Welcome to Our Community

Some features disabled for guests. Register Today.

Introduction and planning out my setup

Discussion in 'General Talk' started by Jason Farley, Jan 21, 2015.

  1. Jason Farley

    Builder

    Joined:
    Jan 19, 2015
    Messages:
    29
    Likes Received:
    4
    First of all, Hello All!. I have been reading up on the forum for several days now and looking at interesting builds. I have been researching multiple DIY CNC setups and kits for several weeks including the Shapeoko, Sidewinder CNC, Probotix, and Solsylva. I thought it was time to introduce myself and my intended build.

    I plan on building a machine that is capable of both milling/routing and plasma cutting. If I can manage to pull of some laser engraving and/or drag knife work with appropriate tool/carriage/head change outs that would be a huge bonus. I am certain I want to use aluminum extrusion rails for a bulk of the body/frame eliminating the wood or composite designs like the Sidewinder CNC which might not play well with plasma.

    My target size is roughly 48"x 48" but may be willing to step down to 36" x 36" if rigidity and tolerances can not be maintained. To do this I am thinking of a modified OX with 20X80 and 20X60 replacing much of the smaller rail in the system or if I can find compatible components easily enough using 40 series extrusion where needed. I am also thinking of increasing the number of guide wheels on the plates where I can.
    I am thinking Open Rail and Vee wheels for with rack and pinion or acme lead screw and block for linear motion. I do not wish to use the belts of the original design.
    I am thinking of using a 4AX_40V_425_DB setup from Xylotex for my electronics with Nema 23's. (http://xylotex.netfirms.com/OSCommerce/catalog/product_info.php?cPath=22&products_id=92)
    Probably just use Sketchup (if I can learn it) and Mach3 since I do not want to spend the coin on SolidWorks which I am used to. I no longer have access to it since I changed employers.

    At some point I will probably add a 4th axis for plasma work primarily for tube notches and precise/complex miters. I would need the bed of the machine to be pass through in one axis to accommodate 144" or longer tube and that would also allow me to work on one half of a standard 4'x8' sheet or material as well.

    So my plan to use 1500mm 20x80 Y side rails, 1500mm 20x60 or 40x60 X gantry rails, taller 4 roller plates on the gantry for the 20x60 Z axis, and increasing the side plates to guide rollers to 4 or even 5 top and bottom. Of course this means custom side and gantry plates to accommodate the difference in rails sizes and the number of rollers. I have design work ahead of me before I can have those made from 1/4" al plate.

    So what I need to clarify before I begin designing is rack and pinion or acme lead screw. I have heard that over 36" acme screw can have issues so if I wish to go to 48" I will need to look at rack and pinion which I am unfamiliar with incorporating in my design. Screw just seems easier to design around. All you need is couplings for the motor and bearings with appropriate supports/plates. Plates are easy to design and the direct drive eliminates tension and engagement issues. Plus there is that whole securing the rack to the extrusion issue to deal with in the rack and pinion system.

    Open Rail vs. Vee groove/rail is also a touch of uncertainty for me. Open rail seems to eliminate some of the potential issues of chips and such interfering with your wheel rack/tracking but it comes at added cost and complexity to the build. I am unsure if the Open Rail design actually adds significant benefits to increased rigidity or accuracy/precision.

    So what say you the experts? Any thoughts on my proposed build?
     
  2. Jason Farley

    Builder

    Joined:
    Jan 19, 2015
    Messages:
    29
    Likes Received:
    4
    Will OpenRail work with 80/20 Inc. 40 series rail?

    In the parts store it list compatibility with 10 series, 20 series, and 25 series but not 30 or 40.

    I am thinking the 40 series would be a good solution for rigidity. 40x80 Lite for the main side and gantry rails with 40x40 Lite supporting components.
     
  3. Rick 2.0

    Rick 2.0 OpenBuilds Team
    Staff Member Moderator Builder Resident Builder

    Joined:
    Dec 20, 2013
    Messages:
    2,892
    Likes Received:
    1,549
    From the quick mash up below, you can see that connections between 20x40 V-slot and 40 series 80/20 will be difficult. You will have similar problems with any size other than the 20 series. If you can resolve the connections, any of the sizes will work.
    40 series.jpg
     
  4. Jason Farley

    Builder

    Joined:
    Jan 19, 2015
    Messages:
    29
    Likes Received:
    4
    I do not plan on mixing extrusion. If I go with 40 series 80/20 then I would use it for all extrusion components. I wonder though how well or if the OpenRail will mount to it. [​IMG]

    I am thinking it will not work since the inside flat is just a bit over 19mm and the 40 series extrusion opening/slot is further from the edge than the 10, 20, and 25 series extrusion.
     
  5. Rick 2.0

    Rick 2.0 OpenBuilds Team
    Staff Member Moderator Builder Resident Builder

    Joined:
    Dec 20, 2013
    Messages:
    2,892
    Likes Received:
    1,549
    Sorry, I missed the openrail part. You could easily drill and tap into the flanges of the larger sections but the lack of a square corner to buddy the inside angle against may cause some issues. Unless there is a specific reason to go with the 80/20 sections, I would probably just go with aluminum tubing as it is considerably cheaper.
     
  6. Jason Farley

    Builder

    Joined:
    Jan 19, 2015
    Messages:
    29
    Likes Received:
    4
    Well the extrusion can be bolted together with appropriate brackets easily enough. I could certainly bolt a structure together from aluminum square tube but that would require a fair bit of drilling, possibly tapping, and if you wanted a nice clean look several miters.

    If I was going to go with tube I might as well go cheap with steel tube for the main structures and if I do that I might as well weld it, rigidity and all. That would be a lot of cutting, squaring and welding. Keeping it all square would be a chore with the heat induced at the weld locations.

    I would think that the extrusion would also have added strength and rigidity due the the interior structure or honeycomb nature of the shape. I could be wrong but I believe the strength for a given length of the extrusion is stronger that a length of similarly dimensioned square tube.

    The V rail and other similar extrusions do not have square corners either but the larger extrusions like the 40 series may have a larger corner radius that could cause issues with the OpenRail.
     

Share This Page

  1. This site uses cookies to help personalise content, tailor your experience and to keep you logged in if you register.
    By continuing to use this site, you are consenting to our use of cookies.
    Dismiss Notice