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you can indirectly measure the pressure angle by a calculation of the distance across teeth - but Andy Pugh did all the work and put up a nice little table here
Thanks for all the info/links @Mcgyver! Appreciate it.
We are going to do some measuring today to see what we have. This gear turns at ~2 RPM max (usually slower); if we have the center distance so that there is some backlash, a mismatch of PA could still work, no?
I'd be misrepresenting my level of gear expertise to definitely answer that. Probably? The involute form of course lets the teeth role off one another so you get smooth motion. You'd lose that which will make it run rough/wear more quickly if it will fit. I have noticed that with a gear tooth gauge (Boston, style with all the leaves) there's a noticeable difference between how deep the right PA gauge meshes vs the wrong one on a gear....that was the basis of my comment.....that, if a fixed distance, makes me think they wouldn't mesh. Moving them apart to make up for that would increase the running issues.
I would try and identify exactly what the PA angle is and then make or order one. If its a stock one from say Boston gear, face and bore to size and you know it'll work. I know we like to make instead of buy but last few times I needed one it seemed well worth it to save the time (if its a stock gear)
What PA are your headstock drive gears? We pulled the idler gear from @RobinHood's SM and it meshed perfectly with my shaper gear. Rudy is pretty sure it's 14.5.
When I tried to identify the PA in my SM gearbox I found that the measuring accuracy required was beyond my capability. Given that gear cutters cover a range of teeth numbers there is going to be some tolerance anyway.
“What PA are your headstock drive gears? We pulled the idler gear from @RobinHood's SM and it meshed perfectly with my shaper gear. Rudy is pretty sure it's 14.5.”
So I found the answer from my SM 1340 manual provided by SM to me based on my lathe’s serial number: all the gears in the drive train to the Norton QCGB have a PA of 14.5*.
It is a bit faint, but inside the 45T gear are it’s specs: “45T, 16DP, 14.5* PA”.
Here is the method we used to determine the specifications of the 14T Craig has on his shaper.
The DP is 16, no question at all. It was calculated based on the OD and the number of teeth N. It was also confirmed with a Fowler Gear Pitch gage (made in Japan) and by meshing it with the 60T gear from my SM1340 (the 60T was easiest to remove from the stack, otherwise we would have used the 45T one).
Now the PA. We tried using the method as suggested by @Mcgyver. Unfortunately, the gear tooth angle is too large to measure across 4 teeth. The measuring instrument touches the gear tooth top edges and not the flanks. So that method was out. I don’t have a comparator. So we used the 60T gear off the lathe and compared how deep the teeth meshed between the 14T, the 60T and the factory 24T on the lathe itself. The depth was identical. Plus the little 14T gear rolls around the 60T gear beautifully.
Based on the above physical experiment, we concluded that the PA is 14.5* with a very high probability.
We are collaborating on making a 28T gear that Craig needs.
@YYCHM - from what I can tell, my main bull gear is 20 PA (72 tooth) driven by a 14 tooth gear. It is a 12 DP gear combo. I have a 12 DP 20 PA gear hobb that matches perfectly. Other gears on the feed speed are 14.5 PA and match cutter profile.
Looking at the profile of the tooth, a 20 PA tooth will be more triangular than a 14.5 PA, but it can be difficult to tell. The teeth on the drive gears on the back of the lathe I believe are 14 DP 20PA.
I think the 20 PA has a slightly larger root width on each tooth for more strength- so application suits the pressure angle.
Driving a 20 PA with a 14.5 would work, but the contact surfaces will of course be slightly off. Slow speed - probably not bad, higher speeds - not a good idea.
So with @RobinHood 's help I'm going to make my first gear.
Here I'm setting up to face off and drill a 1/2" hole through the gear blank. That's 2" round stock and the width needs to be reduced to 0.432".
And all done with the gear blank for now. I'll turn it down to 1.88" OD once it's mounted on it's arbor which I'll make next.
This is going to be fun..... I get to drive Rudy's Bridgeport again
EDIT: Had to revisit this. Rudy tells me drilling the 1/2" hole really wasn't good enough, I needed to bore it out slightly in order to obtain a nice round hole, so I did.
