WhiskeyHammer
New Member
- Joined
- Apr 27, 2014
- Messages
- 4
- Reaction score
- 2
Hello all,
I recently picked up my first metal lathe (at a steal of a price) and, after some google searches, ended up reading a few of the threads here on mini lathe modifications and other tricks/tips for accuracy in your machining. I especially liked the thread about using tire depth gauges for precision adjustments. Brilliant!
Edit: I'm running Harbors Freight's 7x10 or x12 (Im away from the lathe right now)
Anyway, I had a couple of concerns about how my mini lathe operates that google couldnt resolve for me, and I was hoping to pick the brains of more experienced users:
Its possible that the guy sold me a bum machine, but I doubt it. He was a proffesional lathe guy for the local electrical utility company and seemed a decent sort, so its more likely that anything wrong with the machine is from my inexperience or mishandling.
Taking a step away from operational concerns, I have a concept I want to double check. I origninally bought the lathe just for threading purposes, but the more I learn about it the more I see how it can be utilized for other projects. One of which is very unsual. I need to cut a very very low pitch twisting square shape. Something like 0.025 tpi (1 complete turn every 40 inches). Obviously this is a little outside conventional lathe operations, but heres my idea on how to tackle it anyway.
First I need to regear the lathe for the low pitch. I plan on creating a very long banjo to create room for not two or three gear combos, but for five. According to my math (which I would appreciate a double check of) I can acheive the 0.025 with five gear combos when restricting myself to the commonly availbale gears for my machine. That should allow me to advance the carriage at the appropriate rate, relative to the rotation of the stock, to create the desired twist. I got my math from here.
0.025 TPI = 16 ÷ ((80 ÷ 20) × (80 ÷ 20) × (80 ÷ 20) × (80 ÷ 20) × (50 ÷ 20))
Secondly to cut the flat face of the square, I need a router bit mounted on the tool post vertically relative to the stock. I can do this by taking the kind of bit meant for mounting dremels and laying it on its side. Then just throwing the approaite router/milling bit into the dremel. Kinda like this but oriented so that the dremel head is pointing down...
Finally I need a way of reliablly indexing the peice for each of the four cutting passes. The idea here is to just throw a carraige stop on the ways to make sure it starts from the same point every time, and then using this guys indexing method to inepxensively start the peice at the appropriate angle for every cut.
[ame="https://www.youtube.com/watch?v=lqreWsmXG4k"]Indexing Method[/ame]
Skip to 4:08 for a good look at what I mean.
I'm concerned about the amount of force acting on the gears and about how fast the carriage has to feed to meet that pitch (it such a high feed rate that it might snap the dremel bit), so rather than run it on auto feed I'll probably advance it by hand-cranking the chuck.
Thougts, pointers, critques?
I recently picked up my first metal lathe (at a steal of a price) and, after some google searches, ended up reading a few of the threads here on mini lathe modifications and other tricks/tips for accuracy in your machining. I especially liked the thread about using tire depth gauges for precision adjustments. Brilliant!
Edit: I'm running Harbors Freight's 7x10 or x12 (Im away from the lathe right now)
Anyway, I had a couple of concerns about how my mini lathe operates that google couldnt resolve for me, and I was hoping to pick the brains of more experienced users:
- When I throw the autofeed lever on my machine, it sometime hesitates in the last little bit of the throw before making a loud (almot thud) noise and goi9ng the rest of the way to engage the lead screw threads. Is this normal?
- I chucked up a pencil to do some low cost familiarization and noticed that the longer my bit sat at one point the deeper it cut. All the videos I've seen in my research dont seem to show this kind of behavior.
Its possible that the guy sold me a bum machine, but I doubt it. He was a proffesional lathe guy for the local electrical utility company and seemed a decent sort, so its more likely that anything wrong with the machine is from my inexperience or mishandling.
Taking a step away from operational concerns, I have a concept I want to double check. I origninally bought the lathe just for threading purposes, but the more I learn about it the more I see how it can be utilized for other projects. One of which is very unsual. I need to cut a very very low pitch twisting square shape. Something like 0.025 tpi (1 complete turn every 40 inches). Obviously this is a little outside conventional lathe operations, but heres my idea on how to tackle it anyway.
First I need to regear the lathe for the low pitch. I plan on creating a very long banjo to create room for not two or three gear combos, but for five. According to my math (which I would appreciate a double check of) I can acheive the 0.025 with five gear combos when restricting myself to the commonly availbale gears for my machine. That should allow me to advance the carriage at the appropriate rate, relative to the rotation of the stock, to create the desired twist. I got my math from here.
0.025 TPI = 16 ÷ ((80 ÷ 20) × (80 ÷ 20) × (80 ÷ 20) × (80 ÷ 20) × (50 ÷ 20))
Secondly to cut the flat face of the square, I need a router bit mounted on the tool post vertically relative to the stock. I can do this by taking the kind of bit meant for mounting dremels and laying it on its side. Then just throwing the approaite router/milling bit into the dremel. Kinda like this but oriented so that the dremel head is pointing down...
Finally I need a way of reliablly indexing the peice for each of the four cutting passes. The idea here is to just throw a carraige stop on the ways to make sure it starts from the same point every time, and then using this guys indexing method to inepxensively start the peice at the appropriate angle for every cut.
[ame="https://www.youtube.com/watch?v=lqreWsmXG4k"]Indexing Method[/ame]
Skip to 4:08 for a good look at what I mean.
I'm concerned about the amount of force acting on the gears and about how fast the carriage has to feed to meet that pitch (it such a high feed rate that it might snap the dremel bit), so rather than run it on auto feed I'll probably advance it by hand-cranking the chuck.
Thougts, pointers, critques?
if, or how.
