A front brake was added in 1928 although notably only on the J/JD models.

In the late summer of 1929, Harley-Davidson introduced its 45 cubic inches (737 cc) flathead V-Twin to compete with the Indian 101 Scout and the Excelsior Super X.[19] This was the "D" model, produced from 1929 to 1931.[20] Riders of Indian motorcycles derisively referred to this model as the "three cylinder Harley" because the generator was upright and parallel to the front cylinder. The 2.745 in (69.7 mm) bore and 3.8125 in (96.8 mm) stroke would continue in most versions of the 750 engine; exceptions include the XA and the XR-750.

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On the rear of the 199 diesel locomotive is in fact the snow plough/snow churning machine. This is kept at the top of the Brocken and works its way down during the morning, returning at night. German efficiency so that any drifts that may have formed overnight are cleared for the service trains working their way up.

I just can't enough of this car!Such an impressive machine!This time I caught it in panning,which is great since first time I tried to take shot of this I failed hard at panning.Revenge is sweet!

Thanks for watching.Comments,suggestions and faves are appreciated.

Thanks for watching.Comments,suggestions and faves are appreciated.

DO NOT USE OR SHARE THIS IMAGE WITHOUT MY PERMISSION!

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'Sewing Machines' - This sign has sadly just been destroyed. This photograph is featured in the new book 'Warszawa Polski Neon' by Ilona Karwinska. Published by Gazeta Wyborcza. Out Now!

+++ DISCLAIMER +++

Nothing you see here is real, even though the model, the conversion or the presented background story might be based historical facts. BEWARE!

Some background:

The Dornier Do 319 was directly inspired by the (modest) successes experienced by the Messerschmitt Me 262 fighter, the world's first operational jet-powered fighter aircraft. Design work started before World War II began, but problems with engines, metallurgy and top-level interference kept the aircraft from operational status with the Luftwaffe until mid-1944.

Production numbers remained low, though, reaching roundabout 20 aircraft (even this number is uncertain) until the end of the war, and no Do 319 survived the hostilities.

General characteristics:

Crew: 1 pilot plus up to 2 passengers

Length: 10.80 m (35 ft 4 1/2 in)

Wingspan: 12.60 m (41 ft 6 in)

Height: 3.78 m (12 ft 4 1/2 in)

Wing area: 26.8 m² (288 ft²)

Aspect ratio: 7.32

Empty weight: 4,120 kg (9,075 lb)

Loaded weight: 6,830 kg (15,044 lb)

Max. take-off weight: 7,385 kg (16,266 lb)

Powerplant:

2× Junkers Jumo 004 B-1 turbojets, 8.8 kN (1,980 lbf) each

Performance:

Maximum speed: 820 km/h (510 mph)

Range: 1,200 km (652 mi)

2,100 km (1,300 mi) with extra internal fuel cells

Service ceiling: 10,850 m (35,538 ft)

Rate of climb: 1,000 m/min (At max weight of 7,130 kg) (3,275 ft/min)

Armament:

Provisions for 4× 30 mm MK 108 cannon in the nose, but rarely mounted

The kit and its assembly:

Another entry for the “Flying Boat, Seaplane and Amphibian” Group Build at whatifmodelers.com in late 2017, and the result of a spontaneous inspiration from a drawing of a Luft’46/fantasy creation of a Me 262 fuselage with a planning bottom, a parasol(!) wing and a single jet engine exhausting right above the cockpit, and no (visible) stabilizing floats at all. Rather spurious.

Well, nevertheless, the Me 262 jet fighter has a very shark-like profile and shape, and it has already been converted into flying boats or even submarines by modelers, and I decided to create my personal interpretation of the theme. I remembered a lone He 115 float in my stash (maybe 35 years old or even more!), and when I held to a Me 262 fuselage the parts had almost the same length and width. So, creating a flying boat jet fighter seemed like a realistic task.

Things started straightforward with an 1:72 Smer Me 262 fighter, which is actually the vintage Heller two-seater night fighter with a new fuselage and canopy. My kit of choice would have been the Matchbox kit, but the Heller kit is also O.K., due to its simplicity and simple construction.

Creating something amphibian from a Me 262 is not a trivial task, though. With its low wings and underslung engine nacelles there’s a lot to be changed until you get a plausible floatplane. Another challenge is to integrate some form of stabilizer/outrigger floats, what also influences the wings’ position. Placing the engines where they are safe from spray ingestion is also a serious matter – you have to get the high and the intakes as far forward as possible.

Doing some legwork I found some similar builds, and they all did not convince me. And, after all, I wanted to create my own “design”; in order to incorporate some realism I eventually settled on Dornier’s typical WWII designs like the Do 18 and Do 24. These elegant aircraft had a common, elegant trait: low stub wings as stabilizer floats, paired with high wings (in the case of the Do 18 held by a massive central pylon) which carried the engine out of the water’s reach. This appeared like a feasible layout for my conversion, even though it would mean a total re-construction of the kit, or rather assembling it in a way that almost no part was glued into the intended place!

Work started with the cockpit, which had to be moved forward in order to make room for the wings behind the canopy, placed high on a pylon above the fuselage. For this stunt, the cockpit opening and the place in front of it (where the original front fuselage tank would be) were cut out and switched. The cockpit tub was moved forward and trimmed in order to fit into the new place. The nose section was filled with lead, because the stub wings/floats would allow a retractable landing gear to be added, too, making the aircraft a true amphibian!

The He 115 float was cut down in order to fit under the OOB Me 262 fuselage, and a front wheel well was integrated for a tricycle landing gear. Once the fuselage was closed, the planning bottom was added and the flanks sculpted with putty – lots of it.

In the meantime the Me 262 wing received a thorough re-arrangement, too. Not only were the engine nacelles moved to the upper wing surface (cutting the respective wing and intake sections of the nacelles off/out and turning them around 180°), the original connecting ventral wing part with the landing gear wells were turned upside down, too, the landing gear covers closed (with the respective OOB parts) and the inner wing sections modified into a gull wing, raising the engines even further. VERY complex task, and blending/re-shaping everything took a lot of PSR, too.

Under the central wing section I added a pylon left over from a Smer Curtiss SC Seahawk kit, because a massive Do 18-esque construction was out of question for a fast jet aircraft. The gaps were filled with putty, too.

In order to keep the stabilizers free from water spray they were moved upwards on the fin, too. The original attachment points were sanded away and hidden under putty, and the OOB stabilizers placed almost at the top at the fin.

Finding suitable stub wings/floats became a challenge: they have to be relatively thick (yielding buoyancy and also offering room for the retractable landing gear), but also short with not-so-rounded tips. It took a while until I found suitable donor parts in the form of the tips of an 1:32 AH-64 Apache (!) stabilizer! They were simply cut off, and openings for the main landing gear cut into their lower sides.

Once glued to the lower flanks and the stabilizers in place it was time to place the wing. In the meantime the moved cockpit had been blended to the fuselage, and initial tests indicated that the pylon would have to be placed right behind the canopy – actually on top of the end of the clear part. As a consequence the canopy was cut into pieces and its rear section integrated into the fuselage (more PSR).

However, the relatively thin and slender central pylon from the Curtiss SC indicated that some more struts would be necessary in order to ensure stability – very retro, and not really suited for a jet-powered aircraft. And the more I looked at the layout, the more I became convinced that the wings and engines were in a plausible position, but placed too high.

What started next were several sessions in which I shortened the pylon step by step, until I was satisfied with the overall proportions. This went so far that almost everything of the pylon had gone, and the wings almost rested directly on the Me 262’s spine!

However, this new layout offered the benefit of rendering the extra struts obsolete, since I decided to fill the small gap between wing and fuselage into a single, massive fairing. This would also mean more internal space, and consequently the original idea of a jet-powered combat aircraft was modified into a fast multi-purpose amphibian vehicle for special tasks, capable of transporting personnel behind enemy lines with a quick move.

More PSR, though, and after some finishing touches like a scratched landing gear (front leg/wheel from an Italeri Bae Hawk, main struts from a Mistercraft PZL Iskra trainer, wheels from an Academy OV-10 Bronco and with improvised covers), several antennae and mooring lugs made from wire, the aircraft was ready for painting. On the downside, though, almost any surface detail had been lost due to the massive, overall body sculpting – but the application of the light zigzag pattern helped to recreate some “illusionary” details like flaps or panel lines. ;-)

Painting and markings:

Originally, when the Seeschwalbe was still conceived as a fighter, the model was to receive a daylight scheme in typical German naval aircraft colors (RLM 72/73/65). But this plan changed when the aircraft’s role became a ‘special purpose’ transporter for covert operations.

Nocturnal operations appeared plausible, so that the scheme became much more murky: from above, a splinter scheme with RLM 73 and RLM 74 (naval dark green and dark, greenish grey, both from the ModelMaster Authentic enamel paint range) was applied as a basis, and the undersides became black – as if standard daylight colors had been overpainted, a frequent practice.

Since this black paint was made from soot, it easily wore away and many Luftwaffe machines with improvised black undersides quickly gained a rather shaggy look. I wanted to re-create this look, and built up the lower paint accordingly: In an initial step, RLM76 (I used Humbrol 87, which is a tad darker than the RLM tone, for less contrast with the black) was painted on the lower wing surfaces, the fuselage with a medium waterline and the fin. Once dry, the national marking decals were added. Then a coat of thinned Revell Acrylics 6 Tar Black was applied on top of the lower surfaces, including the lower decals, and later wet-sanded in order to reveal some of the grey underneath for a worn look.

In order to break up the aircraft’s outlines, esp. at low altitude, a disruptive meander pattern in light grey (RLM 76) was painted on top of the upper surfaces. For this task, I thinned Humbrol’s 247 enamel and used a simple brush, painting the curls free-handedly. The finish looks pretty convincing, and it mimics well the technique with which those improvised patterns were applied in the field in real life: quickly, with anything at hand. The way the finish turned out, the pattern could have been applied with a broad brush – the use of a spray gun was rather uncommon, and IMHO the use of an airbrush on a model to recreate such a zigzag pattern rarely leads to convincing results?

This pattern was painted tightly around all the upper markings, and the markings themselves were kept at a minimum. For instance, the tactical code only comprises the aircraft’s individual letter “Blue O” behind the fuselage cross, which indicates an air staff machine. This would, following the official German squadron code system, be confirmed by an “A”, following as a fourth digit. The squadron’s code (“P7”, which is fictional, just like the aircraft’s sea reconnaissance squadron itself) was omitted, too. Such minimal markings became a frequent practice towards the final war stages, though, and it fits the aircraft’s special duty role well. The only individual marking is a squadron badge under the cockpit – lent from an Italian night fighter and placed on a dark blue disc. Another, subtle indicator for the aircraft’s operator are the blue air intake center bodies, repeating the staff flight’s blue color code.

Only some light weathering was done, with dry-brushed light grey on the leading edges, and finally the kit was sealed with matt acrylic varnish (Italeri). In a final step, some very light dry-brushing with aluminum was done on some of the fuselage edges, esp. the spray dams, and the position lights were painted with translucent paint over a silver base.

A messy project, in many ways, but I am happy with result. Most stunning is IMHO the fact that all major parts for this compact flying boat actually come from a single, simple Me 262 kit – but visually there’s not much of the left from the jet fighter. But it’s also amazing that the proportions look right, and the whole thing quite plausible and Dornier-esque! Turned out better than expected.

Dearest Maddy,

Oh, this has been a month. Your 21st month was a rough ride for all of us, sweetie! Your sleep fell apart and we're still working on getting it back together. And you're really figuring out who you are as an individual, and that's tough! You're doing SO much boundary-testing right now, and you're so fierce and determined and strong that it's really hard to enforce those boundaries, since the only way we can really do it right now is to pick you up and physically remove you from whatever it is you're doing. And of course, independence is both exhilarating and scary, so you alternate your boundary-testing with extreme clinginess. Mama's carried you so much this month! And you're such a big girl - nearly 30 pounds and a good 35" (or more) tall. The carrying, it's exhausting. And you're just so very demanding - you know what you want, and you will yell and scream and climb us incessantly until you get it. Your determination will serve you well in life, my love, and we hope to help you learn to stick up for yourself while respecting those around you.

You're learning. It's rough, and we REALLY need to work on treating other people's bodies with respect (you hit and kick mama a LOT). But you're learning. It is amazing to watch you learn. Every day you amaze us with something you know that we didn't realize you knew. You're just putting it all together. You're even putting words together now. You say "I sorry" when you hurt mama. You say "I touch" when you want to touch something. You say "more book" when you want us to keep reading. You say "up please" (well, it's really more like "up peas") when you want to be picked up. We're entering 2 word stage for real now! Your teachers say you talk all the time at school now. You're a nonstop labeling machine!

This month you got really good at taking off all of your clothes (and your diaper), so you've been running around naked a lot! If only we could get you to remember what the potty is for :) You're also getting much better at putting your clothes ON, especially your shoes. You can do those all by yourself now! You also have started naming some of your clothing items, so now you can (sometimes) tell mama which shirt you want to wear and things like that, which is pretty darn awesome.

You're REALLY into longer books right now. You've named them all - "yarn" is "Extra Yarn", "fish" (or "papapus", which is how you say "octopus") is "The Rainbow Fish", and "hat" is "The Cat in the Hat". You'll ask us to read these over and over and over (and over and over). You just love words!

You also LOVE singing. You sing a lot! You'll often sing a mashup of "Twinkle Twinkle", "Baa Baa Black Sheep", and "The Alphabet Song" (they all have the same melody, of course!) - this cracks us up! You also love to sing "Frere Jacque" and "The Cleanup Song" - you sing this whenever I say we're done with something (and sometimes you actually help me clean up!) You ask mama to sing a lot, too, and you especially love to ask me to sing "Edelweiss".

