Printrbot Simple 2013 3D Printer Kit, PLA Filament, 1.75mm Ubis Hot End, 4″ x 4″ x 4″ Build Volume

The Printrbot Simple 3D printer kit has an open platform, a frame constructed of machined aluminum and laser-cut birch wood, fabricates objects using PLA (polylactic acid) thermoplastic filament, with a vertical resolution of 100 microns (0.10 mm), and is a kit that requires assembly. The printer can build objects to maximum dimensions of 4 x 4 x 4 inches/102 x 102 x 102 mm (H x W x D). It comes with a direct drive extruder with a cooling fan, and an Ubis hot end that accepts 1.75 mm PLA filament. The printer is commanded through the provided micro USB cable using G-code numerical control instructions. An SD memory card slot can store G-Code instructions on a memory card (sold separately) for operation without a connection to a computer. It can be used with 3D printer management software packages (sold separately). The frame is made of laser-cut birch plywood. Machined aluminum axis rods with linear bearings and injection molded gears help ensure precise movement. The size 17 stepper motors meet the National Electrical Manufacturers Association (NEMA) standard ICS 16-2001. The printer comes with a sample of PLA filament.

Specifications

Printing materialPLA
Vertical (Z-axis) resolution100 microns (0.10 mm)
Build speed80-100 mm/min
Build volume4 x 4 x 4 inches/102 x 102 x 102 mm (H x W x D)
Printer weight5.25 lb (2.38 kg)
Printer size7 x 8 x 9 inches (H x W x D)
Input formatG-code
Input methodMicro USB cable (included) or SD memory card (sold separately)

*H is height, the vertical distance from the lowest to highest point; W is width, the horizontal distance from left to right; D is depth, the horizontal distance from front to back.

3D printers fabricate physical objects directly from computer-aided-design (CAD) data sources. Objects created by additive manufacturing are built by dispensing successive thin layers of molten material onto a moving platform base from a robotic extruder nozzle. The material is most commonly a thermoplastic or HDPE (high-density polyethylene) filament.

Printrbot manufactures desktop 3D printers and accessories. The company is headquartered in Lincoln, CA.

What’s in the Box?
  • Printrbot Simple 3D Printer Kit (unassembled)
  • 12v 6A laptop style power supply
  • Power cord
  • USB cable
  • Sample spool of 1.75 mm PLA plastic filament

Product Features

  • Fabricates objects from G-code instructions using PLA thermoplastic filament
  • Open platform for ease of access with machined aluminum and laser-cut birch wood frame construction
  • Builds objects to maximum dimensions of 4 x 4 x 4 inches/102 x 102 x 102 mm (H x W x D)
  • Vertical (Z-axis) resolution of 100 microns (0.10 mm)
  • Shipped as a kit that requires assembly

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SainSmart Ramps 1.4 + A4988 + Mega2560 R3 + Endstop + MK2B + Cooler Fan Kit for RepRap 3D Printer Arduino Mega2560 UNO R3

This SainSmart 3D Printer Kit with hundreds of Arduino projects is invented
by SainSmart for Arduino lovers. This Kit is recommended for the beginners who
are interested in leaning the basics of Arduino programming as well as the
experts in Programming. Components are included in the kit to get you started
making your own Arduino Projects.

What’s more, a PDF Tutorial Instruction Manual will be provided for you to
download, which can definitely give you a full into to Arduino programming as
well how to use each component included in this
kit. Once you’ve gone through the instruction guide and mastered the basics of
each component go ahead and make your own project combing one or many
components. With this kit you will learn what Arduino is all about and how it is
used.

Package Content

1 x RAMPS 1.4

1 x Mega 2560 R3

5 x A4988 driver

1 x LCD 2004 With Controller

1 x SD card breakout For ramps

1 x Cooler Fan for 3D ramps

6 x Mechanical Endstop with cable

1 x RAMPS 1.4 wiring cable

1 x Heatbed MK2B

1 x USB Cable

Note:Please download the codes & instructions via
the below link:

https://s3-ap-northeast-1.amazonaws.com/sain-amzn/20/20-011-962/3D.rar

https://s3-ap-northeast-1.amazonaws.com/sain-amzn/20/ramps.rar

https://s3-ap-northeast-1.amazonaws.com/sain-amzn/20/3d+lcd+software/arduino-1.0.1.rar

