Picktor is a 3D printable pick and place head for surface mount electronics components.
It mounts on a 3D printer and uses a needle and vacuum pump to pick up small components and place them on a circuit board.
To keep things simple the included software assumes you've taped/attached one or more circuit boards and bits of component tape to your print bed, and then told the software where your circuit boards and component tapes are.
You can see it work here:
While I've tested this and it seems to work for me consider it a proof of concept, it may not work for you, it may break your printer, it may ruin your circuit boards...
Modify the model/picktor.scad, and run Make
Here is what you'll need
![Parts] (https://raw.githubusercontent.com/celer/picktor/master/images/parts.jpg)
- A 3D printer
- All the parts in the model directory printed out
- 4x M3 x 40MM Cap screws [1]
- 7x 623ZZ Bearings [2]
- 11x M3 nuts [3]
- 7x M3 flat washers [3]
- 7x M3 lock washers [3]
- 3x M3 x 10MM hex head screws [3]
- 4x M3 x 10MM cap head screws [1]
- 3x M3 x 8MM cap screws [1]
- 4x M3 x 30MM cap screws [1]
- 2x M4 x 5MM set screws
- 1x 1/16 x 5/32 x 9/32 o-ring [4]
- 6.5mm x 10mm spring [5]
- 1/4 Brass insert from the Watts A-4 961 P plumbing kit [6]
- 12v Vacuum Pump [7]
- 18guage dispensing needle
- 1/4 ID nylon hose
- white lithium grease
- [1] http://www.ebay.com/itm/M3-0-50-X-6MM-THRU-30MM-STAINLESS-STEEL-METRIC-SOCKET-HEAD-C-S-ASSORTMENT-/291147199149?
- [2] http://www.amazon.com/Bearing-Shielded-Miniature-Bearings-VXB/dp/B002BBF3JO/ref=sr\_1\_1?ie=UTF8&qid=1400472770&sr=8-1&keywords=623zz
- [3] http://www.ebay.com/itm/M3-0-50-X-6MM-THRU-20MM-STAINLESS-STEEL-HEX-HEAD-CAP-SCREW-BOLT-ASSORTMENT-/291140653858?
- [4] http://www.harborfreight.com/382-piece-o-ring-assortment-67554.html
- [5] http://www.amazon.com/Tradespro-835798-Spring-Assortment-200-Piece/dp/B003L0LEJM/ref=sr\_1\_1?s=hi&ie=UTF8&qid=1400472954&sr=1-1&keywords=835798
- [6] http://www.homedepot.com/p/Watts-1-4-in-Brass-Compression-Nut-with-Insert-A-4/100638289
- [7] http://www.ebay.com/itm/DC12V-DC-micro-vacuum-pump-Pumping-air-pump-30Kpa-Air-sampling-/191113084674?ssPageName=ADME:L:OC:US:3160
- [8] http://www.amazon.com/XCSOURCE%C2%AE-Waterproof-Microscope-Inspection-Borescope/dp/B00JD4Y56Y/ref=sr\_1\_sc\_1?s=industrial&ie=UTF8&qid=1400475218&sr=1-1-spell&keywords=xcsouce+microscope
- 1 USB camera [8]
(This camera is kind of dissapointing ... see the video quality in the link above)
For mounting to the printer
- 4x M6x16 cap head screws
- 4x M6 nuts
Things you might have from your existing printer
- NEMA 17 stepper motor
Put an M3 nut in the recessed part of the top mount. In order place a lock washer, 623ZZ bearing and flat washer on an M3x10 hex head bolt. Then screw the M3 bolt into the recessed nut.
Insert the two M4 x 5MM set screws into the stepper gear. You may need an M4 tap to properly thread the set screws into the gear.
Place the top mount on the stepper motor, so that the recessed nut is pressed against the stepper motor. (It may require some pressure to put the top mount on the stepper motor.
Place the stepper gear on the stepper motor shaft, but do not tighten the set screws yet.