You've gotten really good at using those molars of yours recently, and now peanuts are one of your favorite foods. You just crunch away at them! You're also a big fan of freeze-dried edamame. And of course all things dairy - milk, yogurt, cheese - you love it all. You like grapes a lot, and apples, and peas and carrots, and you're still a fan of the entire legume family. You really like eating soup with us!

This month, you got a new cousin. Your cousin Emma was born on August 21st. I can't wait to see the two of you together this winter, and to watch you grow up together.

Oh Miss Madrigal, we love you so very very much. We'll get through this rough patch, sweet pea! Here's hoping month 22 is a little easier for all of us!

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Harley-Davidson Inc (NYSE: HOG, formerly HDI), often abbreviated H-D or Harley, is an American motorcycle manufacturer. Founded in Milwaukee, Wisconsin, during the first decade of the 20th century, it was one of two major American motorcycle manufacturers to survive the Great Depression. Harley-Davidson also survived a period of poor quality control and competition from Japanese manufacturers.

The company sells heavyweight (over 750 cc) motorcycles designed for cruising on highways. Harley-Davidson motorcycles (popularly known as "Harleys") have a distinctive design and exhaust note. They are especially noted for the tradition of heavy customization that gave rise to the chopper style of motorcycle. Except for the modern VRSC model family, current Harley-Davidson motorcycles reflect the styles of classic Harley designs. Harley-Davidson's attempts to establish itself in the light motorcycle market have met with limited success and have largely been abandoned since the 1978 sale of its Italian Aermacchi subsidiary.

Harley-Davidson sustains a loyal brand community which keeps active through clubs, events, and a museum. Licensing of the Harley-Davidson brand and logo accounted for $40 million (0.8%) of the company's net revenue in 2010.

History

BeginningIn 1901, William S. Harley, age 22, drew up plans for a small engine with a displacement of 7.07 cubic inches (116 cc) and four-inch (102 mm) flywheels. The engine was designed for use in a regular pedal-bicycle frame. Over the next two years, Harley and his childhood friend Arthur Davidson labored on their motor-bicycle using the northside Milwaukee machine shop at the home of their friend, Henry Melk. It was finished in 1903 with the help of Arthur's brother, Walter Davidson. Upon completion, the boys found their power-cycle unable to conquer Milwaukee's modest hills without pedal assistance. Will Harley and the Davidsons quickly wrote off their first motor-bicycle as a valuable learning experiment.

Work immediately began on a new and improved second-generation machine. This first "real" Harley-Davidson motorcycle had a bigger engine of 24.74 cubic inches (405 cc) with 9.75 inches (25 cm) flywheels weighing 28 lb (13 kg). The machine's advanced loop-frame pattern was similar to the 1903 Milwaukee Merkel motorcycle (designed by Joseph Merkel, later of Flying Merkel fame). The bigger engine and loop-frame design took it out of the motorized-bicycle category and would help define what a modern motorcycle should contain in the years to come. The boys also received help with their bigger engine from outboard motor pioneer Ole Evinrude, who was then building gas engines of his own design for automotive use on Milwaukee's Lake Street.

Prototype

The prototype of the new loop-frame Harley-Davidson was assembled in a 10 × 15 ft (3.0 × 4.6 m) shed in the Davidson family backyard. Most of the major parts, however, were made elsewhere, including some probably fabricated at the West Milwaukee rail shops where oldest brother William A. Davidson was then tool room foreman. This prototype machine was functional by September 8, 1904, when it competed in a Milwaukee motorcycle race held at State Fair Park. It was ridden by Edward Hildebrand and placed fourth. This is the first documented appearance of a Harley-Davidson motorcycle in the historical record.

In January 1905, small advertisements were placed in the "Automobile and Cycle Trade Journal" that offered bare Harley-Davidson engines to the do-it-yourself trade. By April, complete motorcycles were in production on a very limited basis. That year, the first Harley-Davidson dealer, Carl H. Lang of Chicago, sold three bikes from the dozen or so built in the Davidson backyard shed. (Some years later the original shed was taken to the Juneau Avenue factory where it would stand for many decades as a tribute to the Motor Company's humble origins. Unfortunately, the first shed was accidentally destroyed by contractors in the early 1970s during a clean-up of the factory yard.)

In 1906, Harley and the Davidson brothers built their first factory on Chestnut Street (later Juneau Avenue). This location remains Harley-Davidson's corporate headquarters today. The first Juneau Avenue plant was a 40 × 60 ft (12 × 18 m) single-story wooden structure. The company produced about 50 motorcycles that year.

1907 model.

Harley-Davidson 1,000 cc HT 1916In 1907, William S. Harley graduated from the University of Wisconsin–Madison with a degree in mechanical engineering. That year additional factory expansion came with a second floor and later with facings and additions of Milwaukee pale yellow ("cream") brick. With the new facilities production increased to 150 motorcycles in 1907. The company was officially incorporated that September. They also began selling their motorcycles to police departments around this time, a market that has been important to them ever since.

Production in 1905 and 1906 were all single-cylinder models with 26.84 cubic inches (440 cc) engines. In February 1907 a prototype model with a 45-degree V-Twin engine was displayed at the Chicago Automobile Show. Although shown and advertised, very few V-Twin models were built between 1907 and 1910. These first V-Twins displaced 53.68 cubic inches (880 cc) and produced about 7 horsepower (5.2 kW). This gave about double the power of the first singles. Top speed was about 60 mph (100 km/h). Production jumped from 450 motorcycles in 1908 to 1,149 machines in 1909.

Harley-Davidson works in 1911By 1911, some 150 makes of motorcycles had already been built in the United States – although just a handful would survive the 1910s.

In 1911, an improved V-Twin model was introduced. The new engine had mechanically operated intake valves, as opposed to the "automatic" intake valves used on earlier V-Twins that opened by engine vacuum. With a displacement of 49.48 cubic inches (811 cc), the 1911 V-Twin was smaller than earlier twins, but gave better performance. After 1913 the majority of bikes produced by Harley-Davidson would be V-Twin models.

By 1913, the yellow brick factory had been demolished and on the site a new 5-story structure of reinforced concrete and red brick had been built. Begun in 1910, the red brick factory with its many additions would take up two blocks along Juneau Avenue and around the corner on 38th Street. Despite the competition, Harley-Davidson was already pulling ahead of Indian and would dominate motorcycle racing after 1914. Production that year swelled to 16,284 machines.

World War IIn 1917, the United States entered World War I and the military demanded motorcycles for the war effort. Harleys had already been used by the military in the Pancho Villa Expedition but World War I was the first time the motorcycle had been adopted for combat service.[citation needed] Harley-Davidson provided about 15,000 machines to the military forces during World War I.

1920s

Harley-Davidson 1000 cc HT 1923By 1920, Harley-Davidson was the largest motorcycle manufacturer in the world. Their motorcycles were sold by dealers in 67 countries. Production was 28,189 machines.

In 1921, a Harley-Davidson, ridden by Otto Walker, was the first motorcycle ever to win a race at an average speed of over 100 mph (160 km/h).

During the 1920s, several improvements were put in place, such as a new 74 cubic inch (1,200 cc) V-Twin, introduced in 1922, and the "Teardrop" gas tank in 1925. A front brake was added in 1928 although notably only on the J/JD models.

In the late summer of 1929, Harley-Davidson introduced its 45 cubic inches (737 cc) flathead V-Twin to compete with the Indian 101 Scout and the Excelsior Super X.[19] This was the "D" model, produced from 1929 to 1931.[20] Riders of Indian motorcycles derisively referred to this model as the "three cylinder Harley" because the generator was upright and parallel to the front cylinder. The 2.745 in (69.7 mm) bore and 3.8125 in (96.8 mm) stroke would continue in most versions of the 750 engine; exceptions include the XA and the XR-750.

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We offer all stock windshields for any make & model Harley Davidson.

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Harley-Davidson Inc (NYSE: HOG, formerly HDI), often abbreviated H-D or Harley, is an American motorcycle manufacturer. Founded in Milwaukee, Wisconsin, during the first decade of the 20th century, it was one of two major American motorcycle manufacturers to survive the Great Depression. Harley-Davidson also survived a period of poor quality control and competition from Japanese manufacturers.

The company sells heavyweight (over 750 cc) motorcycles designed for cruising on highways. Harley-Davidson motorcycles (popularly known as "Harleys") have a distinctive design and exhaust note. They are especially noted for the tradition of heavy customization that gave rise to the chopper style of motorcycle. Except for the modern VRSC model family, current Harley-Davidson motorcycles reflect the styles of classic Harley designs. Harley-Davidson's attempts to establish itself in the light motorcycle market have met with limited success and have largely been abandoned since the 1978 sale of its Italian Aermacchi subsidiary.

Harley-Davidson sustains a loyal brand community which keeps active through clubs, events, and a museum. Licensing of the Harley-Davidson brand and logo accounted for $40 million (0.8%) of the company's net revenue in 2010.

History

BeginningIn 1901, William S. Harley, age 22, drew up plans for a small engine with a displacement of 7.07 cubic inches (116 cc) and four-inch (102 mm) flywheels. The engine was designed for use in a regular pedal-bicycle frame. Over the next two years, Harley and his childhood friend Arthur Davidson labored on their motor-bicycle using the northside Milwaukee machine shop at the home of their friend, Henry Melk. It was finished in 1903 with the help of Arthur's brother, Walter Davidson. Upon completion, the boys found their power-cycle unable to conquer Milwaukee's modest hills without pedal assistance. Will Harley and the Davidsons quickly wrote off their first motor-bicycle as a valuable learning experiment.

Work immediately began on a new and improved second-generation machine. This first "real" Harley-Davidson motorcycle had a bigger engine of 24.74 cubic inches (405 cc) with 9.75 inches (25 cm) flywheels weighing 28 lb (13 kg). The machine's advanced loop-frame pattern was similar to the 1903 Milwaukee Merkel motorcycle (designed by Joseph Merkel, later of Flying Merkel fame). The bigger engine and loop-frame design took it out of the motorized-bicycle category and would help define what a modern motorcycle should contain in the years to come. The boys also received help with their bigger engine from outboard motor pioneer Ole Evinrude, who was then building gas engines of his own design for automotive use on Milwaukee's Lake Street.

Prototype

The prototype of the new loop-frame Harley-Davidson was assembled in a 10 × 15 ft (3.0 × 4.6 m) shed in the Davidson family backyard. Most of the major parts, however, were made elsewhere, including some probably fabricated at the West Milwaukee rail shops where oldest brother William A. Davidson was then tool room foreman. This prototype machine was functional by September 8, 1904, when it competed in a Milwaukee motorcycle race held at State Fair Park. It was ridden by Edward Hildebrand and placed fourth. This is the first documented appearance of a Harley-Davidson motorcycle in the historical record.

In January 1905, small advertisements were placed in the "Automobile and Cycle Trade Journal" that offered bare Harley-Davidson engines to the do-it-yourself trade. By April, complete motorcycles were in production on a very limited basis. That year, the first Harley-Davidson dealer, Carl H. Lang of Chicago, sold three bikes from the dozen or so built in the Davidson backyard shed. (Some years later the original shed was taken to the Juneau Avenue factory where it would stand for many decades as a tribute to the Motor Company's humble origins. Unfortunately, the first shed was accidentally destroyed by contractors in the early 1970s during a clean-up of the factory yard.)

In 1906, Harley and the Davidson brothers built their first factory on Chestnut Street (later Juneau Avenue). This location remains Harley-Davidson's corporate headquarters today. The first Juneau Avenue plant was a 40 × 60 ft (12 × 18 m) single-story wooden structure. The company produced about 50 motorcycles that year.

1907 model.

Harley-Davidson 1,000 cc HT 1916In 1907, William S. Harley graduated from the University of Wisconsin–Madison with a degree in mechanical engineering. That year additional factory expansion came with a second floor and later with facings and additions of Milwaukee pale yellow ("cream") brick. With the new facilities production increased to 150 motorcycles in 1907. The company was officially incorporated that September. They also began selling their motorcycles to police departments around this time, a market that has been important to them ever since.

Production in 1905 and 1906 were all single-cylinder models with 26.84 cubic inches (440 cc) engines. In February 1907 a prototype model with a 45-degree V-Twin engine was displayed at the Chicago Automobile Show. Although shown and advertised, very few V-Twin models were built between 1907 and 1910. These first V-Twins displaced 53.68 cubic inches (880 cc) and produced about 7 horsepower (5.2 kW). This gave about double the power of the first singles. Top speed was about 60 mph (100 km/h). Production jumped from 450 motorcycles in 1908 to 1,149 machines in 1909.

Harley-Davidson works in 1911By 1911, some 150 makes of motorcycles had already been built in the United States – although just a handful would survive the 1910s.

In 1911, an improved V-Twin model was introduced. The new engine had mechanically operated intake valves, as opposed to the "automatic" intake valves used on earlier V-Twins that opened by engine vacuum. With a displacement of 49.48 cubic inches (811 cc), the 1911 V-Twin was smaller than earlier twins, but gave better performance. After 1913 the majority of bikes produced by Harley-Davidson would be V-Twin models.

By 1913, the yellow brick factory had been demolished and on the site a new 5-story structure of reinforced concrete and red brick had been built. Begun in 1910, the red brick factory with its many additions would take up two blocks along Juneau Avenue and around the corner on 38th Street. Despite the competition, Harley-Davidson was already pulling ahead of Indian and would dominate motorcycle racing after 1914. Production that year swelled to 16,284 machines.

World War IIn 1917, the United States entered World War I and the military demanded motorcycles for the war effort. Harleys had already been used by the military in the Pancho Villa Expedition but World War I was the first time the motorcycle had been adopted for combat service.[citation needed] Harley-Davidson provided about 15,000 machines to the military forces during World War I.

1920s

Harley-Davidson 1000 cc HT 1923By 1920, Harley-Davidson was the largest motorcycle manufacturer in the world. Their motorcycles were sold by dealers in 67 countries. Production was 28,189 machines.

