Brrrrrrr!!!

A crew member drags a simulated casualty to safety during a damage control exercise aboard HMCS HARRY DEWOLF in Conception Bay, Newfoundland and Labrador during Cold Weather Trials on February 28, 2021.

Photo by Corporal David Veldman, Canadian Armed Forces Photo 20210228HSK0086D171

Un membre d’équipage traîne une victime simulée en lieu sûr lors d’un exercice de lutte contre les avaries à bord du NCSM HARRY DEWOLF, dans la baie Conception, à Terre Neuve et Labrador, lors des essais par temps froid, le 28 février 2021.

Photo : Caporal David Veldman, Forces armées canadiennes 20210228HSK0086D171

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Lieutenant(N) Shane Kavanagh, Naval Technical Officer, records ice measurements alongside HMCS HARRY DEWOLF during Cold Weather Trials near Frobisher Bay on February 20, 2021.

Photo by Corporal David Veldman, Canadian Armed Forces Photo 20210220HSK0086D121

Le lieutenant de vaisseau Shane Kavanagh, officier de marine du service technique, consigne les mesures relatives à la glace à proximité du NCSM HARRY DEWOLF lors des essais par temps froid près de la baie Frobisher, le 20 février 2021.

Photo : Caporal David Veldman, Forces armées canadiennes 20210220HSK0086D121

Hospital Corpsman 3rd Class Lauren Dimaria, assigned to Branch Health Clinic (BHC) Everett was lauded for her performance(s) during training at the Cold Weather Medicine Course at Marine Corps Mountain Warfare Training Center (MCMWTC) in Bridgeport, Calif., Jan. 28, 2020. The course was 23 days of intensive training that required a hospital corpsman participating to train in providing direct medical care as well as mountain rescue skills in freezing elements of MCMWTC with training elevation ranging from 6,800 feet to approximately 11,500 feet above sea level in the Humboldt-Toiyabe National Forest. The winters are severe, and trainees like Dimaria typically have to deal with maneuvering over six to eight feet of snowpack. She was the only female in her training group, and received a United States Marine Corps Certificate of Commendation for her distinction as the course’s honor graduate by scoring a 92 percent on the written exam and completing all of her hands-on training on the first attempt (Courtesy image).

See www.dvidshub.net/news/364719/fighting-frost-bhc-everett-s...

Kmart at the Palm Plaza in Temecula has reached the end of the line and is currently working on closing down, this is a small look at the store's closing sale

Small leather goods and cold weather apparel were still up for sale at this Kmart

Caution advised - Cold weather training can lead to cold weather injuries. (Jan. 1987) Photo courtesy of Schweinfurt PAO Crusader

The An-2 is used as a light utility transport, parachute drop aircraft, agricultural work and many other tasks suited to this large slow-flying biplane. Its slow flight and good short field performance make it suited for short, unimproved fields, and some specialized variants have also been built for cold weather and other extreme environments. The Guinness Book of World Records states that the 45-year production run for the An-2 was for a time the longest ever, for any aircraft, but it was recently exceeded by the Lockheed C-130 Hercules.[1]

The Antonov An-2 was designed to meet a 1947 Soviet Ministry of Forestry requirement for a replacement for the Polikarpov Po-2, which was used in large numbers in both agricultural and utility roles. Antonov designed a large single bay biplane of all-metal construction, with an enclosed cockpit and a cabin with room for seats accommodating twelve passengers. The first prototype, designated SKh-1 and powered by a Shvetsov ASh-21 radial engine, flew on 31 August 1947. The second prototype was fitted with a more powerful Shvetsov ASh-62 engine, which allowed the aircraft's payload to be significantly increased from 1,300 kg (2,870 lb) to 2,140 kg (4,720 lb), and in this form it was ordered into production.[7]

Initial Soviet production was at State Factory 473 in Kiev, Ukrainian SSR where the bulk of up to 5,000 units had been produced by 1960. Later Soviet production (after 1965, of model An-2M especially) was at State Factory 464 at Dolgoprudniy, Russian SFSR. After 1960, however, most An-2s were been built at Poland's WSK factory in Mielec, with over 13,000 made there before full production ended in 1991. Limited production from parts stocks, as well as spares and maintenance coverage continued until 2001, when four aircraft were produced for Vietnam.[8] China also builds the An-2 under licence as the Shijiazhuang Y-5.[1] It has been occasionally and erroneously reported that there was East German production of the An-2. While An-2s were extensively refurbished in East Germany, there were no new aircraft built there.

The An-2 was designed as a utility aircraft for use in forestry and agriculture. However, the basic airframe is highly adaptable and numerous variants have been developed. These include hopper-equipped versions for crop-dusting, scientific versions for atmospheric sampling, water-bombers for fighting forest-fires, flying ambulances, float-equipped seaplane versions and lightly armed combat versions for dropping paratroops.[9] The most common version is the An-2T 12-seater passenger aircraft. All versions (other than the An-3) are powered by a 750 kW (1,000 hp) nine-cylinder Shvetsov ASh-62 radial engine, which was developed from the Wright R-1820.[1] It uses 43 gallons of avgas per hour.[9]

An-2 on skis at Volosovo air field, Moscow region

An-2 at Grand Junction aviation show.

