Safety Mod + Pro Version – CR10 Smart Safety Fix

Transcript

Hello everybody and welcome to another video tutorial. Today we’ll be addressing an issue which is quite common among budget friendly printers and isn’t discussed all that much. The CR10 Smart like many other 3d printers in the market today, have tinned wired connections at their terminals, so today we’ll be replacing those with ferrules. As always, what you see here represents my own opinions, and undertake this at your own risk. I’m in no way responsible if any damages that may occur.

Now, there’s a couple of reason why you might want to change the main power connections to ferrules, however the main one is for safety. Not having ferrules means that maintenance will generally be more difficult since you’ll have to deal with the wires unravelling when being placed inside the terminals. Tinned one’s on the other hand can make the strands more susceptible to vibration, loosing and corrosion, all of which are to be avoided when it comes to the main power connections. So for this reason we’ll be taking a closer look at how to replace the those connections on the CR10 Smart by Creality.

The CR10 Smart is designed with a Creality Wifi Box within, and for this reason there are a couple of additional terminals that need to be updated. Unlike the CR10 V3, the electrical components are within the base of the machine, therefore we’ll need to open this up in order to get access to the electronics. With the base open, we can already see some terminals on the main motherboard. As you can see from this diagram, we’ll need to replace the ones in these two locations. Like most budget machines on the market today, this FDM printer has tinned wires at the main power and hotbed output. The second set of terminals comes from the connection hub, which allows the connection between the motherboard and the internal Wi-Fi box components.

To make things easier to keep track of, we’ll only remove one wire at a time by unscrewing the screw at the top of the terminal. With wire cutters, you’ll remove the part that tinned before beginning to prep the wire for the ferrule. In order to have proper contact with the ferrule, well need to strip the tip of the wire by using one of the two methods. If you have wires strippers, you can use those to strip the wire connection, if you don’t, you can use your wire cutter to do the same thing by gently adding pressure until you’ve cut through the outer protective layer. You’ll then be able to remove the coating by holding the cutter’s partially open while pulling that part away. When choosing a ferrule, you want to choose one that just barely fits onto the wire to help ensure a proper connection when crimped. By making sure to twist the wires first, you’ll have an easier time inserting them into the ferrules. If you have a ferrule crimping tool, you can use that to crimp the connection, if not you can use a pair of pliers’ to do the same thing. Always test the connection before putting it back into the terminal.

In the end, you should only have to replace 6 wire connections at 3 different terminals. By only disconnecting one connection at a time, you’ll be able to keep track of what connections need to be changed next. This is the method I generally recommend so that you don’t end up mixing your connections. When you re-attach the connection, make sure to double-check that it’s properly secured before moving on to the next one. Once you’ve finished upgrading the terminal connections, you can then put back together the machine and do a quick test print to make sure everything is working correctly.

I hope this video has helped some of you out and if there’s a video you’d like to suggest, please leave a comment down below. I hope you guys enjoyed this video and I hope to see you guys soon.

CR-10 Smart – Manual Bed Levelling Fix

Transcript

Hello everybody and welcome to another mod video. In today’s video, we’ll be modifying the CR10 Smart to no longer require auto bed levelling in order to function correctly. At the same time, we will be adding insulation beneath the build plate to help speed up the heating process. As always, do this mod at your own risk, and I’m in no way responsible if any damages may occur. Now, in most cases, you shouldn’t need to go to these types of lengths to get your machine to work correctly. As of making this video, there are quite a few problems with the CR10 Smart and many users have had to resort to time-consuming mods to rectify the situation. One such issue is the implementation of the auto bed levelling, which doesn’t seem to function properly for numerous users. So before we begin, we’ll need a couple of items prior to doing this modification on our machines. The first will be the levelling nuts with either silicone levelling columns or springs. I have tested both, so I can say that either will work for this purpose. Which ever option you choose, make sure that you have the screws to go along with the kit, since the one’s which are on the machine are too short. The second item on the list is the cork board that we’ll be using to help insulate the build plate, and this needs to be approximately 1 inch in thickness to help reduce the need for adhesives. In my case I order a pack of 12×12 inch sheets which were 3/8 inch in thickness and this allowed me to stack them on top of each other until I had the correct thickness. With the components at the ready, we can now begin by removing the glass bed from the build surface. You can do this by opening up the retainer tabs and sliding out the glass. There are 16 screws that are holding the build plate in place, so we’ll unscrew those, so we can begin prepping the heating platform. Since the existing holes are threaded, will first need to open these up to allow the screw to move freely. Using an 11/64 bit, you’ll widen the hole size every so slightly for the 4 corners that we’ll be mounting the adjustment knobs. I put some paper around all the components to help protect the remainder of the electronics from any metal debris, as well as using some lubricant to facilitate the drilling process. After cleaning up the area with a vacuum to make sure that nothing was left over, I could then begin cutting the cork material to fit the build plate. To make things easier, I cut the corners out to make sure I had enough room for the springs and the silicone columns. I placed the build plate on top of the cork to figure out where I should cut these portions from. Additionally, I created holes in a couple of the layers for where the bolts could fit through. To figure out the location of the bolts, I simply pressed the cork downwards to indent them onto the surface and used that for a cutting reference. Corkboard has a high temperature resistance which is why we’ll be using it for this project, and in this case I didn’t want to use an option which required adhesive material since it would be difficult to remove or make repairs in the future. In order to keep the screws from moving around, I decided to use some springs, which I cut down into spring lock washers. The nice thing about using the springs is that these can have a very small footprint and shouldn’t cause the screw to stick out afterwards. Placing the Cork sheets into place, we can then line up the heated build plate followed by our spring lock washers and screws. If you’re using the silicone columns, the indented portion is supposed to be on top. It’s very important that you screw the levelling nuts so that the Z-endstop can be triggered, otherwise the hot end will crash into the build plate. The way this sensor works is that it waits for the Z end stop to trigger before turning on. When you manually level the bed, you’re going to go to “Settings” + “Level” and wait for the machine to finish probing the centre of the bed. After, you’ll adjust the offset so that it’s close but not touching the build plate by selecting each corner until it’s they are all the same. Now, for some reason I had to adjust the Z-offset a second time, but I had no issues with the overall levelling of the machine. Something very essential with this mod is that the screen is set too high up, and therefore the build plate tends to crash and lift above it when it passes too far forwards. You’ll want to 3d print this part so that you can mount in on the appropriate angle. With the modification completed, you can do a test print to see if everything is working correctly. I generally prefer to use a test similar to what you see here, since it allows me to check for any printing irregularities. I hope that this upgrade has helped some of you out, and I hope to see you guys again soon. Thank you and take care.

