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I was asked to produce updated config files for the Anycubic Predator which has been upgraded to a duet 2 board running the latest RC of RRF3.

I have uploaded my files to github and they can be found here. This is for a setup where a smart effector has been fitted. There won’t be too much to change for a stock predator if you wanted to get it to work.

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I know I’ve been fairly quiet on here but I have been working on a few things behind the scenes.

Over the next few days I’m going to write about my super cheap enclosure, printing in ABS, a volcano hot end upgrade kit, how I’m getting on with the wham bam flexible system and SMuFF (I now have all the parts printed).

I also feel I’m almost in a good enough place to do a comparison post of pre mods and post mods (aimed at Ryan).

So watch this space…

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I received the Wham Bam System the other day. Before it came, I had watch of the youtube video here and a read over the instructions on the website.

One of the recommendations is to remove the glass bed or build surface that is currently installed to the printer. I can understand the logic in this, as surfaces like glass aren’t very good conductors of heat. Therefore, to install another build platform on top would reduce the effectiveness of the heated bed.

After mulling it over, I decided that the heated bed had to come off. To achieve this, you need to heat it up to at least 90 degrees Celsius. The adhesive holding it down is then soft enough for you to be able to use a combination of spatulas and flat bladed screw drivers to gently prize it off.

What remains is a very thin heated bed. During the removal of the ultrabase, it is virtually impossible to not bend or misshape it. You could try and bend it back into shape, but the first knock or fast probe would bend it out of shape all over again.

I took the decision to bond a 4mm aluminium plate to the top of the bed. I got the plate laser cut by a nearby company who have done work for me in the past, but any laser cutting company who deal with aluminium should be able to do it for you. There is a company on ebay in the UK who will laser cut a 380mm piece of 4mm aluminium for £29 (including postage). I used JB Weld to attach the heated bed to the aluminium with great success.

Following the instructions, I then installed the heated bed.

I then installed the bed to my printer.

I’ve done a bit of printing with it so far, but I’m still tweaking my cura profile to match it. One thing to remember when printing PLA is that you need to halve your standard first layer. My first layer is now 0.1mm but I’ve still seen a little bit of lift (I am not using a brim anymore). Another note as well, I was also seeing temperatures on the build plate 5 degrees lower than what was being reported by the printer (maybe due to not soaking the aluminium plate long enough, I don’t know), but I now print with a heat bed temperature of 75 degrees. Wham Bam state you should print with a temperature 10 degrees higher than you did before.

My mesh height map is not fantastic, but I am hoping that the duet will deal with that.

I’ll add another post about using the Wham Bam Flexible System once I’ve done some more printing.

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Since I last wrote a blog post, I have carried out several changes to my current setup. The aim of this post is to try and consolidate all of the changes I have made to try and put a stick in the ground for the readers.

Summary of changes so far

The controller board has been changed to a duet 2 Ethernet. This has been detailed here and here. As well as this, I have changed the effector to a smart effector. This change also meant changing the hot end from the standard v5 clone to an authentic E3D v6. These changes were detailed here.

Arms

My setup summarised above was using the original arms that came with the machine. If you follow the Facebook group for the predator, or any other social media channels, you may have heard about the issue of the rapidly wearing rod/arm connectors. This is where the ball in the middle of the connector becomes loose and introduces play into the system. I was suffering from this issue, and it meant that the calibration deviation on my machine was getting worse and worse. One fix for this issue suggested by the community is to replace the rod connectors with ones made by IGUS. These would be great for a normal unmodified machine, but as we’ve already fitted a smart effector, these aren’t really the way to go. It would also be very difficult to make sure that the rods are the same length. This is critical to ensure that the printed parts are accurate, especially as resolution decreases the larger the part.

I ordered a set of arms from Haydn Huntley. He has been known for supplying high quality, high precision arms to the delta community for several years now. I decided to stick to a length of 440mm for the arms, although it has been suggested that arms as short as 405mm will still work. The reduction in length to 405mm will counter the loss in height when fitting a smart effector (which is around 30mm due to the different position of the hot end). I’m not going to tell you which length to order as I have not read anywhere of anyone ordering 405mm and getting them to work over the whole print area. If you feel you will need that extra z height, maybe go for 415 or 420mm. If you are planning to use any sort of multi material changer at some point in the future and will be planning to purge the material outside of the build platform, then I would stick to 440mm arms. The order came within about 2 weeks or so. Just keep in mind that when getting them delivered to the UK that you would be paying somewhere in the region of £30 import duty. They come well packaged, in a cardboard tube and have the length of each arm written on a label. All the ones I received were 440.38mm.

To enable the arms to be mounted to the carriages of the predator, some custom mounts are required. It would be great if the adaptors included with the smart effector fit, but unfortunately, they don’t. I used the adaptors designed by Nealz Engeland but I found that some modification was required to get the holes to line up with the carriage. Don’t forget to swap the little ‘flag’ over required to activate the optical end stops.

Carriage Adaptors

I carried out this change while also carrying out some maintenance on my machine. One of the good design factors of the predator is the ability to remove an upright from the machine without much hassle. The predator even stays in place without requiring any other support. I removed each upright in turn and stripped it down to parts. This way, I was able to check that all the rollers of the carriage were correctly in contact with the extrusions and that no play was present. Fortunately for me, there was no play present, but I have read on Facebook, about a number of other predator owners that have had to adjust their rollers to make sure they are all in contact. I also swapped the original 1.8 degree motors with 0.9 degree motors and re-tensioned the belts, but more on that later.