The An-2 has design features which make it suitable for operation in remote areas with unsurfaced airstrips:

It has a pneumatic brake system (similar to those used on heavy road vehicles) to stop on short runways.[1]

It has an air line fitted to the compressor, so the pressure in the tires and shock absorbers can be adjusted without the need for special equipment.[1]

The batteries are large and easy to remove, so the aircraft does not need a ground power unit to supply power.[1]

There is no need for an external fuel pump to refuel the aircraft, as it has an onboard pump that allows the tanks to be filled from simple fuel drums.[1]

It has a minimum of complex systems. The crucial wing leading edge slats that give the aircraft its slow flight ability are fully automatic, being held closed by the airflow over the wings. Once the airspeed drops below 64 km/h (40 mph), the slats will extend because they are on elastic rubber springs.[1]

Take-off run: 170 m, landing run: 215 m (these numbers will of course vary depending on take-off/landing weight, outside air temperature, surface roughness, and headwind).[1]

Antonov An-2 (An2-TP)

A note from the pilot's handbook reads: "If the engine quits in instrument conditions or at night, the pilot should pull the control column full aft and keep the wings level. The leading-edge slats will snap out at about 64 km/h (40 mph) and when the airplane slows to a forward speed of about 40 km/h (25 mph), the airplane will sink at about a parachute descent rate until the aircraft hits the ground." [1]

The An-2 indeed has no stall speed quoted in the operating handbook. Pilots of the An-2 say one can fly the aircraft in full control at 30 mph (as a contrast, a modern Cessna four-seater light aircraft has a stall speed of around 50 mph). This slow stall speed makes it possible for the aircraft to fly backwards (if the aircraft is pointed into a headwind of, say, 35 mph (56 km/h), it will travel backwards at 5 mph (8.0 km/h) whilst under full control). (This is also possible with almost any other true Short Take Off and Landing (STOL) aircraft, but the Antonov has the distinction of being able to do the trick in the mildest headwind.)[1]

Closeup on a private An-2TP

Since the collapse of the Soviet Union and the Eastern European communist states, most airlines in these areas have been withdrawing their An-2s from service, as some of these aircraft are now over 40 years old and the production of avgas had decreased.[9] Private operators are still using the planes, as their stability, capacity and slow-flying ability make them very popular, for instance for skydiving.[1][9]

In the early 1980s Antonov experimented with a development of the An-2 powered by a modern turboprop engine. The unit used was a 1,450 horsepower (1,080 kW) Glushenkov engine and aircraft fitted with this engine were fitted with a longer, more streamlined nose to accommodate it. See Antonov An-3 article for more information.[1]

In 2013 Antonov announced that it had successfully flown for the first time a new version of the An-2 dubbed the An-2-100 fitted with a 3-blade reversible propeller and a 1500 shp Motor Sich MS-14 turboprop running on kerosene rather than Avgas which is no longer produced in CIS countries.[10]

Whilst their high noise levels, increasing maintenance costs, high fuel consumption[9] and unsophisticated nature (the pre-flight checks alone take between 30 and 40 minutes) make them obsolete for commercial service in Europe, the large number of aircraft available means that prices are low (from as little as US$30,000 for a serviceable example). This makes them ideal for the developing world, where their ability to carry large loads into short airstrips makes them assets to airlines on a budget. Many ex-Aeroflot An-2s work as regional airliners in Africa, Central and South America, Cuba and southeast Asia.[1]

Ukrainian Hryvna depicting the An-2 airplane

North Korea has a number of the aircraft with[11] wooden propellers and canvas wings on their variants (the Y-5 version licence-built in China) giving them a low radar cross-section and therefore a limited degree of "stealth".[12] In a war they could possibly be used to parachute or deliver special forces troops behind enemy lines for sabotage operations.[1]

The An-2's ability, looks and flying characteristics, and its status as one of the world's biggest single-engined production biplanes, mean that demand for the An-2 is increasing in Western Europe and the United States, where they are prized by collectors of classic aircraft, making it an increasingly common sight at airshows. However, many western countries prohibit the use of the An-2 commercially because the aircraft has not been certified by the relevant national aviation authorities. These restrictions vary by country, but all prevent the An-2 being used for any 'for profit' purpose, with the exception of the United States, where An-2s imported since 1993 are limited to experimental certification & Title 14 Code of Federal Regulations, Part 21.191,21.193,21.195,91.313,91.319,[9] but PZL-built An-2s are exempt from this restriction due to a bilateral agreement with Poland.[1]

Modernization and refitting projects[edit]

In 2013, Antonov received orders for upgrading "hundreds" of the An-2 planes still in operation in Azerbaijan, Cuba and Russia to the An-2-100 upgrade version.[4]

The Siberian Research Institute of Aviation (SIBNIA) has test flown a highly modified Antonov An-2 with carbonfibre winglet-like braces and carbonfibre wing structures. This is to demonstrate the aerodynamic and structural changes planned for an An-2 replacement, Sukhoi has announced on 10 June 2015. The aircraft was equipped with a five-bladed turboprop engine, most probably the Honeywell TPE331 already installed on a modernized version of the An-2 that entered service in 2014. The autoclave-cured carbonfibre composite materials – including wing panels, spars and ribs – were produced by the Novosibirsk Aviation Plant. Sukhoi says the design change improved the speed of the An-2 by 50%, and testing also has shown the minimum flying speed of the aircraft is “close to zero”.

it has been raining here for awhile and been busy with work lately haven't got enough time to take photos and to catch up to everyone's posts :( sorry~

cos of the dark weather my camera set itself on a blue setting ~_~

but surprisingly i like how it turned out :D

(2008)

The An-2 is used as a light utility transport, parachute drop aircraft, agricultural work and many other tasks suited to this large slow-flying biplane. Its slow flight and good short field performance make it suited for short, unimproved fields, and some specialized variants have also been built for cold weather and other extreme environments. The Guinness Book of World Records states that the 45-year production run for the An-2 was for a time the longest ever, for any aircraft, but it was recently exceeded by the Lockheed C-130 Hercules.[1]

