Large 3d printer enclosure

3d Printer Enclosure - Etsy.de

Etsy is no longer supporting older versions of your web browser in order to ensure that user data remains secure. Please update to the latest version.

Take full advantage of our site features by enabling JavaScript.

Find something memorable, join a community doing good.

(77 relevant results)

3D Printer Enclosure (large)|70x75x90 cm | 3D printing experts

Overview Description Specifications

Creality 3D

Protects 3D prints against drafts and reduces smells

Improves print quality
Keeps heat inside
Easily assembled
Made from flame retardant cloth

Stock - NL: 35

€ 74. 37 excl VAT In stock

Dispatches same business day!

Product description

This enclosure is compatible with the Ender 5 Plus, CR-10S 300, CR10S Pro, but also fits other 3D printers with the appropriate dimensions. Using the enclosure reduces drafts around your 3D print, that could have otherwise ruined your print. Also it keeps smells and heat inside, improving your working environment. Finally it protects important parts of your 3D printer from dust, improving the lifespan of the components.

Improve the overall printing experience - both for you and the machine itself.
Easy to install, can be folded for efficient storage.
Equipped with pockets to hold tools.
You can easily access the printer by unzipping the front of the enclosure, which features a see-through screen for monitoring.

Specifications

General properties
sku	C3DENCL
gtin	8719345015847
mpn	1002990033
Color	Black
Dimensions
Product Dimensions	750x700x900 mm

Price breaks

1 - 4:	excl € 74. 37
5 - 9:	excl € 70.65
10 - 29:	excl € 68.79
30 - :	excl € 66.94
Need a larger quantity? Contact our Sales department.

5 computer cases you can print at home / 3d printing / 3Dmag.org

Have you ever thought about building your own PC case? While there are plenty of options on the market for those who want to dress up a computer, it can sometimes be difficult to find the perfect solution for your taste.

Thanks to the magic of 3D printing, this is no longer a problem. You can design and build your own case relatively easily if you're willing to spend a little time on it. But before you jump into creating something completely unique, it makes sense to put your skills to the test with a proven design.

By the way, if you need a server or a premium cloud solution, I recommend contacting https://hostkey.ru/. TIER III data centers in Russia, the Netherlands and the USA, round-the-clock support, DDoS protection, as well as an individual approach will help even the most demanding client make a choice.

1. Mini ITX (thingiverse.com/thing:4861347).

This chassis supports a full size ATX power supply despite its incredibly small form factor. Along with this, it is also able to accommodate a dual-slot video card up to 270 mm long and a 3.5-inch hard drive.

Another plus point is the eye-catching, minimalist design, with a clean diamond pattern on the front and both sides with ventilation holes. The biggest drawback that people encounter when printing this "case" is the main outer panel. Due to the shape of this part, many printers will encounter warping issues.

2. mATX Wall Mounted Chassis (thingiverse.com/thing:3623802).

Now it's time to look at a more complex implementation that will give you a very unique result. Wall-mounted PC cases have long been a popular concept, and this project achieves that design with minimal printing effort. The case supports ATX motherboards and dual-slot graphics cards, but is only compatible with M.2 SSDs for storage.

The design itself is quite simple: four side panels and a rear panel. Each one has a minimalist hexagonal grid design, except for the I/O wall, which is completely solid. The case is low-profile, which means your GPU will protrude a bit.

The only major downside to this 3D printing "case" is that you need a 300mm x 300mm work area to use the files intact. You will also need a few screws to begin assembly.

3. ATX Open Frame PC (thingiverse.com/thing:4658587).

Now we are entering a much larger space. This open-frame ATX case has been specifically designed to have room for a 360mm top-mounted water cooling radiator. It also has room for a large reservoir, allowing for customized circuits with great cooling potential.

The design of this case is unlike anything on the market. Both sides are completely open, and the front and back panels have a nice curved shape. All the ugly parts of your build can be tucked away in the base, and there's room in the back for HDDs and SSDs.

Unlike the other cases on this list, the project was designed around a motherboard tray that you will have to buy. Along with that, you will also need to purchase a number of different bolts.

