This site is still up.
g0704.com
This site is still up.
g0704.com
Gerry
UCCNC 2017 Screenset
http://www.thecncwoodworker.com/2017.html
Mach3 2010 Screenset
http://www.thecncwoodworker.com/2010.html
JointCAM - CNC Dovetails & Box Joints
http://www.g-forcecnc.com/jointcam.html
(Note: The opinions expressed in this post are my own and are not necessarily those of CNCzone and its management)
He's fine, busy gettin healthy. Working on combining the websites for convenience is all.
Hossmachine Store
Hoss
http://www.hossmachine.info - Gosh, you've... really got some nice toys here. - Roy Batty -- http://www.g0704.com - http://www.bf20.com - http://www.g0602.com
Excellent news ... gave a brother a bit of a fright :-) Glad all is well - Merry Christmas / Happy Holidays my good man.
Thanks for the update ...
while we're here :-) got any links on any of your sites or others indicating how I can finish wiring this C11G BoB to a Solid State relay to control coolant 110v power plug? Ive seeming looked everywhere and was headed over to Hossmachine for some possible links and discovered it was - down ...
Can anyone tell me what the screw size for the Y-axis mount on the G0704 is? I need to buy some longer screws for my stepper mount and I thought I had the right ones, but I do not.
I was reluctant to answer this because I didn't know which screws to talk about. The 704 itself is metric, tapped 6.0 x 1.0 mm, but that's not a motor mount, that's the extension that leadscrew goes through. The phase 3 motor mounts that are made from angle aluminum are tapped 8-32 on one end and 10-32 on the other. But the phase one and phase two mounts that are tapped, 1/2" aluminum bar are 10-32.
So the answer to what screw size is "which screw?"
CNC hobbyist since 2003.
Current CNC hardware: Sherline/A2ZCNC extended, 4 axis X/Y mill and Sherline lathe
I found it, they are M6. Thank you all for the help. Anyone know why my stepper motors are running dreadfully slow? I just got them hooked up through Mach 4 with an ESS board. I have a NEMA 34 and 2 NEMA 23's. I have the controllers set to 1600 pulse.
[email protected] is back up and running now.
Hoss
http://www.hossmachine.info - Gosh, you've... really got some nice toys here. - Roy Batty -- http://www.g0704.com - http://www.bf20.com - http://www.g0602.com
I am trying to get my Z axis dialed in and am having a problem. I had it at 1600 pulses/rev and got it moving the correct distance, but the problem is when i make small adjustments it moves .015 instead of .010 (and .007 instead of .005). So I can move it 6 inches up and it will be right on, but if I am at the work piece doing thousandths of inches, it is going 1.5X the amount I want. I tried on other pulses/rev settings also, from 800 up to 8000 and they all do 1.5X. I am using a smooth stepper and the KL8070D with a Nema 34 and the Ebay Z axis double ball screw. The X and Y work fine at 1600.
I'm not sure where your getting your steps per inch or steps per revolution information, or what specific motors controllers you have.
What you need to know is, first your stepper motors number of steps per revolution. Example, my nema 34 960oz motor has 200 steps per revolution.
2nd, you need to know how many microsteps your stepper driver is set to deliver. Example, my geckodrive g201x is set for 10 microsteps.
3rd, you need to know the pitch of your ballscrew. Example, mine is a 5mm pitch.
Now, for my setup. My mach3 native units are set for "inches". A little math: 25.4mm per inch divided by 5mm ballscrew pitch gives a ballscrew travel of 5.08 revolutions per inch.
So, 200 stepper motor steps per revolution, multiplied times 10 stepper driver microsteps, multiplied times 5.08 ballscrew revolutions per inch gives me a mach3 "steps per" (that's steps per inch when Mach 3 native units is set for inches) setting of 10160 (Mach 3 will interpret a microstep as a step).
10160 microsteps from the stepper driver = 1 inch of travel.
You said you have a 6mm pitch ballscrew. If I assume your native units in mach 3 is set in inches,and your stepper driver also set for 10 microsteps, and you have 200 steps per rev stepper motors, then you would need your mach3 motor tuning "steps per" set to 8166.666666667 "steps per". I doubt a stepper driver can deliver a fractional .6666666667 number of steps. I'd go for a whole number.