The Antonov An-2 was designed to meet a 1947 Soviet Ministry of Forestry requirement for a replacement for the Polikarpov Po-2, which was used in large numbers in both agricultural and utility roles. Antonov designed a large single bay biplane of all-metal construction, with an enclosed cockpit and a cabin with room for seats accommodating twelve passengers. The first prototype, designated SKh-1 and powered by a Shvetsov ASh-21 radial engine, flew on 31 August 1947. The second prototype was fitted with a more powerful Shvetsov ASh-62 engine, which allowed the aircraft's payload to be significantly increased from 1,300 kg (2,870 lb) to 2,140 kg (4,720 lb), and in this form it was ordered into production.[7]

Initial Soviet production was at State Factory 473 in Kiev, Ukrainian SSR where the bulk of up to 5,000 units had been produced by 1960. Later Soviet production (after 1965, of model An-2M especially) was at State Factory 464 at Dolgoprudniy, Russian SFSR. After 1960, however, most An-2s were been built at Poland's WSK factory in Mielec, with over 13,000 made there before full production ended in 1991. Limited production from parts stocks, as well as spares and maintenance coverage continued until 2001, when four aircraft were produced for Vietnam.[8] China also builds the An-2 under licence as the Shijiazhuang Y-5.[1] It has been occasionally and erroneously reported that there was East German production of the An-2. While An-2s were extensively refurbished in East Germany, there were no new aircraft built there.

The An-2 was designed as a utility aircraft for use in forestry and agriculture. However, the basic airframe is highly adaptable and numerous variants have been developed. These include hopper-equipped versions for crop-dusting, scientific versions for atmospheric sampling, water-bombers for fighting forest-fires, flying ambulances, float-equipped seaplane versions and lightly armed combat versions for dropping paratroops.[9] The most common version is the An-2T 12-seater passenger aircraft. All versions (other than the An-3) are powered by a 750 kW (1,000 hp) nine-cylinder Shvetsov ASh-62 radial engine, which was developed from the Wright R-1820.[1] It uses 43 gallons of avgas per hour.[9]

An-2 on skis at Volosovo air field, Moscow region

An-2 at Grand Junction aviation show.

The An-2 has design features which make it suitable for operation in remote areas with unsurfaced airstrips:

It has a pneumatic brake system (similar to those used on heavy road vehicles) to stop on short runways.[1]

It has an air line fitted to the compressor, so the pressure in the tires and shock absorbers can be adjusted without the need for special equipment.[1]

The batteries are large and easy to remove, so the aircraft does not need a ground power unit to supply power.[1]

There is no need for an external fuel pump to refuel the aircraft, as it has an onboard pump that allows the tanks to be filled from simple fuel drums.[1]

It has a minimum of complex systems. The crucial wing leading edge slats that give the aircraft its slow flight ability are fully automatic, being held closed by the airflow over the wings. Once the airspeed drops below 64 km/h (40 mph), the slats will extend because they are on elastic rubber springs.[1]

Take-off run: 170 m, landing run: 215 m (these numbers will of course vary depending on take-off/landing weight, outside air temperature, surface roughness, and headwind).[1]

Antonov An-2 (An2-TP)

A note from the pilot's handbook reads: "If the engine quits in instrument conditions or at night, the pilot should pull the control column full aft and keep the wings level. The leading-edge slats will snap out at about 64 km/h (40 mph) and when the airplane slows to a forward speed of about 40 km/h (25 mph), the airplane will sink at about a parachute descent rate until the aircraft hits the ground." [1]

The An-2 indeed has no stall speed quoted in the operating handbook. Pilots of the An-2 say one can fly the aircraft in full control at 30 mph (as a contrast, a modern Cessna four-seater light aircraft has a stall speed of around 50 mph). This slow stall speed makes it possible for the aircraft to fly backwards (if the aircraft is pointed into a headwind of, say, 35 mph (56 km/h), it will travel backwards at 5 mph (8.0 km/h) whilst under full control). (This is also possible with almost any other true Short Take Off and Landing (STOL) aircraft, but the Antonov has the distinction of being able to do the trick in the mildest headwind.)[1]

Closeup on a private An-2TP

Since the collapse of the Soviet Union and the Eastern European communist states, most airlines in these areas have been withdrawing their An-2s from service, as some of these aircraft are now over 40 years old and the production of avgas had decreased.[9] Private operators are still using the planes, as their stability, capacity and slow-flying ability make them very popular, for instance for skydiving.[1][9]

In the early 1980s Antonov experimented with a development of the An-2 powered by a modern turboprop engine. The unit used was a 1,450 horsepower (1,080 kW) Glushenkov engine and aircraft fitted with this engine were fitted with a longer, more streamlined nose to accommodate it. See Antonov An-3 article for more information.[1]

In 2013 Antonov announced that it had successfully flown for the first time a new version of the An-2 dubbed the An-2-100 fitted with a 3-blade reversible propeller and a 1500 shp Motor Sich MS-14 turboprop running on kerosene rather than Avgas which is no longer produced in CIS countries.[10]

Whilst their high noise levels, increasing maintenance costs, high fuel consumption[9] and unsophisticated nature (the pre-flight checks alone take between 30 and 40 minutes) make them obsolete for commercial service in Europe, the large number of aircraft available means that prices are low (from as little as US$30,000 for a serviceable example). This makes them ideal for the developing world, where their ability to carry large loads into short airstrips makes them assets to airlines on a budget. Many ex-Aeroflot An-2s work as regional airliners in Africa, Central and South America, Cuba and southeast Asia.[1]

