RUG/Pennsylvania/State College/Printers/Rainbow

From RepRap
Revision as of 10:18, 27 October 2014 by Glenn (talk | contribs) (+Category:RUG, Pennsylvania, State College)
(diff) ← Older revision | Latest revision (diff) | Newer revision → (diff)
Jump to: navigation, search

Main | Gallery | Printers | Software | Electronics | Members and Alumni | 3D Printing Club

{{#vardefine:name|Rainbow Unit}}

{{#var:name}}

Rainbow Unit
Nozzle: .5 mm
Temperature: 190°C



PSU unit Rainbow.png



This printer started construction in the Fall 2012 semester. It is an Open Hybrid Mendel model developed by the reprap PSU community. Pictures of this printer being built can be seen below in the progress section. The printer is in the completed state and is ready for printing. See Operation specifications below for the most up to date information its operating conditions.

Fall 2012 Build Members [Greg Mann] [Alex Blenheim ] [Mallory Guarino] [Dan Guy] [Alex Kasinec]

This printer is part of the [PSU] reprap group

Operating Specifications

Operating Specifications
Name Status Design Electronics Firmware Extruder Temperature Comments

Build Progress

This section includes the progress the build team has made on the rainbow printer on a weekly basis. We hope that this timeline will help other teams with building their printers.

Final Update

Photo4.jpg

Things that still need to be done:

1. Finish assembling the extruder

2. Solder the thermocouple junction onto the electronics board

3. Connect all wires to the electronics board

4. Organize the wires so they will not be in the way while printing

5. Test. This printer has not been connected to a computer yet



Week 15

The wires are all crimped and ready to be connected to the RAMPS board. We also hace all of the end switches mounted on the printer as well as their connections made. The extruder has gears and hot tip with the thermocouple installed as well. The electronics have been programmed with the firmware and we are making final adjustments to the machine to put it into final working order. Of course more tweaking is necessary to determine the step size and speed that the motors drive the different axes with the printer interface program. These adjustments are made in the firmware and once all the parameters are in place, the printer will be ready to go.

Week 14

The electronics have been mounted and the motor wires attached to the board. The extruder base has been assembled and placed on its track. We also installed the pulley system for the print bed.


Week 13

Week13.JPG

We have mounted the print bed and have almost all the parts for the extruder printed out. We have also attached the piece to mount the electronics to.


Week 12

We have almost finished assembling the x-axis carriage and we are waiting on a few parts to finish. We have mounted the z-motors and are ready to mount the x-motor and y-motor as soon as we get the parts needed. After the carriage is finished we hope to print out more parts for the bed of the printer as well as mounting the x-axis carriage.


Week 10

Photo (2).jpg


Week 8

All of the X axis parts are printed and waiting to be assembled. Our next task is to install the smooth rods associated with the X axis. Also, get the printer ready to be mounted with electronics and motors.


Week 7

Update.JPG BraidedWires.JPG

We have named our printer and built this page on the wiki. We have assembled the frame and we have various parts for the x-axis printed. We also have our motors (the top two are mounted) and have braided all the wires on them. If you don't know how to do a 4-strand braid click here

Printer Components

Below is a list of all parts that will need to printed for this specific printer, this table can also be found on the [OHM] page. Also included in this table is an inventory column to help the group keep track of what needs to be printed.


Frame and Z Axis Parts

In addition to these printed parts you will also need an assortment of threaded rods and smooth rods. More information on how to build the OHM can be found at this [Link]!

Quantity File-Name Comments Diagram Part Progress
6 Camiel_frame_vertex_6off Alternative part by Camiel Camiel frame vertex 7off.JPG Printing Complete
2 z-prusa-motor-mount_2off Pm-z-motor.jpg Printing Complete
2 z-bar-top-clamp_2off Z-bar-top-clamp 2off.JPG Printing Complete
4 prusa_bar-clamp_2off Pm-bar-clamp.jpg Printing Complete
8 y-bar-clamp_8off Y-bar-clamp 4off.JPG Printing Complete
1 y-idler-bracket_1off Y-idler-bracket 1off.JPG Printing Complete
1 y-motor-bracket_1off_mod3-15 Modified by PSU Reprap Collective Y-motor-bracket 1off mod3-15.JPG Printing Complete

Y Carriage Parts

In addition to these printed parts you will need a print bed. They can be thin aluminum or in our case a strong clear plastic that gives the printer a sharp look.