Insert two M3 nuts into the recessed cut outs on the bottom of the mount. Assemble two sets of screws and bearings.
Place a lock washer, bearing and flat washer on an M3 x 10MM cap screw and screw them into the recessed nuts on the mount.
Place the bottom mount on the top mount and screw them togther using the 4 M3 X 40MM screws.
Place 4 M3 nuts on the recessed cut outs.
Assemble 4 sets of M3 x 10mm bolts (two hex head and two cap screw) with washers and bearings.
Utilize the 2 hex head bolts on the top part of the front mount (it has a larger diameter circle cut out of it)
Utilize the 2 cap screws on the bottom part of the front mount.
File and sand the surfaces of the tool gear that contact the bearings.
Insert the 17 gauge need into the center of the tool gear (you may need to drill out the hole in the tool gear). Using white lithium grease grease the o-ring and press it on top of the 17 gauge needle. The o-ring must press on the top of the needle opening (the pink part). Apply grease to the top of the o-ring.
Using a marker, mark the top of the tool gear on one of the lines.
Place the tool gear between the front mount and mounts attached to the stepper motor. Adjust the stepper gear so that the teeth on the stepper gear align with the teeth on the tool gear - tighten the set screws.
Check to make sure that the tool gear spins freely, if not check for clearences against the various bolt heads, uneven surfaces on the tool gear and lastly that all the bearings spin freely.
Place the 4 M3 nuts into the recessed cut outs on the front of the bottom mount.
Using the 4 M3 x 30 MM screws attach the front mount to the bottom mount.
Place the spring on top of the brass insert, and then insert into the printed air hose mount. Attach the air house mount to the top of the top mount using 2 M3x8MM cap head screws. The brass insert should press against the top of the o-ring in the tool gear.
Thread an M3 X 8mm screw into one of the holes on the side of the air pump mount.
Insert the vacuum pump into the vacuum pump mount. Place the vacuum pump mount on top of the stepper motor, and cut an appropriate length of 1/4 nylon hose to fit between the pump and air hose mount.
There is no warranty, use this at your own risk
In the model/picktor.scad file there is a function mount_ordbot which generates the appropriate mount setup for the ordbot, create a new function which is appropriate for your printer.
If you used the same stepper motor which powered your extruder, then simply hook it back up.
Attach the vacuum pump to one of the power supplies (I used the power supply which was running the fan for my extruder)
You'll need some way to to turn on and off the vacuum pump. On my printer I'm using the same pins that were used to power the cooling fan for the extruder. In my case it is PIN 4 and I use the gcode command 'M42 P4 S255' to turn on and off the vacuum pump.
Both Marlin and Sprinter firmware don't buffer the M42 command, so you will need to modify your firmware to call st_synchronize(); immediately after the M42 command is recieved.
In sprinter, this functionality can be enabled by enabling the macro CHAIN_OF_COMMAND
https://github.com/kliment/Sprinter/blob/master/Sprinter/Sprinter.pde#L1446
In Marlin you'll need to add the line st_synchronize()
https://github.com/ErikZalm/Marlin/blob/Marlin_v1/Marlin/Marlin_main.cpp#L1798
It should look like this after your modification:
case 42: //M42 -Change pin status via gcode
if (code_seen('S'))
{
int pin_status = code_value();
int pin_number = LED_PIN;
st_synchronize();
//...
The included software in /src is designed to utilize a needle which almost touches the print bed.
To run the included software you'll need Python 2.7 and to create an appropriate configuration file.
So the software makes some assumptions, it assumes that you've taped your circuit board(s) to the print bed, along with some component tapes. And that you've put some basic reference information in the config.yml.
Tape one or more circuit boards to your print bed. And in the config.yml specify the location of a single component on the board. Once you run the software it will tell you where it expects the second reference to be on your print bed.
Tape one or more tapes of componets to your print bed. Specify in the config software where the first component is on the print bed. Once you run the software it will tel you where it expects the last component to be on the print bed.
Do a few test runs before you assume all is good!