One of the corners on my delta had a small crack which was probably nothing to worry about, however I had noticed that the bed was difficult to get square to the side posts (actually it was not possible to get square since the side posts had a slight tilt to the inside.  Since I would need to disassemble most of it to correct that fault I decided to upgrade the corners with aluminum extrusions.  There are 2 types of aluminum corners  which I had found online.  I bough the cheaper ones from Ebay which seem to work fine.  The corners I would have bought if they did not cost as much for shipping as the parts themselves, were the corners from RobotDigg, since they appear to be milled on several surfaces and overall better designed (they utilize flange bearings for the rollers also which is some added cost).  The cheap-o aluminum corners on Ebay however seem to be just fine, though they are a pain in the ass to assemble due to the poor design for tool clearance (this was a problem with installing the motors).  Funny thing is that the pics on some of the Ebay auctions for the corners show them missing holes and with wavy extrusions, though mine were fine in the regard (they probably took the pics of some pre-production models). 

To avoid the screw ups of my initial assembly I put some thought into how I was gonna put this together the 2nd time around.  I decided that I needed to first get a flat surface to hold the corners against, for this I used some old MDF with a piece of that brown pegboard material without the holes (sorry can't recall the proper name).  Really I just needed something flat and strong enough to pass bolts through.  After that I loosely assembled the new corners to the 2020 extrusions making sure not to tighten anything down.  I used the loosely assembled base as a template, and marked 3 holes, nothing had to be perfectly accurate at this point, just 3 holes per corner, with one each using the two holes in the corner parts, and another in the square hole so I could pass the limit switch wires though the board (otherwise they would get squished - or I would need to remove the wires from the vertical posts).  Next I stacked the bottom frame, then the top frame, and installed the corner posts though both without tightening anything (here is where I had to pass the limit switch wire through the hole in the board).  Then I installed bolts through one of the two holes in each of the corner pieces (I did not have enough so only used 1 through bolt per corner) - these bolts were only loosely tightened also.  Next I used a ratcheting tie down strap to cinch up the slack in the frames, and had to use some plastic plates I had around to keep from marring the frames and take up some of the slack since the ratcheting strap does not have a fine enough adjustment.  Once the frames were cinched up, I then tightened the bolts that held the corners to the board, which should bring the frames as close to perfectly parallel to each other as needed here.  After the bolts were tightened, I checked the 2020 rails to make sure they were positioned similarly in relation to the corners and adjusted as needed (this is more cosmetic, though the top rails for the base should be as close to identically spaced with respect to the corners as possible since they will mount the bed leveling clamps).  After the rails were positioned and it looked good, I finally began to tighten the screws that hold the 2020 rails to the corners, doing the vertical posts first.  Some of the screws were not possible to tighten so I just got all the ones I could reach and made sure they were as tight as reasonably possible before removing the frames from the board.  One other thing that would have helped me here would be using better M4 T-nuts.  The nuts they used to assemble the frame at the factory are just square nuts, which have a nasty tendency to wedge into the slots rather than spin into position and hold like a clamp.  It is hard to tell if this happens unless the screw is backed out and does not wobble around (meaning the square nut got wedged).  If I had them, I would have replaced all the square nuts with t-nuts beforehand.

The final step was removing the frames from the board, and the rails, and then tightening the remaining screws that I could not reach before and then re-assembling the frame.  The result was that the top and bottom frames are now parallel to each other and since I set the vertical rails each at 60mm between base and top, each side post should have set the top and bottom frames the same distance from each other in each corner.  Now when I square the build plate to the side posts I no longer see what appears to be a tilt to the inside on each post, they are nearly square as I can see (using a machinist square).  I pretty sure the aluminum corners will also help with the rigidity of the printer as well. 

I also ended up breaking a limit switch sometime during this process, so was fortunate that I was watching it closely when I re-leveled it the first time.

The one major problem with the cheap aluminum corners is the lack of space for tools, which makes installing the steppers a real pain.  I had to cut down an Allen key to get the necessary clearance and start the screws using my pinky fingers which was not fun.  If they had drilled some access holes it may have been at least possible to start them with an Allen key but I suspect that whoever designed these did not actually test them in use.  That said, they do work and all the holes are where they need to be, including the holes for the pulleys and the hole for the nut used for the top stop. 

