Y-Axis Assembly
XY Plate Orientation
The XY gantry plate is not an exact mirrored part and therefore needs to be oriented in the right direction for correct installation.
To ensure the plate is installed the right way round, rotate the plate until counterbores A
face upwards.
With the counterbores the right way round, locate hole B
and make sure it is on the right side of the plate.
After this, face C
will now be oriented towards you. When installed, this face will be towards the Y
minimum (or the operator).
BE SAFE, LOCK IT!
These machines vibrate intensely when running, and fasteners are bound to back out. Don't be afraid to add a little bit of medium-strength (generally, blue) threadlock to all your screws to avoid this problem.
Protect your rail carriages
Rail carriages should always have a rail or dummy rail installed in them to avoid damaging them. If your rails didn't come with dummy rails, then print the ones we provided for you in the print list.
XY Gantry Plate
Components Required
16 x M3x10mm SHCS
12 x M3x5mm SHCS
8 x MGN15 Rail Carriages
5 x M3 Heat-set Insert
4 x M3x20mm SHCS
4 x M3 Washer
1 x XY Gantry Plate (1)
1 x XY Drag-Chain Transition (2)
- For additional strength this part should be machined but it can be printed using the recommended settings if necessary.
- Print this part using the recommended settings!
Attach the lower rail Y
carriages using M3x5mm SHCS.
Note
Install the bolts from front to rear. The 4 holes furthest from you will not be populated at this stage, as these holes are also used to mount the cable channel on the rear of the plate.
Attach the upper rail X
carriages using M3x10mm SHCS.
Insert the M3 Heat-set inserts into the XY Drag-Chain Transition.
Note
You may notice that some kits, like LDO's, come with 2 different lengths of M3 heat insert. The smaller ones are used wherever drag chains attach and the longer ones are used for everything else.
Fasten the XY Drag-Chain Transition to the XY plate using M3x20mm SHCS and one M3 washer each.
X and Y Anti-Backlash Nuts
Components Required
8 x M3x8mm SHCS
8 x M3 Heat-set Insert
5 x M5 Heat-set Insert
4 x Brass Lead-screw Nut
5 x M5x16mm BHCS
Insert the M3 and M5 heat-set inserts into the Y-Axis Anti-Backlash Nut.
Fasten the Lead-screw nuts loosely on either side of the Y-Axis Anti-Backlash Nut using M3x8mm SHCS.
Insert the M3 and M5 heat-set inserts into the X-Axis Anti-Backlash Nut.
Fasten the Lead-screw nuts loosely on either side of the X-Axis Anti-Backlash Nut using M3x8mm SHCS.
Anti-Backlash Preload Tuning
Each axis uses anti-backlash1 blocks to compensate for changes in screw direction during operation. They do this by driving 2 brass TR8x8 lead-screw nuts toward each other to engage both sides of the lead-screw threads.
For this to work the preload required to drive each nut must be tuned by hand. To tune the preload make sure the lead screws are greased appropriately, then install the 2 brass TR8x8 lead-screw nuts within the anti-backlash block.
Tighten the screws on one of the nuts so that it does not move while leaving the other nut loose.
Install the greased lead screw temporarily into the block and begin to tighten the loose nut, taking care to apply the same number of turns to each of the screws.
The ideal preload will allow for the lead screw to still spin by hand but should have a moderate amount of resistance to it. Once complete make sure each bolt has threadlock applied, and uninstall the lead screw - your preload is now set. To avoid any headaches, do this before the final installation.
Fasten the Y-Axis Anti-Backlash Nut to the bottom of the XY plate using M5x16mm BHCS.
Anti-Backlash Nut Accessibility
When the machine is fully assembled, the rear of the Y-Axis Anti-Backlash Nut is almost impossible to access due to its proximity to the main column. To aid in making preload adjustments to the Y-Axis once the machine is assembled, you should fully tighten the brass lead-screw nut that faces the main column - this is the one installed on the 'square' face of the Anti-Backlash nut rather than the round face which will point towards the operator.
Once fully assembled, moving the table to Y=0 (so the rear of the table is against the main column) will allow you to access the front screws to adjust the Y-Axis preload using a long, ball-end hex wrench.
Fasten the X-Axis Anti-Backlash Nut to the top of the XY plate using M5x16mm BHCS.
Y-Axis Motor Mount and Bearing Block
Components Required
4 x 608ZZ Bearing
4 x M5 Heat-set Insert
2 x F608ZZ Bearing
2 x M2.5 Heat-set Insert
6 x M5x12mm BHCS
1 x Openbuilds 4080 C-Beam - 470mm
1 x Y-Axis Motor Mount (1)
1 x Y-Axis Bearing Block (2)
- Print this part using the recommended settings!
- Print this part using the recommended settings!
Insert the M5 heat-set inserts into the Y-Axis Motor Mount.