Product Features

  • Sainsmart A4988 driver is a carrier board or breakout board for Allegro’s A4988 DMOS Microstepping Driver with Translator and Overcurrent Protection by Pololu; we therefore recommend careful reading of the A4988 datasheet before using this product. This stepper motor driver lets you control one bipolar stepper motor at up to 2 A output current per coil.
  • MK2B is the latest and the best type of heatbed money can buy as of today. 100% compatible with all Prusa and Mendel 3d printer variants. Etching: 35um copper. Laminate: FR4 1.6mm
  • Sainsmart RAMPS 1.4 is a Mega Pololu Shield, or RAMPS for short,designed to fit the entire electronics needed for a RepRap in one small package for low cost. RAMPS interfaces an Arduino Mega with the powerful Arduino MEGA platform and has plenty room for expansion. The modular design includes plug in stepper drivers and extruder control electronics on an Arduino MEGA shield for easy service, part replacement, upgrade-ability and expansion. Additionally, a number of Arduino expansion boards can be added to the system as long as the main RAMPS board is kept to the top of the stack. This board is mostly based on Adrian’s Pololu_Electronics and work by Tonok. Copper etch resists methods suggested by Vik. Also inspired by Vik’s work with EasyDrivers. circuit design based mostly on Adrian’s Pololu_Electronics Joaz at RepRapSource.com supplied initial pin definitions and many design improvements. Much inspiration, suggestions, and ideas from Prusajr, Kliment, Maxbots, Rick, and many others in the RepRap community.
  • Sainsmart Mega2560 R3 is an ATmega2560 as core microcontroller development board itself has 54 groups digital I / O input / output terminal (14 groups do PWM outputs), 16 sets of simulation than the input side, group 4 UARTs (hardware serial ports), using the 16 MHz crystal oscillator. With the bootloader, download the program directly via USB without having to go through other external writer. Supply part of the optional USB power, or as an external power using the AC-to-DC adapter and battery. Arduino development IDE interface is based on open-source principles, allows you to free download for use in project work, school teaching, motor control, interactive works.
  • Sainsmart LCD 2004 with Controller This Smart Controller contains a SD-Card reader, an rotary encoder and a 20 Character x 4 Line LCD display. You can easy connect it to your Ramps board using the “smart adapter” included. After connecting this panel to your Ramps you don’t need your pc any more, the Smart Controller supplies power for your SD card. Further more all actions like calibration, axes movements can be done by just using the rotary encoder on the Smart Controller. Print your 3D designs without PC, just with a g-code design stored on the SD card.

Visit The Website For More Information…

Printrbot Simple XL Upgrade Kit

The Printrbot Simple XL upgrade kit extends the build volume of a Printrbot Simple 3D printer (sold separately) to maximum dimensions of 7.28 x 3.9 x 6.5 inches/185 x 100 x165 mm (H x W x D). The kit, which requires assembly, includes laser-cut birch wood parts, metal rods, and a Y-motor extension to assemble a tower that extends build dimensions and helps provide additional rigidity. The tower includes removable wide-stance feet and a handle cutout for portability. Parts are also included to assemble a small filament spool and spool coaster to hold filament (sold separately).

3D printers fabricate physical objects directly from computer-aided-design (CAD) data sources. Objects created by additive manufacturing are built by dispensing successive thin layers of molten material onto a moving platform base from a robotic extruder nozzle. The material is most commonly a thermoplastic or HDPE (high-density polyethylene) filament.

Printrbot manufactures desktop 3D printers and accessories. The company is headquartered in Lincoln, CA.

What’s in the Box?

  • 13″ smooth rods (2)
  • 10.5″ acme rod
  • Laser-cut wood plate for print platform
  • Laser-cut wood plate for print bed
  • Laser-cut wood pieces for tower, spool, and spool coaster(10)
  • Y-motor extension
  • Fasteners (bolts, nuts, washers, etc.) for assembly
  • Zip ties (12)
  • String

Product Features

  • Kit to increase build volume to maximum dimensions of 7.28 x 3.9 x 6.5 inches/185 x 100 x165mm (H x W x D)
  • Works with the Printrbot Simple 3D printer (sold separately)
  • Laser cut wood pieces and rods to add height and stability to printer tower
  • Includes laser cut plates for print platform and print bed, and a Y-motor extension
  • Assembly required

Click Here If You Need More Detailed Info…

TRENDING: Print that Prada…in 3D! • Highsnobiety

What do Cara Delevingne, modern architecture, cancer treatment and Staples have in common?

3D printing. From intricate angel wings at the Victoria’s Secret Fashion Show to extravagant interior decor and a synthetic pelvis that transformed the life of a patient who had lost his to disease, 3D printing seems to offer a solution for nearly any design problem – large or small.