3D Printing a 15 Foot Dragon – Part 1 Concept

Transcript

Hello everybody and welcome to another video. Today is the first part of a miniseries in which I will be 3d printing a several feet long dragon. Being the intensive project it is, we’ll see if I can complete this in a reasonable amount of time and find out how long it ends up taking. I’m also wondering just how many new grey hairs I will be collecting by the end of this project. I’ll keep a counter at the top right. For today, we’ll be focusing on the conceptual art portions, which will include the basic design and mechanics as the overall aesthetics.

When beginning this project, I wasn’t exactly sure what I was going to create, but I did have some important requirements to consider. At the time, I had just gotten my CR30 3D printmill and wanted to do an in dept test of its capabilities. Compared to most 3d printers, this one was better suited for small scale production because of its ability to continuously print It also meant, however, that I needed to find a method in which to test those capabilities. So using an untested machine for a time intensive project, seemed like a good idea at the time? This project needed to be printed within the confines of the print volume, and portions needed to be repeatable to utilize the repeat function of the machine. I began brainstorming some ideas to figure out how I would be approaching this creation. I started looking up different types of mythological creatures which were serpentine in nature to get a better idea of which one I would focus on. Likewise, I could do a giant worm like creature or perhaps something more along the lines of a centipede, however in the end I decided to go with an Easter Dragon since I believe it to be the most interesting of ideas. Somehow, I didn’t believe that many people would want to click on a video showcasing a giant caterpillar. I guess we’ll see if that was a mistake or not.

Like any project I start, I had to go searching from some reference materials. In most cases, if I’m just doing a quick piece, then a simple google search will work just fine. For more technical projects like this one, I prefer to create an inspiration board, which normally includes a couple of notes. These boards help establish the mood of the design and help focus your ideas into a consistent design language. I can also include technical specifications to keep in mind when I’m creating the design. Hey Wake up little guy, this part is probably the most important part when creating a concept. Now I did decide early on that I wanted to do a steampunk styled piece, so I started referencing industrial base mechanical objects for this purpose along with animals or bugs which could have some dragon like features. Referencing actual animals and anatomy is in general good practice, since most mythology is based off such creatures to begin with. With reference materials on hand, I could then begin working out the conceptual art for this piece.

All concept art should start off with simple thumbnails, since this greatly reducing overall production time. By not wasting time on a full illustration, I could begin exploring basic concepts like the silhouette and proportions of the creature without investing too much time overall. After having done a couple of these, I eventually settled on this design, which I decided to full flesh out into a full concept and model sheet. Since I knew I would still need to make changes latter on, I decided to go ahead and focus on the plate design since this would be crucial for creating the rest of the aesthetics. I knew that the end of the tail was most likely not going to be printed, so I left that portion a little more open to interpretation. After all this work, here’s the rough the concept model sheet for the design along with the rough dimensions. And yes, you are reading this correctly, it does say 15ft and those measurements don’t include the head or tail.

So with the preliminary portions all completed, I can now begin 3d modelling and refining the design further, but that will be a story for another day. I hope you guys enjoyed the first part of this journey and I hope to see you guys soon. Thank you and take care.

Elegoo Vs Anycubic – Washing and Cleaning Station Showdown?

