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I have one of those lathes, but enjoy making with "the skill of my hands on the wheels...", so probably produce far less repeatable components than you do. But each to their own. Well done on the conversion and results!
Have you considered making a chess set? Perhaps using aluminium, and black Delron, or something? Then "the parts on the shelf" would be something to play with and challenge the brain afterwards? That would be a nice family heirloom.
When at school, a Woodwork teacher asked me to make 24 round door/drawer knobs for kitchen doors and drawers, to his design profile, using the metal lathe. I made 27 from the hardwood he supplied, and he selected 26 good ones... - rejecting the second one I made. A lesson in volume manufacturing repeatability!
K2
I do have a bigger manual lathe as well
It is satisfying when the parts come right wether cnc or manual
 
I think I "need" a CNC lathe this year :cool:. I was wondering if I can give it a try with a 400 W spindle motor? Hopeless underpowered, or can it work?
This small lathe has a 600 w motor, if that's any help

1704182942488.jpeg
 
In real terms "work-in = work-out": Thinking simply, the work the motor is doing (after tiny losses to friction and heat of motor, bearings, gears, etc.) is basically "shearing metal". So a 400W motor can only shear 2/3rds to metal of a 600W motor. I.E. 2/3rds the cut, or feed-rate: => 1 1/2 times the cuts....
So Hand machining time versus CNC should be about the same for any lathe worked at the max cutting rate...
If it take 1 1/2 times as long on your 400W lathe as your mates 600W lathe, then life hasn't changed by going to CNC.

BUT while winding wheels, you are fully occupied, whereas with CNC you can sit and watch U-tube of someone else machining something while your machine makes the part. Or have a coffee, talk to your mate along the street, or your wife, Postman, etc. etc.

But consider your life.
Is the time spent machining a pleasure to you? - or do you prefer computer work (developing CNC models/programs)?
Is the machining operation a personal challenge, or pleasure, or drudgery? As the tool set-ups, lathe cleaning, maintenance, etc. are all still not CNC capable. you still have that occupation. Maybe the work involved creating a CNC machine is really your chosen occupation? - Lots of people collect tools, machines, etc, and do lots of work to improve their manufacturing ability while hardly ever making anything, but also there are many people who make lots of things with the minimum of tooling, machines etc. as the making of things is what they want to do. I know people who love assembling things, but don't want to machine things, and vice-versa.
I applaud everyone who does more than I do, as I spend more time faffing on thinking and wishing than making stuff... But that's my life. I really enjoy "hands-on" making stuff, so choose not to do CAD, CAM, CNC, etc., - those were necessary "at Work", but now retirement is play-time to spend on things I didn't do but wanted to do.
Enjoy!
K2
 
... a CNC machine is really your chosen occupation? - Lots of people collect tools, machines, etc, and do lots of work to improve their manufacturing ability while hardly ever making anything, .....
Haha, yes that is totally the case. Practice, making "test pieces and broken cutting tools", and nothing else really.... :) The manual lathe is not getting replaced. ... if... I really proceed with the CNC then it will be "the project".
If I estimate by Volume as you suggest I think I can give the existing motor a try. Torque and gearing also play a role. (CNC lathes often have quite a powerful motor to compensate for the missing gear reduction).

Still 3 h to try to change the subject and upload a "what did I not type about, but actually do" :cool:
 
I am self taught in every thing machining CNC or Manual, I have not background in machining at all, so I enjoy both

Most of the computer modeling, CAD and CAM are done at night, cad and cam are self taught as well, I have no background in either

I set my workshop up along time ago so I didn't have to spend the money after I retired

I just retired in December, this is my main interest, I also do some prospecting
 
BUT while winding wheels, you are fully occupied, whereas with CNC you can sit and watch U-tube of someone else machining something while your machine makes the part. Or have a coffee, talk to your mate along the street, or your wife, Postman, etc. etc.