Setting up to make the arbor now.... 3/4" round stock.
Turning between centers gives me my best shot at having the arbor shank and gear blank step concentric. Also allows me to test fit the step dia in order to get it just right. I need to turn down about 6" to just a tad over 0.5". Then I will need to thread most of the step to 1/2-13.
So I guess what I've been calling an Arbor is actually a Mandrel....
Taking a 0.01" skim cut off the whole thing.
Turning the step to fit the gear blank... This is where things kind of went south on me. I could get the step to start entering the blank from one direction but it wasn't going to pass through. From this I concluded that the bore in the blank was tapered so I re-bored the tight side of the blank just a wee bit. Bingo she slid right on but the fit was a bit on the loose side now.
So time to re-turn the step. I had the new step almost entering the blank and switched to polishing it with emery cloth. Finally she would go on 1/2 way and then hang up. So now what's going on? Much head scratching..... Turning it down isn't the solution, must be something with the blank bore still. Looking at the blank bore sure as heck there was a big burr 1/2 way in.
After knocking that burr off with a stone she slid right on snug as could be. Phew......
Next I threaded the Mandrel to 1/2-13. Gee that's an ugly threading job but it's functional.
Final operation is to turn the gear blank OD to 1.88"
Following along. Just curious why you need so much mandrel length on the left side. Wont the gear cutter just be traversing a short distance? Or maybe you are chucking that side in a 4-jaw in the mill?
Also not sure where your burr was but another technique on these assemblies is feed a parting blade along your step taking a small finish pass off & slightly deeper into the OD. This simultaneously squares the step face relative to axis & the relief allows a sharp edge blank bore to butt up to the face without interference. A small radius on your cutting tool means you also have that radius at the base of the step & that's what the gear blank will see first, not the step. The other option is chamfer the gear blank so it doesn't interfere. But on some operations you may not want to that that quite yet.
Following along. Just curious why you need so much mandrel length on the left side. Wont the gear cutter just be traversing a short distance? Or maybe you are chucking that side in a 4-jaw in the mill?
Also not sure where your burr was but another technique on these assemblies is feed a parting blade along your step taking a small finish pass off & slightly deeper into the OD. This simultaneously squares the step face relative to axis & the relief allows a sharp edge blank bore to butt up to the face without interference. A small radius on your cutting tool means you also have that radius at the base of the step & that's what the gear blank will see first, not the step. The other option is chamfer the gear blank so it doesn't interfere. But on some operations you may not want to that that quite yet.
The left side of the Mandrel is long because I don't know how long it needs to be. I think it's going in a 4J mounted on a divining head. We can always cut it down if it's a problem.
And yes, I have discovered that the blank isn't actually fully seated on the shoulder of the Mandrel, I need to add that relief cut you mentioned. I've also discovered that the washer under the nut isn't laying flat on the blank. Bent washer perhaps? I'll be looking at correcting these issues today.
Once the teeth are cut, the gear will need to be bored out to 3/4 and a keyway added. I'll add the keyway with the shaper.
I’ve always bored or reamed to the finish diameter before cutting the teeth. I find trying to hang onto the gear with teeth afterwards is hard to get it concentric, plus the risk of buggering up the freshly cut teeth. There’s always multiple ways to do things though.
Good plan on keeping the mandrel stock long, I’m always just on the edge after underestimating how much clearance and over-run on either side that the gear cutter needs.
I’ve always bored or reamed to the finish diameter before cutting the teeth. I find trying to hang onto the gear with teeth afterwards is hard to get it concentric, plus the risk of buggering up the freshly cut teeth. There’s always multiple ways to do things though.
Good plan on keeping the mandrel stock long, I’m always just on the edge after underestimating how much clearance and over-run on either side that the gear cutter needs.
Hey @YYCHM I agree with @francist as far as the steps go. I have several Mandrels made up for shafts - 1/2”, 5/8 and 3/4 and all are right to size. Bore the gear blank and then ream final few thousand. Fit on the mandrel and cut your gear teeth.
If you have a big gear with lots of teeth (like 40 plus) it can take a while to make the teeth. Really sucks if you overshoot your bore afterwards- just saying.