In 1921, a Harley-Davidson, ridden by Otto Walker, was the first motorcycle ever to win a race at an average speed of over 100 mph (160 km/h).

During the 1920s, several improvements were put in place, such as a new 74 cubic inch (1,200 cc) V-Twin, introduced in 1922, and the "Teardrop" gas tank in 1925. A front brake was added in 1928 although notably only on the J/JD models.

In the late summer of 1929, Harley-Davidson introduced its 45 cubic inches (737 cc) flathead V-Twin to compete with the Indian 101 Scout and the Excelsior Super X.[19] This was the "D" model, produced from 1929 to 1931.[20] Riders of Indian motorcycles derisively referred to this model as the "three cylinder Harley" because the generator was upright and parallel to the front cylinder. The 2.745 in (69.7 mm) bore and 3.8125 in (96.8 mm) stroke would continue in most versions of the 750 engine; exceptions include the XA and the XR-750.

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Here's one you probably forgot, an obscure little number based off the Mini to give a more luxurious variant to the popular 10ft machine, this being the Riley Elf, but also badged as the Wolseley Hornet.

For all intents and purposes, the Elf and Hornet were mechanically identical to the Mini, using much of the same driving gear. The car differed however by its trim, engines and length, with the same Mini wheelbase of 6.68ft, but an increased platform to 10.7ft to accommodate a separate boot and for a slightly longer cabin. Both cars were also fitted with huge chrome grilles to make them look less mundane than the Mini and more up-market to appeal for the driver who desired more from their small car. The cars had larger-diameter chrome hubcaps than the Austin and Morris Minis, and additional chrome accents, bumper overriders and wood-veneer dashboards. The Riley was the more expensive of the two cars.

Both the Elf and the Hornet went through three engine versions. Initially, they used the 848cc 34hp engine with a single HS2 carburettor, changing to a single HS2 carburettor 38hp version of the Cooper's 998cc in the 1963 Mark II. This increased the car's top speed from 71 to 77mph.

Both cars were built between 1961 and 1969, with production ending with 30,912 Riley Elfs and 28,455 Wolseley Hornets built. Today these cars have quite a cult following, largely due to their novel size and luxury. A Rolls Royce on a 10ft platform!

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Harley-Davidson Inc (NYSE: HOG, formerly HDI), often abbreviated H-D or Harley, is an American motorcycle manufacturer. Founded in Milwaukee, Wisconsin, during the first decade of the 20th century, it was one of two major American motorcycle manufacturers to survive the Great Depression. Harley-Davidson also survived a period of poor quality control and competition from Japanese manufacturers.

The company sells heavyweight (over 750 cc) motorcycles designed for cruising on highways. Harley-Davidson motorcycles (popularly known as "Harleys") have a distinctive design and exhaust note. They are especially noted for the tradition of heavy customization that gave rise to the chopper style of motorcycle. Except for the modern VRSC model family, current Harley-Davidson motorcycles reflect the styles of classic Harley designs. Harley-Davidson's attempts to establish itself in the light motorcycle market have met with limited success and have largely been abandoned since the 1978 sale of its Italian Aermacchi subsidiary.

Harley-Davidson sustains a loyal brand community which keeps active through clubs, events, and a museum. Licensing of the Harley-Davidson brand and logo accounted for $40 million (0.8%) of the company's net revenue in 2010.

History

BeginningIn 1901, William S. Harley, age 22, drew up plans for a small engine with a displacement of 7.07 cubic inches (116 cc) and four-inch (102 mm) flywheels. The engine was designed for use in a regular pedal-bicycle frame. Over the next two years, Harley and his childhood friend Arthur Davidson labored on their motor-bicycle using the northside Milwaukee machine shop at the home of their friend, Henry Melk. It was finished in 1903 with the help of Arthur's brother, Walter Davidson. Upon completion, the boys found their power-cycle unable to conquer Milwaukee's modest hills without pedal assistance. Will Harley and the Davidsons quickly wrote off their first motor-bicycle as a valuable learning experiment.

Work immediately began on a new and improved second-generation machine. This first "real" Harley-Davidson motorcycle had a bigger engine of 24.74 cubic inches (405 cc) with 9.75 inches (25 cm) flywheels weighing 28 lb (13 kg). The machine's advanced loop-frame pattern was similar to the 1903 Milwaukee Merkel motorcycle (designed by Joseph Merkel, later of Flying Merkel fame). The bigger engine and loop-frame design took it out of the motorized-bicycle category and would help define what a modern motorcycle should contain in the years to come. The boys also received help with their bigger engine from outboard motor pioneer Ole Evinrude, who was then building gas engines of his own design for automotive use on Milwaukee's Lake Street.

Prototype

The prototype of the new loop-frame Harley-Davidson was assembled in a 10 × 15 ft (3.0 × 4.6 m) shed in the Davidson family backyard. Most of the major parts, however, were made elsewhere, including some probably fabricated at the West Milwaukee rail shops where oldest brother William A. Davidson was then tool room foreman. This prototype machine was functional by September 8, 1904, when it competed in a Milwaukee motorcycle race held at State Fair Park. It was ridden by Edward Hildebrand and placed fourth. This is the first documented appearance of a Harley-Davidson motorcycle in the historical record.

In January 1905, small advertisements were placed in the "Automobile and Cycle Trade Journal" that offered bare Harley-Davidson engines to the do-it-yourself trade. By April, complete motorcycles were in production on a very limited basis. That year, the first Harley-Davidson dealer, Carl H. Lang of Chicago, sold three bikes from the dozen or so built in the Davidson backyard shed. (Some years later the original shed was taken to the Juneau Avenue factory where it would stand for many decades as a tribute to the Motor Company's humble origins. Unfortunately, the first shed was accidentally destroyed by contractors in the early 1970s during a clean-up of the factory yard.)

In 1906, Harley and the Davidson brothers built their first factory on Chestnut Street (later Juneau Avenue). This location remains Harley-Davidson's corporate headquarters today. The first Juneau Avenue plant was a 40 × 60 ft (12 × 18 m) single-story wooden structure. The company produced about 50 motorcycles that year.

1907 model.

Harley-Davidson 1,000 cc HT 1916In 1907, William S. Harley graduated from the University of Wisconsin–Madison with a degree in mechanical engineering. That year additional factory expansion came with a second floor and later with facings and additions of Milwaukee pale yellow ("cream") brick. With the new facilities production increased to 150 motorcycles in 1907. The company was officially incorporated that September. They also began selling their motorcycles to police departments around this time, a market that has been important to them ever since.

Production in 1905 and 1906 were all single-cylinder models with 26.84 cubic inches (440 cc) engines. In February 1907 a prototype model with a 45-degree V-Twin engine was displayed at the Chicago Automobile Show. Although shown and advertised, very few V-Twin models were built between 1907 and 1910. These first V-Twins displaced 53.68 cubic inches (880 cc) and produced about 7 horsepower (5.2 kW). This gave about double the power of the first singles. Top speed was about 60 mph (100 km/h). Production jumped from 450 motorcycles in 1908 to 1,149 machines in 1909.

Harley-Davidson works in 1911By 1911, some 150 makes of motorcycles had already been built in the United States – although just a handful would survive the 1910s.

In 1911, an improved V-Twin model was introduced. The new engine had mechanically operated intake valves, as opposed to the "automatic" intake valves used on earlier V-Twins that opened by engine vacuum. With a displacement of 49.48 cubic inches (811 cc), the 1911 V-Twin was smaller than earlier twins, but gave better performance. After 1913 the majority of bikes produced by Harley-Davidson would be V-Twin models.

By 1913, the yellow brick factory had been demolished and on the site a new 5-story structure of reinforced concrete and red brick had been built. Begun in 1910, the red brick factory with its many additions would take up two blocks along Juneau Avenue and around the corner on 38th Street. Despite the competition, Harley-Davidson was already pulling ahead of Indian and would dominate motorcycle racing after 1914. Production that year swelled to 16,284 machines.

World War IIn 1917, the United States entered World War I and the military demanded motorcycles for the war effort. Harleys had already been used by the military in the Pancho Villa Expedition but World War I was the first time the motorcycle had been adopted for combat service.[citation needed] Harley-Davidson provided about 15,000 machines to the military forces during World War I.

1920s

Harley-Davidson 1000 cc HT 1923By 1920, Harley-Davidson was the largest motorcycle manufacturer in the world. Their motorcycles were sold by dealers in 67 countries. Production was 28,189 machines.

In 1921, a Harley-Davidson, ridden by Otto Walker, was the first motorcycle ever to win a race at an average speed of over 100 mph (160 km/h).

During the 1920s, several improvements were put in place, such as a new 74 cubic inch (1,200 cc) V-Twin, introduced in 1922, and the "Teardrop" gas tank in 1925. A front brake was added in 1928 although notably only on the J/JD models.

In the late summer of 1929, Harley-Davidson introduced its 45 cubic inches (737 cc) flathead V-Twin to compete with the Indian 101 Scout and the Excelsior Super X.[19] This was the "D" model, produced from 1929 to 1931.[20] Riders of Indian motorcycles derisively referred to this model as the "three cylinder Harley" because the generator was upright and parallel to the front cylinder. The 2.745 in (69.7 mm) bore and 3.8125 in (96.8 mm) stroke would continue in most versions of the 750 engine; exceptions include the XA and the XR-750.

FBI Stolen motorcycles

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Motorcycles VIN Decoder

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Humor, pathos, slogans, girls, cartoons, nicknames, hometowns, girls, patriotism, dishing it to the enemy, warriors, girls, youthful bravado, girls...these transcended nationality as both Allies and Axis pilots went to war in their individually marked chariots. Men at war separated from home, family, loved ones and a familiar way of life sought ways to personalize and escape the very harsh business surrounding them. For the most part they thought about women, represented on the sides of aircraft in the most tender of ways to the most degrading. These men spent many hours longing for the tenderness a woman could bring to their lives...and for the sexual pleasure they could provide. Whether top level commanders ordered it off the aircraft or not, the men let their feelings flow onto their machines.

This Art on a Lockheed C-60 Lodestar:

The C-60 is a twin-engine transport based on the Lockheed Model 18 Lodestar. During World War II, the Army Air Forces used the aircraft for training and for transporting personnel and freight. First flown in 1940, the Model 18 was originally designed as a successor to the Lockheed Model 14 and the earlier Model 10 Electra. The Army began ordering military versions of the Model 18 in May 1941. Depending upon engines and interior configuration, these transports were given C-56, C-57, C-59 or C-60 basic type designations. Lockheed built more C-60As for the AAF (325) than any other version of the military Lodestar.

After the war, many military Lodestars were declared surplus and sold to private operators for use as cargo or executive transports. The C-60A on display was flown to the museum in 1981.

TECHNICAL NOTES:

Armament: None

Engines: Two Wright R-1820-87s of 1,200 hp each

Crew: Four (plus 17 passengers)

Maximum speed: 257 mph

Cruising speed: 232 mph

Range: 1,700 miles

Service ceiling: 25,000 ft.

Span: 65 ft. 6 in.

Length: 49 ft. 10 in.

Height: 11 ft. 1 in.

Weight: 18,500 lbs. maximum

Serial number: 43-16445

Issue 2 (September 1945) or 124 Wing's 'Tale Spin' magazine, published after the end of the war when the unit was stationed in Lubeck, Germany.

My father, Gerald Trevor Roberts, was part of 124 Wing, operating Typhoons, from July 1944 in Normandy until their demobilisation in Lubeck in 1946.

LOOKING back over the past historic month to the early part of last summer when we began our fight to dislodge the enemy from his dominating position athwart the continent of Europe, one cannot resist the temptation, now that our task has been accomplished, of saying, “We have put up a good show”.

“IT WAS NOT ALL IN VAIN”.

Hatred is not overcome by hatred; hatred is conquered by love, and so is the order of things from eternity. Unless your name is Henry Ford and Enzo Ferrari just let you down by having lunch with his lawyer and then not returning to the negotiating table. The story is of course known to every Ford and Ferrari enthusiast. Ford developed the GT40 and beat Ferrari fair and square at Le Mans. But the chance of ever buying a Ferrari has gone forever since that afternoon. Fortunately, both brands are still going strong today and Ford uses the GT40 every few years as an excuse to put the most extravagant and excellent sports car on the market. The previous Ford GT was actually a slightly larger GT40 with a huge V8 and a supercharger. This generation of Ford GT, on the other hand, is not a retro car but a futuristic spaceship that forgot to return to the pits after a successful race at La Sartre and pulled into your parking space. What a beautiful machine. This 2021 copy is a so-called Carbon Series. This means that the car is slightly lighter than the already very light “standard” Ford GT, the car has extra visible carbon, a Lexan engine compartment cover, no cup holders, carbon wheels, titanium wheel bolts and a stripe over the hood consisting of blank carbon.

The second generation Ford GT, as this car is referred to, is a car built at Multimatic in Canada. The base is a carbon fiber monocoque that is not only extremely stiff but also feather-light. The drive is provided by a 3.5 litre Ford Ecoboost V6. The engine produces 647 hp and enables the car to reach a top speed of no less than 347 kilometres per hour. The car was unveiled in 2016 and Ford immediately announced that it would be taking another shot at victory at Le Mans 50 years later. The Ford GT is therefore also one of the few cars that is basically designed as a race car and not as a street car. This means that for the designers the objectives were very clear in advance: this car must be able to drive as fast as possible at Le Mans and then we must be able to make the car street-legal with not too many adjustments. Finally, it should be noted that this is an almost unique opportunity to obtain a Ford GT Carbon Series. When Ford opened the order books for the GT, it was not the case that everyone could buy such a car, no, buyers had to go through a real application procedure to get a Ford GT. If Ford didn’t think the story was good enough, or the buyer didn’t like the GT, it wasn’t possible to buy one. In addition, buyers of the Ford GT were not allowed to resell the car shortly after purchase.