But consider your life.
Is the time spent machining a pleasure to you? - or do you prefer computer work (developing CNC models/programs)?
Is the machining operation a personal challenge, or pleasure, or drudgery? As the tool set-ups, lathe cleaning, maintenance, etc. are all still not CNC capable. you still have that occupation. Maybe the work involved creating a CNC machine is really your chosen occupation? - Lots of people collect tools, machines, etc, and do lots of work to improve their manufacturing ability while hardly ever making anything, but also there are many people who make lots of things with the minimum of tooling, machines etc. as the making of things is what they want to do. I know people who love assembling things, but don't want to machine things, and vice-versa.
I applaud everyone who does more than I do, as I spend more time faffing on thinking and wishing than making stuff... But that's my life. I really enjoy "hands-on" making stuff, so choose not to do CAD, CAM, CNC, etc., - those were necessary "at Work", but now retirement is play-time to spend on things I didn't do but wanted to do.
Enjoy!
K2


I, someone who doesn't have a CNC machine, I wish to have one, Reason??
With 1 or 2 cylinder engines, there is no problem without a CNC machine, but with 4, 6, 8... cylinder engines it is really a problem, many parts such as valves, valve seats, pistons... .sometimes the repetition gets to the point of boredom
Save effort....to focus on the main goal of building the engine and making it run, Why not?
CNC is the best choice if the engine has multiple cylinders
Personal opinion, people who build their own CNC machines, write CNC programs and machining engine parts , are really good at mechanics.
 
Setup my new mini lathe.
Just put my good old Aloris AXA tool post. Made world of difference.

This is first mini lathe after installing the tool post.
Found out it is great little lathe.

Next is follower rest coming Wednesday.

Dave
20231226_152724.jpg
 
Hi Dave .
Can you give me an objective review of that lathe ?
I watch quite a few videos about similar lathe reviews. but it really doesn't any useful information for me , like using a similar lathe to turn aluminum - why the hell a lathe can't turn aluminum !? Or to turn steel they set the lathe speed crazy..
 
laser parts.JPG
Picked up my laser parts on Friday. Today i unpacked them.
A laser? mmh... the next big thing. :cool:
first trial fit.JPG
Then I welded up a stand and assembled some of the hooks.
hook.JPG
I hope that helps to store cables, wires and other things that come in loops. I saw a lot of storage that is on tubes or bars, then 5-7 rolls are all together on one "stick".
The problem is that the one empty roll in the middle is never replaced, because it is too much work to take the tube with all the rolls off just, to change one in the middle.
Now every roll will have its own hook, I can only grab one at a time. :)

Greetings Timo
 
My Christmas break project has been to finish refurbishing the old Powermatic 66 cabinet saw that I bought this past summer.

TL/DR version: Aside from some minor odds and ends of fixes and improvements, the main work has been to a) remachine the miter gauge slots, b) make a new miter gauge and bar from scratch, and c) revise and attach a t-square style fence that I had previously made (had to cut the "square" part from the fence and re-weld it with a larger spacer in-between). The results have exceeded my most optimistic hopes - the miter gauge is a snug but smooth sliding fit in the slots, and the pre-set holes (e.g., for 90° or 45° or so on) seem to be dead-on accurate.

IMG_20240102_085133972_HDR.jpg
IMG_20240102_085120746_HDR.jpg
IMG_20240102_085104736.jpg


If you want all the gory details, read on:

For those of you not familiar with the Powermatic 66, here is a nice tribute to the species: https://www.woodworkerssource.com/b...f-excellence-powermatic-66-table-saw-retires/. According to this source, the Powermatic 66 was the "iconic" cabinet saw, heaviest in its class. New, more-or-less equivalent models sell for $3000 or more, depending on how they are equipped. Used, they generally start at $1000 and go up from there.

I saw a Craigslist ad for one this summer for $200, and jumped on it immediately. It was well-worn, having been in a school, and the motor was of unknown condition - a 5hp 3-phase motor (!!), and the seller had no way to run it, and thought it didn't work. It did come with a matching but dismounted Biesemeyer fence, also worn and missing the scale and indicator.* It did not come with a miter gauge. Most important, though, is that the bearings and trunions seemed smooth and free of wobble, and did I mention it was only $200?

I got it home and began to assess what I had. First order of business was the motor. It turns out to be a Baldor that looked brand new - very promising. I wired up a plug for the motor and tried it out on my 3hp phase converter - yes, theoretically too small to start the 5hp motor, but figured I'd give it a shot. Voila, the motor started right up and runs smooth as silk.

Next order of business was to assess the top. I knew it had plenty of wear from years of use in the school ... but it is a table saw for woodworking, not a machine tool for metal, so absolute flatness is not essential. As it turns out, it really is generally pretty flat. But there was a definite problem when it came to the miter slots. Not surprisingly, the left-hand slot was significantly worn, while the right-hand slot had just a bit of wear. The total wear was a little under .015" in places ... unevenly in places. While .015" is not much in woodworking terms, the miter slot is a critical component, and even a little slop there can greatly affect the quality and squareness of a cross-cut. The fact that the wear was uneven, and the two slots didn't match, meant that I couldn't just use an expanding miter gauge bar to take up the slack.

