My servos on my lc4896 run at 48v. I bet yours do too. They use encoders on the axis but I'm not sure about the drive motor.
My servos on my lc4896 run at 48v. I bet yours do too. They use encoders on the axis but I'm not sure about the drive motor.
I am trying to get specs on the servo motors, no luck so far.
All the documentation indicates encoders.
I intend to use either EMC or Mach3. I have both loaded on the PC.
Whichever is easist to get up to speed quickly.
The power indicator shows 48V, so I suppose that indicates something takes 48V - almost certainly the servos.
So, now I would need a 48V power supply.
Techno incorporated the PS electronics - rectifier, capacitors - onto the single board (above).
I wonder if I can use this toroidal transformer and buy a board that will make a proper power supply out of it?
This PDF has several pages of text listing the pinouts for the various connectors.
Does this help provide any helpful clues?
Lentzie, I presume you mean that the lathe controls are junk, is that right?
If I convert it to Mach3 or EMC, all that will be replaced. Or at least, the main PCB/motherboard. Everything else looks like standard stuff, and of decent quality. The VFD is a nice unit.
The basic machine seems OK mechanically. The headstock and bearings look a bit light duty, but I suspect it's the same hardware used in the Asian 9x20 manual lathes.
Yes. The issues were with the control system. The lathe seemed ok but I was never able to get either machine to run properly. I have no experience with configuring Mach3 and servo motors, however I'm certain the good folks here on the zone can help you out. I have had success with CNC4PC break out boards and other items they sell. For the type of work I do in my classroom and home shop I can't see any benefit of servo's over stepper motors. There are others who I'm sure would disagree. If you find the cost and complexity of setting up the servos is prohibitive you can purchase steppers for about the price of that PCI card. You have a nice platform to work with, I'm sure with the help of the Zone you will get it running.
OK, so these looks like my choices:
(1) Use the existing servos, if able to get specs
2 Gekko E320X @$120 ea
48V Power supply - $50?
C11 BOB $120
Total $390
or (2) I can abandone the servos and go with steppers
1 Gekko G540X $300
2 steppers $100
Total $400
For the same money, (2) is the simplest, with far less opportunity for me to screw it up (and not know why).
After a bit of research, I can see why people rave about the G540X. It's one-stop shopping.
Looks like the way to go. Thoughts?
Would these OE parts have any value on the used market?
Servos, main board, toroid transsformer - Ebay?
Update: Gekko has no info on the servos.
G540 and steppers look like the path forward.
Coincidentally, I just sold an Emco C5CNC control unit for...$400, so the conversion is funded.
Ive got one from a university surplus. no luck / unwilling to pay for computer card. am going to use gecko 540 that I have from a cnc mill I built a couple years ago, just going to buy a couple steppers to replace the servos on the machine. I will keep checking back for advice on what to use and such.
Paul
I am at the point of ordering the G540 and selecting steppers.
Input on stepper selection appreciated.
I figured on buying both from Automation Technology, but they don't seem to have a support contact other than the sub-forum on this board.
I've ordered tons of stuff from them including laser engravers and a 4x4 CNC router. They are trustworthy. I've used 3 g540 kits and they have all come from automation technologies. They are all still working flawlessly. Just don't get the kit with the 425 oz/in motors, they need a 60 v power supply to provide that holding power.
http://www.glenspeymillworks.com Techno LC4896 - 2.2Kw Water Cooled Spindle | Moving Table Mill from Omis 3 CMM, 500Lb granite base | Epilog Legend 32 Laser Engraver
AT is recommending a 381-oz-in stepper with a 48V power supply.
Does that sound about right?
Well OK then!
All I need now is a little positive movement on my Paypal account
Update. After bit more research and a good deal on some servo drives, I have decide to try to run the OE servos. I just ordered some G320X drives.
I will also need a power supply, as the OE transformer feeds into the main board which incorporates the power supply electronics. I would like to use the original toroidal transformer as it has all the taps for 5V 12V 24V and 48V. I'm no EE, and I don't have the electronics knowledge to build this transformer into a proper power supply. Can I buy that part?
Is there a good DIY page to show me how to build one? I have some good bridge rectifiers. A capacitor, and what else?
I will also want a decent breakout board with a 10V analog tap for the spindle VFD control. I may just order one of the $15 ebay boards unless someone has a good argument against that.
AR1911~
Pplug is right. The config that AT gave you is a strong one. If you go this route I'd get the KL23H2100-35-4B stepper motors
instead of the KL232100-30-4B. The 3.5A version of the these steppers have a lower inductance and resistance and therefore
faster "electrical time constant."
Stepper Motor Speed and Torque Information – NMB Technologies
Sounds like you've committed to servos tho'. Thought this post might help anyway.
~john
Noted. I tried to find both numbers to compare specs and better understand your recommendation, but the -30-4B did not come up. Superceded?
"electrical time constant."
Committed is too strong a word. I found servo drives for $120/pair, and I think I could recover that if it doesn't work out.
Everything else I need will also work if I go to steppers. I'm just intriqued by the idea of using the servos.
I have a parallel project retrofitting an Emco lathe with steppers.
This is all an educational thing for me. Thanks for input!
AR1911~
Missed the "H" in the first part number. Apologies.
KL23H2100-35-4B vs. KL23H2100-30-4B
That will let you check the pdf file for each drive to compare specs.
The link I provided is an article that has a sub paragraph titled "Performance Factors."
It does a nice job describing the "electrical time constant" of a stepper motor. Which
is why those values are included in the motor's spec.
~john
Let us know how it turns out. I have read somewhere that the 1000 tick encoders have trouble with the gecko servo drives, but that was years ago. I read that the drivers couldn't keep up with the encoders. I read that 300 or 400 tick encoders work best. Just take my advice with a little salt. I'm not 100% sure. I hope it works for you.
http://www.glenspeymillworks.com Techno LC4896 - 2.2Kw Water Cooled Spindle | Moving Table Mill from Omis 3 CMM, 500Lb granite base | Epilog Legend 32 Laser Engraver