Nonetheless, as medical futurists and architects have jumped to embrace the latest revolution in 3D printing technology, fashion seems to be uncharacteristically lagging behind. Despite the odd ambassador using it as a gimmick (Dutch designer Iris Van Herpen, for example) or an excuse to integrate a fashion show into Internet Weeks the world over, few main stage or up-and-coming tastemakers have appeared to even experiment with the technology.

Taking a step back, it’s important to understand the history and intricacy of 3D printing as a medium before examining who has attempted to utilize it in the fashion world.

Somewhat ominously, the process of stereolithography – creating a tactile object from digital data – was invented in 1984. As a means of prepared modeling, the pricey technology took off within the automotive and aviation industries as well as larger manufacturing plants. Moore’s Law, an observation on the exponential speed of innovation in computing technologies, took hold and by 2002 3D printers were intricate enough to engineer a fully functional kidney for a lab animal. By the late 2000s, the world’s first self-replicating printer (one that can create the majority of its own parts) was completed as part of an open-source 3D printing enthusiasts program and the technology became more widely available and less expensive. 2011 brought a 3D-printed car and drone. Printers have dropped in price from tens of thousands to around $1,000 for an entry-level model, available at your local Staples.

So, how does it work? The hardest part comes first – building an intricate digital concept through animation modeling software. This results in a “virtual blueprint” in the form of a .STL file which is segmented by the 3D printer and built layer-by-layer out of a material of the user’s choice (normally rubber, plastic, paper or metal). The printer works through additive manufacturing to create the polygonal structure of the file created by the user and, voila, you have an object out of thin air.

Also worth mentioning is the process of Selective Laster Sintering (SLS), which was invented in 2006 as a means of binding powdered material together to create a solid structure. Because the lasers involved don’t actually melt anything, but rather sinter components together, SLS has revolutionized 3D printing and helped to galvanize its global popularity.

From inception as a B2B manufacturing tool to open-source breakthroughs in self-replicating printers and the advent of SLS, 3D printing appears to be entering its latest chapter – an era of broad experimentation. Possibilities, including advanced prosthetics for those who are sick or injured to large-scale 3D printed homes that could serve as the next iteration of pre-fab construction, appear as unlimited as the scope of human invention.

Here, we highlight a few upcoming trends utilizing 3D printing technology in the realms of artistic invention.

TRENDING: Print that Prada...in 3D!

Fashion

In 2011 it became possible to 3D print using 14K gold and sterling silver. Since then, the application of SLS to create delicate pieces of jewelry has increasingly gained credibility in the design community. The revolutionary aspect of the technology is its accessibility, and this becomes clear through the projects of Francis Bitonti. Highly regarded for his 3D printed gown made famous by Dita von Teese, Bitonti has moved on to commercially-available work including an international collection of fine jewelry and multi-material accessories driven by computational design techniques. Taking advantage of “cloud manufacturing,” the collection includes a series of “hackable, shareable and downloadable” products that are distributed through a printer network of 3D Hubs and printed on-demand.

The issue emerges of certain printers only being able to manufacture with specific materials, however. Attempting to confront this, firms like Bitonti’s often will only make available the models for those products that can be printed nearby an interested consumer. The resulting ecosystem could see luxurious objets printed in Paris, complex rings in New York and made-to-order sunglasses only available in Sao Paulo, for example. Thus the use, and availability, of this global technology actually has the potential to herald a return to local manufacturing. The closer a consumer is to their favorite designer, the more likely that his or her 3D printed products will be available locally.

Despite the fringe faction aura that still surrounds most of the printed fashion community, there are signs that the winds are about to change. As stated earlier, in 2013 Victoria’s Secret took full advantage of the technology available to it in order to continue its tradition of oneupmanship during its annual fashion show. Additionally, major high-fashion retailer SSENSE even recently dedicated an entire editorial section to explaining the processes behind 3D-printed fashion and exploring some branded favorites. Among these highlights was MYKITA, a German eyewear brand known for popularizing the use of 3D printing technology in the optical field.

TRENDING: Print that Prada...in 3D!

Fine Art

There’s also possibility for 3D printing to transform the worlds of fine and contemporary art. An obvious application of the technology is for scaling architectural models. Sometimes, however, the lines between structural roadmap and philosophical project merge. Take, for example, Leapfrog 3D printers’ endeavor to reproduce the entirety of China’s Forbidden City using only 3D printing technology. The successful undertaking resulted in a collaboration with Dutch museum Nieuwe Kerk and the Chinese Nanjing Museum and an exhibition in Amsterdam wherein the final model was curated alongside of Ming Dynasty artifacts.