One final note - the stock m3 screws used for the pulleys with the original Anycubic frame were not not long enough for the new aluminum corners, so I had to get some longer bolts.  I think they were M3x25mm bolts that I needed to use (the originals were M3x20mm). 

Working on a smoke detector design that will monitor for smoke, and temperature, send me a text if there is a problem and also allow my to remotely reset a device.  It will use a NodeMCU and some parts from Ebay.  I posted more under the Lec'Tronics section.

So I tried a larger print than usual today and ran into some really bad layer shifting.  Looking around it seems that is most commonly due to the steppers being supplied with insufficient current.  I check them using the guide here, and found that they are sent in the correct range, 0.83-0.88V, so I just bumped the X and Y reference voltages to 0.88 to match the Z. 

I also put some ferruels on the power, heated bed and hot end power lines in case there was a problem with the wires creeping out or not making a good connection.  One note on the ferrules, I used the black ones on the 12V power input lines since the larger gray ones will not fit in the sockets.  Getting the wires into the black ferruels is a bit more difficult, but they will fit.  Hopefully one of these tweaks will fix the layer shifting, since there are no apparent mechanical issues.

Finally, the PLA I am using above is the Monoprice PLA+ and with supports and a 1mm support interface, the supports are firmly attached to the part, so I am backing the temps down from 200 to 195 for a test.

Update: Still having level shifting, but it is less pronounced.  I am considering bumping it up to 0.92V on the steppers.  May also swap one of them out on suspicion (would start with the Y), since they provided 2 spare on the board.

Update 2:  It swapped around the stepper drivers with some change, but still had shifting so I dropped the reference voltage on the stepper drivers to 0.77V which seems more in line (and they stay a bit cooler) - though I am suspecting this problem may have a couple of causes including the model itself.  I managed to get a pretty acceptable print by re-scaling it to 50% instead of the original 60% (though it also has shifting it is not as pronounced).  I am moving on for now, at least until I get some upgrades planned.

Couple things I added to the printer recently and some calibration notes.

Upgrades:

• 240mm x 3mm Round Borosilicate Glass Plate
• Screw down bet clamps
• Cork insulation of the heated bed
• Fan feet and a fan to blow over the stepper drivers with a control box using a LM317 and pot to control the speed.
• Monitor arm for the OctoPi running TouchUI (may reprint this in ABS if I get those settings figured out)

Planned upgrades:

• Aluminum corners (possibly) - noticed some dimensional issues with the frame, not bad, but still not great.
• control and stepper board upgrade

The glass plate is a great upgrade, but can make it difficult for printing ABS, had a hard time getting it to stick, but finally was able to with the following settings:

Monoprice ABS+ Blue
--------------------
Printer Temp      240
Plate Temp      85
Cooling            off
Speed            30/60
Adheasive        Purple Glue Stick full strength
Notes            Z height at -15.82, with Brim

Where the glass plate really shines is with PLA.  I just spritz it with some hairspray every few prints and prints hold tight when it is hot and slide off when it cools.  The settings below are probably conservative for the speed but that's where I am at right now with the printer.

PLA

Monoprice PLA+ Black or White
--------------------
Printer Temp      195-200*
Plate Temp      60
Cooling            on
Speed            40/80
Adheasive        Hairspray
Notes            Z height at -15.72, with Brim
*ran into a problem with supports fusing at 200, so dropped it to 195 on the white PLA.

Calibration:

I was gonna go for the Marlin upgrade but read that I may have difficulty finding the latest firmware for the printer if I decide to go back.  After some more reading I decided to go with a RAMPS board and RE-ARM 32 bit processor.  I also have some TM2206 stepper drivers from some time back and so that will be my next project - getting all that working with Marlin.  I have a Marlin configuration.h also set up and have some additional tweaks from the calibration hexagon explained here.  These are not yet tested since I am still running the Anycubic stock firmware, but hopefully these will work, or I can re-do them to get the values - will need to re-do them anyway if/when I replace the corners eventually.