This copy has German papers and is in absolute mint condition. The car comes with delivery miles and is beautifully executed. Black goes perfectly with the car’s sinister looks. The body is unmistakably recognizable as a Ford GT and yet almost incomparable with its predecessors. The carbon wheels are not only very beautiful but also very light. The finish of the car is of course as you would expect from a top product of this calibre. The paint is beautifully sprayed, the finish on the wheels is exceptional, the panels fit together sublimely everywhere and we are only talking about the exterior of the car. The interior is pure practicality. The steering wheel is equipped with many buttons to operate many vital functions of the car and makes driving the car a breeze. The ergonomics are of course perfect for each other and finding a good seating position is child’s play because the seat cannot be adjusted, but the steering column and the pedal box have to be adjusted. Unlike previous hardcore versions of the Ford GT, the Carbon Series is still equipped with the Ford Sync 3 system. This makes covering longer distances a wonderful activity. Things like air conditioning and an excellent sound system make the party complete.

In short, an exceptionally rare opportunity to acquire a Ford GT Carbon Series and an absolute top opportunity for the serious investor.

Republica Checa - Praga - Plaza de la ciudad vieja (Staromestské námestí) - Ayuntamiento Viejo - Reloj Astronómico (Staroměstský orloj)

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ENGLISH:

The Prague astronomical clock, or Prague orloj (Czech: Pražský orloj [praʃskiː orloj]), is a medieval astronomical clock located in Prague, the capital of the Czech Republic. The clock was first installed in 1410, making it the third-oldest astronomical clock in the world and the oldest one still working.

The Orloj is mounted on the southern wall of Old Town City Hall in the Old Town Square. The clock mechanism itself is composed of three main components: the astronomical dial, representing the position of the Sun and Moon in the sky and displaying various astronomical details; "The Walk of the Apostles", a clockwork hourly show of figures of the Apostles and other moving sculptures—notably a figure of Death (represented by a skeleton) striking the time; and a calendar dial with medallions representing the months. According to local legend, the city will suffer if the clock is neglected and its good operation is placed in jeopardy and a skeleton, mounted on the clock, was supposed to nod his head in confirmation. Based on the legend, the only hope was represented by a boy born in the New Year's night.

The oldest part of the Orloj, the mechanical clock and astronomical dial, dates back to 1410 when it was made by clockmaker Mikuláš of Kadaň and Jan Šindel, the latter a professor of mathematics and astronomy at Charles University. The first recorded mention of the clock was on 9 October 1410. Later, presumably around 1490, the calendar dial was added and clock facade was decorated with gothic sculptures.

Formerly, it was believed that the Orloj was constructed in 1490 by clockmaster Jan Růže (also called Hanuš); this is now known to be a historical mistake. A legend, recounted by Alois Jirásek, has it that the clockmaker Hanuš was blinded on the order of the Prague Councillors so that he could not repeat his work; in turn, he broke down the clock, and no one was able to repair it for the next hundred years.

In 1552 it was repaired by Jan Taborský (ca1500–1572), master clockmaker of Klokotská Hora, who also wrote a report of the clock where he mentioned Hanuš as maker of this clock. This mistake, corrected by Zdeněk Horský, was due to an incorrect interpretation of records from the period. The mistaken assumption of Hanuš authorship is probably connected with his reconstruction of the Old Town Hall in years 1470-1473. The clock stopped working many times in the centuries after 1552, and was repaired many times.

In 1629 or 1659 wooden statues were added, and figures of the Apostles were added after major repair in 1787-1791. During the next major repair in years 1865-1866 the golden figure of a crowing rooster was added.

The Orloj suffered heavy damage on May 7 and especially May 8, 1945, during the Prague Uprising, when Germans set fire from several armoured vehicles and an anti-aircraft gun to the south-west side of the Old Town Square in an effort to silence the provocative broadcasting initiated by the National Committee on May 5. The hall and nearby buildings burned along with the wooden sculptures on the Orloj and the calendar dial face made by Josef Mánes. After significant effort, the machinery was repaired, the wooden Apostles restored by Vojtěch Sucharda, and the Orloj started working again in 1948.

The Orloj was last renovated in autumn 2005, when the statues and the lower ring were restored by Josef Manes. Wooden statues were covered with a net to keep pigeons away.

The astronomical dial is a form of mechanical astrolabe, a device used in medieval astronomy. Alternatively, one may consider the Orloj to be a primitive planetarium, displaying the current state of the universe.

The astronomical dial has a background that represents the standing Earth and sky, and surrounding it operate four main moving components: the zodiacal ring, an outer rotating ring, an icon representing the Sun, and an icon representing the Moon.

The background represents the Earth and the local view of the sky. The blue circle directly in the centre represents the Earth, and the upper blue is the portion of the sky which is above the horizon. The red and black areas indicate portions of the sky below the horizon. During the daytime, the Sun sits over the blue part of the background and at night it sits over the black. During dawn or dusk, the mechanical sun is positioned over the red part of the background.

Written on the eastern (left) part of the horizon is aurora (dawn in Latin) and ortus (rising). On the western (right) part is occasus (sunset), and crepusculum (twilight).

Golden Roman numbers at the outer edge of blue circle are the timescale of a normal 24-hour day and indicate time in local Prague time, or Central European Time. Curved golden lines dividing the blue part of dial into 12 parts are marks for unequal "hours". These hours are defined as 1/12 of the time between sunrise and sunset, and vary as the days grow longer or shorter during the year.

Inside the large black outer circle lies another movable circle marked with the signs of the zodiac which indicates the location of the Sun on the ecliptic. The signs are shown in anticlockwise order. In the photograph accompanying this section, the Sun is currently moving anticlockwise from Cancer into Leo.

The displacement of the zodiac circle results from the use of a stereographic projection of the ecliptic plane using the North pole as the basis of the projection. This is commonly seen in astronomical clocks of the period.

The small golden star shows the position of the vernal equinox, and sidereal time can be read on the scale with golden Roman numerals. Zodiac is on the 366 teeth gear inside the machine. This gear is connected to the sun gear and the moon gear by 24 teeth gear.

At the outer edge of the clock, golden Schwabacher numerals are set on a black background. These numbers indicate Old Czech Time (or Italian hours), with 24 indicating the time of sunset, which varies during the year from as early as 16:00 in winter to 20:16 in summer. This ring moves back and forth during the year to coincide with the time of sunset.

The golden Sun moves around the zodiacal circle, thus showing its position on the ecliptic. The sun is attached to an arm with a golden hand, and together they show the time in three different ways:

1.The position of the golden hand over the Roman numerals on the background indicates the time in local Prague time.

2.The position of the Sun over the curved golden lines indicates the time in unequal hours.

3.The position of the golden hand over the outer ring indicates the hours passed after sunset in Old Czech Time.

Additionally, the distance of the Sun from the center of the dial shows the time of sunrise and sunset. Sun and hand of the sun are at the 365 teeth gear inside the machine.

The movement of the Moon on the ecliptic is shown similarly to that of the Sun, although the speed is much faster (due to the Moon's own orbit around the Earth). The half-silvered sphere of the moon also shows the Lunar phase. Moon is on the 379 teeth gear inside the machine.

The four figures flanking the clock are set in motion at the hour, these represent four things that were despised at the time of the clock's making. From left to right in the photographs, the first is Vanity, represented by a figure admiring himself in a mirror. Next, the miser holding a bag of gold represents greed or usury. Across the clock stands Death, a skeleton that strikes the time upon the hour. Finally, the Turk tells pleasure and entertainment. On the hour, the skeleton rings the bell and immediately all other figures shake their heads, side to side, signifying their unreadiness "to go."

There is also a presentation of statues of the Apostles at the doorways above the clock, with all twelve presented every hour.

SPANISH:

El Reloj Astronómico de Praga (en checo: Staroměstský orloj) es un reloj astronómico medieval localizado en Praga, la capital de la República Checa. El Reloj se encuentra en la pared sur del ayuntamiento de la Ciudad Vieja de Praga, siendo una popular atracción turística.

Los tres principales componentes del Reloj son:

•El cuadrante astronómico, que además de indicar las 24 horas de día, representa las posiciones del sol y de la luna en el cielo, además de otros detalles astronómicos

•Las figuras animadas que incluyen "El paseo de los Apóstoles", un mecanismo de relojería que muestra, cuando el reloj da las horas, las figuras de los Doce Apóstoles.

•El calendario circular con medallones que representan los meses del año.

El cuadrante astronómico tiene forma de astrolabio, instrumento usado en la astronomía medieval y en la navegación hasta la invención del sextante. Tiene pintado sobre ella representaciones de la Tierra y del cielo, así como de los elementos que lo rodean, especialmente por cuatro componentes principales: el anillo zodiacal, el anillo de rotación, el icono que representa al sol y el icono que representa a la luna.

El fondo representa a la Tierra y la visión local del cielo. El círculo azul del centro representa nuestro planeta y el azul más oscuro la visión del cielo desde el horizonte. Las áreas rojas y negras indican las partes del cielo que se encuentran sobre el horizonte. Durante el día el sol se sitúa en la zona azul del fondo, mientras que por la noche pasa a situarse en la zona oscura. Desde que amanece hasta que anochece, la mecánica del sol hace que esté siempre posicionado sobre la zona roja. A la izquierda del reloj (el Este), encontramos la aurora y el amanecer; mientras en el oeste encontramos el ocaso y el crepúsculo.

Los números dorados del círculo azul representan las 24 horas del día (el formato estándar), marcando la hora civil de Praga. Pero encontramos también la división de 12 horas, que se definen por el tiempo entre el amanecer y el anochecer y que varía según la duración del día dependiendo de la estación del año.

En el interior del círculo negro, se encuentra otro círculo con los signos del zodiaco, indicando la localización del sol en la eclíptica. Los signos son mostrados en orden inverso al sentido del reloj. En la fotografía que acompaña a este artículo, el sol se encuentra en la constelación de Aries y moviéndose hacia la de Tauro.

La disposición del círculo zodiacal corresponde al uso de la proyección estereográfica del plano eclíptico que usa el Polo Norte como base de la proyección. Esta disposición es común en cualquier reloj astrológico de este periodo. La pequeña estrella dorada muestra la posición del equinoccio de verano; de esta forma los números romanos también podrían servir para medir el tiempo sideral.

En el borde exterior del reloj, el número Schwabacher dorado se encuentra sobre el fondo negro. Estos números indican las horas en la antigua Bohemia, que empieza con el 1 del anochecer. Los anillos se van moviendo durante el año y coinciden con el tiempo solar.

El sol dorado se mueve alrededor del círculo zodiacal, describiendo una elipse. El sol se junta con el brazo que tiene la mano dorada, y juntos nos muestran el tiempo de tres formas diferentes:

1.La posición de la mano de oro sobre los números romanos indican la hora local de Praga.

2.La posición del sol sobre las líneas doradas indican las horas en formato de horas desiguales.

3.La posición de la mano dorada sobre el anillo exterior indican las horas después del amanecer según el antiguo horario checo.

Además, la distancia entre el Sol y el centro de la esfera muestra el tiempo entre el anochecer y el amanecer.

El movimiento de la luna en la elipse se parece al del sol, aunque es mucho más rápido. La esfera lunar (una esfera plateada) muestra las fases de la luna.

Las cuatro figuras que flanquean el reloj son cuatro alegorías. De izquierda a derecha son:

•La Vanidad representada por un hombre que sostiene un espejo.

•La Avaricia representada por un comerciante judío con su bolsa.

•La Muerte representada por un esqueleto matando el tiempo.

•La Lujuria representada por un príncipe turco con su mandolina.

Cada hora entre las 9 de la mañana y las nueve de la noche las figuras se ponen en movimiento. El vanidoso se mira en el espejo, el avariento mueve su bolsa, el esqueleto blande su guadaña y tira de una cuerda, el lujurioso mueve la cabeza para mostrar que acecha siempre. Las dos ventanas se abren y empieza "El Paseo de los apóstoles". Los doce apóstoles desfilan lentamente asomándose a la ventana precedidos por San Pedro, gracias a un mecanismo circular en el interior sobre el que están ubicados seis a cada lado.

En la ventana izquierda aparece San Pablo manteniendo y una espada y un libro, le sigue Santo Tomás con un arpón, San Judas Tadeo con un libro en su mano izquierda, San Simón mostrando una sierra pues es el patrón de los leñadores, San Bartolomé con un libro y San Bernabé con un papiro.

En la ventana derecha aparece San Pedro con una llave, pues guarda las llaves del cielo. Le siguen San Mateo con un hacha pues es el patron de constructores, carpinteros y herreros, San Juan, San Andrés con una cruz y Santiago.1

Cuando las ventanas se cierran un gallo añadido en 1882 aletea y canta, después suenan las campanas en formato de 24 horas.

El calendario fue añadido al reloj en 1870. Los doce medallones representan los doce meses del año. Son obra del pintor checo Josef Mánes. Las cuatro esculturas laterales son de izquierda a derecha:

•Un filósofo

•Un ángel.

•Un astrónomo

•Un cronista.

Según la leyenda escrita por Alois Jirásek el mecanismo del reloj astronómico fue construido por el maestro Hanuš (cuyo verdadero nombre era Jan Růže) y por su ayudante Jakub Čech en 1490. Los ediles cegaron al maestro Hanus para que no pudiera construirse una copia del reloj. Čech vengó a su maestro introduciendo una mano en el mecanismo, atascándolo e inutilizándolo, a costa de quedar a su vez manco.

La parte más antigua del Reloj es el mecanismo del cuadrante astronómico que data de 1410, cuando fue construido por el relojero Nicolás de Kadan2 y por Jan Šindel profesor de matemáticas y astronomía de la Universidad Carolina de Praga.