4. ATX case with laser pattern (thingiverse.com/thing:4818480).

Number four on our list is very similar to the regular cases you can buy on the market. This project has room for custom water cooling, an enclosed section of a powerful power supply, and a stunning design that just about any enthusiast will love. To achieve the best results in this "case" will also require laser cutting.

While you can print almost the entire body in one sitting, the creator of this project has also included smaller sections so that regular home printers can handle the job. With space for a full size ATX motherboard, hexagonal design on the front and transparent side panels, the case looks amazing compared to most 3D printed models.

The biggest challenge you will face when creating is printing complex parts without warping. You will also need to find a laser cutter. If you want to make the project even more fun, you might consider using a resin 3D printer for smaller components.

5. Medieval Castle (thingiverse.com/thing:4777561).

Although this case cannot be completely 3D printed, it is impossible to ignore a computer that looks like a medieval castle. It has room for a full-size ATX motherboard, as well as a dual-slot graphics card and an ATX power supply. Of the minuses, cut aluminum profiles for the frame can be noted.

Step by step design allows you to use a very small 3D printer. However, the most impressive thing is that this case also has external lighting that connects directly to the power supply.

In the end, building your own case can be fun, exciting, and most importantly, a great way to learn more about both 3D printing and computers. Hope you enjoy!

Material translated on 08/23/2021.

How a team of enthusiasts creates Belarusian 3D printers near Minsk

19-year-old student Dmitry wrote to the editor of the 42.TUT.BY TV channel: he said that two months ago he was invited to work with a Belarusian startup for the development and production of 3D printers - and his classmate also works there, who was noticed after how he assembled his own 3D printer from scrap materials. It turned out that there is a whole laboratory of enthusiasts operating not far from Minsk, which creates and sells Belarusian-assembled 3D printers.
Read more: https://42.tut.by/728589?c
The Z-Bolt project was created in 2016 by two Belarusians. Andrey Bolt and Viktor Zavodchenkov studied together at BSUIR and after graduating in 2006 "went into business". For 10 years, they have managed to try many different areas - from the production of electronics and the manufacture of advertising structures to the rental of excavators and the installation of engineering networks.
But doing business in Belarus is unpredictable. After the devaluation in 2014–2015, having lost some of their profits, Andrey and Viktor came to the conclusion that it is better to do what is interesting: this way there will be less regrets if (or when) a new devaluation occurs. In addition, according to them, they wanted to be able to sell goods abroad in order to be less dependent on the Belarusian economy, do what is in trend, and work in an area where the market is not oversaturated with competitors.

From left to right: Andrey Bolt and Viktor Zavodchenkov
— We started working on audio systems. At one time, custom headphones were made, and we needed a 3D printer to print shells for them based on ear molds,” Andrey recalls. - In 2016, it was very difficult to find something for sane money, but we still bought ourselves a 3D printer - and then a second one. We started to deal with them, and somehow we were drawn into this area - we began to develop something, modify existing projects, and gradually came to the conclusion that we had our own project.
Moreover, the founders immediately posted their project and video instructions for free access (all information about the assembly and operation of printers is on GitHub and in the "Documentation" section on the website), although five years ago most projects of this kind in Russian-speaking countries were closed: teams made cases , printers, but did not share drawings.

This helped Belarusians create a small community on Telegram where enthusiasts communicate. Moreover, some of the active participants still periodically help the team, at least removing the burden of consulting beginners in 3D printing from it.
In 2018, the project grew a little, and Andrey and Viktor got two more business partners from the IT field, with whom they began to develop a new direction - a large construction 3D printer.
- We tried to deploy a startup, even achieved some success, but after looking at how long it took us, we realized that we either need more money to hire more people, or we will do it forever. As a result, the business was frozen and they began to develop their first project - open source 3D printers - with the same team, - says Andrey.

What are the features of Belarusian 3D printers

The team positions its product as something that you can not only buy, but also assemble yourself. Of course, one might think here - if the source codes are in the public domain, and you can order parts on conditional AliExpress, then why buy ready-made printers? But, as Andrei explains, a 3D printer is technically quite a complex device, and not everyone feels able to assemble it on their own from start to finish, set it up and run it.
“The vast majority of customers buy 3D printers to print, not assemble,” he adds. — Those who assemble themselves sometimes share their improvements and ideas. Sometimes sensible ideas come across, and we try them. It helps us in development.