====================================== NOT TESTED
From the printed 75mm per side hexagon in the Thingiverse link, I have the following measurements:

Delta Radius = 134.4
Delta Rod Length = 271.5
X = 74.950
Y = 75.430
Z = 75.080

Plugged those into the spreadsheet here:
https://docs.google.com/spreadsheets/d/1HcnZ0aDC2wujHhPHVeYFcPekEpY6Y4wLSMfCxJ18e1o/edit#gid=1292102991

Results - to add to the Marlin Configuration.h:

DELTA_DIAGONAL_ROD 271.864
DELTA_DIAGONAL_ROD_TRIM_TOWER {-0.483, 0.657, -0.174}

Additionally I will need to send the following to the printer after flashing (M500 is to save the value):
M665 L271.864
M500
======================================
Extruder Calibration - referenced the following site:

mattshub.com/2017/04/19/extruder-calibration/

Asked printer to extrude 100mm

 G1 E100 F100
 
Measured resultant filament as 98mm actually consumed.

Found the steps per mm using the M105:

Send: M105
Recv: ok T:109.2 /0.0 B:63.5 /0.0 @:0 B@:0
Send: M503
Recv: echo:Steps per unit:
Recv: echo:  M92 X80.00 Y80.00 Z80.00 E96.00

"E96.00" means 96 steps per mm for the Extruder.

100/98 x 96 = 97.96

The new steps per mm for the extruder is 97.96.  Send the following to the printer to set the value in EEPROM (M500 is to save the value) - I could round up or down, but went down:

M92 E97.9
M500

======================================

I recently set up OctoPi which allows me to remotely access and control my 3D printer.  This is probably the coolest upgrade for a 3D printed out there, and it is pretty cheap depending on how much you want to do - the touchscreen was the most expensive part of the setup since I already had a Raspberry Pi sitting around collecting dust.  The setup was pretty straightforward - basically copy the image onto a microSD card, edit a couple config files and boot the PI.  But I had some issues which I will describe below for my own backup in case I need to do it again, and also for anyone else that runs into the same troubles.  I may have screwed something up along the way to cause these problems and they may be fixed in the newer versions of OctoPi (there is a new one that just dropped but I have not updated yet to 0.15.  I am on 0.14 still.

I had 2 major problems, the first was that after loading up OctoPi and fixing the network settings, it would not automatically launch TouchUI.  TouchUI is the plugin for the touchscreen that I was using.  The second was getting the webcam to show up in OctoPrint.  I did not come up with most of this myself, but I found bits and pieces which got it working - pretty sure much of it was from https://github.com/BillyBlaze/OctoPrint-TouchUI

Problem 1: TouchUI was not auto-starting, it was stuck at the RPI login prompt (black screen with just the RPI boot stuff and a login prompt).  I did not see anything about TouchUI loading or even trying to.  Running "chromium-browser" when logged in to the Raspberry Pi did not launch anything.

The problem I found was that the directories for TouchUI were missing:

pi@octopi:~ $ sudo xinit ~/TouchUI-autostart/chromium.xinit


X.Org X Server 1.18.4
Release Date: 2016-07-19
X Protocol Version 11, Revision 0
Build Operating System: Linux 4.4.26-v7+ armv7l Raspbian
Current Operating System: Linux octopi 4.14.31-v7+ #1104 SMP Thu Mar 29 16:52:18 BST 2018 armv7l
Kernel command line: 8250.nr_uarts=0 bcm2708_fb.fbwidth=800 bcm2708_fb.fbheight=480 bcm2708_fb.fbswap=1 vc_mem.mem_base=0x3ec00000 vc_mem.mem_size=0x40000000  dwc_otg.lpm_enable=0 console=ttyS0,115200 console=tty1 root=PARTUUID=6d1620bc-02 rootfstype=ext4 elevator=deadline fsck.repair=yes rootwait
Build Date: 11 November 2016  11:59:59AM
xorg-server 2:1.18.4-2+rpi1 (https://www.debian.org/support)
Current version of pixman: 0.33.3
        Before reporting problems, check http://wiki.x.org
        to make sure that you have the latest version.
Markers: (--) probed, (**) from config file, (==) default setting,
        (++) from command line, (!!) notice, (II) informational,
        (WW) warning, (EE) error, (NI) not implemented, (??) unknown.
(==) Log file: "/var/log/Xorg.0.log", Time: Fri Mar 30 15:44:15 2018
(==) Using system config directory "/usr/share/X11/xorg.conf.d"
xinit: Unable to run program "/home/pi/TouchUI-autostart/chromium.xinit": No such file or directory  <<<<<<<<<<<<
Specify a program on the command line or make sure that /usr/bin
is in your path.