Sucesivamente, alrededor de 1490, fueron añadidos el calendario y las esculturas góticas que decoran la fachada. El Reloj se paró varias veces a partir del 1552, y tuvo que ser reparado tantas veces como fallos tuvo. la reparación de 1552 fue realizada por Jan Táborský, quien escribió un informe en el cual menciona al maestro relojero Hanuš como diseñador del reloj, cuestión que se demostró ser falsa en el siglo XX.

En el siglo XVII se añadieron las estatuas móviles de los laterales del cuadrante astronómico. Las estatuas en madera de los apóstoles fueron añadidas durante la reparación de 1865-1866.

El Reloj sufrió fuertes daños los días 7 y 8 de mayo de 1945, horas antes de la capitulación alemana en Praga, que fue forzada por el avance del Ejército Rojo. Los soldados alemanes dirigieron sus ataques de vehículos blindados y de antiaéreos a la Vieja Ciudad de Praga en un esfuerzo por silenciar la iniciativa provocadora de la radio por parte de la resistencia checa iniciada el 5 de mayo. El ayuntamiento y los edificios cercanos fueron incendiados junto a las esculturas de madera del Reloj y la esfera del calendario de Josef Mánes. Se reparó la maquinaria, y los Apóstoles de madera fueron restaurados por Vojtěch Sucharda un famoso constructor de marionetas. El reloj volvió a funcionar a partir de 1948. El actual relojero Otakar Zámecník realizó una reparación general en 1994.

El Reloj de Praga es uno de los numerosos relojes astronómicos que se construyeron en los siglos XIV y XV. Otros relojes astronómicos fueron construidos en Norwich, San Albano, Wells, Lund, Estrasburgo, y Padua.

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Harley-Davidson Inc (NYSE: HOG, formerly HDI), often abbreviated H-D or Harley, is an American motorcycle manufacturer. Founded in Milwaukee, Wisconsin, during the first decade of the 20th century, it was one of two major American motorcycle manufacturers to survive the Great Depression. Harley-Davidson also survived a period of poor quality control and competition from Japanese manufacturers.

The company sells heavyweight (over 750 cc) motorcycles designed for cruising on highways. Harley-Davidson motorcycles (popularly known as "Harleys") have a distinctive design and exhaust note. They are especially noted for the tradition of heavy customization that gave rise to the chopper style of motorcycle. Except for the modern VRSC model family, current Harley-Davidson motorcycles reflect the styles of classic Harley designs. Harley-Davidson's attempts to establish itself in the light motorcycle market have met with limited success and have largely been abandoned since the 1978 sale of its Italian Aermacchi subsidiary.

Harley-Davidson sustains a loyal brand community which keeps active through clubs, events, and a museum. Licensing of the Harley-Davidson brand and logo accounted for $40 million (0.8%) of the company's net revenue in 2010.

History

BeginningIn 1901, William S. Harley, age 22, drew up plans for a small engine with a displacement of 7.07 cubic inches (116 cc) and four-inch (102 mm) flywheels. The engine was designed for use in a regular pedal-bicycle frame. Over the next two years, Harley and his childhood friend Arthur Davidson labored on their motor-bicycle using the northside Milwaukee machine shop at the home of their friend, Henry Melk. It was finished in 1903 with the help of Arthur's brother, Walter Davidson. Upon completion, the boys found their power-cycle unable to conquer Milwaukee's modest hills without pedal assistance. Will Harley and the Davidsons quickly wrote off their first motor-bicycle as a valuable learning experiment.

Work immediately began on a new and improved second-generation machine. This first "real" Harley-Davidson motorcycle had a bigger engine of 24.74 cubic inches (405 cc) with 9.75 inches (25 cm) flywheels weighing 28 lb (13 kg). The machine's advanced loop-frame pattern was similar to the 1903 Milwaukee Merkel motorcycle (designed by Joseph Merkel, later of Flying Merkel fame). The bigger engine and loop-frame design took it out of the motorized-bicycle category and would help define what a modern motorcycle should contain in the years to come. The boys also received help with their bigger engine from outboard motor pioneer Ole Evinrude, who was then building gas engines of his own design for automotive use on Milwaukee's Lake Street.

Prototype

The prototype of the new loop-frame Harley-Davidson was assembled in a 10 × 15 ft (3.0 × 4.6 m) shed in the Davidson family backyard. Most of the major parts, however, were made elsewhere, including some probably fabricated at the West Milwaukee rail shops where oldest brother William A. Davidson was then tool room foreman. This prototype machine was functional by September 8, 1904, when it competed in a Milwaukee motorcycle race held at State Fair Park. It was ridden by Edward Hildebrand and placed fourth. This is the first documented appearance of a Harley-Davidson motorcycle in the historical record.

In January 1905, small advertisements were placed in the "Automobile and Cycle Trade Journal" that offered bare Harley-Davidson engines to the do-it-yourself trade. By April, complete motorcycles were in production on a very limited basis. That year, the first Harley-Davidson dealer, Carl H. Lang of Chicago, sold three bikes from the dozen or so built in the Davidson backyard shed. (Some years later the original shed was taken to the Juneau Avenue factory where it would stand for many decades as a tribute to the Motor Company's humble origins. Unfortunately, the first shed was accidentally destroyed by contractors in the early 1970s during a clean-up of the factory yard.)

In 1906, Harley and the Davidson brothers built their first factory on Chestnut Street (later Juneau Avenue). This location remains Harley-Davidson's corporate headquarters today. The first Juneau Avenue plant was a 40 × 60 ft (12 × 18 m) single-story wooden structure. The company produced about 50 motorcycles that year.

1907 model.

Harley-Davidson 1,000 cc HT 1916In 1907, William S. Harley graduated from the University of Wisconsin–Madison with a degree in mechanical engineering. That year additional factory expansion came with a second floor and later with facings and additions of Milwaukee pale yellow ("cream") brick. With the new facilities production increased to 150 motorcycles in 1907. The company was officially incorporated that September. They also began selling their motorcycles to police departments around this time, a market that has been important to them ever since.

Production in 1905 and 1906 were all single-cylinder models with 26.84 cubic inches (440 cc) engines. In February 1907 a prototype model with a 45-degree V-Twin engine was displayed at the Chicago Automobile Show. Although shown and advertised, very few V-Twin models were built between 1907 and 1910. These first V-Twins displaced 53.68 cubic inches (880 cc) and produced about 7 horsepower (5.2 kW). This gave about double the power of the first singles. Top speed was about 60 mph (100 km/h). Production jumped from 450 motorcycles in 1908 to 1,149 machines in 1909.

Harley-Davidson works in 1911By 1911, some 150 makes of motorcycles had already been built in the United States – although just a handful would survive the 1910s.

In 1911, an improved V-Twin model was introduced. The new engine had mechanically operated intake valves, as opposed to the "automatic" intake valves used on earlier V-Twins that opened by engine vacuum. With a displacement of 49.48 cubic inches (811 cc), the 1911 V-Twin was smaller than earlier twins, but gave better performance. After 1913 the majority of bikes produced by Harley-Davidson would be V-Twin models.

By 1913, the yellow brick factory had been demolished and on the site a new 5-story structure of reinforced concrete and red brick had been built. Begun in 1910, the red brick factory with its many additions would take up two blocks along Juneau Avenue and around the corner on 38th Street. Despite the competition, Harley-Davidson was already pulling ahead of Indian and would dominate motorcycle racing after 1914. Production that year swelled to 16,284 machines.

World War IIn 1917, the United States entered World War I and the military demanded motorcycles for the war effort. Harleys had already been used by the military in the Pancho Villa Expedition but World War I was the first time the motorcycle had been adopted for combat service.[citation needed] Harley-Davidson provided about 15,000 machines to the military forces during World War I.

1920s

Harley-Davidson 1000 cc HT 1923By 1920, Harley-Davidson was the largest motorcycle manufacturer in the world. Their motorcycles were sold by dealers in 67 countries. Production was 28,189 machines.

In 1921, a Harley-Davidson, ridden by Otto Walker, was the first motorcycle ever to win a race at an average speed of over 100 mph (160 km/h).

During the 1920s, several improvements were put in place, such as a new 74 cubic inch (1,200 cc) V-Twin, introduced in 1922, and the "Teardrop" gas tank in 1925. A front brake was added in 1928 although notably only on the J/JD models.

In the late summer of 1929, Harley-Davidson introduced its 45 cubic inches (737 cc) flathead V-Twin to compete with the Indian 101 Scout and the Excelsior Super X.[19] This was the "D" model, produced from 1929 to 1931.[20] Riders of Indian motorcycles derisively referred to this model as the "three cylinder Harley" because the generator was upright and parallel to the front cylinder. The 2.745 in (69.7 mm) bore and 3.8125 in (96.8 mm) stroke would continue in most versions of the 750 engine; exceptions include the XA and the XR-750.

FBI Stolen motorcycles

steelhorseshades.com/FBI_Stolen_MC_database.html

Motorcycles VIN Decoder

steelhorseshades.com/VIN_Decoder.html

Got a spin in this Megane RS today. Amazing little machine. This particular one is the only one of it's kind in Ireland at the moment. So getting into it with only 83km on the clock was a bonus!

Hesston Steam Museum

Power and Steam Show 2016

County Road E1000N

La Porte County, Indiana. USA

September 4, 2016

I'm not sure what kind of machine this is. Threshing? Haybaler?

From Wikipedia

The Advance-Rumely Company of La Porte, Indiana was organized in 1915 as a producer of many types of agricultural machinery, most notably threshing machines and large tractors. Advance-Rumely was purchased by Allis-Chalmers Manufacturing Company in 1931, and the company's main works would become what was later known as the "La Porte plant".

Thanks to various mergers and acquisitions, the company's origins stretched as far back as 1836. However, the origin of the two components of the corporate name—Advance Thresher Company and M. Rumely Company—were somewhat newer, though still long-lived in the agricultural equipment industry.

History

Advance Thresher and M. Rumely

Meinrad Rumely emigrated from Germany in 1848, joining his brother John in the operation of a foundry in La Porte, Indiana. This basic operation gradually expanded by 1859 into the production of corn shellers and complete threshing machines powered by horses. Following success in this new field, Meinrad then bought out his brother's portion of the business and incorporated it as the M. Rumely Company by 1887. Starting in 1895, the line expanded to include steam-powered traction engines. Meinrad died in 1904, but his sons continued to manage the business. Rumely's most famous product, the kerosene-powered Rumely Oil Pull traction engine, was first developed in 1909 and began selling to the public by 1910.

Meanwhile, Advance Thresher Company was founded in 1881 with a factory in Battle Creek, Michigan. In addition to their namesake threshing machines, this company was also a prolific producer of steam traction engines.

Media related to Advance traction engines at Wikimedia Commons

Acquisitions and mergers

From 1911-1912, M. Rumely Company began purchasing other firms in the agricultural equipment business. Both Advance Thresher Company and Gaar-Scott & Company were acquired during 1911. Then, in 1912, Rumely expanded further with the purchase of Northwest Thresher Company (out of Stillwater, Minnesota) and the American-Abell Engine and Thresher Company (out of Toronto, Ontario).

All these companies were first reorganized in 1913 as two connected firms: the existing M. Rumely Co. Inc. (effectively the manufacturing side), and the new Rumely Products Co. (the sales and distribution side). A further reorganization brought about the final Advance-Rumely Company by 1915, a move which both streamlined the organization and highlighted its famous forebears. Advance-Rumely hadn't quite finished its expansion goals, either: the Aultman-Taylor Company of Mansfield, Ohio was picked up in 1923.

Consolidation and takeover

Despite all of the history and diversity in engineering acquired along with all of their corporate assets during the 1910s, most of this was left by the wayside as Advance-Rumely sought to fold everything under its new brand name or that of Rumely. The general financial collapse of the Great Depression, beginning in 1929 and carrying on through the early 1930s, began to take its toll on Advance-Rumely.

As early as January 1930, the Rumely management began seeking a buyer for the company. Correspondence with Otto Falk, president of the Allis-Chalmers Manufacturing Company, proved fruitful: Allis-Chalmers agreed to take over the firm and did so by May 1931.

Rumely had already discontinued its traction engine lines in favor of newer-style tractors, but Allis-Chalmers had a line of those that was quite successful. The remaining Rumely-branded tractors were discontinued. Allis-Chalmers was more interested in Advance-Rumely's line of threshing and harvesting machines (not to mention the sprawling plants that built them). Also of interest to Allis-Chalmers was Rumely's extensive dealer network, which was instantly converted to the complete Allis-Chalmers product line. And the "La Porte plant", as Advance-Rumely's main headquarters was now called, became known as the "Harvester Capitol of the World" thanks to its eventual production of Allis-Chalmers' successful All-Crop harvester line.

Allis-Chalmers would eventually succumb to bankruptcy and the dismantling of its vast business interests in 1985, but by that time Advance-Rumely was only a memory.

Products

This is most likely an incomplete list, but is representative of the bulk of Advance-Rumely's production (and that of some of its predecessors). Research is ongoing.

Traction engines and tractors

•Advance Traction Engine (1885–1917)

•Gaar-Scott Traction Engine (1885–1914)

•Rumely DoAll (1928–1932)

•Rumely GasPull (year?)

•Rumely Oil Pull (1910–1930)

•Rumely Six (1930–1931)

•Rumely Traction Engine (1895–1916)

•Rumely Truck (1918-?)

Combine harvesters

Advance-Rumely Number 1 Combine (1925–1929)

•Advance-Rumely Number 2 Combine (1926–1930)

•Advance-Rumely Number 3 Combine (1927–1936; line carried on by Allis-Chalmers after purchase)

•

•Advance-Rumely Number 4 Combine (1928–1929)

Grain processing equipment

Advance-Rumely Corn Sheller (1924–1925)

Rumely Corn Shredder (1901–1928)

Rumely Thresher (1904–1936; line carried on by Allis-Chalmers after purchase)

In addition to these lines, Advance-Rumely also offered stationary engines, silo fillers, water wagons, cream separators, plows, and a line of lubricating oils designed for the company's tractor lines. In addition, there is evidence that the company produced a cargo truck, but data is scarce.