Thus began a lengthy and pucker-inducing process to re-machine the slots and make a new miter gauge and bar with precise fit. I wish I had taken pictures of the machining setups as I went - too late now - but if you are still reading this lengthy tome and want more, I will describe below.

I was not sure how well I would achieve either one, but I gave it a go. First I put the saw table on my Bridgeport mill and aligned it with the slots as best I could (averaging out the dips and bumps). Then I machined each slot to a total width of .765, just cleaning up each side. Sounds simple enough, but the problem is that the table is 28" long, while the maximum X-travel on my BP is 24". Rather than moving the saw table on the mill table - potentially creating all sorts of opportunities for messing up the alignment of the slots - instead I left the saw table secured to the mill table, and instead extended and swiveled the ram to each side. I still had to be very, very careful to match up the previously made cuts, but with much care and concentration, I succeeded. There might be a tenth or two variation (.0001 - .0002") at most, as best I can measure. Whew!

Then I had to made a miter gauge bar, and I wanted to make it as long as possible. I started with a bar of hot-rolled steel, approximately 1.25" wide by .5" thick, around 26" long. I wound up milling it down to size held in the vise, with machinist jacks and clamps at either far end. This left a little waste at each end, but produced a very long bar. I was also able to take advantage of the jacks and clamps to carefully tweak the bar to get the machined sides as close to perfectly parallel over the long length as possible. I left the bar around .002" oversize, and then spent a couple of hours carefully and tediously "grinding" the bar to final size by hand - i.e., I secured a strip of 120-grit cloth-backed emery paper to the flattest section of the saw top, and carefully worked the bar back and forth, measuring frequently and testing for fit. I was surprised that this worked as well as it did. To ensure that the grind was as even as possible, I had to pay close attention to the placement of my hands to vary how and where I was pressing down. The final result was so much better than I could have hoped - again, maybe a couple of tenths of variation, but it fits into both slots snugly yet slides smoothly, with no discernable play. Another big Whew!

Finally, I had to make the head of the miter gauge. I started with a piece of 1/4" thick 2" x 3" angle iron, but had to weld on an extension to widen the base to > 4.5" - because I had decided to make this oversized. Most miter gauges seem to be based on a 3" radius, but I made this one on a 4" radius. Nothing too unusual involved in machining it flat and square. I reamed the central hole 10mm and made a very precise post to use as the swivel. I made an adapter plate to go on the rotary table so that I could cut the various features without cutting into the rotary table itself. I used the rotary table to position the preset holes, cut the slot, and to attempt to cut the outer radius ... but that part did not go well; there was way more pressure on this cut than I had anticipated, and it seems that the worm gear in my rotary table chipped a few teeth as a result. :( Accordingly, I finished the outer radius on my 2x72 belt grinder.

The only other thing of note is the way I put the angle scale on the miter head. Rather than grooving the degree markings it on the rotary table (which by now was no longer a possibility) and then stamping the numbers, I worked up the design in Inkscape and used that in my cheap laser cutter/engraver along with ceramic marking coating to bond the design to the steel. If you're not familiar with marking coating, here is the product I am using: OMTech Laser Marking Spray (no affiliation other than satisfied customer). Cermark is the original "brand name" for this sort of thing (as best I can tell), but is about 4 times more expensive - I wasn't sure how well this cheaper stuff would work, but it turns out that it really does work extremely well, creating a strong bond that doesn't rub off. It can be sanded off if necessary ... and I found it necessary to do so twice, since it took me three tries to get everything lined up perfectly. I haven't yet made a pointer, but based on how the markings sit with respect to the rim and to the preset holes, I am confident that the third time was the charm.

Finally, to cut some wood and check the results. I dialed in the fence - the whole point of a fence like this is that you can adjust it to be perfectly parallel to the blade, and you can adjust the indicator to give highly accurate results. I adjusted until, when the fence was set at 2", ripping a piece of plywood gave me a caliper reading within +/- .003" of 2 inches - absolutely phenomenal accuracy for woodworking! And then I used the presets for 90° and 45°, and the resulting cuts were as close to perfect as I could measure with a pretty accurate square. (All of this is after first aligning the table slots to the blade, which I had done a few weeks ago.)

Needless to say, I am ecstatic - I now have a powerhouse of a table saw that cuts incredibly smoothly and accurately! Meanwhile, if you have read all the way to the end of this lengthy discourse, you are truly a glutton for punishment!