If you set your stepper driver to 12 microsteps, then you'd end up with a nice even whole number "steps per" setting of
(25.4 / 6) x (12 x 200) = 10160 "steps per"
My x and y axis stepper drivers are nema23 540oz motors, also 200 steps per revolution, and my x and y ballscrews are also 5mm pitch screws. My x and y stepper drivers are 8 microsteps. So, my x and y are 25.4 / 5 x 200 x 8 = 8128 "steps per"
It sounds like your "native units" may be set for mm, in which case, your 6mm screw and a 10 microstep driver and a 200 step stepper motor would need a "steps per" setting of 160 steps per mm.
I hope this helped.
Do you have backlash compensation turned on?
First off, what Ken226 is saying is exactly right. I use the KL6050 drives that Hoss had in the parts list I bought, but the motors are the most common 200 steps per revolution, my drive is set for 8 microsteps, and the same ballscrews. it works out to 8128 steps per inch. Being a couple of steps different from the calculated value is normal, I think, and you verify that with a dial indicator moving a full inch. That's from small errors in the ballscrew that the Quality Control guys in the business call ballscrew drunkeness. If I recall correctly, all three of my screws are slightly different. What that means, though, is that if you set your table to go exactly one inch in the middle of your table, you might not go exactly 1.000 inch on any other place on your table.
When I saw this last night, I wondered how you knew it was going 6.000 inches instead of a few thousandths too much. It's not exactly easy to get micrometer accuracy over 6" (without a 6" micrometer). What your post is implying is that your system puts out too many step pulses if you go a short distance but it puts out the right number if you go farther. It really just multiplies steps per inch times the inches you're going and spits them out.
When I built my Sherline CNC system, it did some odd things, but just extra steps no matter what distance I was moving it, and just moving a couple of steps on its own. That was electrical noise pickup, but what you're talking about sounds different than that.
Sorry I have nothing more to suggest.
CNC hobbyist since 2003.
Current CNC hardware: Sherline/A2ZCNC extended, 4 axis X/Y mill and Sherline lathe
I am using a dial test indicator to measure. I start it at the table and move it up a known distance(a measured object such as a 1x2x3 block or parallel bar). The backlash is not relevant in this case, I am only moving it one direction. Probably does not help that automation technologies did not send one stitch of paperwork for the motors or stepper drivers.
If it goes 50% too far at .005 and .010, does it go 50% too far at 0.050, or 0.100, and so on? That would say you have a steps per inch problem.
I spent a little time on Automation Technologies and found the data sheets on what you have.
In particular, your motor driver. According to the picture of the KL8070 set you got, the controller is the KL9082. The data sheet is linked on the web page for that part (toward the bottom).
https://www.automationtechnologiesin...rivers/kl9082/
Your NEMA 34 1200 in*oz motors are 200 steps/rev. The data sheet says that you can set it to any one of 16 values for steps per inch: 400, 500, 600, 800, 1000, and up to 10,000 steps per rotation. If you're using a 5.08 turn per inch pitch ballscrew, like the ones in Hoss' plans, I don't see a setting on that motor driver that will give you 1600 steps per inch.
Do you know what the ballscrew pitch is? You mentioned eBay, but no numbers on the screws.
CNC hobbyist since 2003.
Current CNC hardware: Sherline/A2ZCNC extended, 4 axis X/Y mill and Sherline lathe
The pitch is 5mm
Interesting to see that. AT doesn't have the datasheet for it displayed on the webpage, and searching for KL-8070 only brings up the kit with the pictures of the other driver in it, but they have the datasheet here (web search found it). Still, you can see all the switch settings on the motor itself - the same table is in the spec.
The 5mm pitch means the 5.08 revolutions per inch that Ken226 said is correct.
I'm also using 1600 steps per rotation of the motor, times 5.08 rotations per inch or 8128 steps/inch. I took a look at them in Mach3 a little while ago, and the tuned value is 8137, which is 0.1% different than computed. I'm also using an Ethernet Smooth Stepper.
I've never seen this sort of weird problem, so I'm guessing here, but in my work life I've noticed that when weird things happen, I should check the grounding. I'd say to check the wiring to the motors and make sure both ends of each wire are connected with no loose connections. Likewise look for loose wires or bad connections in your box that's driving the motors. If you run ground wires, check those.
Also, it's not that's off in only one direction, like only going up or down, right?
Something this weird sounds like it could be software, but if it's one of the big names, I'd assume it's good.
CNC hobbyist since 2003.
Current CNC hardware: Sherline/A2ZCNC extended, 4 axis X/Y mill and Sherline lathe