xinit: connection to X server lost

waiting for X server to shut down (II) Server terminated successfully (0). Closing log file.

pi@octopi:~ $ more /home/pi/TouchUI-autostart/chromium.xinit  << confirmed
/home/pi/TouchUI-autostart/chromium.xinit: No such file or directory

In fact there was no "/home/pi/TouchUI-autostart" directory:

pi@octopi:~ $ cd /home/pi/
pi@octopi:~ $ ls
mjpg-streamer  OctoPrint  oprint  scripts


To fix, I re-ran steps 7-10 here:

github.com/BillyBlaze/OctoPrint-TouchUI/wiki/Setup:-Boot-to-Browser-(OctoPi-or-Jessie-Light)

That is:

git clone https://github.com/BillyBlaze/OctoPrint-TouchUI-autostart.git ~/TouchUI-autostart/       
sudo cp ~/TouchUI-autostart/touchui.init /etc/init.d/touchui
sudo chmod +x /etc/init.d/touchui
sudo cp ~/TouchUI-autostart/touchui.default /etc/default/touchui
sudo update-rc.d touchui defaults

then ran:
chromium-browser

(got errors below - which per the how-to from BillyBlaze are OK):

pi@octopi:~ $      chromium-browser
bootstrap_helper: /usr/lib/chromium-browser/nacl_helper: Cannot open ELF file!  errno=2
[1:1:0330/154102.649795:ERROR:nacl_fork_delegate_linux.cc(315)] Bad NaCl helper startup ack (0 bytes)
[928:928:0330/154102.722478:ERROR:browser_main_loop.cc(495)] Failed to put Xlib into threaded mode.
[928:928:0330/154102.805867:ERROR:browser_main_loop.cc(272)] Gtk: cannot open display:

rebooted and it worked - that is it loaded TouchUI after booting up:
reboot

----------------------------------------------------------------------------------------------

Problem 2: The webcam was not showing up in OctoPrint under the "control" tab.  I confirmed it was working using VLC. I am using a older model Freetalk camera (http://freetalk.me/skype-camera/freetalkr-everyman-hd.html) so it will likely be different for other cameras with other resolutions.

First I set up the camera settings in the octopi.txt file:

su root
root@octopi:/home/pi# sudo nano /boot/octopi.txt

Uncomment (remove the #) for the box for:
camera="auto"

Uncomment (remove the #) for the box for the following and change the setting for the camera resolution:
camera_usb_options="-r 1280x720 -f 25"


After that, the webcam still had issues, was not showing up in TouchUI unless I set the IP of the Octopi as the URL for the stream.  Problem was, I was using DHCP so the IP would change and I would prefer not to hard code it.  I tried using the loopback or localhost but that did not work either.  Decided the simplest thing to do was to run it with a static IP outside my routers DHCP pool or addresses.

To set a static IP for the WiFi on the OctoPi:

su root
nano /boot/octopi-network.txt

was:
## WPA/WPA2 secured
iface wlan0-octopi inet manual
    wpa-ssid "Bananas-are-fun-fruit"
    wpa-psk "haha-not-gonna-put-it-here"

Changed to:
    ## WPA/WPA2 secured
iface wlan0-octopi inet static
    wpa-ssid "Bananas-are-fun-fruit"
    wpa-psk "haha-not-gonna-put-it-here"
    address   192.168.1.123
    netmask   255.255.255.0
    broadcast 192.168.1.255
    gateway   192.168.1.1

And set the address for the webcam stream in the GUI for OctoPrint (settings > Webcam and Timelapse) as follows:

http://192.168.1.123:8080/?action=stream

and used 16:9 as the aspect ratio.  Now it works and I can view the camera under the control tab in OctoPrint, and also from TouchUI's camera screen.

Sadly I lost Sunny last week.  It was a difficult, and despite her illness, an unexpected passing, so I would rather just say that she was a great dog and my best friend.  I am grateful for the time we have had with her, and for all the amazing second chances she was blessed with.  She was tough as nails and as sweet as could be.  Despite her passing, I have so many good memories of her, and that's the best anyone can ever really hope for.  I will never forget her, rest in peace Sunny.