*On edit: I forgot to mention that I wound up selling the Biesemeyer fence that came with it, and instead used the fence I had made years ago to use on the Craftsman "contractor" saw that I had up until I acquired this Powermatic. Somewhat to my surprise, the Biesemeyer was considerably lighter in construction, and my fence has proven to be extremely accurate and reliable, so I removed it from the Craftsman and sold the saw with its original (crappy) fence, and also offered the Biesemeyer as a separate accessory - wound up selling both together
 
Last edited:
The goal I aim for in the future
How much money do you spend to get the machine to CNC ?
The Masso G3 Touch for lathe is AU $2,128.50

MASSO Closed Loop Stepper Motors $226 t0 $250 depending on the size, then what ever the ball screws cost
you will also need a power supply

If you go with Mach 3 or 4 you could do it cheaper, but personally I don't like windows or running cnc on a computer, just my preference

You can find more info here, hope the link is allowed

https://www.masso.com.au/
 
My Christmas break project has been to finish refurbishing the old Powermatic 66 cabinet saw that I bought this past summer.

TL/DR version: Aside from some minor odds and ends of fixes and improvements, the main work has been to a) remachine the miter gauge slots, b) make a new miter gauge and bar from scratch, and c) revise and attach a t-square style fence that I had previously made (had to cut the "square" part from the fence and re-weld it with a larger spacer in-between). The results have exceeded my most optimistic hopes - the miter gauge is a snug but smooth sliding fit in the slots, and the pre-set holes (e.g., for 90° or 45° or so on) seem to be dead-on accurate.

View attachment 152684View attachment 152685View attachment 152686

If you want all the gory details, read on:

For those of you not familiar with the Powermatic 66, here is a nice tribute to the species: https://www.woodworkerssource.com/b...f-excellence-powermatic-66-table-saw-retires/. According to this source, the Powermatic 66 was the "iconic" cabinet saw, heaviest in its class. New, more-or-less equivalent models sell for $3000 or more, depending on how they are equipped. Used, they generally start at $1000 and go up from there.

I saw a Craigslist ad for one this summer for $200, and jumped on it immediately. It was well-worn, having been in a school, and the motor was of unknown condition - a 5hp 3-phase motor (!!), and the seller had no way to run it, and thought it didn't work. It did come with a matching but dismounted Biesemeyer fence, also worn and missing the scale and indicator.* It did not come with a miter gauge. Most important, though, is that the bearings and trunions seemed smooth and free of wobble, and did I mention it was only $200?

I got it home and began to assess what I had. First order of business was the motor. It turns out to be a Baldor that looked brand new - very promising. I wired up a plug for the motor and tried it out on my 3hp phase converter - yes, theoretically too small to start the 5hp motor, but figured I'd give it a shot. Voila, the motor started right up and runs smooth as silk.

Next order of business was to assess the top. I knew it had plenty of wear from years of use in the school ... but it is a table saw for woodworking, not a machine tool for metal, so absolute flatness is not essential. As it turns out, it really is generally pretty flat. But there was a definite problem when it came to the miter slots. Not surprisingly, the left-hand slot was significantly worn, while the right-hand slot had just a bit of wear. The total wear was a little under .015" in places ... unevenly in places. While .015" is not much in woodworking terms, the miter slot is a critical component, and even a little slop there can greatly affect the quality and squareness of a cross-cut. The fact that the wear was uneven, and the two slots didn't match, meant that I couldn't just use an expanding miter gauge bar to take up the slack.

Thus began a lengthy and pucker-inducing process to re-machine the slots and make a new miter gauge and bar with precise fit. I wish I had taken pictures of the machining setups as I went - too late now - but if you are still reading this lengthy tome and want more, I will describe below.

I was not sure how well I would achieve either one, but I gave it a go. First I put the saw table on my Bridgeport mill and aligned it with the slots as best I could (averaging out the dips and bumps). Then I machined each slot to a total width of .765, just cleaning up each side. Sounds simple enough, but the problem is that the table is 28" long, while the maximum X-travel on my BP is 24". Rather than moving the saw table on the mill table - potentially creating all sorts of opportunities for messing up the alignment of the slots - instead I left the saw table secured to the mill table, and instead extended and swiveled the ram to each side. I still had to be very, very careful to match up the previously made cuts, but with much care and concentration, I succeeded. There might be a tenth or two variation (.0001 - .0002") at most, as best I can measure. Whew!