Then there’s “Blossom,” a work by artist Richard Clarkson. Taking advantage of 3D printing’s most cutting edge innovations, Clarkson utilized multiple build materials to incept the world’s first inflatable 3D print. By forcing air into the artist’s “blossom” models, flowers “bloom” and reveal the complexity of their interiors.

There has even been some concern that 3D printing of perfect replicas of famous works of art could become a serious issue in the future.

Looking Forward

What the future may hold is limitless. The evolution of brand-sponsored sneaker customization programs, for example, could include 3D-printed insoles made especially to mold to the foot of the wearer. “Mass fast” furniture brands could do away with directions and shipping altogether and instead instruct buyers to pick up their freshly-printed couch, chair or dinnerware set at their local 3D Hub. Used in combination with body scan technology, there is hope for 3D printing to revolutionize the worlds of couture and bespoke fashion – modeling and building the perfect made-to-measure gown or suit out of a printer that only works through SLS with cashmere, wool and chiffon. Within 10 years, building planes, shipping containers and even homes in under 24 hours via giant 3D printers could be the norm.

What about teleportation through replication? Although we may still be lightyears away from the reality of The Jetsons, it’s not unreasonable to imagine a time when scanning an item through one’s at-home personal 3D printer results in that same piece popping up at the office of a friend or associate halfway across the globe. As technology becomes more complex, the potential for such a capability in the fields of medicine, travel and urban planning can’t be understated.

Fashion and art have always taken advantage of the latest innovations and technical advances made available. There’s no telling where 3D printing will lead the next generation of creators. There is, however, almost certain satisfaction in the knowledge that it’s here to stay – and only getting simpler and more rewarding to use.

Douglas Brundage has written about fashion and marketing for several years, with an emphasis on trends and culture. He currently lives and works in New York City.

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Printrbot Assembled Simple 2013 3D Printer, PLA Filament, 1.75mm Ubis Hot End, 4″ x 4″ x 4″ Build Volume

The Printrbot Simple 3D printer comes fully assembled, has an open platform, a frame constructed of machined aluminum and laser-cut birch wood, and fabricates objects using PLA (polylactic acid) thermoplastic filament, with a vertical resolution of 100 microns (0.10 mm). The printer can build objects to maximum dimensions of 4 x 4 x 4 inches/102 x 102 x 102 mm (H x W x D). It comes with a direct drive extruder with a cooling fan, and an Ubis hot end that accepts 1.75 mm PLA filament. The printer is commanded through the provided micro USB cable using G-code numerical control instructions. An SD memory card slot can store G-Code instructions on a memory card (sold separately) for operation without a connection to a computer. It can be used with 3D printer management software packages (sold separately). The frame is made of laser-cut birch wood. Machined aluminum axis rods with linear bearings and injection molded gears help ensure precise movement. The size 17 stepper motors meet the National Electrical Manufacturers Association (NEMA) standard ICS 16-2001. The printer comes with a sample spool of PLA filament.

Specifications

Printing materialPLA
Vertical (Z-axis) resolution100 microns (0.10 mm)
Hot endUbis 1.75 mm
Nozzle diameter0.4 mm
Build speed80-100 mm/min
Build volume4 x 4 x 4 inches/102 x 102 x 102 mm (H x W x D)
Printer weight5.25 lb (2.38 kg)
Printer size7 x 8 x 9 inches (H x W x D)
Input formatG-code
Input methodMicro USB cable (included) or SD memory card (sold separately)

*H is height, the vertical distance from the lowest to highest point; W is width, the horizontal distance from left to right; D is depth, the horizontal distance from front to back.

3D printers fabricate physical objects directly from computer-aided-design (CAD) data sources. Objects created by additive manufacturing are built by dispensing successive thin layers of molten material onto a moving platform base from a robotic extruder nozzle. The material is most commonly a thermoplastic or HDPE (high-density polyethylene) filament.

Printrbot manufactures desktop 3D printers and accessories. The company is headquartered in Lincoln, CA.

What’s in the Box?
  • Printrbot Simple 3D Printer
  • 12v 6A laptop style power supply
  • Power cord
  • USB cable
  • Sample spool of 1.75 mm PLA plastic filament

Product Features

  • Fabricates objects from G-code instructions using PLA thermoplastic filament
  • Open platform for ease of access with machined aluminum and laser-cut birch wood frame construction
  • Builds objects to maximum dimensions of 4 x 4 x 4 inches/102 x 102 x 102 mm (H x W x D)
  • Vertical (Z-axis) resolution of 100 microns (0.10 mm)
  • Machined aluminum axis rods with linear bearings and injection molded gears help ensure precise movement

Click Here For More Information