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#1
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Backlash
How much backlash is recommended for gears? I am using AM gears (20 dp, 14.5 pa) and we have the option of cutting the side plates on either an old mill or a waterjet. The mill is by no means state of the art and I would guess that the tolerance is .005". The waterjet tolerance as listed on their website says .005" but our mentor assures me that they can get at least .003" if not much better.
How much backlash would you recommend between two gears? I was thinking .002" but am not really sure if that will be enough. Also, what are some good places to get hole reamers for .005" under 7/8" and 9/8"? I am planning on having the waterjet cut a smaller hole than needed for the bearing and then pocketing that hole with a reamer so I can press fit an unflanged bearing in there. thanks, Vivek EDIT: err... It seems that reamers are meant to go all the way through the hole. What is the best way to make a hole like that? I am planning on using .25" aluminum and leaving a lip of .13-.15" for the bearing to sit against. Gimme a break, I'm still a n00b. ![]() Last edited by vivek16 : 02-06-2008 at 19:50. |
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#2
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Re: Backlash
Quote:
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#3
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Re: Backlash
Well... Flanged bearings are more expensive and we have a bunch of non-flanged ones laying around that work
![]() thanks, Vivek |
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#4
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Re: Backlash
Quote:
You have a couple other options--all of them involving second operations on a mill. You can use an endmill and interpolate a pocket for the bearing to sit in. If you wanted to use a manual mill, you could use a boring head and bore the diameter down to the flat. It'd be a heck of a lot easier to use a flanged bearing and a through hole. as for reams, check McMaster, Enco, KBC Tools, etc. Pretty much any industrial supply/tooling company will have perfectly suitable reams. You don't want 0.005 under either. More like 0.0005. a 0.005 interference fit is WAY too tight. you want a max of about 0.002 interference. You might be ok going 5 thou under in aluminum, but you could actually deform the bearing in a harder material. |
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#5
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Re: Backlash
Where can I get flanged bearings cheap? Is there a place to get them in bulk for a reasonable price? I need 3/8 and 1/2 ID
I would rather not do complicated milling after the initial cutting. It does seem a lot easier just to do flanged bearings. I guess the low-on-funds-ometer is going off again ![]() thanks, Vivek EDIT: Also, what kind of reamer? Flute style, length, etc. Last edited by vivek16 : 02-06-2008 at 20:42. |
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#6
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Re: Backlash
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You just want a straight flute chucking reamer. HSS is fine. No need for carbide. |
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#7
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Re: Backlash
Do I NEED bearings like AM uses or are cheaper ones from the local hardware store fine?
thanks, Vivek |
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#8
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Re: Backlash
Honestly the best place I have found to buy bearings is on ebay. The store is VXB wholesale I believe and they have very cheap prices compared to most places.
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#9
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Re: Backlash
I might just stick with the local hardware store's bearings since they are cheaper. With the run time of a FIRST bot I doubt there will be problems. It is not really a high load situation anyways.
Anyhow, I never did get an answer on how much backlash to put in. I was thinking like .01"? The gear teeth are .1" long and the machine we are using to cut the plates will have .003" tolerance at worst. thanks, Vivek |
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#10
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Re: Backlash
It is ok to put in none and then just run them in. At least I'm pretty sure it's ok. It is not the "best" method but it accomplishes the same goal and you don't have to worry about to much backlash and power loss.
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#11
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Re: Backlash
I would speculate that you want your center to center distance increased by at least the amount of tolerance of your machine to ensure your gears do not bind. If your machine can only hold .003, I'd say either look for a better machine, or increase your center to center distance .005 over nominal. I'd be weary of going with any more than that though.
For the bearing fit in aluminum, you certainly don't want any more than .001, with something in the range of .0005 being optimal. More than probably .0015 and you'll start to excessively load and potentially even damage the bearing. There are formulas to calculate this, but this is a basic rule of thumb based on experience. Make sure you use precision ground ABEC rated bearings. If you don't, you'll certainly have problems. Unground and/or non-precision bearings are not rated for anywhere near the speeds, loads, or tolerances of precision ones, by a factor of up to several-fold. I too would recommend through holes and flanged bearings. The most common bearings to use in FRC gearboxes are FR8ZZ and FR6ZZ. These can be obtained from a variety of sources, including Small Parts at about $4 each, under part numbers BRF-06 and BRF-08. There are also cheaper sources. Check local suppliers. |
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#12
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Re: Backlash
yeah, our machine does atleast .003" (better from what our mentor tells me). We are trying out a waterjet from our sponsors for the first time. They list the tolerance as .005" on their website but my mentor assures me that they can do much better than .003". I made my previous designs for .002" of backlash but it is no big deal to change.
Ok, I will look into flanged bearings. They certainly would make life a lot easier. (Come to think of it, I have half the bearings I need from a toughbox I [slash]demolished[/slash] err... modified )thanks, Vivek Last edited by vivek16 : 03-06-2008 at 00:25. |
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#13
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Re: Backlash
If you really want to learn what the right demensions are use a machine design book (norton or shigley) or you can buy an old machinist Handbook. Since you are using spur gears any old addition should have the right info.
As far as tolerance goes, almost any mill that has functional lock on it can hold a tolerance tighter than 0.005 learn how to work against slop and practice. That being said our team made AL side-plates for an AndyMark gearbox. It took two tries. The first shot I merely explained what to do with the students. They made a couple big set-up errors and the plates wouldn't work. I worked closely with them to make the second set and it worked out better. Rule of thumb on press fits 0.001" per 1" diameter. This has almost always worked for me in the past. Gearboxes are a good test of skill. They hate being too tight and will destroy themselves if too loose. |
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#14
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Re: Backlash
With steel, I would say that would be fine, but with aluminum it would wear out fast. Another idea... what about brass bushings.
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#15
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Re: Backlash
We have typically used a 0.08 mm increase in gear center distance with our custom-made geartrains. My guess is that this is on the high side compared to some others who make their own boxes, but these are typically wire-edm'd gears whose surface finish is a little rough before run-in. Our gears are not very wide either.
We run them in at no load (i.e., not driving the chassis around, but just running the wheel while it is off the ground) for an hour or so. We have been using the same tube of Amsoil grease (apparently its "racin' grease" ) for several years now....If I was using purchased, nicely finished, wider gears, I think something in the 0.05 mm range would be my choice for the amount that the center distance is increased. The looser distances like I am suggesting here make the boxes easier to assemble and get low geartrain friction, in my opinion. Ken |
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