Transcript

Hello everybody and welcome to another review. Today we’ll be comparing two Resin Cleaning machines. The first is the Elegoo Mercury Plus and the second is the Anycubic Wash and Cure 2.0 and both are very similar yet different machines as we’ll see shortly. Full disclaimer, I purchased both of these machines myself for the purposes of this review, and the opinions you will see here are my own.

Now, before we begin, let’s quickly cover what these machines do and how they might differ to traditional hand cleaning methods. In this case, both machines serve two main purposes in the post-processing of a resin 3d prints. The first is to clean the model to remove any residual resin which might remain after the print has finished printing. The second is to fully cure the print to ensure the material’s full mechanical properties. Both of these machines are designed to take up as little room as possible by combining both purposes into one device.

Now I’ve been using both these machines for a while now, and I can say that both will achieve very similar results, however the user experience for each of these is quite different in certain aspects. Both of these machines were chosen for the comparison because they were the closest in design and function, So let’s take a closer look at each of them one by one.

The Elegoo Mercury Plus uses a series of buttons to switch between the different modes, as well as controlling the operations of the machines. All buttons are clearly labelled and easy to read, however it is more time-consuming to set cleaning and curing times. On this machine, you have to readily press the plus or negative buttons to achieve your desired cure setting, which is inconvenient, especially if your hands are covered in resin. If you want to run the cleaning mode you’ll have to do this with the machine cover on and although you can place the container lid on it will be a very tight fit. The container lid on my unit had issues with closing properly, and I would recommend that the company change this for future machines. In order to clean the build plate, this machine has an added adapter which clips onto the top of the machine to where the cleaning basket would normally be located. This holder is only currently compatible with certain build plates, didn’t work with my Anycubic Photon. I would have preferred a different method of holding the cleaning basket in place, since it must be clipped into the holder for every use. If you choose not to properly secure the basket, it can interfere or damage the rotational stirrer, since the basket does not have a raised portion. As a safety precaution, this machine does turn off the LED’s if the machine cover is not in place. When I opened up this machine, I did indeed discover tinned terminals, which I immediately proceeded to replace them with ferrules. Although this machine does produce beeping sounds, in most cases this machine isn’t overly loud in it’s warning and operation. A newer model has since been released, which does have some improvements and features.

The Anycubic Wash and Cure machine 2.0 uses a rotational knob to adjust its timing settings, which I’ve found to be a faster method for adjustment. When you press down on the rotational knob, it allows you to start and stop the machine. In order to change between cleaning mode and curing mode, you’ll press on the button that has a cycle symbol on it’s surface. I found that the LED which displayed the current mode selection to be very small and difficult to read. What you see on camera is very much the same as what a user experiences as in person, and it would be something that I’d recommend they improve in future alterations. The basket design has raised feet which helps prevent uncured resin from dripping down onto your surface, however you will still need to place something underneath since the base is still open. One of the best features I’ve found yet on this machine is the ability to place the cleaning container on the machine and run it without the cover. This allows me to run the machine the with the container lid on but not the machine cover, which helps contain the fumes a lot better while preventing the evaporation of the liquid. The top of the container is higher than the LED’s, which make it easier to place and remove the lid during normal operations. The cleaning container has another benefit in that it keeps the build plate above the base by using the tab’s which are designed into the container itself. This means that you don’t have to swap out an additional component when cleaning with your build plate. As for the curing portion, this uses a reflective foil and a base which is inserted onto the gear. The only main concern I have is that liquid may fall into the gear system, since it’s a more open design. As a safety precaution, this machine does turn off the LED’s if the machine cover is not in place, which is a welcome precaution. When I opened up this machine I was very happy to discover that they did not use any tinned connections at their terminals which is a positive move forward for the company. This machine does produce very loud beeping noises and humming sounds when in operation and is something I would like to see addressed in a future product.

Both of these machines do alternate directions when in a cleaning mode, which does help ensure that all material is removed from the prints. These devices would benefit from certain changes in their future designs, once of which is a memory of the last timed setting. Both machines reset to zero for both their washing and curing cycles, which is inconvenient in a production setting where time is at a premium. If an owner has a flex build plate installed, they should not place it inside the cleaning station since this can compromise the adhesive being used to hold the magnet into place. While these machines are great for larger parts, I would like to see them included a finer sized basket for cleaning smaller parts, since these are very likely to fall through the openings of the basket. In my case, I’ve started using a tea infuser to circumvent this issue, however it isn’t entirely ideal.

So with all of this information taken into consideration, what is the final verdict? There are certain aspects of each that I do prefer, however for me the clean winner is the Anycubic Wash and Cure 2.0 for several reasons. The main reason is the fact that they had proper wiring in their machine and the cleaning container. Their basket and container designs were well integrated with the rest of the machine, and this does come at a higher price point. So if you’re under a tight budget and won’t be utilizing your machine on a regular basis, then I would recommend the Elegoo cleaning station, however if you’re producing prints approximately twice a week I would definitely invest in the one by Anycubic. The Anycubic model is simply more user-friendly and can potentially save a user quite a bit of time because of how it has been designed.

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