View allAll Photos Tagged Modules
The crew module adapter, which connects Orion's crew module with the European Service module is lifted in preparation for mate with the Artemis II service module which recently arrived from Airbus in Bremen.
Photo: NASA/Radislav Sinyak
The crew module adapter, which connects Orion's crew module with the European Service module is lifted in preparation for mate with the Artemis II service module which recently arrived from Airbus in Bremen.
Photo: NASA/Radislav Sinyak
The island project started with this two year old MOC. Still acceptable and will be used as it is with the 11 other modules I plan to build.
Engineers worked meticulously to implant the James Webb Space Telescope's Mid-Infrared Instrument into the ISIM, or Integrated Science Instrument Module, in the cleanroom at NASA's Goddard Space Flight Center in Greenbelt, Md. As the successor to NASA's Hubble Space Telescope, the Webb telescope will be the most powerful space telescope ever built. It will observe the most distant objects in the universe, provide images of the first galaxies formed and see unexplored planets around distant stars.
A technician is installing the bolts that will hold the MIRI, or Mid-Infrared Instrument, to the composite Integrated Science Instrument Module (ISIM) structure, or the black frame. The MIRI is attached to a balance beam, called the Horizontal Integration Tool (HIT), hanging from a precision overhead crane. That's the same tool that Hubble engineers used to prepare hardware for its servicing missions. Photo Credit: NASA/Chris Gunn; Text Credit: NASA/Laura Betz
Modules and corridors can be built directly on the baseplate. Here's a ground floor module with two connecting corridors.
Here you can see the sections of the plane that get put together, in the background is my father in law, good onya dad!
Bremen, Germany. Orion's European Service Module is loaded on the Antonov airplane for transport to Kennedy Space Center.
For the first time, NASA will use a European-built system as a critical element to power an American spacecraft, extending the international cooperation of the International Space Station into deep space. The European Service Module is a unique collaboration across space agencies and industry including ESA’s prime contractor, Airbus, and 10 European countries. The completion of service module work in Europe and shipment to Kennedy signifies a major milestone toward NASA’s human deep space exploration missions to the Moon and beyond.
Credit: NASA/Rad Sinyak
I am not a number! ;-)
I made this lampshade (although it won't be used as a lampshade at this size) using the IQ light system invented by Danish designer Holger Strom in 1972. The best thing about my lampshade though, is that it's made from 120 pieces of translucent plastic cut from 120 4-pint milk bottles! We've been saving them for a while and I finally got around to cutting the 'modules' and then fitting them together. I documented my first venture into milk bottle lampshades on my blog, link here if you're interested: joeysdreamgarden.blogspot.com/2009/01/free-lampshade-with...
Bremen, Germany. Orion's European Service Module is loaded on the Antonov airplane for transport to Kennedy Space Center.
For the first time, NASA will use a European-built system as a critical element to power an American spacecraft, extending the international cooperation of the International Space Station into deep space. The European Service Module is a unique collaboration across space agencies and industry including ESA’s prime contractor, Airbus, and 10 European countries. The completion of service module work in Europe and shipment to Kennedy signifies a major milestone toward NASA’s human deep space exploration missions to the Moon and beyond.
Credit: NASA/Rad Sinyak
Bremen, Germany. Orion's European Service Module is loaded on the Antonov airplane for transport to Kennedy Space Center.
For the first time, NASA will use a European-built system as a critical element to power an American spacecraft, extending the international cooperation of the International Space Station into deep space. The European Service Module is a unique collaboration across space agencies and industry including ESA’s prime contractor, Airbus, and 10 European countries. The completion of service module work in Europe and shipment to Kennedy signifies a major milestone toward NASA’s human deep space exploration missions to the Moon and beyond.
Credit: NASA/Rad Sinyak
Akiyuki's Spiral Module GBC
Lego Technic
Designed by Akiyuki
Instructions by 9v System and Blakbird
Master built by OneMoreRobot 2016
Bremen, Germany. Orion's European Service Module is loaded on the Antonov airplane for transport to Kennedy Space Center.
For the first time, NASA will use a European-built system as a critical element to power an American spacecraft, extending the international cooperation of the International Space Station into deep space. The European Service Module is a unique collaboration across space agencies and industry including ESA’s prime contractor, Airbus, and 10 European countries. The completion of service module work in Europe and shipment to Kennedy signifies a major milestone toward NASA’s human deep space exploration missions to the Moon and beyond.
Credit: NASA/Rad Sinyak
Bremen, Germany. Orion's European Service Module is loaded on the Antonov airplane for transport to Kennedy Space Center.
For the first time, NASA will use a European-built system as a critical element to power an American spacecraft, extending the international cooperation of the International Space Station into deep space. The European Service Module is a unique collaboration across space agencies and industry including ESA’s prime contractor, Airbus, and 10 European countries. The completion of service module work in Europe and shipment to Kennedy signifies a major milestone toward NASA’s human deep space exploration missions to the Moon and beyond.
