Metal Lathe DC Motor Conversion – JET 12 X 36 BD

A few years ago I purchased a 1985 vintage JET 12 X 36 BD metal lathe.

 

This is a wonderful machine for the type of lathe work I perform in my home shop. But it used a 230V AC motor. I had to rewire my shop to connect it to 230V. This wasn’t a big deal as I already had 230V in the shop for my welders.

A bigger issue was surface finish and the lathe never being at the correct RPMs for the work at hand. A single phase, AC motor, has what some folks refer to at “60hz Ripple”. The AC ripple causes the motor to vibrate and transmit this vibration to the cutting tool, leaving a less than perfect finish. Three phase motors and DC motors do not have this issue. Secondly, this lathe uses a series of belts and pullys to change speed. It is a pain in the neck to say the least. Especially if you are all set up and starting the cut when you realize you are in the wrong speed.

A DC motor would solve all of this.

The search was on for a suitable DC motor. Although the lathe’s AC motor was rated at 2.5 HP, I could easily stop the shaft with a gloved hand on the 3″ pully. I’ve had experience with DC motors of only 3/4 HP that I could stall no matter what. DC motors have built in tachometers that communicate with the DC electronic drive controller. If the motor starts to slow, more voltage is added, up until the motor or the controller burns out or the limit fuse or circuit is reached. So I felt 3/4 HP, DC would be good enough.

When I started looking for DC motors I found them to be extremely expensive. Used DC motors were not much of a savings, and of questionable past life history. As luck would have it, Ebay was offering an unused 3/5 HP, Dayton, DC motor from a Science Museum down in Atlanta that I was able to snatch for $90! It arrived in like new condition. The museum had it hooked up to a big wheel as a generator. Kids would spin the wheel and see how much energy they were producing. A very easy “past life”.

(I’ve recently converted my bandsaw to DC drive. I found a fantastic source for quality DC motors on AMAZON.COM.   http://www.amazon.com/dp/B00KARD85C/ref=sr_ph?ie=UTF8&qid=1420212798&sr=1&keywords=90v+dc+motor     as this is written, 1-2-15, a 3/4 HP DC motor for $179. AMARINE brand:

  • Highest quality oriented magnets
  • F insulation class
  • CE listed, CE file No. DW2011CE0047 01
  • 56C face and Removable mounting bases for dual mounting versatility
  • Continuous duty; Dynamic balanced armature for smooth operation; Totally Enclosed Non Vent; Double seal ball bearings with permanent grease filling for long life; Long life brushes;

This is the best deal I’ve been able to find )

 

So with motor in hand I needed a DC motor controller. This lead me to one of my favorite sources for “stuff”….. Surplus Center    http://www.surpluscenter.com/

These folks sell new and used components for just about anything you might want to build or modify in your shop.

They offered a fantastic DC controller   http://www.surpluscenter.com/Electric-Motors/DC-Motors/Motor-Speed-Controllers/90-180-VDC-SPEED-CONTROL-W-POT-11-2269.axd

SCR MOTOR SPEED CONTROL FOR DC MOTORS
Brand new MINARIK model MM23001C. Adjustable SCR speed controller for permanent magnet or shunt wound, brush type motors. Ideal for motors in the range of 1/20 Hp to
2 Hp. Compact design in industry standard MM footprint. Optional heatsink (sold separately) can be added to boost output current capacity. Integral potentiometers for setting minimum and maximum speed, acceleration and deceleration, torque and IR compensation. Speed control potentiometer included.

SPECIFICATIONS

  • Input: 115 or 230 VAC, 50/60 Hz
  • Armature voltage (115 VAC IN): 0-90 VDC
  • Armature voltage (230 VAC IN): 0-180 VDC
  • 5 Amps output, 10 Amps w/heatsink
  • 1/8 Hp to 1 Hp @ 90 VDC
  • 1/4 Hp to 2 Hp @ 180 VDC
  • 1% regulation over 60:1 speed range
  • Size 4-5/16″ x 3-19/32″ x 1-19/32″
  • Shpg. 2 lbs.

$81.95 as of 1-2-15

With these two devices at hand, lets convert the lathe

The new DC motor fit easily where the AC motor lived. I could have removed all the ancillary pulleys and mounted the motor to directly drive the spindle. But it was easier to leave everything in place and the advantage of two drive belts will filter the little vibration the new motor might posses even further.