Ukrainian Hryvna depicting the An-2 airplane

North Korea has a number of the aircraft with[11] wooden propellers and canvas wings on their variants (the Y-5 version licence-built in China) giving them a low radar cross-section and therefore a limited degree of "stealth".[12] In a war they could possibly be used to parachute or deliver special forces troops behind enemy lines for sabotage operations.[1]

The An-2's ability, looks and flying characteristics, and its status as one of the world's biggest single-engined production biplanes, mean that demand for the An-2 is increasing in Western Europe and the United States, where they are prized by collectors of classic aircraft, making it an increasingly common sight at airshows. However, many western countries prohibit the use of the An-2 commercially because the aircraft has not been certified by the relevant national aviation authorities. These restrictions vary by country, but all prevent the An-2 being used for any 'for profit' purpose, with the exception of the United States, where An-2s imported since 1993 are limited to experimental certification & Title 14 Code of Federal Regulations, Part 21.191,21.193,21.195,91.313,91.319,[9] but PZL-built An-2s are exempt from this restriction due to a bilateral agreement with Poland.[1]

Modernization and refitting projects[edit]

In 2013, Antonov received orders for upgrading "hundreds" of the An-2 planes still in operation in Azerbaijan, Cuba and Russia to the An-2-100 upgrade version.[4]

The Siberian Research Institute of Aviation (SIBNIA) has test flown a highly modified Antonov An-2 with carbonfibre winglet-like braces and carbonfibre wing structures. This is to demonstrate the aerodynamic and structural changes planned for an An-2 replacement, Sukhoi has announced on 10 June 2015. The aircraft was equipped with a five-bladed turboprop engine, most probably the Honeywell TPE331 already installed on a modernized version of the An-2 that entered service in 2014. The autoclave-cured carbonfibre composite materials – including wing panels, spars and ribs – were produced by the Novosibirsk Aviation Plant. Sukhoi says the design change improved the speed of the An-2 by 50%, and testing also has shown the minimum flying speed of the aircraft is “close to zero”.

Toronto, Ontario

Cold weather makes for good photo opportunities.

HOKUDAIEN TRAINING AREA, HOKKAIDO, Japan (Feb 02, 2020) - Col. Jason Perry, the commanding officer of 4th Marine Regiment, 3rd Marine Division, and Maj. Gen. Kose, the commanding officer of 5th Brigade, Japan Ground Self-Defense Force, talk before a live fire demonstration during Northern Viper on Hokudaien Training Area, Hokkaido, Japan, Feb. 2, 2020. Northern Viper is a regularly scheduled training exercise that is designed to enhance the interoperability of the U.S. and Japan Alliance by allowing Marine Air-Ground Task Forces from III Marine Expeditionary Force to maintain their lethality and proficiency in MAGTF Combined Arms Operations in cold weather environments. (U.S. Marine Corps photo by Cpl. Cameron E. Parks)Cameron E. Parks) 200202-M-XH454-541

** Interested in following U.S. Indo-Pacific Command? Engage and connect with us at www.facebook.com/indopacom | twitter.com/INDOPACOM |

www.instagram.com/indopacom | www.flickr.com/photos/us-pacific-command; | www.youtube.com/user/USPacificCommand | www.pacom.mil/ **

Jeffrey Doonan

Sailor Second Class Jacob Fleck, Boatswain, operates a crane on the quarterdeck of HMCS HARRY DEWOLF in Conception Bay, Newfoundland and Labrador during Cold Weather Trials on February 28, 2021.

Photo by Corporal David Veldman, Canadian Armed Forces Photo 20210228HSK0086D182

~

Le matelot de 2e classe Jacob Fleck, manœuvrier, conduit une grue sur la plage arrière du NCSM HARRY DEWOLF dans la baie Conception, à Terre Neuve et Labrador, lors des essais par temps froid, le 28 février 2021.

Photo : Caporal David Veldman, Forces armées canadiennes 20210228HSK0086D182

You won't find these boots at your local REI.

The only other place I've seen boots remotely like these other than during the Apollo space mission is at the Fort Nine museum in Kaunas, Lithuania.

Who knew that Czechoslovak winters could be so harsh?

It must have been very difficult to walk on absolutely inflexible soles.

Police Museum, Prague.

CBP Office of Border Patrol conducts cold weather operations in the Wellesley Island, Alexandria Bay and Clayton region of New York along the border of the United States and Canada. A Border Patrol Agent walks the area near the U.S. Canadian border. Photo by James Tourtellotte

CBP Office of Border Patrol conducts cold weather operations in the Wellesley Island, Alexandria Bay and Clayton region of New York along the border of the United States and Canada. Border Patrol Agents patrol frozen water ways along the border with the U.S. and Canada. Photo by James Tourtellotte

CBP Office of Border Patrol conducts cold weather operations in the Wellesley Island, Alexandria Bay and Clayton region of New York along the border of the United States and Canada. A Border Patrol Agent walks the area near the U.S. Canadian border. Photo by James Tourtellotte

Product Name: China inflatable bouncer suppliers

Product No: GB497

Size: 7.5mLx6.6mWx6.8mH

Pack: 165×115×115 (cm)

Weight: 259.5kg

Material: 0.55mm PLATO PVC Tarpaulin

Cert: CE, SGS, En14960, En71

Feature: High Durability, High Tear Strength, Fade Proof, Flame Retardant M2/B1, Anti-Mildew Treatment, Excellent UV-Resistance, Cold Weather Resistance, Waterproof, Anti-Static, Heat-Insulation

Not just fit and finish, Pango make a second blower tube and hide it if not use. We make the two tubes on different of the bouncer so that could fit the power location. Looking down the road you will find you need a second inflation tube. We want to make sure clients could use the bouncer convenient.