Credit: NASA/Rad Sinyak
Technicians at the Airbus facility in Bremen, Germany prepare the European Service Module for shipment to Kennedy Space Center. The service module will depart Germany on November 5, 2018 and will arrive in the U.S. on November 6.
For the first time, NASA will use a European-built system as a critical element to power an American spacecraft, extending the international cooperation of the International Space Station into deep space. The European Service Module is a unique collaboration across space agencies and industry including ESA’s prime contractor, Airbus, and 10 European countries. The completion of service module work in Europe and shipment to Kennedy signifies a major milestone toward NASA’s human deep space exploration missions to the Moon and beyond.
Credit: NASA/Rad Sinyak
Some cool rapidly prototyping photos:
Extender Module
Image by Michael Kappel
Embedded Electronics Starter Kit from GHI Electronics
FEZ Spider Starter Kit
www.ghielectronics.com/catalog/product/297
FEZ Spider Starter Kit is the 1st commercially obtainable .NET Gadgeteer-compatible kit. it...
Read more about Extender Module
(Source from Chinese Rapid Prototyping Blog)
SEE FULL SIZE: www.flickr.com/photo_zoom.gne?id=2009094288&size=o
www.kentbye.com/files/drupal_modules_part1.html
www.kentbye.com/files/drupal_modules_part2.html
www.kentbye.com/files/drupal_modules_part3.html
www.kentbye.com/files/drupal_modules_part4.html
www.kentbye.com/files/drupal_modules_part5.html
Drupal Modules as of 11/09/07.
ESA’s Columbus module on the International Space Station. The Danish and Swedish flags are in the background, representing the nationalities of Andreas Mogensen (Denmark) and Marcus Wandt (Sweden).
Credits: ESA-M. Wandt
The City Space theme continues to inspire. I wanted to use the curved quarter panels as a windscreen, and by excellent luck had the matching curve plate in sand blue. From then on it was just a matter of mixing the design cues and colour scheme from the sets with my build.
Rather pleased with this, looks chunky and industrial near-future. The crane, while functional, can't lift the module without ripping itself apart. Oh well.
Probably won't take any more pictures of the module itself either, it's just an empty shell that seems to be more like a double-decker carriage on a scenic train than a science module. Some more work on that will be required, I think. But that's a problem for another time. I already have an idea for a larger build that will incorporate four of these modules.
Module for transporting containers. It an expansion of the Rock Raiders Tunnel Transport 2.0 helicopter.
After struggling with sub-standard tables at public shows resulting in warped baseplates, wavy track alignment, etc.; I decided I should build my own table modules. The design objectives were as follows:
1) self-contained table module with legs, wiring, etc. built-in
2) dimensionally aligned to integer multiples of 16-studs
3) mutually aligned with dowels and/or bolts in both end-end or end-side configurations
4) support optional drop-in modules between self-standing modules
The design you see here is the result. I have built 4x of these modules for my latest Lego model railway and I am quite satisfied with the result. They have proven to be very robust and provide a flat consistent surface for the baseplates. The disadvantage of this design is its weight. Its a compromise I was willing to accept in exchange for robustness. These modules have to survive the rigours of transport to/from public shows as well as within my own house!
SEE FULL SIZE: www.flickr.com/photo_zoom.gne?id=2026324860&size=o
www.kentbye.com/files/drupal_modules_part1.html
www.kentbye.com/files/drupal_modules_part2.html
www.kentbye.com/files/drupal_modules_part3.html
www.kentbye.com/files/drupal_modules_part4.html
www.kentbye.com/files/drupal_modules_part5.html
Drupal Modules as of 11/09/07.
I am re-posting this module which was created [discovered] in 1990. The main reason for re-posting this is that I found a more logical way to get that odd angle. The method is quite accurate but I do not think that it is Mathematically correct. The method is best illustrated by the photo diagram. Briefly, it shows the angles [in black] required for 4, 6, 8 modules assembly like stars, and coasters. Those angles radiate from the bottom left corner to the middle crease line. These angles can be easily generated by simple folds. Therefore, in order to get the angle required for a 5 piece assembly, logically, that angle should be in between 4 and 6. Can I logically assume that the bisector [circled and in red] the correct angle? Likewise, for a 7-piece assembly I take the bisector of 6 and 8 to be the correct angle. The interesting part here is that, that angle radiates from the corners to almost the middle of the opposite edge. I have assembled some 7 piece coasters quite accurately with this and will post them in due course. More details of this module was posted in 1993 - www.flickr.com/photos/61236172@N08/11003407114/in/datepos...
Led flash module. Inside the opening for the Mitutoyo 10X lens. The 12 power leds are not solderd but connected via 24 x M2 brass screws which press on the led contacts. I can even modify LED types with the same module.