When I have had the time over the past couple weeks, I have tried to make a few prints with the Anycubic Kossel Plus.  The results have been mixed.  I have had several good prints, and many failed ones.  It seems that this printer has some very buggy firmware.  I am looking into moving to Marlin firmware but have not yet made the jump.  This printer seems most happy when printing in the center of the build plate, when I have filled it up there have been problems within an inch and a half or so of the edge of the build plate.  The latest strangeness is that it will just skip some spots in the prints on one side - just leaves a gap in the print.  I have lost count of the number of times I have had to re-run the autoleveling and z-height sequences for this printer (about 10min per).  So far I have seen the following problems:

* Printer will loose the z-offset calibration (simple, write it down)
* Sometimes the z-offset will be totally lost, and even when resetting it, the z zero ends up an inch or more above the print bed - which requires re-running the z-height and auto-leveling routines.
* Stopping a print seems to cause the loss of calibration and sometimes worse, requiring a re-autoleveling
* Gaps in prints along the right side of the build plate
* Screen goes nuts at times

So repeatability and even hanging onto the settings seems to be a problem for this printer - the firmware at least.

There are probably more issues than that, but those are the top problems so far.  I am looking at upgrading to Marlin, but I may just dump the board and get something better.  Looking at the MKS SBASE or possibly a board that can run Smoothieware since it does not seem like Anycubic is updating the firmware, which it really needs.  The tri-gorilla board this printer comes with is an 8-bit board which is probably running at the limit of what it can do.  The newer boards run on 32 bit processors which let them run smoother and some are designed on open firmware that is kept updated.  There are also things like microstepping and better drivers (like the TMC2100 drivers) that would really help smooth out the steppers. 

I am not sure if the autoleveling feature is enough to stick with the factory firmware, and I'm not really sure it works well anyway.  I think this printer has a good base to start from, but it is by no means ready to rock and roll, not by a long shot.

This past week and a half has been a roller coaster with Superpisser.  It began the Monday night before last, when she was not able to pee and was clearly in distress.  I took her down to an emergency vet and they put a hard catheter in, gave me the talk, which was all good, but I wanted her to be comfortable at home before we euthanized her (also wanted to give her a couple days at home with a catheter to see if she could pull off another save).  As it turned out, she was not happy with the hard catheter to the point of removing it herself the following night at the vets, so they tried again and failed to put another catheter in as they were running smack into the damn tumor (I had requested they use a foley which has a balloon and is soft, but they could not get the harder type in either).  So with bills mounting, and a dog with 12 hours of unspent urine in her bladder since the night before's failed attempt, I was about to put her down at the hospital which she hates, and in pain (a completely shitty situation).  I decided to call another vet that knows her case, and was given the name of a specialist (Dr. Aguirre with Salt River Veterinary Specialists) who does laser ablation for bladder tumors (aka UGELAB) in dogs with TCC, and he was not far away either (he is in Scottsdale, AZ).  Considering the timing and utter lack of hope at that point, I was cautiously hopeful.  So I sprang for a more specialized vet at the emergency hospital to install the foley catheter using a scope and get her though till the consult the next day.

As it turned out she was still miserable and having frequent urgency and peeing around this softer foley catheter all night when I had her back home (good times).  Next day, got her in for a consult with Dr. Aguirre, expecting to be told there was not much left for her, and was surprised to find out that the part of the tumor which was blocking her from peeing was mostly growing into and not attached to the urethra (though it had encroached at one point near the bladder).  It was like a finger extending from the bladder into the urethra with a lot of blood clots to boot.  Last Friday she had the surgery to unbock her and she had a bit of a bumpy recovery, but got through it and is getting back to her old self now.

There is still tumor in there, but this has both bought her time and also made her more comfortable, which I consider a win, win, except for my credit card balance.

Had the emergency vet got the foley in the first night, I may not have made the call a couple days later when she was out of options, and found out about Dr. Aguirre.  Dr. Aguirre is a great vet who was able to save Sunny's bacon one more time.  After discussing her case I found out that he has a lot of experience working on tumors and kidney stones for dogs, and applies some techniques used in human surgery for similar problems he deals with in dogs and cats.  It is not often that I have met a vet at his level, and of course, I would highly recommend him. 

