I've been planning a 6WD robot. Two cordless drill motors transmit power through #25 pitch chain to each side individually, giving it a tank track drive system. The base material is acrylic with various parts coming from mcmaster carr and other online stores.
This is an older version I built as proof of concept to get the microcontroller, pwm motor controls, etc all to work. I had a friend control this robot from a different state as a final test and it worked great.
Here is some of the parts list for the new bot.
roller chain ansi #25, 6 feet
http://www.mcmaster.com/#6261k286/=7rla4d
18+ bearings
http://www.vxb.com/page/bearings/PROD/Kit223
3' steel shafting 1/4"
http://www.mcmaster.com/#1327k66/=7rln9e
8 1/4" smallest drive sprockets (9)
http://www.mcmaster.com/#2737t1/=7rlrhm
2 drive sprocket 3/8" 12 tooth
http://www.mcmaster.com/#2737t102/=7rlstj
2 large sprocket
http://www.mcmaster.com/#2737t151/=7rlzcv
16 1/4" shaft collars
http://www.mcmaster.com/#9414t6/=7rm193
2 wheels (test idea first)
http://www.robotmarketplace.com/products/0-HPI4456.html
http://www.robotmarketplace.com/products/0-HPI3048.html
http://www.robotmarketplace.com/products/0-HUB12.html
EDIT: A few more parts I've ordered:
12V 5A 200 oz-in 150 RPM 67:1 Gear Motors X2
http://www.pololu.com/catalog/product/1445
Brackets for mounting these motors:
http://www.pololu.com/catalog/product/1084
Dual 5A H-Bridge motor controller, PWM; very simple, not current limited, needs heat sinks
http://robokits.co.in/shop/index.php?main_page=product_info&products_id=15
More info on this kind of circuit:
http://www.bobblick.com/techref/projects/hbridge/hbridge.html
http://www.ikalogic.com/H_bridge_old.php
Here are some of my notes on assembly. I have a lot of work to do:
- assemble frame rail test platform
- come up with distance between wheels
- measure out and build chain for this distance
- determine hole position using chain with sprockets
- assemble two wheels, 2 sprockets, chain, shafts
- come up with minimum height of assembly based on sprocket + chain
- design final drive assembly based on wheel separation, height
- test 5/8" bearing hole
- cut shafts
- build chains (4X)
- cut all pieces
-4 frame rails
- height determined by previous step
- length determined by wheel separation, leave room for end pieces (1/2")
-4 end stops
- height same as rails
- length TBD by guesstimate on strength needs
-1 main platform
- length is exact same as frame rail
- sawing order
- set saw for frame rail and main platform length
- cut big enough piece to get all frame rails - should be at least (frame rail height) X 4
- cut one additional rail to be cut up into end pieces
- cut big enough piece to become main platform
- set saw for frame rail and end piece height
- cut 4 frame rails from previous set
- cut out bottom shield pieces
- stack all frame rails and adhere with something temporary
- drill bearing holes 5/8" X 3
- glue frame rails to end pieces, take extreme care to line up properly
- lightly glue bottom shield
- drill the holes for the main bolts, count TBD, size TBD
- attach bottom shield
- assemble drive train
- possible order:
- wheel -> shaft collar -> washer -> bearing -> washer -> shaft collar -> (sprocket or shaft collar) -> bearing
- wheel -> drive sprocket -> shaft collar -> etc
- attach wheel to one end of bearing
- slide shaft through shaft collar, washer, outter frame bearing, etc
- wrap chain around sprocket(s) before inner frame bearing
- tighten all collars and sprockets
Yeah, more and more receive evidences that the progress cannot be stopped. Ten years ago I doubt that one could even imagine such device.
Posted by: resume writing services | 12/26/2010 at 11:50 AM
I think that was an expensive toy.but its look great.
Posted by: Sherman Unkefer | 01/12/2011 at 08:01 PM