Another horizon machine, this time the Deathbringer.

This was a pretty complex build, mainly due to its ability to spread apart the four top sections to go into overheat mode. The legs are fully articulated, and the foot-pistons can go up and down, but as a consequence they aren’t especially stable.

Scale-wise, this ended up a little smaller than minifig scale, but no worse than the official Tallneck set

cnr Bond/Jetty Sts., The Exchange, Dunedin.

This former warehouse (badly damaged by fire in March 2008) has been given a new lease of life, being refurbished as an apartment complex.

Among Dunedin's warehouses, the Stavely Building is quite elaborate. Standing out for the fine quality of its masonry and unusual use of heraldic ornament and lettering, it was also a very expensive private commercial building, costing £9000 to build in 1879.

The neo-classical building had windows set between pilasters with Corinthian capitals, and large shell-like pediments supported by heraldic dolphins. The shell ornaments (one is still intact on the Jetty St frontage) were a reference to merchant William Stavely's naval background. Stevely (b.1826) originally hailed from Rureagh, County Down, Ireland.

The first occupants of the building were wine merchants William Stavely and Co.

From 1888 onwards, other companies also moved in: these included an agent for the Phoenix Fire Office and Globe Marine Insurance Co.; Rittenberg Waterproof Clothing Factory; and Fotheringham’s offices.

From 1895 into the early C20th., the building housed grain, seed and produce agents Moritzon + Co (originally Moritzon + Hopkin), who installed a grain elevator to connect the basement with the third floor, a cart dock in the cellar and a seed-cleaning machine. This new warehouse/factory was split into offices and salerooms, a dairy produce and fruit department, a storage area for heavy goods, another for oats and agricultural seeds.

After 26 years, Moritzon + Co closed, and this allowed the Co-operative Fruit Growers of Otago Ltd to take up occupancy.

More recently, it was home to The Curtain Maker and the Dunedin School of Ballet.

The building, originally on Dunedin's foreshore, is registered with Heritage NZ as a Cat.II historic place and its facades protected under the district plan.

haha, demolition machine!

this method is called extracorporeal shock wave lithotripsy. it takes about 3000 pulses to destroy an average kidney stone (intensity and amount varies and is determined for each patient / stone).

the machine contains an actual human kidney stone they extracted using surgical means, and you can see it falling into bits and pieces in the video. =)

To complement our exhibit of the ‘Pataphysical Slot Machine at the Mill Valley Library this month, we are offering a range of educational programs. Here are 'Pataphysical Studio members Marshall Smith and Priscilla Wheeler, rehearsing with Fabrice Florin their art lecture on ‘Pataphysics and Alfred Jarry on Oct. 15 — while Natalina Frederick prepares materials for our wonderbox workshop on Oct. 17.

Come see the slot machine this month! Our poetic oracle awaits you every weekend, to share words of wisdom about your life and future.

The exhibit is open from 1 to 5pm every Saturday and Sunday in October, in the downstairs conference room of the Mill Valley Library.

Pataphysical Studio members will be on hand to demo the Slot Machine and share what they have learned while building this interactive art project.

Learn more: pataphysics.us/join-the-unveiling-of-the-slot-machine/

View more photos of the exhibit: www.flickr.com/photos/fabola/albums/72157659147117739

Here's one you probably forgot, an obscure little number based off the Mini to give a more luxurious variant to the popular 10ft machine, this being the Riley Elf, but also badged as the Wolseley Hornet.

For all intents and purposes, the Elf and Hornet were mechanically identical to the Mini, using much of the same driving gear. The car differed however by its trim, engines and length, with the same Mini wheelbase of 6.68ft, but an increased platform to 10.7ft to accommodate a separate boot and for a slightly longer cabin. Both cars were also fitted with huge chrome grilles to make them look less mundane than the Mini and more up-market to appeal for the driver who desired more from their small car. The cars had larger-diameter chrome hubcaps than the Austin and Morris Minis, and additional chrome accents, bumper overriders and wood-veneer dashboards. The Riley was the more expensive of the two cars.

Both the Elf and the Hornet went through three engine versions. Initially, they used the 848cc 34hp engine with a single HS2 carburettor, changing to a single HS2 carburettor 38hp version of the Cooper's 998cc in the 1963 Mark II. This increased the car's top speed from 71 to 77mph.

Both cars were built between 1961 and 1969, with production ending with 30,912 Riley Elfs and 28,455 Wolseley Hornets built. Today these cars have quite a cult following, largely due to their novel size and luxury. A Rolls Royce on a 10ft platform!

Some background:

The Rolls-Royce Griffon engine was designed in answer to Royal Navy specifications for an engine capable of generating good power at low altitudes. Concepts for adapting the Spitfire to take the new engine had begun as far back as October 1939; Joseph Smith felt that "The good big 'un will eventually beat the good little 'un." and Ernest Hives of Rolls-Royce thought that the Griffon would be "a second power string for the Spitfire". The first of the Griffon-engined Spitfires flew on 27 November 1941. Although the Griffon-powered Spitfires were never produced in the large numbers of the Merlin-engined variants they were an important part of the Spitfire family, and in their later versions kept the Spitfire at the forefront of piston-engined fighter development. The first Griffon-powered Spitfires suffered from poor high- altitude performance due to having only a single stage supercharged engine. By 1943, Rolls-Royce engineers had developed a new Griffon engine, the 61 series, with a two-stage supercharger. In the end it was a slightly modified engine, the 65 series, which was used in the Mk. XIV, the first Spitfire mark with a Griffon engine to enter service. The resulting aircraft provided a substantial performance increase over the Mk IX. Although initially based on the Mk VIII airframe, common improvements made in aircraft produced later included the cut-back fuselage and tear-drop canopies, and the E-Type wing with improved armament.

However, following the 14 July Revolution of 1958, which resulted in the end of monarchy in Iraq, the influence of the Iraqi Communist Party grew significantly. The first commander of the Iraqi Air Force (the "Royal" prefix was dropped after the revolution), Jalal Jaffar al-Awqati, was an outspoken communist, and encouraged prime minister Abd al-Karim Qasim to improve relations between Iraq and the USSR. The Soviets reacted quickly, and in the autumn of 1958 a series of arms contracts was passed between Iraq and the Soviet Union and Czechoslovakia. These stipulated the delivery of MiG-15UTI trainers, MiG-17F fighters, Ilyushin Il-28 bombers, and Antonov An-2 and An-12 transports. The first aircraft arrived in Iraq in January 1959; during the late Sixties and the early Seventies additional MiG-17s may have been purchased and then forwarded to either Syria or Egypt.

General characteristics

Crew: 1

Length: 32 ft 8 in (9.96 m)

Wingspan: 36 ft 10 in (11.23 m) with full span elliptical tips

Height: 10 ft 0 in (3.05 m)

Wing area: 242.1 sq ft (22.49 m²)

Airfoil: NACA 2213 (root), NACA 2209.4 (tip)

Empty weight: 6,578 lb (2,984 kg)

Gross weight: 7,923 lb (3,594 kg)

Max. takeoff weight: 8,400[53] lb (3,810 kg)

Powerplant:

1× Rolls-Royce Griffon 65 supercharged V12, 2,050 hp (1,530 kW) at 8,000 ft (2,438 m),

driving a 5-bladed Jablo-Rotol propeller

Performance:

Maximum speed: 441 mph (710 km/h, 383 kn) in FS supercharger gear at 29,500 ft.

391 mph in MS supercharger gear at 5,500 ft.

Combat range: 460 mi (740 km, 400 nmi)

Ferry range: 1,090 mi (1,760 km, 950 nmi)

Service ceiling: 43,500 ft (13,300 m)

Rate of climb: 5,040 ft/min (25.6 m/s) in MS supercharger gear at 2,100 ft.

3,550 ft/min in FS supercharger gear at 22,100 ft.

Time to altitude: 7 mins to 22,000 ft (at max weight)

Wing loading: 32.72 lb/sq ft (159.8 kg/m²)

Power/mass: 0.24

Armament:

2× 20 mm (0.787-in) Hispano Mk II cannon, 120 rpg

4× 0.303 in (7.7 mm) Browning machine guns, 350 rpg,

Underwing hard points for 8× 60 lb (27 kg) rockets, 2 x 250 lb (113 kg) bombs or slipper tanks,

1× ventral hardpoint for a 500 lb (227 kg) bomb or a drop tank

The kit and its assembly:

This was a rather spontaneous interim build. The Academy Spitfire was left over from a D-Day combo that contained a Hawker Typhoon, too, and I lacked an idea for the Spitfire for a long time) since I am not a big fan of the aircraft, at least what-if-inspiration-wise). However, when pondering about a potential operator from the very early pos-war period I remembered the Royal Iraqi Air Force and its later Hawker Hunters which retained their NATO-style camouflage (RAF green/grey) despite being primarily operated in a desert environment. This, on a Spitfire…?

From this idea the Academy Spitfire was built almost OOB. Because the kit offers them as an option and for the cool look, I gave the Spitfire four RPGs under each outer wing. The ventral drop tank was taken from a Special Hobby late Spitfire kit. The only other additions are the antenna mast and the non-standard DF loop antenna behind the cockpit, created from thin wire and mounted on a small, streamlined socket.

Painting and markings:

The upper surfaces were painted in standard RAF WWII colors, Dark Green and Ocean Grey, using a mix of Humbrol 163 and 30 for a slightly more bluish WWII-style green and a mix of 106 and 145 for a lightened grey tone, respectively. As an individual contrast and paint scheme variation the undersides and the spinner were painted in RAF Azure Blue (Humbrol 157, lightened up with 47), more appropriate than the standard WWII Medium Sea Grey from the European theatre of operations. The cockpit interior became RAF cockpit green (Humbro,78) while the inside surfaces of the landing gear were painted in Medium Sea Grey (Humbrol 165), reflecting the original undersides’ tone in former RAF service.

Other markings were minimal. The Iraqi triangles were taken from a Balkan Models Su-25 sheet, because their green was rather pale, for more contrast to the surrounding camouflage. RIrAF fin flash was taken from a PM Model Hawker Fury two-seater (a.k.a. “Bagdad Fury”). The tactical code came from an Airfix Hawker Hunter (from an optional Kuwaiti machine). This looked O.K. but somewhat bleak, so I added more markings. I could not find any evidence for special ID markings on Iraqi aircraft during the Arab-Israel war, but to add an eye-catcher I gave the aircraft white ID bands on the wings and on the fuselage – inspired by markings carried by Egyptian aircraft (e. g. Spitfires) during the conflict, but somewhat simplified, without black trim. They were created from generic white decal sheet material.

After some soot stains around the gun ports and the exhausts, the model was sealed with matt acrylic varnish.

A relatively simple project and just a fictional livery - but the Iraqi Spitfire looks pretty cool, especially the ID stripes add a special touch. The European RAF scheme looks a bit off on an aircraft that would be delivered to the Middel East, but the Iraqi Air Force operated British types like the Hunter in this guise, and later Su-22 fighter bombers carried a similarly murky camouflage in very dark green and earth brown.

The ‘Pataphysical Slot Machine is on exhibit at the Mill Valley Library this month. Visitors to this unique art project seem to really enjoy the experience: their faces tell the whole story in this photo album. Overall, the slot machine seems to have a positive social impact: it makes people happy, gets them inspired -- and can help some of them become art makers.

Come see the slot machine this month! Our poetic oracle awaits you every weekend, to share words of wisdom about your life and future.

The exhibit is open from 1 to 5pm every Saturday and Sunday in October, in the downstairs conference room of the Mill Valley Library.

Pataphysical Studio members will be on hand to demo the Slot Machine and share what they have learned while building this interactive art project.

Learn more: pataphysics.us/join-the-unveiling-of-the-slot-machine

View more photos of the exhibit: www.flickr.com/photos/fabola/albums/72157659147117739

on a small country road in Mauritius - we are in our hired 4x4 with driver, pulled over to the side of the road for him to pass........we did rather than go on a ''planned excursion'' what with me having the wheelchair etc..and 4 of us with out picnic from the hotel !!

As Sugar Cane is probably the largest crop in Mauritius we chatted about it at length.....only on the flat ground where all the stones have been removed can it be harvested by machine, this was still the smaller percentage of crops.

Where the ground is more rough or on slopes and bumpy the machines cannot harvest it so it is still harvested by hand. A very tiring , low paid job......

The same Sugar Cane can be grown for going on for 10 years before it must be replanted and the cycle starts again.

Mauritius - August 2013

SteelHorseShades.Com lightning orange fits engraved fits: Bagger, Street Glide & Batwing

www.steelhorseshades.com

Harley-Davidson Inc (NYSE: HOG, formerly HDI), often abbreviated H-D or Harley, is an American motorcycle manufacturer. Founded in Milwaukee, Wisconsin, during the first decade of the 20th century, it was one of two major American motorcycle manufacturers to survive the Great Depression. Harley-Davidson also survived a period of poor quality control and competition from Japanese manufacturers.

The company sells heavyweight (over 750 cc) motorcycles designed for cruising on highways. Harley-Davidson motorcycles (popularly known as "Harleys") have a distinctive design and exhaust note. They are especially noted for the tradition of heavy customization that gave rise to the chopper style of motorcycle. Except for the modern VRSC model family, current Harley-Davidson motorcycles reflect the styles of classic Harley designs. Harley-Davidson's attempts to establish itself in the light motorcycle market have met with limited success and have largely been abandoned since the 1978 sale of its Italian Aermacchi subsidiary.

