Random blob prints

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I am still trying to work out why I occasionally get these random blob prints! As you can see the model on the left works fine until towards the end when it goes all ‘blobby’ for some reason??

I have seen this before when attempting to print a cog, but I’ve never bothered to isolate it. In this case, the first print was fine, then second ended in a ‘blob’ and third print was fine. Exactly the same model, no change.

Now I will admit that when I was importing the model it did tell me there was an error and did I wanted that fixed. To which I naturally said “Sure”. Thus, I’m not sure if that is the source of the issues, but if it was a code error, why doesn’t it happen every time I wonder? More investigation it seems.

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Luckily, I managed to print out two good columns to finish this model of a Tori gate as you can see above. It is still quite rough as I was testing using PETG this time instead of PLA. I also didn’t use any support and I probably should have looking at the resulting top beam. As always, there is refinement that will be required but I’m happy that I could get this printed without too much hassle.

The original model had the two columns printing together in the same model but that was slow and also created a ‘spiders web’ of filament between the columns. So I canned that and editing that part of the model using TinkerCAD and made a new model with only a single column I printed twice. Much better.

Happy to add this model to my collection and hopefully will get some time to do some refinement to it soon.

A nozzle mishap

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After setting a 3D print on my Snapmaker Artisan to run overnight, I returned to find that it had failed and whole print had amalgamated into a single enormous blog hanging from the print head. DAMM!

So, I heated each nozzle to the operating temperature and then did a load to force the printed lump away from the print head.I cleaned the nozzles as best as I could and I continued on with the 3D printing.

However, once I had removed the 3D print head in exchange for the laser to do some etching I found that my 3D nozzles where a bite worse for wear as seen in the above photo.

When I’m finished with my etching work I’ll recommend the 3D print head but NOT connect it to the X axis so I can turn it upside down for better access. I’ll again heated each nozzle to the operating temperature and try and scrap away as much junk as I can CAREFULLY!

I also see that I can buy some new Hot End for Dual Extrusion modules from Snapmaker which I may end up doing anyway as I see they have a 0.2mm nozzle as well as a hardened 0.4mm nozzle.

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You get the 0.4mm nozzle when you purchase the unit as shown above. The nozzle size is denoted in the labels for each when you open the print head as shown.

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Seems like you can simply ‘pop out’ the print heads as shown above. So, hopefully not a major deal if it comes to that. But first, let me try and see if I can clean the existing nozzles up without damaging them.

Loading/Unloading filament in a Snapmaker Artisan

After following through the initial ‘wizard’ set up to load the filament into a Snapmaker Artisan, I could never figure out how to do it manually. I generally wrenched the filament out because I couldn’t see how to do it otherwise, but I knew there was a better way and here it is.

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On the Snapmaker integrated controller, from the main menu select Control in the top left.

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Select Filament from the menu on the left. Next, select the nozzle you wish to work with at the top of the page.

Before you can load or unload you need to select the Heat button at the bottom of the screen as shown to bring that nozzle to operating temperature. Until you do the Unload and Load buttons on the right will remain greyed out and unavailable.

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When the nozzle reaches the operating temperature, the Unload and Load button will become available. Use these button when you need to get your filament into or out of the print head.

In short, don’t wrench the filament out of the head as I’m sure it will screw the gears that feed the filament to nozzle. Instead, use the process shown above using the Snapmaker Artisan controller. Given these actions are quite common it would be nice if Snapmaker put them on the home screen or at least allowed the ability to customise what appeared on the home screen. However, for now, I just follow this simple process now whenever I need to load or unload my filament from the print head.

Samsung 32 Inch S39C FHD Curved Monitor

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My existing Benq PD3200Q recently decided to no longer power on and I needed a replacement quick smart. I therefore jumped on Amazon and bought a

Samsung 32 Inch S39C FHD Curved Monitor

for around AU$330 an it arrived the next day, which was magic!

I wasn’t really sure whether a curved screen would be for me but it turns out that I don;t mind it. However, in my rush to get a replacement I overlooked the maximum resolution. The old Benq had a maximum resolution of 2560 x 1440 while the Samsung only has a maximum resolution of 1920 x 1080.

This lower resolution really does make a difference to what is displayed on the screen. With the Benq, I could split the screen into two browser sessions and see everything, however the Samsung doesn’t allow this. It works fine, but due to the smaller screen resolution, not as much information fits on the screen. For example, some web site menus get rolled up into pull down option which add extra effort finding and opening. I can certainly maximise that window to see everything, but it is not quite the same.

I also preferred how I could rotate the Benq from landscape to portrait. Not that I used it much in portrait but it was a handy option. Also, the Benq had an adjustable height option. The Samsung has to live on a box to get it to a level above my Surface Pro so I can see all screens at all times.

For the price and the speed of delivery, the Samsung is a winner but I probably have taken more time to match what I had previous, especially when it came to resolution. I only now appreciate the difference that this makes to my productivity. I can certainly continue to work with the Samsung but I’m looking out for a more suitable replacement so I can gain back the resolution I had. The challenge is when I find something that works what do I do with the Samsung? That’s the other problem I need to solve before getting yet another monitor. However, the positive is that I do like the curved screen.

Let’s see what I can find to get my resolution back now that I have the time to do some comparison shopping.

The extruder is continuously pulled up

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XY Offset Calibration 

The extruder is continuously pulled up and printing is paused 

Error code: 13-18 

Please check if the nozzle is clogged or pushed up, or if the filament is stuck outside and cannot be pulled in successfully. 

If the problem persists, contact our Support for help. 

Confirm

When I first got my Snapmaker Artisan and I started doing 3D prints, I found I got the above error quite regularly. Turns out the solution is in fact quite simple.

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Initially, I had my filament feeding from the top of the roll into the enclosure. This creates additional friction and resistance to the filament feeding smoothly. When I changed the the orientation of the filament roll to feed from the bottom, as shown above, and let gravity do some work, ‘the extruder continuously pulled up’ error has not returned.

The resolution seems simple in hindsight, but during initial set up, on top of everything else, it wasn’t something that I paid attention to. So, if you are having filament being pulled up issues, ensure your filament is feeding with the least amount of friction. This typically means ensure it is feeing from the bottom, not the top, of the reel.