As mentioned earlier, I have previously upgraded the effector from the original to a smart effector. I had modelled up a mount to allow use of the original arms and to mount three radial fans for cooling. The design can be found here.

I have since updated this design to allow the fans to be mounted to the smart effector while using magball arms instead. The design can be found here.

When mounting the arms to the printer, make sure you alternate the polarisation of the magnets. With mine, Haydn fixed the labels on each on at the same polarisation, which made it easier to alternate the arms. Basically, mount one arm label in to the effector, then one arm label to the carriage and then alternate. This helps reduce magnetic interference of the fans etc. Also make sure that you apply lubricant to each of the ball cups. I used bike chain lubricant as per Haydn’s advice.

Arm alternating

Motors

The motors are very easy to change from one type to another. I had a bunch of motors left over from then I had to send a 3D printer to 3D printer heaven. The main thing to check is that the toothed gear is fitted with the same offset as the gear at the bottom of the printer. Wiring is the same as a 1.8 degree motor. If you’re lucky, you’ll get 0.9 degree motors with removeable cables, in which case, you just plug the old cable into the new motor. Don’t forget that the steps per mm need to be changed from 80 (for 1/16 microstepping) to 160. I’m still assessing whether changing the motors has been a good change or not.

Motors I Used

PanelDue

Only a small note to say I’ve added a PanelDue 7 inch. I have mounted it to the top of the frame as shown below.

Duet firmware updates

Along with the above hardware changes, I have been trying to tweak my duet config to improve my settings. I have uploaded my current config to a separate branch on my github for your use. You will notice that the acceleration and jerk are quite high. Below are a couple of pictures of an example part. Ignore the bottom of the part, I am currently working to improve the quality. I will endeavour to keep github up to date.

I have moved a couple of items out of config and into my start gcode. I now do the following.

G32 ;This carries out a delta calibration at the start of the print
G29 S2 ;This reloads the mesh height map which is cleared when carrying out the delta calibration.

That pretty much brings you up to speed.

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So its been a while since I’ve updated you on the status of my predator. Since changing over to a duet, I have a number of further changes to my machine.

The upgrade I’m going to concentrate on in this post is the installation of a duet smart effector. With changing this part I am also forced to upgrade to an E3D V6 all metal hot end, which for me is better, as the one supplied by anycubic is limited to a maximum temperature of 260 degrees Celsius.

So what does changing to a smart effector gain you? I would say there are three main advantages.

  • It makes it easier to change your delta arms to mag mount versions later down the line of the type produced by Haydn.
  • The hotend is now the Z probe. The smart effector has a piezo switch built into it that then uses the pressure of the hotend touching the bed to trigger it. This allows you to call a probing routine whenever you wanted without having to install an extra switch.
  • The smart effector is made from a PCB so it is nice and lightweight but also strong.

To be able to use the smart effector with our machine, a number of extra parts are required if you aren’t going to be changing the arms straight away. I’ve modelled all of the parts required and made them available on thingiverse.

You’ll need to print

  • 1 x converter
  • 3 x fan brackets
  • And 1 of each fan duct. It’s designed in a way that you can choose how many of the fans you fit. I have all 3 installed on mine.
  • You’ll also need
  • 12 x M3 nuts
  • 12 x M3 x 20 screws
  • 6 x M3 x 6 screws
  • 3 x 5015 radial fans
  • 3 x M4 x 30mm screws
  • 3 x M4 nuts.

Make sure you’ve assembled the smart effector as instructed on the wiki.

Start off by running a tap down the 6 mounting holes in the converter for the smart effector. Then mount the smart effector to the converter and secure in place using 6 of the M3 x 20 screws. They do thick out the underside of the converter a fair bit, but that is because we will use them later to mount the fan brackets. Now mount the converter to the 6 arms using the other 6 M3 x 20 screws and the 6 x M3 nuts. You can do this either with the arms attached to the machine or with them removed. Make sure the screws are done up nice and tight so they don’t come loose. Then tap the 2 inner holes on each fan bracket using an M3 tap. Mount the fan duct to the to the fan bracket using the M3 x 6 screws, followed by the radial fan to the bracket using M4 x 30 screws. Repeat for the other 2 assemblies. Finally, mount the fans in the correct position under on the smart effector. Each fan should be wired in parallel and plugged into the part cooling fan port on the smart effector. See below for photos of it installed

For the wiring on the predator to the smart effector, I actually ripped out what was originally there and installed a new harness. This is due to requiring extra cables etc. Just follow the guide on the wiki and you’ll be fine.

Also remember to make the changes to the firmware for the probe and to retune the hotend using M303.

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The delta arms supplied by Anycubic are shocking. There are three main problems you will find with them.

  • They are not all the same length
  • The rod eyes on them can be slack
  • The glue holding them together comes unstuck

I have mainly had issues with them not being the same length and the glue coming unstuck. But I have used the glue issue to my advantage.

I would highly recommend removing the whole end from each arm. That’s the black tube that’s glued on the end and the rod eye.

I made a rod setter out of a piece of hardwood and a couple of M4 threaded screws.

The key is to reglue every arm you are using on your printer. The length between the mounting points on the eyes is 440mm. So I separated one end, and using superglue, fitted the end and set them all to the same length using my jig.

One arm was longer than the rest, to the point where I had to cut the carbon fibre tube down to be able to get the end piece set to the correct length.