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5th Generation Replicator Build Plate Stablizers

3D model description

It goes without saying that a 3D printer build plate must be level to print well and, for ease of levelling, most build plates are spring mounted. However, this also means any pressure on the build plate during levelling / homing / positioning and particularly printing can cause up / down build plate movement. Obviously movement in the build plate is a necessary evil as it is required for levelling but can also have an number of adverse affects

Having developed a solution to overcome this on a Replicator 2 this is the same solution made for a 5th Generation Replicator. If you have a 5th Generation Replicator and aren t sure if you could benefit from this just push down on each corner of your build plate one at a time... you will get a lot of springy movement on the front left and even more on the back left in particular.

This solution is all about allowing5th Generation Replicator users to level as usual, through adjusting the spring mounted build plate but, once levelled eliminating the build plates ability to move (spring) up and down during printing.

With these 3D printed Build Plate Stablizers installed the build plate should be almost solid... and a solid platform to build on has to be better than one that moves. The 5th Generation Replicator is fitted standard with a Glass Build Plate which does ensure the plate is perfectly flat but that does not mean it cannot move during printing or be on an angle at times due to the movement of the springs under the build plate. ...

This movement, albeit minimal (but considering each layer height is commonly between 0.10mm and 0.30mm) can affect prints in a variety of ways. They include poor output quality as accuracy / detail is compromised, lifting and/or curl up at the edges, or worse, result in a clog (extruder jam). This is due to the spring pushing back up so there is insufficient clearance between the build plate and nozzle which can stop extrusion. A clear indicator towards this condition is prints that stick too tightly to the build plate and very thin raft.

The Build Plate Stabilizers are small and easy to print but do take a bit of time to install. The process explained in the instructions tab may sound complicated but once you have installed the stabilizers it s really straight forward. You need to remember to loosen the Stabilizer bolts off before each future levelling but otherwise its just a straight forward repeat of the above process.

As standard you can literally see the 5th Generation Replicator Build Plate moving during printing, no different to most other desktop 3D printers with spring mounted build plates. With these in place there will be almost zero up/down spring movement of the build plate at any point. Even at the edge of the build plate, where the leverage is at its greatest, there is next to no 'springy' movement.

Since MakerBot launched the 5th Generation Replicator early in 2014 they have done a brilliant job improving the machines print quality and reliability. This has mainly been done through firmware / software updates. This is a hardware modification (that doesn't require any machine modification) any 5th Generation Replicator user can print and install for themselves and, based on experience to date with these installed, will further improve the machines performance, print quality and Smart Extruder reliability.

Pease also note that, with these Stabilizers installed I usually run 0.10mm Z-Offset (set in MakerBot Desktop) as this marginally increases the print bed nozzle spacing in case the Stabilizer adjustment is a fraction tight. In addition, I often check the bolts are still just making contact during a print (as you can access them from under the machine with the build plate raised during printing) and will slightly tighten / loosen if required.

.stl's have been provided for the full kit plus as separate components (Refer to file name).

If you like this take time to check out my other designs!

3D printing settings

Print at Std. 0.20mm Resolution / Use Raft / No Support Required / 4 Shells / 50% Infill (to make them strong).

The Build Plate Stabilizers are small and easy to print but do take a bit of time to install. However, it is something anyone can do by following this process:

  1. Remove filament

  2. Start assisted levelling then cancel when the rising build plate is just below the nozzle ( 2 - 3cm). This stops the build plate in a position where you can access it from underneath.

  3. Slide out the glass build plate

  4. Loosen both large standard adjuster knobs fully until they are almost fully off their mounting screws

  5. Insert the 4 Stabilzers (without adjusting bolts) taking care to locate the rear ones at the back / front ones at the front (refer images). Note: This is a bit fiddly and requires pushing the build plate up in the respective corner to create adequate clearance to slip the Stabilizer into place. Take care...

  6. Once positioned correctly the Stablizers should slide along the channel in the plastic moulding and not interfere with the build plates ability to move on its springs

  7. Locate the front Stabilzers as far forward as the channel will allow without interfering with the build plate movement (as that could affect levelling)

  8. Locate the rear Stabilzers as far to the back as the channel will allow without interfering with the build plate movement (as that could affect levelling)

  9. Tighten the two large standard adjuster knobs until they are almost fully tightened. Take care to ensure there is no binding along the front edge of the build plate with the mounting bracket (i.e. so the build plate 'spring effect' is not compromised as that could affect levelling etc.)

  10. Insert the 4 Stabilizer Adjuster Bolts and screw them up until they just make contact with the underside of the build plate in it fully wound down position (i.e. lowest level)

  11. Replace the glass build plate

  12. Carry out levelling as usual...

  13. Once levelled screw each of the Stabilizer adjuster bolts (4) up until they just starts to make contact with the underside of the build plate carrier. Make sure the contact is minimal so it does not affect the levelling. The Stabilizer (with bolt) should have only very slight resistance when slid forwards/backwards along the mounting channel

  14. Carry out levelling again to check the level has not been affected by the Stabilzers... but do not loosen the large standard build plate adjuster knobs as instructed on the LCD screen before starting (as that would be affect the Stabilzers you have just adjusted)

  15. If the levelling requires adjustment it should be minimal. If prompted on the display panel, loosen the relevant Stabilizer bolts slightly then adjust the large standard knob as instructed on the display, then adjust up the Stabilizer bolts to just make contact as instructed above before moving on to the next stage of levelling.

  16. Levelling and 'Stabilizing' complete!

This process may sound complicated but once you have installed the stabilizers it s really straight forward. You need to remember to loosen the Stabilizer bolts off before each future levelling but otherwise its just a straight forward repeat of the above process.

Pease also note that, with these Stabilizers installed I usually run 0.10mm Z-Offset (set in MakerBot Desktop) as this marginally increases the print bed nozzle spacing in case the Stabilizer adjustment is a fraction tight. In addition, I often check the bolts are still just making contact during a print (as you can access them from under the machine with the build plate raised during printing) and will slightly tighten / loosen if required.

  • 3D model format: STL

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