|
|
|
 If you cannot complete relatively simple tasks, why would anyone assign you something more challenging?? - Chris Fultz [more] |
 |
|
|||||||
|
||||||||
 |
| Thread Tools | Rate Thread | Display Modes |
|
|
|
| If you cannot complete relatively simple tasks, why would anyone assign you something more challenging?? - Chris Fultz [more] |
|
|
|||||||
|
||||||||
|
| Thread Tools | Rate Thread | Display Modes |
|
#1
|
||||
|
||||
|
Sprocket Tensioning
I've heard that for #35 chain, if you space the sprockets 3/4 in away from each other, you do not need tensioners? Is this true, and if so, where is the measurement taken from? Furthermore, do most teams prefer using this method, or machining bearing blocks? Thanks in advance.
Last edited by MichaelBick : 11-12-2011 at 15:00. |
|
#2
11-12-2011, 15:05
|
||||
|
||||
|
Re: Sprocket Tensioning
Quote:
The problem with chain is that it starts to stretch and sag no matter what you do, so having tensioners allows you to keep a chain longer. You just keep tightening it as slack develops. Your chain life also improves when it's at the correct tension which is why you should do the center distance calculation. There are simple online tools to handle it, but it's based on fairly basic geometry and you can do it by hand as well. Can you clarify the last question? |
|
#3
11-12-2011, 15:25
|
||||
|
||||
|
Re: Sprocket Tensioning
If you use the correct length of chain and have your sprockets properly spaced you can typically avoid using tensioners, half links, and even master links (with the right chain breaker tool and technique) altogether. However, it is still wise to prepare to have a tensioning method available, as well as Master Links, and Half Links for quick fixes.
How do you find the right length of chain to use? There actually are formulas to help you figure this out. Ideally you want to use only whole links and the total number of links should be a whole even number, ex.... 16, 18, 20, 22..... Chain pitch is either .250 (#25) or .375 (#35) Formula for Center to Center Distance of Sprockets: (B1/8) * (2*B4-B2-B3 + SQRT((2*B4-B2-B3)^2-(8/3.14159^2)*((B2-B3)^2)) ) B1 = chain pitch B2 = Sprocket 1 teeth B3 = Sprocket 2 teeth B4 = # Whole Links Formula for Number of WHOLE Links: (2*E4/E1+E2/2+E3/2+((E2-E3)/(2*3.14159))^2/(E4/E1)) E1 = chain pitch E2 = sprocket 1 teeth E3 = sprocket 2 teeth E4 = Center distance I made an excel spreadsheet to make it easy. Last edited by Phalanx : 11-12-2011 at 15:37. |
|
#4
11-12-2011, 19:58
|
||||
|
||||
|
Re: Sprocket Tensioning
Thanks, and sorry for the inaccuracies in my question. I meant that I've heard that for #35 chain, sprockets can be spaced in multiples of 3/4. I'm guessing this is correct. Also, would teams still recommend using a bearing block, so that you can account for chain stretching.
|
|
#5
11-12-2011, 22:40
|
|||
|
|||
|
Re: Sprocket Tensioning
We calculated exact distance for a 12 tooth to 60 tooth #35 chain drive for our arm (heavy load) and got it right and had no problems whatsoever with it. #25 does stretch a bit so it's nice to be able to tension it.
|
|
#6
11-12-2011, 22:58
|
|||||
|
|||||
|
Re: Sprocket Tensioning
Use this:
Joe Johnson's Chain Visualizer - One of the best Chain Calculators, its really powerful. http://www.chiefdelphi.com/media/papers/1598 -RC |
|
#7
12-12-2011, 06:45
|
||||
|
||||
|
Re: Sprocket Tensioning
Quote:
http://www.rbracing-rsr.com/chainlength.html is a very simple calculator. Set the pitch to .375 and try different combinations of sprocket size and different lengths. You'll see that for a 1:1 sprocket ratio it's easy to get integer numbers of links (just put a multiple of .375 for your center distance). For any other ratio, you'll have to use a bit of finagling to get it a center distance that yields an integer number of links. |
|
| Thread Tools | |
| Display Modes | Rate This Thread |
|
|
Linear Mode
