Dyna 2400 Mill update NOT DIALUP FRIENDLY!
I want to start by saying that I would not be at any point of this conversion without the help of someone I met on this forum. He has helped me termendously with the driver cards for the servos and the electronics of this converison. I will not name him here but he knows who he is..and again I say Thank you.
Well I figured I would post an update to my conversion of a Dyna 2400 CNC mill. I purchased this mill and found that it had some issues after getting it home. It did not display these issues when tested initially but I decided to keep the machine and fix it up. It started as a stepper driven system with it's own onboard controller unit that wasn't real friendly to use anyhow. Here are some pictures of what I had to work with.
http://www.philcole.com/ac/mill_1.jpg
it's not a bad looking machine as seems to be nice and rigid. It has a 10k rpm spindle but I am having some issues I am working out now with it.
http://www.philcole.com/ac/mill_2.jpg
The steppers were driving the lead screws via this delren gear. I had to figure out how to eliminate this in my retrofit plan.
http://www.philcole.com/ac/mill_3.jpg
http://www.philcole.com/ac/mill_4.jpg
http://www.philcole.com/ac/mill_5.jpg
Here is a view of the machine with a cigarette pack for scale...sorry it's all I had around. I need to quit and I am in no way trying to endorse smoking. It kills...and it's killing me..I know.
http://www.philcole.com/ac/mill_6.jpg
This machine has a built in oiler system and an added power oiler built into it...This is nice!
http://www.philcole.com/ac/mill_7.jpg
This picture shows the lead screws...they are not ball screws but they have a quality adjustable nut system that allows backlash adjustment.
http://www.philcole.com/ac/mill_8.jpg
Home switch for Y axis
http://www.philcole.com/ac/mill_9.jpg
Overview of right side of machine showing placement of Estop
Well this is the machine. As you can see Dyna went with a different design of having the stepper drives actually mounted at the end of the axis with the stepper that it drives. All of this hardware must be removed.
So having mulled it over a whole bunch I decided that I would go with a servo drive for this machine. I am intending to do high speed type machining with this mill (if I get the spindle issues sorted out) and I felt that servos would be the best thing for this. I have used a stepper driven machine in the past and really had a hard time with lost steps.
I looked at several places to get servos and most were too much for what this machine needed. I ended up getting servos from www.cadcamcadcam.com I do not have the machine up and running under servo control yet but driving current to the motors to move the axies I am happy with the results so far.
Issues I have completed so far.
1-remove all old controller components
2-design new motor mounts and build them
3-figure out how to drive spindle controller board so I could use spindle.
4-figure out how to reverse spindle direction(it was going backwards) easy fix
5-figure out how to make couplers work with lead screws. I had to turn down the od to remove weight, then bore the ID to allow the locknuts for pressure on the thrust bearing
6-make spacer for inbetween coupler and thrust bearing
7-re-wire existing home switches(temporary until I mount new limit switches)
Issues I still have to address.
1-fix spindle motor and drive (it's currently a mess, motor isn't running right)
2-figure out how to fit all driver boards into the controller cabnet
3-get contuit routed and mounted for running power and encoder wires to each axis.
4-make mounts for new limit switches + and - on each axis
5-make new plate for side of controller cabnet for new ports and cable inputs
6-considering adding dc amp meter for each axis inline with each servo motor to monitor driving amperage...(so I can try to not burn these little motors.)
7-Find gas assisted spring to counter ballence the Z axis head
Here are pictures of where I am at now with this project.
http://www.philcole.com/ac/mill_10.jpg
THis is the spindle drive motor getting ready to go to the motor rebuild shop. It needs some TLC
http://www.philcole.com/ac/mill_11.jpg
This is the head assembly removed and stripped down a bit. I suspect the potentiometer(spelling?) is bad but am waiting until the motor comes back before replacing
http://www.philcole.com/ac/mill_12.jpg
X axis servo mounted and ready to go...except for encoder wires and power wires
http://www.philcole.com/ac/mill_13.jpg
Y axis servo mounted and ready to go...except for encoder wires and power wires
http://www.philcole.com/ac/mill_14.jpg
Z axis servo mounted and ready to go...except for encoder wires and power wires
http://www.philcole.com/ac/mill_15.jpg
Close up of drive coupler. This motor mount bracket needs adjusting still to close the coupler. Thats another thing I need to add to my list.
http://www.philcole.com/ac/mill_16.jpg
Controller cabnet. not a lot of room once the other power supply gets mounted. I need to tidy up all of this wiring still and make room for the new controllers.
http://www.philcole.com/ac/mill_17.jpg
Close up of one side of the existing X axis home switch
http://www.philcole.com/ac/mill_18.jpg
Close up of the other side of the X axis home switch
http://www.philcole.com/ac/mill_19.jpg
Close up of the nut assembly visible from back side of the Z axis
http://www.philcole.com/ac/mill_20.jpg
Different view of Z axis assembly
http://www.philcole.com/ac/mill_21.jpg
This is just another view of the XY slide.
I will try to update this post as things progress. I still have a lot of work to do.
I wanted to make this post as there is not much info on here or the net about converting this machine. I can and will try to help those with questions but I will say that this is my 1st machine conversion and I really don't know much about the electronics side...but I will try to help.
AC
stepper motors for Dyna 2400
I also have a dyna 2400 mill that I am in the process of converting. I was hoping to use the original stepper motors, but it looks like I might end up replacing them with something a little more precise. Has anyone come across a stepper motor model that will bolt into this machine without too much work?