Originally Posted by Adrian Clark (Post 1185077)

Given the reduction of your gearbox, and how much torque you have at the shaft, I would extremely worried about using a set-screw to transmit power to the pulley. I wouldn't expect it to take more than a few matches for that set screw to start slipping (because of your high reduction I'm assuming this gearbox is being used in a high load application).

The best way to transmit power to and from a shaft is to use hex shaft and hex broached components. I can't see into your gearbox too well, but given that those are WCP gears I'm assuming that your output shaft is hex that's been lathed down to 3/8. I would suggest that you redesign your plate to accommodate a 1.125 OD bearing for your output shaft and use an AndyMark 3/8hex oversized bearing. Or if you don't want to redo your plate and still use that 7/8 OD bearing then I would suggest you mill a keyway into your shaft and broach a keyway into your sprocket, it wouldn't be a good as using hex shaft but it would be much stronger than it currently is.

Edit: I just noticed that you were using WCP's new 24DP delrin gear, where'd you get your 24DP pinion? The only place iv'e found to get a 24DP pinion that isn't brass in to buy SDP-SI carbon steel pinion wire, is that what yours is?

Originally Posted by MICHAELABICK (Post 1185101)

Is there a reason you prefer the 1.125 OD bearing over this one: http://www.andymark.com/product-p/am-0439.htm?

Originally Posted by MICHAELABICK (Post 1185101)

Is there a reason you prefer the 1.125 OD bearing over this one: http://www.andymark.com/product-p/am-0439.htm ? I doubt they are going to be experiencing 40 lbs radial on that bearing.

Originally Posted by greasemonkey (Post 1185117)

think about the power out put if it were a cim in there

Originally Posted by Mk.32 (Post 1185087)

It's a 500 motor and all the shafts are 3/8 Hex with the ends lathed down to 3/8 round.

The reduction was mainly for low speeds not torque. This runs the pulleys on the tower which is not a high load application, we actually used set screws on the competition robot this season and never had issues. With a flat in the shaft and some lock loctite on the screw it's fine for lighter loads.

Originally Posted by rsisk (Post 1185130)

We fell in love with 3/8" hex last year, well, I did anyways. What is the purpose of lathing the end to 3/8" round?

Originally Posted by Mk.32 (Post 1185151)

We don't have hex borching [wish we did] so just using an set screw on a flat on the shaft was fast and easy. Also since this is mostly a low load application the set screw will be fine.

Originally Posted by artdutra04 (Post 1185153)

It sounds like you have access to a decent assortment of machine shop tools. If you have access to a surface grinder, a lathe, a Dremel, and an old worm out HSS end mill you can make your own hex broach. Here's how you can make a 1/2" hex broach:

1. Acquire a few inches of 1" or larger hex stock. Drill and ream a 5/8" hole through it, and add a set screw hole.
2. Take an old 5/8" HSS end mill. Cut off the flutes. Mount the shank into the hex tool holder above with about 1" sticking out.
3. Clamp down the hex stock onto the table of the surface grinder.
4. Take a light pass on the surface grinder.
5. Rotate the hex stock to the next face.
6. Repeat steps 3-5 until you have ground the end mill shank into a 1/2" hex profile.
7. Mount the end mill shank into a lathe with the hex profile facing outwards.
8. Put a cutoff tool in your Dremel tool. Turn on the lathe and Dremel, and hold the Dremel tool perpendicular to the lathe. The objective here is to cut a concave dimple with sharp edges into the hex profile.
9. Congrats, you now have a cheap hex broach that will work in soft materials like aluminum or plastic.

You can substitute in different sizes above to make 3/8", 7/16" or other size broaches.

Originally Posted by Mk.32 (Post 1185157)

Wow I never thought you could do that. Might give it a try :cool:
Instead of using a 5/8 endmill would just a stock of Tool Steel work?
Is just getting a good hex on the tool just a lot of time and patience on the grinder with careful measuring?