drumsticksplinter
14-05-2013, 07:25 PM
Hi guys,
I've been working on my plasma table for quite a while now off and on. I've been hiding in the shadows of this forum for a little while and though it was about time to share the progress of my build. Its a kind of build log in reverse because to be honest its almost finished.... :)
Anyways, I didn't produce a fancy 3d rendering of my machine first, I just kind of worked from 2d plans. Due to the limited access to my workshop I had to design a machine that would come to pieces and get through a single doorway. My workshop is actually big once inside, so the entrance lets it down slightly!
I had some parts laser cut out to make a nice job of the bolt together components, then once the steel was cut to size I tacked everything together and loosely assembled the table:
8912
An important challenge for me was to come up with a design that kept vulnerable components protected from dust / water ingress and knocks and bumps that might occur during the loading / unloading of heavy steel sheets. Therefore, where I can I've tried to minimise the risk of certain elements becoming damaged or prematurely worn. One important area I think is the linear components on the X axis. Plasma cutting is notoriously dusty, and the dust produced is severely abrasive, therefore, if its sitting on linear rails and rack gears then excessive wear is introduced. I've tried to overcome this by placing my rails / racks like this:
89138914
The drive on my x axis look like this:
8915
The gantry is driven either side with 4NM nema 23's through a 3:1 belt reduction, then spur gears onto the racks. I've placed the motors so they will be inside the gantry itself. Initially I was concerned about the lack of airflow around the motors causing an overheating problem. I think I've eliminated that by choosing digital drives that produce much less heat from the motors :) The gas struts in the picture supply constant upward pressure on the rack gears to reduce backlash and to compensate for any inaccuracies in the steel channel they are mounted onto.
8916
Y and Z axis:
8917
Got everything wired and had a little play around with a pen to see what it could do:
8918
From here this machine got a little neglected due to the start of my router build.... I've got far too many projects on the go and am terrible for switching between them before they are finished. I got a tip off that I might be able to get some work for this machine soon, so I'm now having one last push to try and get it finished.
I've been spending the last 2 weeks fully welding the framework and painting everything up. Here's the stage I'm kind of at now, just putting everything back together.
89198920
I now need to work on the water table and tank system then hopefully cut cut cut :) :) :)
I've been working on my plasma table for quite a while now off and on. I've been hiding in the shadows of this forum for a little while and though it was about time to share the progress of my build. Its a kind of build log in reverse because to be honest its almost finished.... :)
Anyways, I didn't produce a fancy 3d rendering of my machine first, I just kind of worked from 2d plans. Due to the limited access to my workshop I had to design a machine that would come to pieces and get through a single doorway. My workshop is actually big once inside, so the entrance lets it down slightly!
I had some parts laser cut out to make a nice job of the bolt together components, then once the steel was cut to size I tacked everything together and loosely assembled the table:
8912
An important challenge for me was to come up with a design that kept vulnerable components protected from dust / water ingress and knocks and bumps that might occur during the loading / unloading of heavy steel sheets. Therefore, where I can I've tried to minimise the risk of certain elements becoming damaged or prematurely worn. One important area I think is the linear components on the X axis. Plasma cutting is notoriously dusty, and the dust produced is severely abrasive, therefore, if its sitting on linear rails and rack gears then excessive wear is introduced. I've tried to overcome this by placing my rails / racks like this:
89138914
The drive on my x axis look like this:
8915
The gantry is driven either side with 4NM nema 23's through a 3:1 belt reduction, then spur gears onto the racks. I've placed the motors so they will be inside the gantry itself. Initially I was concerned about the lack of airflow around the motors causing an overheating problem. I think I've eliminated that by choosing digital drives that produce much less heat from the motors :) The gas struts in the picture supply constant upward pressure on the rack gears to reduce backlash and to compensate for any inaccuracies in the steel channel they are mounted onto.
8916
Y and Z axis:
8917
Got everything wired and had a little play around with a pen to see what it could do:
8918
From here this machine got a little neglected due to the start of my router build.... I've got far too many projects on the go and am terrible for switching between them before they are finished. I got a tip off that I might be able to get some work for this machine soon, so I'm now having one last push to try and get it finished.
I've been spending the last 2 weeks fully welding the framework and painting everything up. Here's the stage I'm kind of at now, just putting everything back together.
89198920
I now need to work on the water table and tank system then hopefully cut cut cut :) :) :)