Tip
This redesigned motor mount is shorter than the original design and allows the heat-set inserts to be installed from the side opposite the motor. This makes the inserts much more resistant to being pulled out of the mount than the ones in the older style mount, especially when over-torquing the motor bolts.
Insert the M2.5 heat-set inserts into the Y-Axis Bearing Block.
Insert a bearing stack (1 x F608ZZ and 2 x 608ZZ bearings) on either side of the Y-Axis Bearing Block. The flange of the F608ZZ bearings should sit flush with the bearing block faces on either side.
Fasten the Y-Axis Motor Mount to the 470mm C-Beam using M5x12mm BHCS.
Fasten the Y-Axis bearing block to the other end of the 470mm C-Beam using M5x12BHCS
Tip
The Y-Axis Bearing Block will be a reference surface for the ends of the rails. You will remove it in a few steps, so there is no need to threadlock it now.
Y-Axis Rails
Components Required
10 x M3x10mm SHCS
10 x M3 Spring T-Nut
2 x MGN15 Linear Rails, 350mm
Fasten the MGN15 rails to the Y-Axis, screwing M3x10mm SHCS into every second hole in the rail.
T-Nut Installation
Spring T-Nuts are used here to mount the rails but are not shown, install these before screwing the bolts in.
Aligning the rails
Use the MGN15 guides to position the first rail in the center of the extrusion before fastening the screws. Use a DTI running along the edge of the extrusion to fine-adjust it into alignment with the extrusion.
With the first rail aligned, fit the second rail using the MGN15 guides and a DTI to align it with the first rail. Make sure to check horizontal and vertical alignment and shim if required.
Uninstall the Y-Axis Bearing Block
The Y-Axis Bearing Block needs to be uninstalled before installing the XY Gantry Plate.
Carefully, slide the XY Gantry Plate assembly onto the rails.
Warning
Take care when installing carriages onto the rails!
Improper handling of carriages can damage them - the best way is to install a dummy rail in the carriages and then transfer it onto the steel rails.
Y-Axis Bearing Block, Lead Screw and Motor
Components Required
4 x M5x30mm SHCS
4 x M5x12mm BHCS
2 x Locking Collar
1 x 550mm Lead-Screw
1 x NEMA23 Motor
1 x 8 to 6.35mm Rigid Coupler
Install the Y-Axis Bearing Block for the final time using M5x12mm BHCS. Be sure to use medium-strength threadlock here.
Using an 8 to 6.35mm rigid coupler, attach the 550mm lead screw to the NEMA23 motor.
Warning
Remember to apply medium-strength threadlock to the coupler grub screws. There's nothing worse than trying to diagnose a stationary axis and noticing that your motor is spinning but nothing else is!
From the back of the Y-Axis assembly, insert the screw and motor assembly. Be sure to thread it through the Y Anti-Backlash Nut, but do not insert it through the bearing block yet.
Before pushing the lead screw through the bearing block, add a locking collar to the inside bearing face. Leave this loose.
Fasten the NEMA23 motor to the Y-Axis motor mount using M5x30 SHCS.
Add the last locking collar on the operator side of the bearing block.
Locking Collar Preload
Using your fingers, press each locking collar towards each other - driving them into the face of each bearing with moderate to high pressure. Tighten the operator side collar first before tightening the internal side collar. This will ensure that the screw remains in the same position during use.
Note
Add some medium-strength threadlock to the set screw.
To avoid the Y-Axis endstop getting damaged during the rest of the assembly, it is a good idea to install it later with the rest of the wiring.
Y-Axis Drag Chain
Components Required
5 x M3x6mm FHCS
3 x M3 Heat-set Insert
1 x 10mm x 11mm Drag Chain
1 x Y Drag Chain Mount (1)
- Print this part using the recommended settings!
Insert the M3 heat-set inserts into the Y-Axis Drag Chain Mount.
Fasten the Y Drag Chain Mount to the left-hand side of the Y-Axis profile using an M5x12mm BHCS and a spring T-nut.
Fasten one end-link of the drag chain to the Y-Axis Drag Chain Mount using M3x6mm FHCS.
Drag chain orientation
Drag chains have 2 different sides - a fixed side and a free side. For this setup, the free side is connected to the rear drag chain mount shown in the last image. The fixed side attaches itself under the XY Drag Chain Transition bolted to the back of the XY Gantry Plate.
Fasten the other end link to the XY Drag Chain Transition using M3x6mm FHCS.
Tip
It's a good time to mention that the little cutouts you may have noticed scattered around the build are for your zip ties. Use these to secure your cables where necessary.
Drag Chain Installation Point (Optional)
You may wish to install the rest of the drag chain now to complete the Y-Axis - but it is often easier to thread your X-Axis motor and endstop cables through the loose chain before installing it as it can become quite a tight space to work in later.
Note
Remember this chain is for X-Axis cables despite being mentioned now during Y-Axis assembly.
-
Yes, technically this is a "zero backlash" nut and not an "anti-backlash nut" - but the common term for it is anti-backlash and that's what most people know it as. ↩