Stronger Baffles

Baffles that are secured by a 840 denier material that provides the MAXIMUM strength of the internal baffling of every inflatables. This material upgrade is unmatched by anyone else in the industry. This material is key to the overall durability of the products we sell.

D Ring Expose

Take a close look at the construction of the "d" rings in the products we sell. A tether system is only as strong as its weakest link. Tether points on the inflatable are extremely durable. The "d" ring tethering System have been laboratory-tested and certified by Professional Engineers for use on all giant slides and all other types of inflatables.

Vinyl（PVCTarpaulin） Expose

At Pango Inflatable, the only products we sell are constructed from the finest coated vinyl. Unlike other vinyl producers, the Coated Vinyl are Lead-Free in addition to meeting the EN71 test by SGS. Lead-Free vinyl are a standard that has been that way since day one. Exposure to lead is dangerous to children. The products Pango Inflatable sell are safe from the effects of lead. As for durability, the materials are a weft inserted substrate, which makes any possible rips virtually impossible.

No Wax Surfaces

We provide removable sliding surfaces for every slides we made, While other only provide the normal vinyl, Inflatable vinyl is not naturally slippery, therefore, waxing has become a normal preparation for getting a slide ready for use. The removable sliding surface found the on the products we sell is a high polished urethane coating, which in turn reduces the need to wax.

Zipper with Flaps

Unlike others, Pango Inflatable sells products that are easy to use. For example, the deflation zipper utilizes a Velcro flap that covers the zipper, thus, less air is lost and zippers are not exposed to abrasion or mischief.

Blower Tube Strap

While most manufacturers tie their blower inflation tubes to the blower system, however, the products Pango Inflatable sells, utilizes a universal sleeve with a cinching Velcro strap. One- handed operation keeps the tube securely attached to the blower system.

Liquid Laminator

DWe do the Digital Printing in our factory, unlike most factory here in China, they do the printing outside and could not control the delivery time and the quality. igitally printed graphics are one thing, keeping those beautiful images durable as well scratch and fade resistant is quite another. Every digital image used within an inflatable sold by Pango Inflatable is clear-coated with a special liquid laminate that is vulcanized to the vinyl surface.

Finger-Safe Netting

Most bouncer manufacturers use 1" or 2" netting. A child bouncing can easily catch their fingers in that size of netting, thus serious injuries can happen. Only the Pango Inflatable could provide netting that even a small child's finger cannot penetrate. Yet, the netting is still transparent enough to allow for easy viewing.

Removable Covers

Virtually every area that your customers step, slide or climb upon is on a replaceable & easily removable vinyl cover. From climbing stairs, to entrance tunnel sleeves to sliding surfaces, Pango Inflatable only sells products that are designed for high-volume traffic.

Safety Door on Bouncers

Worried about children possibly falling out of a bouncer? Don't be. We got 3 points of reinforcement on the entrance of the bouncer which make the entrance very strong. Also we add the step outside the entrance following the AU and USA standards of jumping castle.

On-Staff Engineering and Designing

We do reinforce stitching at the fixion of D-ring. Four stitching line will share the tension of the bouncer. This made the D-ring last much longer and stronger. Other factory use other design of the fixion, but will not good for the tension sharing. Could find the differnce in the attached photos.

Cushion Designs

We do cushion between the wall and the base. When the kids bounce on the bouncer this parts bear most of the pressure, so this new design will make this parts much more strong and safety, while other factory only stitch to the base.

Contact Site:http://www.pangoinflatable.com/

Cold weather and some recent snow lead to a crystal clear morning at Pontsticill Reservoir in southern wales

Lieutenant(N) Scott Patchett, Naval Warfare Officer, participates in a damage control exercise aboard HMCS HARRY DEWOLF in Conception Bay, Newfoundland and Labrador during Cold Weather Trials on February 28, 2021.

Photo by Corporal David Veldman, Canadian Armed Forces Photo 20210228HSK0086D167

Le lieutenant de vaisseau Scott Patchett, officier de guerre navale, participe à un exercice de lutte contre les avaries à bord du NCSM HARRY DEWOLF, dans la baie Conception, à Terre Neuve et Labrador, lors des essais par temps froid, le 28 février 2021.

Photo : Caporal David Veldman, Forces armées canadiennes 20210228HSK0086D167

Civlian contractors and crew members conduct ice operations alongside HMCS HARRY DEWOLF during Cold Weather Trials near Frobisher Bay on February 20, 2021.

Photo by Corporal David Veldman, Canadian Armed Forces Photo 20210220HSK0086D117

Des membres d’équipage et des entrepreneurs civils effectuent des opérations sur la glace le long du NCSM HARRY DEWOLF lors des essais par temps froid près de la baie Frobisher, le 20 février 2021.

Photo : Caporal David Veldman, Forces armées canadiennes 20210220HSK0086D116

Sailor 1st Class Celine Dorion operates the crane while HMCS MARGARET BROOKE is parked in ice, in the Labrador Sea on February 27, 2022.

Photo: S2 Taylor Congdon, Canadian Armed Forces Photo

~

La matelot de 1re classe Celine Dorion manœuvre la grue, alors que le NCSM MARGARET BROOKE est stationné dans la glace, dans la mer du Labrador, le 27 février 2022.

