Thread: Rotating Ball nut
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04-03-2013 #1
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05-03-2013 #2
Thanks for your welcome guys, been working a little bit in the dark until now I suppose.
Add at least two more vertical pieces on either side of the frame to better support the rails - it will make a huge difference.
Is that a 12Nm motor on Y?!
Your rotating ballnut designs are impressive, but I'm slowly realising that this might be more complicated than I first thought... I don't really want to go to rack and pinion now I have the ballscrews and nuts... however its driving me nuts!!
The design I first attached was found by just searching for "rotating ballnut" in google. I first liked it because its very compact and maximises the travel of the ballscrew, which is important if I want to be able to to cut 8' x 4'
I have 2 x 12Nm nema 34's for the X (1 for each ballscrew), do you think I would get away with the rotating ballnut I found with my motors?. I know with them being bigger motors that the moment of inertia is greater than say a 4Nm, but I plan to drive them with 68V 8A drives.
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05-03-2013 #3
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05-03-2013 #4
Hi,
I'm curious how you have screwed into the end of the sttel box section on your gantry? I was thinking about cutting some 40mm thick end plates to go in the end of the section for my next machine, but I don't see you have done it that way?
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05-03-2013 #5
Move them - you don't really gain anything by keeping them there and you have a lot to gain by adding supports to the frame.
If spinning the screw, then 4Nm is definitely insufficient.
Your screws are 2800mm, 8' is 2438mm, so surely there's plenty to spare? My design occupies 173mm of the ballscrew.
If you stick with those motors then the mains voltage drivers would be much better - 68V would be the bare minimum. Try putting the numbers in irving's spreadsheet to see which is best. You'll need to enter the inertia of that assembly, which will be about the same as a 3000mm long RM2510 ballscrew, so put that in and you'll get reasonable results. The inertia of my design for RM2510 is equivalent to 1250mm of RM2510 ballscrew, hence much better acceleration is obtained than if the screw was rotated. Thinking about it, you could still use one smaller bearing with the design you found, if the bearing on the locknut end is moved off the end of the nut. Not sure how much difference it would make without drawing it.
Also it depends on what you're cutting - how fast do you really need it to go? If cutting wood most of the time, which seems likely given the dimensions, then it's important to have decent federates. The same is not true if cutting aluminium.Last edited by Jonathan; 08-03-2013 at 07:22 PM.
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05-03-2013 #6
But what is much better acceleration? I use 1.5m RM2010 and happily achieve 4000mm/sec^3 at 16.5m/min with just Nema23 4Nm(video posted in my Strike thread) I don't run at that because its harsh as *$&£ but if a standard setup can achieve that I have to wonder why bother increasing it further when its already excessive?
Surely all this talk about critical speed and higher acceleration is, in some cases, misleading given practical real world evidence that flys in the face of it?
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05-03-2013 #7
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05-03-2013 #8
If the inertia of the system is reduced, less torque is required to achieve a certain acceleration. To reduce the inertia you can either make the gantry lighter, or reduce the mass/size of the rotating components. Clearly optimising the rotating components is preferable since reducing the mass of the gantry will be detrimental to the overall rigidity of the machine. Since reducing the inertia of the rotating ballnut assembly to be less than the screw is not difficult, it's logical to do that as even if your motors will achieve the required acceleration you gain a greater factor of safety which is always good when it comes with no added cost. So to answer your question directly, it's to get the inertia low enough, or if it already is, then increase the factor of saftey on the torque requirement to make the system more reliable, or reduce the cost of the electrical components.
The moment of inertia of one of your RM2010 ballscrews is just over half the inertia of my RM2510 spinning nut, so if paulus used that design with the same motors and drivers he can expect to get about half the accelleration you get, assuming the mass of the gantries is similar. Similarly, if he uses the design pictured in the first post, then the acceleration would be less than 1m/s^2, which is a bit too low really. Either way if drumsticksplitter has put the numbers in the motor calculation spreadsheet, then he will have found that the 4Nm motors are ideal so long as the inertia of the rotating nut assembly is minimised.
For this size machine, then since RM2510 ballscrews are being used the only realistic option is to rotate the nut, since the critical speed would otherwise limit the feedrate to around 5m/min.
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The Following User Says Thank You to Jonathan For This Useful Post:
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05-03-2013 #9
To tension,
I'm curious how you have screwed into the end of the sttel box section on your gantry?
To Paulus, That indeed is very interesting and also worrying for my 12Nm motors. I was looking at the 150v drives to start with, but I got a guy in china to spec the drives and power supplies to my motors, like he did on a plasma table I recently built and he recommended a 68v 400w system. He also sold the 150v drives btw... However, I do think myself these would work best and would save having to buy power supplies for every drive.
This whole thing with acceleration and critical speed is going way over my head... I was hoping to achieve a 2:1 ish reduction to my 2510 screws to buy a bit of resolution and torque. I've sourced taperlock pulleys, because I was sick to death of damn grub screws coming loose on my last build. Therefore the smallest pulley available is a 34 tooth, which with a 72 tooth pulley gives me 2.12:1 reduction. The problem being that the 72 tooth pulley is 114mm, and going by Jonathon's recommendation to keep the moment of inertia low with small diameter components, I'm faced with another problem...
I've seen this:
Its from a Techno LC router (google search), which is a similar kind of design I was looking at. I know you can't see any detail of the ballnut and bearings, but there is a quite a big ass pulley... This particular machine is servo driven, I wonder if that's why this design works for them?
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05-03-2013 #10
I tend to put two grubscrews in each pulley, with a small brass cylinder piece under each grubscrew so that they don't mark the shaft. Do them up tight and use threadlock and the difficult bit will be getting them off, not keeping them on. Also your problem with the 12Nm motors is getting enough speed, so adding a 2.12:1 reduction is only going to reduce that speed (although it will improve acceleration). With the 4Nm motors then I'd go for 1:1 if you're mainly cutting wood since you don't need the extra resolution. If you keep the motor mount and ballnut mount as separate parts then it's easy to change the size of the motors, but more difficult to cover the belt.
It looks like what's happened there is they've designed it with a large pulley, realised that that requires more power to drive it and just stuck a reasonably large servo motor on to compensate. Not the greatest design. They've also used one ballscew on the X-axis, which is pretty poor as it will cause the gantry to deflect/rack when the tool is near the ends. Lets look at how they justify it on their website:
'The placement of the ball screw in the center of the axis of travel eliminates the possibility of racking.'
So they've tried to justify it by saying it avoids a problem which doesn't exist with two motors done properly, and in fact they've made racking become a potential problem by using one. They've also used THK SR bearings and made out that they are excessive, when in fact they have lower load ratings in the direction they're using them and in the first pages of the datasheet is says you're better off using different bearings with equal load ratings if they're mounted upside down, as is the case here. You can do better than this company...Last edited by Jonathan; 05-03-2013 at 09:43 PM.
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