Then I had to made a miter gauge bar, and I wanted to make it as long as possible. I started with a bar of hot-rolled steel, approximately 1.25" wide by .5" thick, around 26" long. I wound up milling it down to size held in the vise, with machinist jacks and clamps at either far end. This left a little waste at each end, but produced a very long bar. I was also able to take advantage of the jacks and clamps to carefully tweak the bar to get the machined sides as close to perfectly parallel over the long length as possible. I left the bar around .002" oversize, and then spent a couple of hours carefully and tediously "grinding" the bar to final size by hand - i.e., I secured a strip of 120-grit cloth-backed emery paper to the flattest section of the saw top, and carefully worked the bar back and forth, measuring frequently and testing for fit. I was surprised that this worked as well as it did. To ensure that the grind was as even as possible, I had to pay close attention to the placement of my hands to vary how and where I was pressing down. The final result was so much better than I could have hoped - again, maybe a couple of tenths of variation, but it fits into both slots snugly yet slides smoothly, with no discernable play. Another big Whew!

Finally, I had to make the head of the miter gauge. I started with a piece of 1/4" thick 2" x 3" angle iron, but had to weld on an extension to widen the base to > 4.5" - because I had decided to make this oversized. Most miter gauges seem to be based on a 3" radius, but I made this one on a 4" radius. Nothing too unusual involved in machining it flat and square. I reamed the central hole 10mm and made a very precise post to use as the swivel. I made an adapter plate to go on the rotary table so that I could cut the various features without cutting into the rotary table itself. I used the rotary table to position the preset holes, cut the slot, and to attempt to cut the outer radius ... but that part did not go well; there was way more pressure on this cut than I had anticipated, and it seems that the worm gear in my rotary table chipped a few teeth as a result. :( Accordingly, I finished the outer radius on my 2x72 belt grinder.

The only other thing of note is the way I put the angle scale on the miter head. Rather than grooving the degree markings it on the rotary table (which by now was no longer a possibility) and then stamping the numbers, I worked up the design in Inkscape and used that in my cheap laser cutter/engraver along with ceramic marking coating to bond the design to the steel. If you're not familiar with marking coating, here is the product I am using: OMTech Laser Marking Spray (no affiliation other than satisfied customer). Cermark is the original "brand name" for this sort of thing (as best I can tell), but is about 4 times more expensive - I wasn't sure how well this cheaper stuff would work, but it turns out that it really does work extremely well, creating a strong bond that doesn't rub off. It can be sanded off if necessary ... and I found it necessary to do so twice, since it took me three tries to get everything lined up perfectly. I haven't yet made a pointer, but based on how the markings sit with respect to the rim and to the preset holes, I am confident that the third time was the charm.

Finally, to cut some wood and check the results. I dialed in the fence - the whole point of a fence like this is that you can adjust it to be perfectly parallel to the blade, and you can adjust the indicator to give highly accurate results. I adjusted until, when the fence was set at 2", ripping a piece of plywood gave me a caliper reading within +/- .003" of 2 inches - absolutely phenomenal accuracy for woodworking! And then I used the presets for 90° and 45°, and the resulting cuts were as close to perfect as I could measure with a pretty accurate square. (All of this is after first aligning the table slots to the blade, which I had done a few weeks ago.)

Needless to say, I am ecstatic - I now have a powerhouse of a table saw that cuts incredibly smoothly and accurately! Meanwhile, if you have read all the way to the end of this lengthy discourse, you are truly a glutton for punishment!

*On edit: I forgot to mention that I wound up selling the Biesemeyer fence that came with it, and instead used the fence I had made years ago to use on the Craftsman "contractor" saw that I had up until I acquired this Powermatic. Somewhat to my surprise, the Biesemeyer was considerably lighter in construction, and my fence has proven to be extremely accurate and reliable, so I removed it from the Craftsman and sold the saw with its original (crappy) fence, and also offered the Biesemeyer as a separate accessory - wound up selling both together



Why - - - - well done - - - I right proper job.
(now if only I could find such a saw . . . )
 
Why - - - - well done - - - I right proper job.
(now if only I could find such a saw . . . )
How hard can it be? Table, Motor, Something to fix the blade :cool: .... ( I am scared of table saws :) )

example (2).JPG
Stay safe. The smiley doe not answer his phone since few days.... I wonder what happened.

Greeting Timo
 
Did you manufacture or purchase the follow rest ?
Purchase from Amazon.
The brand I have does have a follower rest so Purchase a different brand and need a taps holes to fit.

Dave
 

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