In addition, we are constantly improving the design. The new versions are very different from the 2018-2019 printers, and they are no longer so easy to build yourself. We have not yet fully decided how to continue to share with the community the innovations that have emerged in recent times. Milling, metal straightening, grinding, pressing, turning, polymer painting - we started using all these technological operations in 2019-2020. Their use moved us far enough away from the DIY market (translated from English as "do it yourself." - Approx. TUT.BY), however, it allowed us to make a more competitive product, and legal entities, including those from Belarus, are increasingly becoming our customers. For example, the Brest Technopark recently became interested in our products: their representatives came to us, and we reached a preliminary agreement on the supply of ten machines.
In 2019, the team reached a new level - revised their sales model, launched a small advertisement, improved production points, wrote instructions so that staff could be trained. And she began to attend exhibitions - in particular, 3DToday Fest in Moscow and St. Petersburg and 3D Print Expo in Moscow, from where she brought diplomas.

Photo courtesy of the Z_Bolt team
— At exhibitions, we met many colleagues in the workshop. Live communication with 3D printer and consumable manufacturers, printer developers, 3D startups, makers, potential dealers and customers has significantly improved our understanding of the market, the founders of the startup say.
But, of course, with the onset of the pandemic, all this ended, so now the Belarusians are focusing on their current tasks.
Be that as it may, the idea, born on enthusiasm, became the main source of income for the founders and, as a result, brought the startup out of conditional garages and basements "to the surface". For a while, Andrey and Viktor thought about renting an unused factory space, but, faced with the proposed options, they decided to go the other way and rented a separate building in Borovlyany (the bonus was a very friendly dog owned by the landlord, who meets all guests and clients). The founders call this building with large windows surrounded by pine trees a "laboratory" - since it is here that they not only collect orders, but also improve their design.
- We are not interested in doing the same thing, although it would probably be more commercially successful. It is more interesting to improve the design, introduce new solutions that we develop, including based on feedback from our customers. We want to make a product that we ourselves and everyone else likes,” Victor says.

According to the interlocutors, thanks to cooperation with business partners, the startup was able to "move things forward on the software side."
- We made Octoscreen, a touch screen application that helps to combine the web interface in the browser with the screen interface of a 3D printer. It was also made available to the public. Many people liked it, especially in the English-speaking segment - on YouTube you can find its reviews in different languages. One of the bloggers made a manual for its installation, which currently has over 140 thousand views (for such a narrow area, this is a lot). Among other things, the application helped us solve some problems with using four or more extruders on a 3D printer.

So, for several years the team has been producing multi-extruder printers that can print simultaneously with different materials and different colors.
- Moreover, when we started, as far as we know, only the E3D startup from the UK did this. But we didn't copy their idea, it just happened to us plus or minus at the same time (they announced a little earlier, we started selling a little earlier). Their printer involves self-assembly and is positioned as a motion system, while ours is sold ready-made, Andrey explains. - The idea itself is not new: it is widely used in CNC machines so that the worker does not need to change the tool with his hands every time. Nevertheless, in relation to 3D printers, this is now produced by a few companies in the world.
Among other innovations, we have improved the auto level, which helps to smooth out the unevenness of the glass or the surface on which the printer stands. We didn't like the existing solutions on the market, so we made our own.
We develop and implement our own unique solutions in the design, and do not try to compete with the Chinese for the price. And you can’t really compete with them on price, especially considering that they can have production on a neighboring street with a supplier, but in some cases we have to freeze money for up to two or more months in order to get components. But if you buy them from local suppliers, the price of our printers runs the risk of increasing by 1.5-2 times and becoming uncompetitive.
- To what extent can your printers be called Belarusian? How many Belarusian-made parts are there?
“Everything that can be ordered or made locally, we try to do in Belarus,” replies Victor. - A 3D printer may need up to 200 parts and positions - these are connectors, and motors, and rails, and guides, and bearings, and so on. It is clear that many specific things are simply not produced in Belarus, for example, the same stepper motors. But there are, for example, Rozum Robotics, which make cool servo motors (by the way, they have our printer of one of the first versions, and we periodically communicated with their representatives, including discussing the possibilities of joint projects).

