Ah yeah, I see what you're getting at. I'll probably mount mine a little bit lower so that it can accommodate the e-chain. Nice. Two birds, one stone.
Cheers.
w./
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Ah yeah, I see what you're getting at. I'll probably mount mine a little bit lower so that it can accommodate the e-chain. Nice. Two birds, one stone.
Cheers.
w./
I see why your thinking 20mm screws to avoid whip so you can have 5ft cutting but in all honesty they are really going to compromise this machine just for wood use.?Quote:
Originally Posted by Wal
Why not drop the cutting area to 4ft which is standard sheet width or better still make the machine 4x4 to accept half sheet.?
This 300mm less screw length puts you within the 16mm screws range, yes it's near the limit but still usable. This will then allow you to use 10mm pitch screws on both X & Y axis which are really what's required to give speeds needed for good wood machine.
Nothing wrong with joining screws(my preferred way) with belts or using 34 motor so long has realise you'll get slight less speed than you will from the single 23 driven Y axis. Thou that said thats the same if you drive X with 2 x 23motors due to having to keep a good safety margin top avoid stalling. Also the speed imbalance can be regained with a bit of gearing.
Whether you use 2 x motors slaved or larger single motor is debate argued many times before so won't go over again.!
The way you have the machine spec now you'll be lucky to get 5mtr min rapids and be in the 3-4mtr cutting limit. This means the motors will be working near flat out all the time while cutting wood and at times not fast enough. This opens up lots of potential for dropped or missed steps when working hard due to being near the motors corner speed all the time. 10mm pitch doubles the speeds which means you'll be cutting with far more torque available at the same 3-4mtr/min making the machine far more accurate and reliable. It also means that you can cut faster if needed which you haven't got an option with 5mm pitch.
Yes the 5mm pitch can be geared 1:2 to give same speeds has 10mm and I know it works because I use my machine like this. But at the time I had no realistic cheap alternatives so had to take that route but thats not the case these days and if building again I'd use 10mm pitch.
M6 or M8 will be fine and 20mm thread is plenty.Quote:
Originally Posted by Wal
With the gantry and slot then I wouldn't make it like that at all and your creating lots of work and expenses. just use flat plates bolted to each other far easier and cheaper than wide piece of Ali plate.
YES this bed design is a VERY BAD IDEA and the base board going under the rails will be a HUGE MISTAKE.!!Quote:
Originally Posted by Wal
First it will absorb moisture and swell turning the machine into a shape shifter with temperature or humidity changes. Even if sealed it's not good.
Also if you mess up and cut thru the bed which is easily done or you spill drink or water anything that will cause damage then it's a major job to change.
DON'T DO IT:!!
If you can weld then weld the frame together and drop the spacers and just bolt base board to frame. Much quicker and easier to build has well.!!
Hiya Jazz,
Thanks for your post. I'll take your advice on the 16mm/10 pitch - 5'x4' size was the absolute maximum I was considering, but as well as dropping the need for this machine to be able to cut aluminium, I'm also happy to drop my size specs to something that will do the job I need it to do - think guitar making - I'd actually be very happy with a usable cutting area of just over 3' x 2'...
Okay, I'm going to change the way that the spoil-board works. Yep, silly idea to have everything bolted through it.
Right, those wooden legs you saw in the OP are going to be held together by a steel angle iron cross braced sub frame - bolted together. I can't weld this. If I welded it then it's not coming out of the cellar ever again. It's just not going to happen. The upside to this is that realistically I'll probably use this machine once every couple of months, so it's not like it's going to be getting a good shaking 24 hours a day, 7 days a week...
Jazz, when you say that you wouldn't build the gantry in the way that I'm planning on doing it - do you mean that it's a shite design that won't work, or are you coming at it from a purely expense/ball-ache factor?
I've been 'thinking' about this build for the best part of a year and if it takes me another 6 months to chamfer out the tabs once the plate is cut, then hey - I'm cool with that! I already have my 15mm 6082 stock - 2 huge pieces that are more than enough to cut the gantry I have planned so that's not something that's going to trouble me. So long as whoever cuts my plate (and that might be you Jazz, if you have the time and fancy taking on the job...) gets it right, then the 4 piece design just seems like a really neat and simple solution to me... Looks good too, although from a pure engineering point of view that may be low on the list of priorities... What I'm saying, though, is that I don't mind this taking me a while to build and I'm happy to spend a bit on it.
w./
No not shite and with some modification will work fine I'm actually building something bit similar.Quote:
Originally Posted by Wal
Attachment 7742Attachment 7741Attachment 7743Attachment 7744
I was thinking more about the cost and the work involved for someone without another machine to help. Which from reading your post's I didn't think you had.!