Photo : Mat 2 Taylor Congdon, Forces armées canadiennes

The An-2 is used as a light utility transport, parachute drop aircraft, agricultural work and many other tasks suited to this large slow-flying biplane. Its slow flight and good short field performance make it suited for short, unimproved fields, and some specialized variants have also been built for cold weather and other extreme environments. The Guinness Book of World Records states that the 45-year production run for the An-2 was for a time the longest ever, for any aircraft, but it was recently exceeded by the Lockheed C-130 Hercules.[1]

The Antonov An-2 was designed to meet a 1947 Soviet Ministry of Forestry requirement for a replacement for the Polikarpov Po-2, which was used in large numbers in both agricultural and utility roles. Antonov designed a large single bay biplane of all-metal construction, with an enclosed cockpit and a cabin with room for seats accommodating twelve passengers. The first prototype, designated SKh-1 and powered by a Shvetsov ASh-21 radial engine, flew on 31 August 1947. The second prototype was fitted with a more powerful Shvetsov ASh-62 engine, which allowed the aircraft's payload to be significantly increased from 1,300 kg (2,870 lb) to 2,140 kg (4,720 lb), and in this form it was ordered into production.[7]

Initial Soviet production was at State Factory 473 in Kiev, Ukrainian SSR where the bulk of up to 5,000 units had been produced by 1960. Later Soviet production (after 1965, of model An-2M especially) was at State Factory 464 at Dolgoprudniy, Russian SFSR. After 1960, however, most An-2s were been built at Poland's WSK factory in Mielec, with over 13,000 made there before full production ended in 1991. Limited production from parts stocks, as well as spares and maintenance coverage continued until 2001, when four aircraft were produced for Vietnam.[8] China also builds the An-2 under licence as the Shijiazhuang Y-5.[1] It has been occasionally and erroneously reported that there was East German production of the An-2. While An-2s were extensively refurbished in East Germany, there were no new aircraft built there.

The An-2 was designed as a utility aircraft for use in forestry and agriculture. However, the basic airframe is highly adaptable and numerous variants have been developed. These include hopper-equipped versions for crop-dusting, scientific versions for atmospheric sampling, water-bombers for fighting forest-fires, flying ambulances, float-equipped seaplane versions and lightly armed combat versions for dropping paratroops.[9] The most common version is the An-2T 12-seater passenger aircraft. All versions (other than the An-3) are powered by a 750 kW (1,000 hp) nine-cylinder Shvetsov ASh-62 radial engine, which was developed from the Wright R-1820.[1] It uses 43 gallons of avgas per hour.[9]

An-2 on skis at Volosovo air field, Moscow region

An-2 at Grand Junction aviation show.

The An-2 has design features which make it suitable for operation in remote areas with unsurfaced airstrips:

It has a pneumatic brake system (similar to those used on heavy road vehicles) to stop on short runways.[1]

It has an air line fitted to the compressor, so the pressure in the tires and shock absorbers can be adjusted without the need for special equipment.[1]

The batteries are large and easy to remove, so the aircraft does not need a ground power unit to supply power.[1]

There is no need for an external fuel pump to refuel the aircraft, as it has an onboard pump that allows the tanks to be filled from simple fuel drums.[1]

It has a minimum of complex systems. The crucial wing leading edge slats that give the aircraft its slow flight ability are fully automatic, being held closed by the airflow over the wings. Once the airspeed drops below 64 km/h (40 mph), the slats will extend because they are on elastic rubber springs.[1]

Take-off run: 170 m, landing run: 215 m (these numbers will of course vary depending on take-off/landing weight, outside air temperature, surface roughness, and headwind).[1]

Antonov An-2 (An2-TP)

A note from the pilot's handbook reads: "If the engine quits in instrument conditions or at night, the pilot should pull the control column full aft and keep the wings level. The leading-edge slats will snap out at about 64 km/h (40 mph) and when the airplane slows to a forward speed of about 40 km/h (25 mph), the airplane will sink at about a parachute descent rate until the aircraft hits the ground." [1]

The An-2 indeed has no stall speed quoted in the operating handbook. Pilots of the An-2 say one can fly the aircraft in full control at 30 mph (as a contrast, a modern Cessna four-seater light aircraft has a stall speed of around 50 mph). This slow stall speed makes it possible for the aircraft to fly backwards (if the aircraft is pointed into a headwind of, say, 35 mph (56 km/h), it will travel backwards at 5 mph (8.0 km/h) whilst under full control). (This is also possible with almost any other true Short Take Off and Landing (STOL) aircraft, but the Antonov has the distinction of being able to do the trick in the mildest headwind.)[1]

Closeup on a private An-2TP

Since the collapse of the Soviet Union and the Eastern European communist states, most airlines in these areas have been withdrawing their An-2s from service, as some of these aircraft are now over 40 years old and the production of avgas had decreased.[9] Private operators are still using the planes, as their stability, capacity and slow-flying ability make them very popular, for instance for skydiving.[1][9]

In the early 1980s Antonov experimented with a development of the An-2 powered by a modern turboprop engine. The unit used was a 1,450 horsepower (1,080 kW) Glushenkov engine and aircraft fitted with this engine were fitted with a longer, more streamlined nose to accommodate it. See Antonov An-3 article for more information.[1]

In 2013 Antonov announced that it had successfully flown for the first time a new version of the An-2 dubbed the An-2-100 fitted with a 3-blade reversible propeller and a 1500 shp Motor Sich MS-14 turboprop running on kerosene rather than Avgas which is no longer produced in CIS countries.[10]

Whilst their high noise levels, increasing maintenance costs, high fuel consumption[9] and unsophisticated nature (the pre-flight checks alone take between 30 and 40 minutes) make them obsolete for commercial service in Europe, the large number of aircraft available means that prices are low (from as little as US$30,000 for a serviceable example). This makes them ideal for the developing world, where their ability to carry large loads into short airstrips makes them assets to airlines on a budget. Many ex-Aeroflot An-2s work as regional airliners in Africa, Central and South America, Cuba and southeast Asia.[1]