Harley-Davidson sustains a loyal brand community which keeps active through clubs, events, and a museum. Licensing of the Harley-Davidson brand and logo accounted for $40 million (0.8%) of the company's net revenue in 2010.

History

BeginningIn 1901, William S. Harley, age 22, drew up plans for a small engine with a displacement of 7.07 cubic inches (116 cc) and four-inch (102 mm) flywheels. The engine was designed for use in a regular pedal-bicycle frame. Over the next two years, Harley and his childhood friend Arthur Davidson labored on their motor-bicycle using the northside Milwaukee machine shop at the home of their friend, Henry Melk. It was finished in 1903 with the help of Arthur's brother, Walter Davidson. Upon completion, the boys found their power-cycle unable to conquer Milwaukee's modest hills without pedal assistance. Will Harley and the Davidsons quickly wrote off their first motor-bicycle as a valuable learning experiment.

Work immediately began on a new and improved second-generation machine. This first "real" Harley-Davidson motorcycle had a bigger engine of 24.74 cubic inches (405 cc) with 9.75 inches (25 cm) flywheels weighing 28 lb (13 kg). The machine's advanced loop-frame pattern was similar to the 1903 Milwaukee Merkel motorcycle (designed by Joseph Merkel, later of Flying Merkel fame). The bigger engine and loop-frame design took it out of the motorized-bicycle category and would help define what a modern motorcycle should contain in the years to come. The boys also received help with their bigger engine from outboard motor pioneer Ole Evinrude, who was then building gas engines of his own design for automotive use on Milwaukee's Lake Street.

Prototype

The prototype of the new loop-frame Harley-Davidson was assembled in a 10 × 15 ft (3.0 × 4.6 m) shed in the Davidson family backyard. Most of the major parts, however, were made elsewhere, including some probably fabricated at the West Milwaukee rail shops where oldest brother William A. Davidson was then tool room foreman. This prototype machine was functional by September 8, 1904, when it competed in a Milwaukee motorcycle race held at State Fair Park. It was ridden by Edward Hildebrand and placed fourth. This is the first documented appearance of a Harley-Davidson motorcycle in the historical record.

In January 1905, small advertisements were placed in the "Automobile and Cycle Trade Journal" that offered bare Harley-Davidson engines to the do-it-yourself trade. By April, complete motorcycles were in production on a very limited basis. That year, the first Harley-Davidson dealer, Carl H. Lang of Chicago, sold three bikes from the dozen or so built in the Davidson backyard shed. (Some years later the original shed was taken to the Juneau Avenue factory where it would stand for many decades as a tribute to the Motor Company's humble origins. Unfortunately, the first shed was accidentally destroyed by contractors in the early 1970s during a clean-up of the factory yard.)

In 1906, Harley and the Davidson brothers built their first factory on Chestnut Street (later Juneau Avenue). This location remains Harley-Davidson's corporate headquarters today. The first Juneau Avenue plant was a 40 × 60 ft (12 × 18 m) single-story wooden structure. The company produced about 50 motorcycles that year.

1907 model.

Harley-Davidson 1,000 cc HT 1916In 1907, William S. Harley graduated from the University of Wisconsin–Madison with a degree in mechanical engineering. That year additional factory expansion came with a second floor and later with facings and additions of Milwaukee pale yellow ("cream") brick. With the new facilities production increased to 150 motorcycles in 1907. The company was officially incorporated that September. They also began selling their motorcycles to police departments around this time, a market that has been important to them ever since.

Production in 1905 and 1906 were all single-cylinder models with 26.84 cubic inches (440 cc) engines. In February 1907 a prototype model with a 45-degree V-Twin engine was displayed at the Chicago Automobile Show. Although shown and advertised, very few V-Twin models were built between 1907 and 1910. These first V-Twins displaced 53.68 cubic inches (880 cc) and produced about 7 horsepower (5.2 kW). This gave about double the power of the first singles. Top speed was about 60 mph (100 km/h). Production jumped from 450 motorcycles in 1908 to 1,149 machines in 1909.

Harley-Davidson works in 1911By 1911, some 150 makes of motorcycles had already been built in the United States – although just a handful would survive the 1910s.

In 1911, an improved V-Twin model was introduced. The new engine had mechanically operated intake valves, as opposed to the "automatic" intake valves used on earlier V-Twins that opened by engine vacuum. With a displacement of 49.48 cubic inches (811 cc), the 1911 V-Twin was smaller than earlier twins, but gave better performance. After 1913 the majority of bikes produced by Harley-Davidson would be V-Twin models.

By 1913, the yellow brick factory had been demolished and on the site a new 5-story structure of reinforced concrete and red brick had been built. Begun in 1910, the red brick factory with its many additions would take up two blocks along Juneau Avenue and around the corner on 38th Street. Despite the competition, Harley-Davidson was already pulling ahead of Indian and would dominate motorcycle racing after 1914. Production that year swelled to 16,284 machines.

World War IIn 1917, the United States entered World War I and the military demanded motorcycles for the war effort. Harleys had already been used by the military in the Pancho Villa Expedition but World War I was the first time the motorcycle had been adopted for combat service.[citation needed] Harley-Davidson provided about 15,000 machines to the military forces during World War I.

1920s

Harley-Davidson 1000 cc HT 1923By 1920, Harley-Davidson was the largest motorcycle manufacturer in the world. Their motorcycles were sold by dealers in 67 countries. Production was 28,189 machines.

In 1921, a Harley-Davidson, ridden by Otto Walker, was the first motorcycle ever to win a race at an average speed of over 100 mph (160 km/h).

During the 1920s, several improvements were put in place, such as a new 74 cubic inch (1,200 cc) V-Twin, introduced in 1922, and the "Teardrop" gas tank in 1925. A front brake was added in 1928 although notably only on the J/JD models.

In the late summer of 1929, Harley-Davidson introduced its 45 cubic inches (737 cc) flathead V-Twin to compete with the Indian 101 Scout and the Excelsior Super X.[19] This was the "D" model, produced from 1929 to 1931.[20] Riders of Indian motorcycles derisively referred to this model as the "three cylinder Harley" because the generator was upright and parallel to the front cylinder. The 2.745 in (69.7 mm) bore and 3.8125 in (96.8 mm) stroke would continue in most versions of the 750 engine; exceptions include the XA and the XR-750.

FBI Stolen motorcycles

steelhorseshades.com/FBI_Stolen_MC_database.html

Motorcycles VIN Decoder

steelhorseshades.com/VIN_Decoder.html

My local Target is pulling out their C-41 machines this month, so I've blasted through my remaining rolls of expired Kodak Gold.

Eira, a female, black and tan hound cross breed has been in the shelter for less than a month. She is about 4 years old. Eira is a quiet girl who is getting used to the volunteers and the interaction that they bring on a daily basis. It is unlikely that she has come across much kindness in her past life and it would appear that Eira has been used as a breeding machine. This medium sized girl is now looking for a loving home.

In a Big War they need a big machine.

This machine are a mix of Bionicle, end Exo Force pieces.

The result ? You are the judge !

Westport, CT

Built by the New York, New Haven & Hartford Railroad, this tower opened for service July 30, 1916. The tower had a machine built by the General Railroad Signal company and had 16 mechanical and 32 automatic levers, making it an electromechanical machine. This machine was one crossover short of being a universal machine; a universal machine eliminated the need for trains to make reverse moves to change tracks.

The tower was put out of service in the early 1960's; it helped to create it's replacement by moving the materials needed to build the Connecticut Turnpike.

The Number "53" in Signal Station 53 refers to the mileage from Grand Central Terminal.

Technical and historical information was supplied by Chiefy, who you can meet most any weekend (May through October hours 12-5 pm) at the Sono Switch Tower Museum, 77 Washington Street, South Norwalk, Connecticut.

www.westctnrhs.org

Some background:

The Rolls-Royce Griffon engine was designed in answer to Royal Navy specifications for an engine capable of generating good power at low altitudes. Concepts for adapting the Spitfire to take the new engine had begun as far back as October 1939; Joseph Smith felt that "The good big 'un will eventually beat the good little 'un." and Ernest Hives of Rolls-Royce thought that the Griffon would be "a second power string for the Spitfire". The first of the Griffon-engined Spitfires flew on 27 November 1941. Although the Griffon-powered Spitfires were never produced in the large numbers of the Merlin-engined variants they were an important part of the Spitfire family, and in their later versions kept the Spitfire at the forefront of piston-engined fighter development. The first Griffon-powered Spitfires suffered from poor high- altitude performance due to having only a single stage supercharged engine. By 1943, Rolls-Royce engineers had developed a new Griffon engine, the 61 series, with a two-stage supercharger. In the end it was a slightly modified engine, the 65 series, which was used in the Mk. XIV, the first Spitfire mark with a Griffon engine to enter service. The resulting aircraft provided a substantial performance increase over the Mk IX. Although initially based on the Mk VIII airframe, common improvements made in aircraft produced later included the cut-back fuselage and tear-drop canopies, and the E-Type wing with improved armament.

However, following the 14 July Revolution of 1958, which resulted in the end of monarchy in Iraq, the influence of the Iraqi Communist Party grew significantly. The first commander of the Iraqi Air Force (the "Royal" prefix was dropped after the revolution), Jalal Jaffar al-Awqati, was an outspoken communist, and encouraged prime minister Abd al-Karim Qasim to improve relations between Iraq and the USSR. The Soviets reacted quickly, and in the autumn of 1958 a series of arms contracts was passed between Iraq and the Soviet Union and Czechoslovakia. These stipulated the delivery of MiG-15UTI trainers, MiG-17F fighters, Ilyushin Il-28 bombers, and Antonov An-2 and An-12 transports. The first aircraft arrived in Iraq in January 1959; during the late Sixties and the early Seventies additional MiG-17s may have been purchased and then forwarded to either Syria or Egypt.

General characteristics

Crew: 1

Length: 32 ft 8 in (9.96 m)

Wingspan: 36 ft 10 in (11.23 m) with full span elliptical tips

Height: 10 ft 0 in (3.05 m)

Wing area: 242.1 sq ft (22.49 m²)

Airfoil: NACA 2213 (root), NACA 2209.4 (tip)

Empty weight: 6,578 lb (2,984 kg)

Gross weight: 7,923 lb (3,594 kg)

Max. takeoff weight: 8,400[53] lb (3,810 kg)

Powerplant:

1× Rolls-Royce Griffon 65 supercharged V12, 2,050 hp (1,530 kW) at 8,000 ft (2,438 m),

driving a 5-bladed Jablo-Rotol propeller

Performance:

Maximum speed: 441 mph (710 km/h, 383 kn) in FS supercharger gear at 29,500 ft.

391 mph in MS supercharger gear at 5,500 ft.

Combat range: 460 mi (740 km, 400 nmi)

Ferry range: 1,090 mi (1,760 km, 950 nmi)

Service ceiling: 43,500 ft (13,300 m)

Rate of climb: 5,040 ft/min (25.6 m/s) in MS supercharger gear at 2,100 ft.

3,550 ft/min in FS supercharger gear at 22,100 ft.

Time to altitude: 7 mins to 22,000 ft (at max weight)

Wing loading: 32.72 lb/sq ft (159.8 kg/m²)

Power/mass: 0.24

Armament:

2× 20 mm (0.787-in) Hispano Mk II cannon, 120 rpg

4× 0.303 in (7.7 mm) Browning machine guns, 350 rpg,

Underwing hard points for 8× 60 lb (27 kg) rockets, 2 x 250 lb (113 kg) bombs or slipper tanks,

1× ventral hardpoint for a 500 lb (227 kg) bomb or a drop tank

The kit and its assembly:

This was a rather spontaneous interim build. The Academy Spitfire was left over from a D-Day combo that contained a Hawker Typhoon, too, and I lacked an idea for the Spitfire for a long time) since I am not a big fan of the aircraft, at least what-if-inspiration-wise). However, when pondering about a potential operator from the very early pos-war period I remembered the Royal Iraqi Air Force and its later Hawker Hunters which retained their NATO-style camouflage (RAF green/grey) despite being primarily operated in a desert environment. This, on a Spitfire…?

From this idea the Academy Spitfire was built almost OOB. Because the kit offers them as an option and for the cool look, I gave the Spitfire four RPGs under each outer wing. The ventral drop tank was taken from a Special Hobby late Spitfire kit. The only other additions are the antenna mast and the non-standard DF loop antenna behind the cockpit, created from thin wire and mounted on a small, streamlined socket.

Painting and markings:

The upper surfaces were painted in standard RAF WWII colors, Dark Green and Ocean Grey, using a mix of Humbrol 163 and 30 for a slightly more bluish WWII-style green and a mix of 106 and 145 for a lightened grey tone, respectively. As an individual contrast and paint scheme variation the undersides and the spinner were painted in RAF Azure Blue (Humbrol 157, lightened up with 47), more appropriate than the standard WWII Medium Sea Grey from the European theatre of operations. The cockpit interior became RAF cockpit green (Humbro,78) while the inside surfaces of the landing gear were painted in Medium Sea Grey (Humbrol 165), reflecting the original undersides’ tone in former RAF service.

Other markings were minimal. The Iraqi triangles were taken from a Balkan Models Su-25 sheet, because their green was rather pale, for more contrast to the surrounding camouflage. RIrAF fin flash was taken from a PM Model Hawker Fury two-seater (a.k.a. “Bagdad Fury”). The tactical code came from an Airfix Hawker Hunter (from an optional Kuwaiti machine). This looked O.K. but somewhat bleak, so I added more markings. I could not find any evidence for special ID markings on Iraqi aircraft during the Arab-Israel war, but to add an eye-catcher I gave the aircraft white ID bands on the wings and on the fuselage – inspired by markings carried by Egyptian aircraft (e. g. Spitfires) during the conflict, but somewhat simplified, without black trim. They were created from generic white decal sheet material.