Superpisser is not out of the woods yet, but she is in a much better place to find her way out.

After spending several hours getting the linear rails to a minimum level of acceptability, i found a few more problems with the Anycubic Kossel Plus kit.  The base and top frames had some gaps that I needed to fix by loosening things up and using a ratcheting cargo strap to pull the frame tight.  This was pretty simple, but it took some extra time.  Looking back at the pics I can see that I could have done a better job on the base frame, but for now I will just see how it goes before I do any more work on that.  I also have a problem with the leveling sensor which should be an easy fix, it has a screw stripped out in one corner which will affect it's accuracy if I don't fix it (again simple fix though).  The power supply also has a mild chemical smell, so I am leaving the printer in the garage a few days to air out. 

So even with these issues I would still probably buy it again.  Although I haven't turned it on yet, I am impressed with the kit.  For the price, the components and accessories (spool of PLA, flush cutting wire cutters, scraper, and metric ruler) make for a great value, and the company seems to stand behind the product.  There was a lot of thought that went into making the kit easy to build, it is only let down somewhat by the QC, though that can be overcome with some effort, and really I don't mind most of the work to get it built properly.  On the positive side though, with respect to QC, I found that the all delta arms were exactly 235mm between the metal ends, which is great since those would be difficult to fix - this makes up for any issues with frame alignment which are easy to correct (in my view). 

If I wanted something to print out of the box I would have bought a monoprice printer, so a few problems is fine with me.  The only real problem was the rails, and getting good linear rails seems like a bit of a lottery from what I have read online, but if that problem can be overcome it is a great kit so far - again I have yet to turn it on and actually print something so I may regret saying it is a good value yet :D  

Two of the three linear rails for my Kossel 3D printer were not good so I ordered some 3/32" ball bearings which I had hoped would fix them.  When I originally measured the bearings that were installed in the carriages from the factory, I noted they were undersized, so it was not super surprising that the the new ones did not fix the "crunchyness".  However I bought enough spare 3/32" bearings that I was able to sacrifice some to the gods of automation by using them, with some Clover lapping compound to smooth out the races in the carriage and the rails.  To do this, I first removed the original bearings and set them aside so they would not mix with the new bearings.  Then installed the new 3/32" bearings with some superlube and a bit of clover mixed in.  Then I cycled them probably a hundred times until I could feel things smoothing out.  After that I cleaned the heck out of the carriage and rails and discarded the bearings which were pretty much ruined by the clover.  After that was all done, and I had things thoroughly cleaned, I installed the old bearings (and packed them) to see and noted it was a bit loose feeling but it probably would have been fine.  I did not like the looseness however and replaced the old bearings again with the new 3/32" bearings but initially they snug, but after cycling a couple dozen times with a good amount of superlube, they smoothed out considerably.  So now that the worst bearing seems usable, at least until I get the replacements, I am starting to assemble the printer.

The first step was to install the rails on the 3 structural posts for the printer.  This should be easy, and is, however there is some fine tuning since there is some variance between stops on the parts I received, which I decided is not a problem.  However when installing the rails on the square tubing I decided to try and get them centered as best as I could.  For this a vernier caliper is a necessity.  Since the tubes are 20mm and the linear rails are 12mm, I set it for just a shade under 4mm, and used the end that extends from the back of the caliper as a gauge to center the rails, top and bottom, then tightened everything down.   Not a big deal, but hopefully something that could avoid some issues down the road.  I would have liked them to include some tips in the manual on improving the build since it seems like any additional accuracy that can be built in will only help, but it seems that the manual is focused on just the basics of constructing the printer.  I have some ideas where to focus on accuracy however:

1. squaring the vertical tubes to the top and base
2. verifying the length of the rods from the carriages to the printhead is consistent and correct
3. checking for excessive play in the end joints for each connecting rod
4. verifying the bed is level and perpendicular to the rails - or as close to it as possible.

For these, I will try and make adjustments as needed, though at some point I will just get it done regardless.  I am setting this aside for the next few days, but will update when I get some more time to complete the printer.