Ukrainian Hryvna depicting the An-2 airplane

North Korea has a number of the aircraft with[11] wooden propellers and canvas wings on their variants (the Y-5 version licence-built in China) giving them a low radar cross-section and therefore a limited degree of "stealth".[12] In a war they could possibly be used to parachute or deliver special forces troops behind enemy lines for sabotage operations.[1]

The An-2's ability, looks and flying characteristics, and its status as one of the world's biggest single-engined production biplanes, mean that demand for the An-2 is increasing in Western Europe and the United States, where they are prized by collectors of classic aircraft, making it an increasingly common sight at airshows. However, many western countries prohibit the use of the An-2 commercially because the aircraft has not been certified by the relevant national aviation authorities. These restrictions vary by country, but all prevent the An-2 being used for any 'for profit' purpose, with the exception of the United States, where An-2s imported since 1993 are limited to experimental certification & Title 14 Code of Federal Regulations, Part 21.191,21.193,21.195,91.313,91.319,[9] but PZL-built An-2s are exempt from this restriction due to a bilateral agreement with Poland.[1]

Modernization and refitting projects[edit]

In 2013, Antonov received orders for upgrading "hundreds" of the An-2 planes still in operation in Azerbaijan, Cuba and Russia to the An-2-100 upgrade version.[4]

The Siberian Research Institute of Aviation (SIBNIA) has test flown a highly modified Antonov An-2 with carbonfibre winglet-like braces and carbonfibre wing structures. This is to demonstrate the aerodynamic and structural changes planned for an An-2 replacement, Sukhoi has announced on 10 June 2015. The aircraft was equipped with a five-bladed turboprop engine, most probably the Honeywell TPE331 already installed on a modernized version of the An-2 that entered service in 2014. The autoclave-cured carbonfibre composite materials – including wing panels, spars and ribs – were produced by the Novosibirsk Aviation Plant. Sukhoi says the design change improved the speed of the An-2 by 50%, and testing also has shown the minimum flying speed of the aircraft is “close to zero”.

Photos from Zuccotti Park on Saturday, October 29, Day 43 of Occupy Wall Street. Today was New York's first snow of the year, and the first big test of cold weather for the protesters.

David Shankbone

Good Magazine: The (Un)Official Occupy Wall Street Photographer's 15 Favorite Frames

The Occupy Wall Street Creative Commons Project

Day 1 September 17 Photos - Preoccupation and Occupation Begins

Day 2 September 18 Photos - People settle in; cardboard sign menage begins

Day 3 September 19 Photos - Community forms; protest signs

Day 7 September 23 Photos - First rain, protest signs, life

Day 8 September 24 Photos - Pepper spray day, Zuni Tikka, people

Day 9 September 25 Photos

Day 12 September 28 Photos

Day 14 September 30 Photos

Day 16 October 2 Photos

Day 17 October 3 Photos

Day 20 October 5 Photos

Day 21 October 6 Photos - Naomi Klein

Day 23 October 8 - Faces of OWS

Day 28 October 13 - Tom Morello of RATM

Day 31 - protesting Chihuahua and The Daily Show

Day 36 - Parents and Kids Day and quite a crowd

Day 40 - protesting hotties, Reverend Billy and tents

Day 43 Photos - Snow storm at OWS of the first NYC winter snowfall

Day 47 - Solidarity with Occupy Oakland

Day 50 November 5

Day 52 November 7 - Jonathan Lethem, Lynn Nottage and Jennifer Egan

Day 53 November 8 - David Crosby and Graham Nash play OWS

Day 57 November 12 - Former NJ Gov. Jim McGreevey

Day 60 November 15 - Police evict protesters from Zuccotti

Occupy Colorado Springs Colorado on November 20

Do you want to see the Occupy Wall Street series laid out thematically? Click here

For cold weather games NFL football officials would wear a black Under Armour compression shirt under their long sleeve striped shirt. White knickers now hide the white McDavid compression pants. Reebok NFL low grass shoes are worn with 2 stripe NFL officials one piece fitted socks. A black leather belt was worn around the waist.

www.petertudhope.com

^^)

HMCS MARGARET BROOKE is parked in ice as civilian contractors prepare to take samples of the ice, in the Labrador Sea on February 27, 2022.

Photo: S2 Taylor Congdon, Canadian Armed Forces Photo

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Le NCSM MARGARET BROOKE est stationné dans la glace, alors que des entrepreneurs civils s’apprêtent à prélever des échantillons de glace, dans la mer du Labrador, le 27 février 2022.

Photo : Mat 2 Taylor Congdon, Forces armées canadiennes

The magnolia is slow to open this year because of the cold weather. We DID have frost last night but it must have been at ground level because the Mag buds are unscathed today!

Cold weather.

One of the old B&W photos now re-colourised automatically.

Jeffrey Doonan

Kiev 80/2.8

Kodak TMAX 400 120 6x6

Members of HMCS MARGARET BROOKE conduct training evolutions around Halifax Harbour, Nova Scotia on February 15, 2022.

Please credit: S2 Taylor Congdon, Canadian Armed Forces Photo

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Des membres du NCSM Margaret Brooke effectuent des manœuvres aux fins d’entraînement dans le port de Halifax, en Nouvelle-Écosse, le 15 février 2022.

Photo : Mat 2 Taylor Congdon, photo des Forces armées canadiennes

A Norwegian instructor checks the hands of one of the students to make sure that no frostbite has occurred.

With all the cold weather, spring is now but a memory. Here's a nice springy piece of original artwork just added to the shop. Even if spring is gone from the outside, you can keep it forever on your wall and in your memory.