After some soot stains around the gun ports and the exhausts, the model was sealed with matt acrylic varnish.

A relatively simple project and just a fictional livery - but the Iraqi Spitfire looks pretty cool, especially the ID stripes add a special touch. The European RAF scheme looks a bit off on an aircraft that would be delivered to the Middel East, but the Iraqi Air Force operated British types like the Hunter in this guise, and later Su-22 fighter bombers carried a similarly murky camouflage in very dark green and earth brown.

Photos by Kevin Kohls who helped remove the machine. This shows the machine after the tower closed but before removal.

Some background:

The Rolls-Royce Griffon engine was designed in answer to Royal Navy specifications for an engine capable of generating good power at low altitudes. Concepts for adapting the Spitfire to take the new engine had begun as far back as October 1939; Joseph Smith felt that "The good big 'un will eventually beat the good little 'un." and Ernest Hives of Rolls-Royce thought that the Griffon would be "a second power string for the Spitfire". The first of the Griffon-engined Spitfires flew on 27 November 1941. Although the Griffon-powered Spitfires were never produced in the large numbers of the Merlin-engined variants they were an important part of the Spitfire family, and in their later versions kept the Spitfire at the forefront of piston-engined fighter development. The first Griffon-powered Spitfires suffered from poor high- altitude performance due to having only a single stage supercharged engine. By 1943, Rolls-Royce engineers had developed a new Griffon engine, the 61 series, with a two-stage supercharger. In the end it was a slightly modified engine, the 65 series, which was used in the Mk. XIV, the first Spitfire mark with a Griffon engine to enter service. The resulting aircraft provided a substantial performance increase over the Mk IX. Although initially based on the Mk VIII airframe, common improvements made in aircraft produced later included the cut-back fuselage and tear-drop canopies, and the E-Type wing with improved armament.

However, following the 14 July Revolution of 1958, which resulted in the end of monarchy in Iraq, the influence of the Iraqi Communist Party grew significantly. The first commander of the Iraqi Air Force (the "Royal" prefix was dropped after the revolution), Jalal Jaffar al-Awqati, was an outspoken communist, and encouraged prime minister Abd al-Karim Qasim to improve relations between Iraq and the USSR. The Soviets reacted quickly, and in the autumn of 1958 a series of arms contracts was passed between Iraq and the Soviet Union and Czechoslovakia. These stipulated the delivery of MiG-15UTI trainers, MiG-17F fighters, Ilyushin Il-28 bombers, and Antonov An-2 and An-12 transports. The first aircraft arrived in Iraq in January 1959; during the late Sixties and the early Seventies additional MiG-17s may have been purchased and then forwarded to either Syria or Egypt.

General characteristics

Crew: 1

Length: 32 ft 8 in (9.96 m)

Wingspan: 36 ft 10 in (11.23 m) with full span elliptical tips

Height: 10 ft 0 in (3.05 m)

Wing area: 242.1 sq ft (22.49 m²)

Airfoil: NACA 2213 (root), NACA 2209.4 (tip)

Empty weight: 6,578 lb (2,984 kg)

Gross weight: 7,923 lb (3,594 kg)

Max. takeoff weight: 8,400[53] lb (3,810 kg)

Powerplant:

1× Rolls-Royce Griffon 65 supercharged V12, 2,050 hp (1,530 kW) at 8,000 ft (2,438 m),

driving a 5-bladed Jablo-Rotol propeller

Performance:

Maximum speed: 441 mph (710 km/h, 383 kn) in FS supercharger gear at 29,500 ft.

391 mph in MS supercharger gear at 5,500 ft.

Combat range: 460 mi (740 km, 400 nmi)

Ferry range: 1,090 mi (1,760 km, 950 nmi)

Service ceiling: 43,500 ft (13,300 m)

Rate of climb: 5,040 ft/min (25.6 m/s) in MS supercharger gear at 2,100 ft.

3,550 ft/min in FS supercharger gear at 22,100 ft.

Time to altitude: 7 mins to 22,000 ft (at max weight)

Wing loading: 32.72 lb/sq ft (159.8 kg/m²)

Power/mass: 0.24

Armament:

2× 20 mm (0.787-in) Hispano Mk II cannon, 120 rpg

4× 0.303 in (7.7 mm) Browning machine guns, 350 rpg,

Underwing hard points for 8× 60 lb (27 kg) rockets, 2 x 250 lb (113 kg) bombs or slipper tanks,

1× ventral hardpoint for a 500 lb (227 kg) bomb or a drop tank

The kit and its assembly:

This was a rather spontaneous interim build. The Academy Spitfire was left over from a D-Day combo that contained a Hawker Typhoon, too, and I lacked an idea for the Spitfire for a long time) since I am not a big fan of the aircraft, at least what-if-inspiration-wise). However, when pondering about a potential operator from the very early pos-war period I remembered the Royal Iraqi Air Force and its later Hawker Hunters which retained their NATO-style camouflage (RAF green/grey) despite being primarily operated in a desert environment. This, on a Spitfire…?

From this idea the Academy Spitfire was built almost OOB. Because the kit offers them as an option and for the cool look, I gave the Spitfire four RPGs under each outer wing. The ventral drop tank was taken from a Special Hobby late Spitfire kit. The only other additions are the antenna mast and the non-standard DF loop antenna behind the cockpit, created from thin wire and mounted on a small, streamlined socket.

Painting and markings:

The upper surfaces were painted in standard RAF WWII colors, Dark Green and Ocean Grey, using a mix of Humbrol 163 and 30 for a slightly more bluish WWII-style green and a mix of 106 and 145 for a lightened grey tone, respectively. As an individual contrast and paint scheme variation the undersides and the spinner were painted in RAF Azure Blue (Humbrol 157, lightened up with 47), more appropriate than the standard WWII Medium Sea Grey from the European theatre of operations. The cockpit interior became RAF cockpit green (Humbro,78) while the inside surfaces of the landing gear were painted in Medium Sea Grey (Humbrol 165), reflecting the original undersides’ tone in former RAF service.

Other markings were minimal. The Iraqi triangles were taken from a Balkan Models Su-25 sheet, because their green was rather pale, for more contrast to the surrounding camouflage. RIrAF fin flash was taken from a PM Model Hawker Fury two-seater (a.k.a. “Bagdad Fury”). The tactical code came from an Airfix Hawker Hunter (from an optional Kuwaiti machine). This looked O.K. but somewhat bleak, so I added more markings. I could not find any evidence for special ID markings on Iraqi aircraft during the Arab-Israel war, but to add an eye-catcher I gave the aircraft white ID bands on the wings and on the fuselage – inspired by markings carried by Egyptian aircraft (e. g. Spitfires) during the conflict, but somewhat simplified, without black trim. They were created from generic white decal sheet material.

After some soot stains around the gun ports and the exhausts, the model was sealed with matt acrylic varnish.

A relatively simple project and just a fictional livery - but the Iraqi Spitfire looks pretty cool, especially the ID stripes add a special touch. The European RAF scheme looks a bit off on an aircraft that would be delivered to the Middel East, but the Iraqi Air Force operated British types like the Hunter in this guise, and later Su-22 fighter bombers carried a similarly murky camouflage in very dark green and earth brown.

Tyson Lamb, Lamb Crafted – Haas logo coaster, download the Solidworks part file to machine this yourself: bit.ly/2gXTdEe

Some background:

The Rolls-Royce Griffon engine was designed in answer to Royal Navy specifications for an engine capable of generating good power at low altitudes. Concepts for adapting the Spitfire to take the new engine had begun as far back as October 1939; Joseph Smith felt that "The good big 'un will eventually beat the good little 'un." and Ernest Hives of Rolls-Royce thought that the Griffon would be "a second power string for the Spitfire". The first of the Griffon-engined Spitfires flew on 27 November 1941. Although the Griffon-powered Spitfires were never produced in the large numbers of the Merlin-engined variants they were an important part of the Spitfire family, and in their later versions kept the Spitfire at the forefront of piston-engined fighter development. The first Griffon-powered Spitfires suffered from poor high- altitude performance due to having only a single stage supercharged engine. By 1943, Rolls-Royce engineers had developed a new Griffon engine, the 61 series, with a two-stage supercharger. In the end it was a slightly modified engine, the 65 series, which was used in the Mk. XIV, the first Spitfire mark with a Griffon engine to enter service. The resulting aircraft provided a substantial performance increase over the Mk IX. Although initially based on the Mk VIII airframe, common improvements made in aircraft produced later included the cut-back fuselage and tear-drop canopies, and the E-Type wing with improved armament.

However, following the 14 July Revolution of 1958, which resulted in the end of monarchy in Iraq, the influence of the Iraqi Communist Party grew significantly. The first commander of the Iraqi Air Force (the "Royal" prefix was dropped after the revolution), Jalal Jaffar al-Awqati, was an outspoken communist, and encouraged prime minister Abd al-Karim Qasim to improve relations between Iraq and the USSR. The Soviets reacted quickly, and in the autumn of 1958 a series of arms contracts was passed between Iraq and the Soviet Union and Czechoslovakia. These stipulated the delivery of MiG-15UTI trainers, MiG-17F fighters, Ilyushin Il-28 bombers, and Antonov An-2 and An-12 transports. The first aircraft arrived in Iraq in January 1959; during the late Sixties and the early Seventies additional MiG-17s may have been purchased and then forwarded to either Syria or Egypt.

General characteristics

Crew: 1

Length: 32 ft 8 in (9.96 m)

Wingspan: 36 ft 10 in (11.23 m) with full span elliptical tips

Height: 10 ft 0 in (3.05 m)

Wing area: 242.1 sq ft (22.49 m²)

Airfoil: NACA 2213 (root), NACA 2209.4 (tip)

Empty weight: 6,578 lb (2,984 kg)

Gross weight: 7,923 lb (3,594 kg)

Max. takeoff weight: 8,400[53] lb (3,810 kg)

Powerplant:

1× Rolls-Royce Griffon 65 supercharged V12, 2,050 hp (1,530 kW) at 8,000 ft (2,438 m),

driving a 5-bladed Jablo-Rotol propeller

Performance:

Maximum speed: 441 mph (710 km/h, 383 kn) in FS supercharger gear at 29,500 ft.

391 mph in MS supercharger gear at 5,500 ft.

Combat range: 460 mi (740 km, 400 nmi)

Ferry range: 1,090 mi (1,760 km, 950 nmi)

Service ceiling: 43,500 ft (13,300 m)

Rate of climb: 5,040 ft/min (25.6 m/s) in MS supercharger gear at 2,100 ft.

3,550 ft/min in FS supercharger gear at 22,100 ft.

Time to altitude: 7 mins to 22,000 ft (at max weight)

Wing loading: 32.72 lb/sq ft (159.8 kg/m²)

Power/mass: 0.24

Armament:

2× 20 mm (0.787-in) Hispano Mk II cannon, 120 rpg

4× 0.303 in (7.7 mm) Browning machine guns, 350 rpg,

Underwing hard points for 8× 60 lb (27 kg) rockets, 2 x 250 lb (113 kg) bombs or slipper tanks,

1× ventral hardpoint for a 500 lb (227 kg) bomb or a drop tank

The kit and its assembly:

This was a rather spontaneous interim build. The Academy Spitfire was left over from a D-Day combo that contained a Hawker Typhoon, too, and I lacked an idea for the Spitfire for a long time) since I am not a big fan of the aircraft, at least what-if-inspiration-wise). However, when pondering about a potential operator from the very early pos-war period I remembered the Royal Iraqi Air Force and its later Hawker Hunters which retained their NATO-style camouflage (RAF green/grey) despite being primarily operated in a desert environment. This, on a Spitfire…?

From this idea the Academy Spitfire was built almost OOB. Because the kit offers them as an option and for the cool look, I gave the Spitfire four RPGs under each outer wing. The ventral drop tank was taken from a Special Hobby late Spitfire kit. The only other additions are the antenna mast and the non-standard DF loop antenna behind the cockpit, created from thin wire and mounted on a small, streamlined socket.

Painting and markings:

The upper surfaces were painted in standard RAF WWII colors, Dark Green and Ocean Grey, using a mix of Humbrol 163 and 30 for a slightly more bluish WWII-style green and a mix of 106 and 145 for a lightened grey tone, respectively. As an individual contrast and paint scheme variation the undersides and the spinner were painted in RAF Azure Blue (Humbrol 157, lightened up with 47), more appropriate than the standard WWII Medium Sea Grey from the European theatre of operations. The cockpit interior became RAF cockpit green (Humbro,78) while the inside surfaces of the landing gear were painted in Medium Sea Grey (Humbrol 165), reflecting the original undersides’ tone in former RAF service.

Other markings were minimal. The Iraqi triangles were taken from a Balkan Models Su-25 sheet, because their green was rather pale, for more contrast to the surrounding camouflage. RIrAF fin flash was taken from a PM Model Hawker Fury two-seater (a.k.a. “Bagdad Fury”). The tactical code came from an Airfix Hawker Hunter (from an optional Kuwaiti machine). This looked O.K. but somewhat bleak, so I added more markings. I could not find any evidence for special ID markings on Iraqi aircraft during the Arab-Israel war, but to add an eye-catcher I gave the aircraft white ID bands on the wings and on the fuselage – inspired by markings carried by Egyptian aircraft (e. g. Spitfires) during the conflict, but somewhat simplified, without black trim. They were created from generic white decal sheet material.

After some soot stains around the gun ports and the exhausts, the model was sealed with matt acrylic varnish.

A relatively simple project and just a fictional livery - but the Iraqi Spitfire looks pretty cool, especially the ID stripes add a special touch. The European RAF scheme looks a bit off on an aircraft that would be delivered to the Middel East, but the Iraqi Air Force operated British types like the Hunter in this guise, and later Su-22 fighter bombers carried a similarly murky camouflage in very dark green and earth brown.