Thou still I wouldn't do it like that to be honest has it's too inflexible regards adjust for things like ball-screw alignment etc.
Keep the shaped bottom if you like but I'd drop the extended/slotted front plate idea and go with adjustable stronger brackets for ball nut mounting.
Like someone pointed out you absolutely need piece across top for support. I'd also put in some braces between upper/lower and front across the width to help reduce resonance and all though these pics don't show it this gantry has two. They also provide support/fastening for a rear plate enclosing screw and stepper.
Cheers Jazz.
Nice looking gantry there. I entertained the idea of vee-bearings across the top and bottom edges with the drive passing through a slot like how you have it. Turns out getting hold of vee-bearings/rails etc isn't as easy and certainly not massively cheap enough to abandon supported rails.
Anyway. Yeah, you're right again. The slots are probably over-egging it. It works on paper, but I'm assuming that the plates are gonna be dead on 15mm, which is never the case. I'm going for something like this instead:
Attachment 7754
That's oversize, but there's the idea... When you talk about building in a bit of adjustment to things like brackets etc. - what do you mean exactly? Loose tolerances on clearance holes? That kinda thing? I'm a total noob, man - you'll have to forgive the stupid questions, but any pointers/links to illustrations always helps..!
In an earlier post, you recommended that I go for 16mm/10pitch ball-screws which, at 4 feet, would be running close to their limit - any reason why I shouldn't go for 20mm/10pitch screws, like these?
Incidentally - when I'm getting my plates cut, is it a good idea to get them skimmed to 15mm if they're a little bit over in thickness? You know, to maybe help get any surface 'bumps' out. Or does it really not matter that much?
Hearing you on the extra brace at the back/top of the gantry. Haven't got a clue where I'd fit bracing across the front of the gantry... If I'm bolting through the front of the gantry into the bracing at the rear, then surely that's going to increase rigidity in both directions (albeit in one of those directions it'll be the bolts doing the work...) I imagine that for cutting wood at moderate feed-rates with fairly shallow plunges the stiffness here should suffice without popping bolts...?
Thanks again for your help.
Little clearance but not too much.! Really I mean adjustable brackets that can be removed and shimmed or with slots etc into alignment making it easier to fine tune.Quote:
Originally Posted by Wal
Building the machine to within 95% of alignment or accuracy is relatively easy the last 5% or less can be a proper bitch and it's this 5% that makes the difference between OK and Great.
In ideal world you'd have surface grinders,milling machine etc and precision measuring and surfaces to work from making building and alignment lot easier.!!
In the real world we tend to have Hack saw, pound shop pillar drill and Big persuader with corn flake box for shims so anything you can do to ease the pain the better.
No if you have the funds then they are perfect size and pitch. Only reason why recommended 16mm was that most folks buy from Chai at linearmotionbearings has he's very very cheap but he doesn't sell them. They are available from other Chinese vendors has Jonathan pointed out earlier but I haven't used them.! (yet)Quote:
Originally Posted by Wal
Yes it helps immensely but to far less degree if the rest of machines important surfaces aren't done to same standard. The important surfaces being, Rail mountings, bearing mounts, ballnut and screwbearing.Quote:
Originally Posted by Wal
Like I said above all these matter greatly for that last 5% and the better the surfaces are prepared the easier it will be.
Not so much to do with mechanical strength but dealing with or lessoning resonances the machine makes. Any resonance or vibrations will ultimately end up at the cutter giving a poorer finish. If bad it can even affect performance of the machine by throwing the motors into a Cissy fit.!!Quote:
Originally Posted by Wal
Bracing here(See pic blue bit) on gantry and else where on the machines frame help dampen them out.
Attachment 7756
Right,
Had another look at the gantry and done away with the interlocking plate idea. Made it a bit longer too, so the spindle isn't hanging out the front on its own... You should notice the back all braced up, too.
I think I can get it looking nicer - at the moment it kinda looks like it could plough a field, but I should be able to sleeken it up a bit...
http://youtu.be/vt4WcYf0vaQ
Looking a bit sleeker. 2 options for the side-plates. Angles, or rounded...
Attachment 7779Attachment 7780