Once the motor was installed, it was time to find a place for the DC control board.

I mounted it on the back of the lathe and created a shield out of sheet metal to protect it from metal chips, but to allow lots of air circulation.

Next up was some type of control panel on the front of the lathe. This needed… main power ON / OFF, Forward and Reverse and SPEED control

A simple 4 X 4 Electrical box with a blank cover filled the bill:

I used a large toggle switch for main power that is easy to hit if I should find myself “wrapped up in my work” so to speak…..  🙂

The F/R switch is a weather proof, mini switch that I bought a bag full from Surplus Center a few years ago. Great little switch! It is a DPDT / Center Off switch. While the lathe is running. if this switch is put to the center, off, position. The lathe stops IMMEDIATELY!  The main POWER switch lets the lathe coast to a stop. This instant stop seems very abrupt and I’m not sure it is good for the longevity of the motor so I do not use it.

Wiring of the DC control board was very straight forward.

(WIRING Instructions and this diagram are available here:  http://www.surpluscenter.com/_MoreSpecs/i11-2269.pdf   and here:  http://www.surpluscenter.com/_MoreSpecs/as11-2269.pdf   )

Everything wired up and mounted we are good to go! Here is a video of the conversion in motion.

http://public.fotki.com/Rbertalotto/machine_tool/jet-1236-dc-motor-c/pc290016.html

If this link doesn’t work, it is available on YouTube:

This is easily the best modification I’ve added to the shop. I love the power and the ability to visually match the RPM of the stock to the finish required by simply turning a knob. Fantastic!

 

I hope you enjoyed this little article. Lots more to see at www.rvbprecision.com and lots more pictures of this and other projects here:

http://public.fotki.com/Rbertalotto/

 

Thanks for looking!

 

 

 

 

 

 

 

 

 

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6 comments on “Metal Lathe DC Motor Conversion – JET 12 X 36 BD”

  1. Patrick McMahon Reply

    Great article, fantastic detail! Only thing I’m not clear on is how you hooked up the reversing switch. Is it as simple as just swapping the leads with the DPDT switch?
    Thanks for the ideas and info.

    • Roy Bertalotto

      The reverse switch is simply connected into the DC control board. But, yes, you could get s DC motor to reverse by simply reversing the power leads with a DPDT switch.

  2. Jerry Reply

    Hi!

    I too converted many shop tools to DC motors and have found that they are fantastic and well worth the little trouble and minimal expense of converting. A great and often very cheap and or free source of DC perm mag motors is found in old treadmills, they also contain the SCR power supply needed to drive the motor, often you only need a rheostat and DPDT , a SPST switches and project box to complete the conversion. Most of the treadmills I have repurposed have been moved to someones basement, used a few times and moved to the street, Salvation Army , Goodwill store or the landfill. Lots of other great parts can be salvaged from the treadmills from drive belts to nuts and bolts. Enjoyed your article and best wishes for continued success in our projects.

    Best Regards,

    Jerry Honeycutt

  3. Brian Clare Reply

    I’m finally converting my lathe(exact same model as yours) to DC drive, using your ideas to do it. Thanks for sharing your ideas and sources for components. The vids on both your mods are superlative!

    Brian

  4. Bob Reply

    You can get free treadmills if you put a treadmill wanted ad in craigslist. I just said “old treadmill wanted” – need motor for my drill press. Most are junk though, but some of the more expensive and the commercial style ones have very high quality DC motors. I probably junked 12 or 13 treadmills and wound up with 3 motors and parts. One very good commercial unit with quality 3hp motor that I am using on my bridgeport with a KB Electronics KBCC-225 Speed Control, one older smaller unit with a decent quality motor that I used on a tiny taig lathe and one unit that happened to be exactly the same model as my personal treadmill so I stripped all the usable parts and saved them. All the rest worked but were total junk such as motors with plastic housings and even plastic bushings. In all it was dubious and probably cost me more in time then just buying good used motors off ebay where I did score one really great deal on another 3hp motor for $110.00. It was a new old stock treadmill motor with a huge flywheel, so heavy it bent the shaft in shipment, it had another shaft on the other end that is true so it still works. Mounted a small plastic fan blade on the bent end so it wobbling .005 is ok.

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