The 12 LEDs are divided into 6 groups. Each time there are two LEDs connected together on the PCB. LEDs shine through the 12 holes of 8mm diameter each. Each group can be controlled separately. The direction and amount of light may be a result set.
The base plate is made of aluminum for cooling. The back of the LEDs have an additional thin special thermal film of 0.2mm in order to have good thermal conductivity. The LEDs can operate continuously at full power.
Driver module: www.flickr.com/photos/fotoopa_hs/15765655185
A module for a planned micropolis skyscraper. Not exactly something unique or fancy pancy, but less waste of parts, compared to my other similar builds. There is still room for improvement, but I have chosen parts that I have plenty of. At first I used a technic brick 6x8 instead of regular 1x8 bricks. It is a bit sturdier, but I do not want a rectangular section. They are probably unnecessary anyway.
It is somewhat influenced by Max Braun's supertall - Weiss Tower. I often use grille tiles as windows, but two-by-two in the corners is new to me. I generally prefer 1x1, but then I have horizontal plates outermost in the facade. Now I want a tall, modular tower with a cleaner look and fewer parts. The curtain wall will cover every side, with either a plate 6x12 or 6x24, covered with grille tiles. I usually place the curtain wall half a plate from the outer edge, but here it is flush with the corners.
Part list:
12x Plate 1x1, 3024
2x Plate 1x6, 3666
4x Plate 1x8, 3460
1x Plate 8x8, 41539
4x Plate 6x12, 3028
8x Brick 2x2x3, 30145
16x Brick 2x2 Corner, 2357
4x Brick 1x8, 3008
8x Bracket 1x2 - 1x2 Inverted, 99780
8x Bracket 1x2 - 1x2, 99781
144x Tile, Modified 1x2 Grille, 2412
this is where i will be hanging the world's longest marblechute during the next 6 weeks for the grand opening of planet modulor on the 30th of september.
Hahahahaha, pathetic little piece of land.
But one of the 20 modules nonetheless.
Don't you dare to fave this one.
Name : Snowflake Module
Designer : Francis M. Y. Ow
Folder : Sam.Amalan
Parts : 6
Joint : Nothing (Assembly Little Tricky )
Diagram : Reverse Engineered
Today I saw this model it attracted me much to fold,But my paper is worst.
Francis Ow is one of the best modular designer in the world,and also one of my most Respectable person,He is so kind,but I never met him.
Hi everyone! With this new year 2024 I want to start presenting you my latest work, the result of 3 months of work in autumn 2023.
It represents a stone bridge with a stream, a dirt road, a couple of small waterfalls and a water mill. All set in medieval times.
In 2018 I had built a Medieval Windmill and knew that one day I wanted to expand it. In 2023, however, I was inspired for a much larger and more ambitious project, namely creating a Medieval Village! The village has been divided into 6 modules (for the moment), the windmill therefore represents the first completed module, while today I present to you the second module.
This latest moc is based on 4 32x32 baseplates and is made up of approximately 7500 pieces. The water mill also has movements operated by a lever or interchangeable with LEGO motors. The roof of the mill is divided into two opening sections which allow you to observe the internal details, such as the rotation mechanism of the blades and the grain mill. On the upper floor there is a fireplace with some chests and a sleeping room for the baker. On the dirt road I positioned a horse-drawn cart with two Black Falcon soldiers. The whole thing is completed by lush vegetation with a forestman on lookout on a large tree.
I hope you enjoy my latest work and stay tuned soon for module #3!
This is the type of vehicle used to land on the lunar surface by astronauts in the Apollo missions to the Moon. The one on display in the National Air and Space Museum is a real lander whose mission was canceled. The lower halves of six of these vehicles are still sitting on the lunar surface. The upper halves carried the astronauts back to their command module for return home. A lunar lander like this was seen in "Night at the Museum: Battle of the Smithsonian."
this is the actual apollo module that took 3 astronauts to the moon(thomas stafford,eugene cernan,john young) in 1969..call-sign "charlie brown"..it was the only part to return to earth,bringing all 3 astronauts safely into the pacific..on the base,it shows burns from re-entry..
After struggling with sub-standard tables at public shows resulting in warped baseplates, wavy track alignment, etc.; I decided I should build my own table modules. The design objectives were as follows:
1) self-contained table module with legs, wiring, etc. built-in
2) dimensionally aligned to integer multiples of 16-studs
3) mutually aligned with dowels and/or bolts in both end-end or end-side configurations
4) support optional drop-in modules between self-standing modules
The design you see here is the result. I have built 4x of these modules for my latest Lego model railway and I am quite satisfied with the result. They have proven to be very robust and provide a flat consistent surface for the baseplates. The disadvantage of this design is its weight. Its a compromise I was willing to accept in exchange for robustness. These modules have to survive the rigours of transport to/from public shows as well as within my own house!