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#1
 
11-12-2006, 12:58 AM
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SO, I am planning on designing a 5-axis router for my universities senior design project. For the various projects my department (mechanical engineering) does, I would like the working envelope to be about 3'tallx5'widex12'long. I am thinking a gantry style would be best, and I am expecting to use Mach3 to control a Geckodrive G100 and then some steppers beyond that. I want to use a readily available motor to run the spindle, so I was looking at standard 2.5hp router motors. Also, I was looking around the forums and liked the idea of a mill bed ATC to speed things up. I would have access to a fully equipped machine shop with a 2-axis CNC lathe, several 2-axis CNC mills, a 3-axis CNC mill, and a 3-axis abrasive waterjet cutter, as well as to a small aluminum foundry to complete my project. Anyway, I was hoping everyone would make there comments and suggestions.  |
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#3
11-12-2006, 06:34 PM
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| I think the size of it is beyond normal DIY'ing.... but with the machine tools you have available it would be possible. 3' of Z axis travel will be the tough part. alot of force on a 3' lever moving on the x&y axis I would build it with a truss type framing... lots of triangles. |
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#5
11-12-2006, 07:38 PM
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| Most comments are slow in cases where the project seems to big for the initial question ie: where do kids come from? and big questions like that. Course then again my first mill (other then my mill conversion) was a 4x8' which I'm pretty sure most people think that is to big to be the first,. b./ |
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#6
11-14-2006, 07:49 PM
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Hi It seems pretty ambitious to biuld a 5 axis machine but you only get to go round once. I am a mechanical engineering student and three of us recently completed a 3-axis CNC router with a huge work envelope 132" x 60" x 32". So do your statics home work for the structure then do the dynamics. Most good suppliers of cnc parts and equipment have the right specs for you do do a first pass analysis of what will be involved. Before you even start make sure you know what you wnat the machine to do and try to make it realistic. My rule of thumb is 3.14:1 design:build ratio. Design it then design it twice again. Making the machine is the fast part it's getting the design right that should take the majority of the time. |
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#7
11-15-2006, 11:31 AM
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| VW, Well if your serious about doing this then go for it, however I will say this. Before you start, set down what your spec's are, just like any other project of this type. Nail down those spec's and then in case you want to move them later.. screw,bolt and glue them down  .Why do I say that? Well.. I'm building a 20' x 10' x 4' milling machine. I'm to the stage where I'll be starting to install the electrical components and doing the final assembly of the major parts in the next few weeks [ at least I hope to be]. I've been working on my project for nearly 12 months, about 8 of which were actual "hands on" working, the rest has been design and research. I've averaged about 10-20hrs a week of work on the project, since it started. Initially I suffered from "Design Creep-i-tous" where I wanted to do it "this way", then realized that for only a little bit more money or work I could do "that way". This lead to continual changes and higher and higher tolerances and higher and higher expected performance, and hence cost. So, if your wanting to machine wood or foam or light plastic's, you'll have a totally different set of spec's than if you want to do alum or steel or Ti. A couple points to ponder, typically linear rails come in 10ft lengths, if your going this route, a 12 ft machine isn't the best mat'l usage [10 of 15 would be better], 5ft wide is fine as you'll need two rails @ 5ft or one 10ft rail cut in 1/2. The 36" is probable fine as well. You can buy the rails cut to length, but you'll usually get a better deal if you buy raw lengths and cut them yourself. If you plan to use a standard 2.5hp wood router, the ATC option is fairly remote. [I've never seen it done, but thats not to say its impossible.. depending how complex you want to get.. oh.. and how much $$ you wanna spend  ] If you go w/ a cheaper draw-bar style ATC, your looking at about $5-8000Usd however its about 20-24" long, a smaller air powered one is over $12000. [those numbers include the needed VFD's and cooling equipment]. Finally, 5 axis rolls off the tongue easier than it happens in real life. I've planned to use 5 axis on my machine as well, but for starters I plan to use a simple 3 axis setup just to get things working. CAM software for the 5 axis is going to be more fun.. and cost. Mach3 doesn't currently do the needed kinematic tool offsets needed to run most 5 axis CAM program code [the CAM usually puts out tool tip position and index position and lets the control software calculate where the machine position is due to index position and tool length. Finally, something this size is going to take you at least twice as long as you think, and thats not counting any glitchs that come up, and it will take twice as much money as you initally guess as well. One thing you'll notice through all of this is money.. the more you have to spend, the more options and possibilities there are, on the cheap its still possible but your spec's will have to reflect this. [ie; DIY rails will give you +/- 0.01" at best not +/- 0.001" ] At first glance it may appear that I'm pretty pessimistic when it comes to all this, I'm not. However, the real facts might as well be presented before a person jumps into a project of this size. Hope that helps... Jerry
__________________ JerryFlyGuy The more I know... the more I realize I don't (Note: The opinions expressed in this post are my own and are not necessarily those of CNCzone and its management) |
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#8
11-16-2006, 03:58 AM
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I 100% agree with Jerry, Not just in theory but in practice also. Mine is 10' x 12' x about 38" . It has been quite a ride. The first 5 axis head was a little rickety and has been converted back to three axis pending a complete 5 axis head redesign. I also am waiting for art to get to the 5 axis kinematics (hopefully some day) running . When you build something this big you learn all about heavy mass and resonances. Feature creep has also been a problem, some just by wanting to do it better and some by necessity. As of this month it has been almost a year . Lots of design- redesign. It ended up costing around triple from the first draft. and isn't done yet. Also count on around ~$20.000 for a continuous 5 axis cam package and custom post for mach. Maybe you can get mastercam to pony up a student version.. I am the last person to advise not biting off more than you can chew, just be realistic of what can be done in the scope of a senior project. Big iron, big motors, big drivers, big rails, big ball screw- belts- rack, money, time. But it is possible i am about 80% there and cutting, and boy it is fun to watch it move. Chad |
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#9
11-16-2006, 05:43 AM
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| The links below should help as far as 5-axis DIY. Software: http://www.rainnea.com/cnc_toolkit.htm Machine: http://www.rainnea.com/cnc_5axis.htm Desktop Machine: http://www.rainnea.com/cnc_5axisMill.htm . |
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#11
11-16-2006, 10:07 AM
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I saw the ones on the support group, but they weren't detailed enough.Mike ps if you are the same Chad I'll be calling you in the nex couple of days.
__________________ No greater love can a man have than this, that he give his life for a friend. |
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