Rainy cold weather calls for a warm woolen vest and singing whale socks.

And chowder.

Product Name: Red Camping Tent

Product No: GN045

Size: 10mL×8mW×4mH

Pack: 110×80×80

Weight: 95kg

Material: 210D Oxford Fabric

Cert: CE,EN14960,EN71

Feature: High Durability, High Tear Strength, Fade Proof, Flame Retardant M2/B1, Anti-Mildew Treatment, Excellent UV-Resistance, Cold Weather Resistance, Waterproof, Anti-Static, Heat-Insulation, Blackout, Shrink- Resistant, Fluorescent, Other.

Not just fit and finish, Pango make a second blower tube and hide it if not use. We make the two tubes on different of the bouncer so that could fit the power location. Looking down the road you will find you need a second inflation tube. We want to make sure clients could use the bouncer convenient.

Stronger Baffles

Baffles that are secured by a 840 denier material that provides the MAXIMUM strength of the internal baffling of every inflatables. This material upgrade is unmatched by anyone else in the industry. This material is key to the overall durability of the products we sell.

D Ring Expose

Take a close look at the construction of the "d" rings in the products we sell. A tether system is only as strong as its weakest link. Tether points on the inflatable are extremely durable. The "d" ring tethering System have been laboratory-tested and certified by Professional Engineers for use on all giant slides and all other types of inflatables.

Vinyl（PVCTarpaulin） Expose

At Pango Inflatable, the only products we sell are constructed from the finest coated vinyl. Unlike other vinyl producers, the Coated Vinyl are Lead-Free in addition to meeting the EN71 test by SGS. Lead-Free vinyl are a standard that has been that way since day one. Exposure to lead is dangerous to children. The products Pango Inflatable sell are safe from the effects of lead. As for durability, the materials are a weft inserted substrate, which makes any possible rips virtually impossible.

No Wax Surfaces

We provide removable sliding surfaces for every slides we made, While other only provide the normal vinyl, Inflatable vinyl is not naturally slippery, therefore, waxing has become a normal preparation for getting a slide ready for use. The removable sliding surface found the on the products we sell is a high polished urethane coating, which in turn reduces the need to wax.

Zipper with Flaps

Unlike others, Pango Inflatable sells products that are easy to use. For example, the deflation zipper utilizes a Velcro flap that covers the zipper, thus, less air is lost and zippers are not exposed to abrasion or mischief.

Blower Tube Strap

While most manufacturers tie their blower inflation tubes to the blower system, however, the products Pango Inflatable sells, utilizes a universal sleeve with a cinching Velcro strap. One- handed operation keeps the tube securely attached to the blower system.

Liquid Laminator

DWe do the Digital Printing in our factory, unlike most factory here in China, they do the printing outside and could not control the delivery time and the quality. igitally printed graphics are one thing, keeping those beautiful images durable as well scratch and fade resistant is quite another. Every digital image used within an inflatable sold by Pango Inflatable is clear-coated with a special liquid laminate that is vulcanized to the vinyl surface.

Finger-Safe Netting

Most bouncer manufacturers use 1" or 2" netting. A child bouncing can easily catch their fingers in that size of netting, thus serious injuries can happen. Only the Pango Inflatable could provide netting that even a small child's finger cannot penetrate. Yet, the netting is still transparent enough to allow for easy viewing.

Removable Covers

Virtually every area that your customers step, slide or climb upon is on a replaceable & easily removable vinyl cover. From climbing stairs, to entrance tunnel sleeves to sliding surfaces, Pango Inflatable only sells products that are designed for high-volume traffic.

Safety Door on Bouncers

Worried about children possibly falling out of a bouncer? Don't be. We got 3 points of reinforcement on the entrance of the bouncer which make the entrance very strong. Also we add the step outside the entrance following the AU and USA standards of jumping castle.

On-Staff Engineering and Designing

We do reinforce stitching at the fixion of D-ring. Four stitching line will share the tension of the bouncer. This made the D-ring last much longer and stronger. Other factory use other design of the fixion, but will not good for the tension sharing. Could find the differnce in the attached photos.

Cushion Designs

We do cushion between the wall and the base. When the kids bounce on the bouncer this parts bear most of the pressure, so this new design will make this parts much more strong and safety, while other factory only stitch to the base.

Contact Site:http://www.pangoinflatable.com/

"Buddy type shelters begin with a pair scraping snow away preparatory to erecting shelter halves. Snow is then banked around the sides of the shelter to block chilly winds that enter the canyon floor with the setting of the sun."

From the Marion Fischer Collection (COLL/858), Marine Corps Archives & Special Collections

OFFICIAL USMC PHOTOGRAPH

I sure do hate taking pictures of the weather (why do I want a picture of something that will just keep happening and looking the same each time? I have work to catch up on), but for some reason I still manage to feel like I need to do it.

So there we are. It snowed today. Now back to work, indoors, where I won't hear, see or feel anything new.

I'm such a grump. Whatareyagonnado.

Chase feels that I should document what I look like bundled up. When I leave the house it's between 10°F and 30°F in the winter. Layers are the key.

Coat: White Stag, thrifted (Goodwill Bins)

Hat: handmade, during one of my commutes, with gifted yarn from Trina

Scarf: handmade, gift, from Chase's mom (it's almost twice my height)

Gloves: Batman (came with a fingerless pair with the bat signal on them), Target (boys)

...and the weather won.

It's too cold!

PPCHS students Arianna Buitrago, Viviana Perez, and Samantha Vega bundled up for the cold weather. Photo by Johmi Vargas.