Quantity File-Name Comments Diagram Part Progress
4 bed-spring_4off Bed-spring 4off.JPG Printing Complete
1 OpenY_8mm Belt Harness_1off Open Y by Buback, modified by PSU Reprap Collective 8mm Belt Harness 1off.JPG Printing Complete
2 OpenY_8mm Crossbar Mount_2off Open Y by Buback 8mm Crossbar Mount 2off.JPG Printing Complete
2 OpenY_Arm 90 - 180_2off Open Y by Buback Arm 90 - 180.JPG Printing Complete
1 OpenY_arm45 Open Y by Buback Arm 210.JPG Printing Complete
2 OpenY_Undercarriage_Bracket_1off Open Y by Buback OpenY Undercarriage Bracket.JPG Printing Complete

X Axis Parts

Quantity File-Name Comments Diagram Part Progress
4 pla_coupling_nophead-1piece_4off Alternative part by Nophead Pla coupling nophead.JPG Printing Complete
2 x-180-z-bearing-plate_2off X-180-z-bearing-plate 2off.JPG Printing Complete
2 PSU_x_vert_sideplate_360_end_2off Alternative part to x-ver-drive-side-plate-360-end_2off.stl PSU x vert sideplate 360 end 2off1.JPG Printing Complete
2 x-360-z-bearing-plate_2off X-360-z-bearing-plate 2off.JPG Printing Complete
2 x-360-z-bearing-plate-mirror_2off X-360-z-bearing-plate-mirror 2off.JPG Printing Complete
1 xaxis-motor-bracket_1off Alternative part by Rhys-jones Xaxis-motor-bracket 1off.JPG Printing Complete
4 x-bar-clamp-m3_4off X-bar-clamp-m3 6off.JPG Printing Complete
4 x-bar-clamp-m4_4off X-bar-clamp-m4 4off.JPG Printing Complete
1 x-end-bracket_1off X-end-bracket 1off.JPG Printing Complete
4 x-vert-drive-nut-trap_4off X-vert-drive-nut-trap 4off.JPG Printing Complete
4 x-vert-drive-side-plate-180-end_4off X-vert-drive-side-plate-180-end 2off.JPG Printing Complete
2 x-axis-side-plate-nut-jig_2off X-axis-side-plate-nut-jig 2off.JPG Printing Complete

X Carriage

Two major issues affected the Open-X carriage: carriages occasionally "walk" up off the tracks, and inconsistent spacing of the undercarriage bracket occasionally allowed the extruder to move/twist laterally. Both of these issues were minimized through modifications by user Joe Bartolai. The OpenX Arm was shortened and an offset was added so that the bearing attached to it is centered on the rail. The OpenX undercarriage bracket was also modified by making the angle steeper where the lower bearings contact the rail and by increasing the spacing where the undercarriage bracket attaches to the carriage. Part models will be added soon.

Quantity File-Name Comments Diagram Part Progress
1 OpenX_Carriage_1off Open X by Buback OpenX Carriage 1off.jpg Printing Complete
1 OpenX_Undercarriage_Bracket_1off Open X by Buback OpenX Undercarriage Bracket.JPG Printing Complete
1 OpenX_arm_PSU_1off Open X by Buback Modified by PSU Reprap Collective OpenX arm PSU 1off.jpg Printing Complete
1 OpenXY_bracket OpenXY bracket.jpg Printing Complete

Extruder

Currently not included in STL zipfile

Quantity File-Name Comments Diagram Part Progress
1 HerringboneDrivenGear Alternative part by Rhys-jones HerringboneDrivenGear.JPG Printing Complete
1 HerringboneDriveGear Alternative part by Rhys-jones HerringboneDriveGear.JPG Printing Complete
1 Gregs_accessible_wades_v6 Alternative extruder by Greg-Frost Gregs accessible wades v6.JPG Printing Complete
1 Gregs_accessible_wades_idler Gregs accessible wades idler.JPG Printing Complete

Electronics

We will be installing RAMPS onto this printer...more information to follow, for now check out this link to our class electronics page Electronics and this link for RAMPS link

This is a picture of a basic RAMPS electronic board and is representative of the one we are using in this project.

Picture of a RAMPS board