Belarusian production, we have cases, various steel, aluminum parts. In general, we buy or manufacture up to 40% of everything we need here.
- The advantage of 3D printing is precisely that it solves the issues of supply and missing parts, - adds Andrey. - That is, the fourth industrial revolution is coming, local industries are flourishing, and so on. Previously, in order to prototype any part, you had to go through several circles of hell. And now an engineer, a developer can independently create a part or even a small series of parts using a 3D printer.

Why the startup is almost never involved in printing itself

Now the main market for Z-Bolt is Russia: printers are bought for both home and professional use, for example, in educational institutions and industrial organizations.
Startup does not print custom parts. If they print anything, it is rather for their own experience and a better understanding of the needs of customers.
But, of course, they are periodically approached with questions. For example, at one of the exhibitions in Russia, a startup was offered to participate in a project for which it was necessary to print a model of the human heart of a particular patient (moreover, healthy and affected areas were supposed to be printed with different materials, and this required a multi-extruder printer). As planned, this would greatly simplify the work of surgeons. The resulting model did not satisfy the team: it was solid, while the real heart is elastic, so now the startup is experimenting with flexible materials.

In the laboratory you can find old printed samples, for example, such a heart
And not so long ago, one of the Belarusian plants manufacturing reinforced concrete structures turned to Z-Bolt for help: they needed to make a polyurethane gasket for a pipe of a non-standard size. It would cost too much money to make this part using the classical method, so they decided to try 3D printing and started looking for someone who could print them a 62 cm diameter polyurethane part (finding a printer with a build area larger than 30*30 cm is quite difficult), and stumbled upon Z-Bolt, which has an experimental 3D printer with a suitable printable area - now the parties are discussing the material.
And, of course, in the first wave of coronavirus, like, probably, all owners of 3D printers in Minsk, the startup printed a little holders for masks.
— Now printing to order is only in our plans — this is a separate area for which we still do not have enough people and resources, — Viktor explains. - We are already 80% engaged in development, which takes money, and only 20% - in production, which brings this same money. Because even in that small area of 3D printing that we have chosen for ourselves, there are a lot of interesting things.
For example, as the founders say, there is a studio in Minsk where they print with metal, and in Brest they produce 3D printers with a plywood case. More broadly speaking, 3D bioprinting of organs and tissues already exists; with the help of a printer, everything can be made - from prostheses to advanced technology. And food printing is a well-known topic: Z-Bolt even has a special chocolate extruder to create chocolate sculptures. As they say themselves, "there is interest, but everyone's hands won't reach."
Now seven people are working on the project together with the co-founders - there are no passing people in the team, only those who are “in the know”. For example, Artyom (“Junior Research Fellow”, as he is jokingly called) came to the startup from hackerspace. The other one, Vlad, was hired after the Minsk College of Electronics. And one more employee, Sergey, works in shifts both in the startup and in the Minsk metro.

“Three more people advise us in their areas, and two help us in the manufacture of various specific things,” Andrey adds. - And we cooperate with a fairly large number of organizations, we outsource the manufacture of some parts.
3D printing enthusiasts help in development. For example, our Octoscreen project, an LCD touchscreen for a 3D printer, is now fully led by a man named JeffB42, whom we met on the Internet. He liked the project and asked us to give him access to development on GitHub.
With one of the clients who bought several printers from us, we organized a joint project to create large 3D printers, just on one of them we print a large part for a reinforced concrete plant, and very soon we will begin to offer these printers for purchase.
I would like to add that, among other things, thanks to the openness of the project, we have clients not only in Russia, Ukraine and Kazakhstan, but also in Moldova, Montenegro, Spain, and Israel. As far as we know, printers according to our drawings are assembled in France, Romania, Uzbekistan, Brazil. Surely there are users in other countries who simply did not write to us about it.
As for Octoscreen, there are countless countries in which it is used.