ScannerStrap
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Release status: experimental
Description | Documenting a 3D printer made from a used large format flatbed scanner
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Contents
Discussion
Building a 3D printer from used $60 US flatbed scanner.
MICROTEK ScanMake 9600XL, large format flatbed scanner. Used, purchased at REPC for $60 in Seattle. This will be used for the bases of the 3D Printer I am building. Primary advantage, this scanner has two scanner slide assemblies, bed and lid, complete with stepper motors, belt drive, dual slide rails. Thus, mounted in the appropriately fabricated superstructure, these components can form the primary basis for the x and y axis for the printer.
X and Y Axis
Disassembled top and bottom of scanner and tore out the guts to get at the slide mechanisms.
Maximum length and width of printer set by travel of bottom and lid of original scanner. This will determine the size of the wooden superstructure for the printer.
Scanner Stepper Motors
The stepper motor from the bottom of the scanner. Y-axis, is a TECO, TYPE 4H4018X1603, 5V, 1A, Holding Torque-1.2Kg-cm (Bi-POLAR) X-axis, is a TECO, TYPE 4H4018X0101, 12V, 0.23A, Holding Torque-0.8Kg-cm (Uni-POLAR)
Wood Superstructure
Wood superstructure constructed of 2X4s with a bottom of 3/4" plywood. X-axis from the scanner is mounted in the vertical stand. The Y-axis sets in the bottom of the structure. Both bottom and lid slide systems have only one bushing connected to the rail. This is fine for the the Y-axis because gravity is your friend here. For the X-axis mounted in the vertical a nylon stay was glued to the unattached rail to secure it.
Completed Structure Before Z-axis installed
Approximate build area, Y-axis - 17 inches (432 mm), X-axis - 11 inches (280 mm), Z-axis - 10 inches (254 mm)
Work Platform
Mounted directly to aluminum carriage assembly with 3/8" x 3" fully threaded bolts. CARB compliant 1/2" birch plywood (soy-based instead of urea-formaldhyde glue) is used for lower and upper work platform. With the upper work platform to have a heated bed I did not want any toxic fumes emitted at these higher temperatures.
Z-axis
Z-axis will have to be fabricated independent of original scanner. First, a piece of 3/4" plywood was fabricated to mount the X-axis rail system. Z-axis will slide along a center mounted drawer slide (Rockler Center drawer slide, $8.49) . Z-axis stepper motor will be mounted to the top of the drawer slide and the extruder assembly will be mounted to the bottom. Both will be attached to opposite ends of a 3/8 threaded rod. Rotation of the Z-axis stepper motor will move it, the center rail of the drawer slide, and the extruder assembly up and down.
Z-axis Stepper Motor Coupling
Fabrication of coupler between 5 mm stepper motor shaft and 3/8" threaded rod. The idea is to use a traditional 3/8" threaded coupling to connect to the the rod being used for the z-axis. The opposite end of the coupling will have to be modified so that it can accept the 5 mm stepper shaft. Insert to make this transition has to be as centered as possible to prevent wobble. A 5/16" tension pin was chosen for this. The tension pin is made of hardened steel which made its use difficult, but it did match the stepper shaft well. The stepper shaft is secured to the coupler by a 8-32 set screw that is drilled and tapped in. All hardware parts purchased at local Ace Hardware and Lowes stores.
Stepper motor was attached to the inner slide of the drawer slide that is used for the Z-axis with a small L-bracket from some old furniture assembly parts. The stepper shaft is them attached to the modified 3/8" threaded rod coupler and secured using the installed 8-32 set screw.