52 postagens marcadas com "3D Printer Remote Access"

O firmware Klipper tem recebido muitos elogios ultimamente devido à sua vasta gama de recursos e desempenho de alta qualidade. Ele também oferece diversas opções de configuração para calibrar sua impressora e produzir impressões 3D de alta qualidade.

Um parâmetro crucial que configuraremos hoje é o ajuste PID da sua impressora 3D. Definir as configurações PID corretas garante que o bico extrusor e a mesa de impressão sejam aquecidos no menor tempo possível e mantenham a temperatura definida com grande precisão.

Este artigo irá guiá-lo pelo processo de calibração PID da sua impressora 3D usando o Klipper. Ele ajudará você a entender melhor essas configurações PID e a solucionar quaisquer problemas de aquecimento com a sua máquina.

Vamos começar a ajustar essas camas e extremidades quentes!

Introduction​

Pressure Advance in Klipper is designed to compensate for the side effects of instant speed changes that occur during fast print speeds. It reduces stringing, gives your prints sharp corners, and delivers a high print quality even at speeds above 100 mm/s.

But tuning pressure advance in Klipper and understanding its functioning can be puzzling to new Klipper users. So, in this article, we’ve gathered all the information you need to know about Pressure advance and set it up in Klipper. It’ll help you understand the benefits of this feature and how you can use it to sharpen up your 3D prints.

Let’s Advance!

3D Printer Failures/Courtesy: Fabbaloo

If you are new to 3D printing, we are sure you have encountered numerous print failures. Thankfully, this is not something new or unique. It happens to even the most seasoned users. But obviously everyone wishes to improve their 3D printing skills and so knowledge of 3D printer failure detection becomes essential, and this is exactly what we will cover in this article.

3D printing and failures​

Because 3D printing is rapidly becoming popular in a variety of industries, it is critical that every student, as well as manufacturing and design professionals, understand the technology. Though you may not need to understand its complexities, having a working knowledge will help you in your career.

3D printing is a manufacturing process that converts a digital CAD file into a three-dimensional physical model by layering thin layers of material one on top of the other. This is also known as additive manufacturing because material is added rather than removed, as is the case with most conventional technologies.

However, 3D printing is still in its early stages and thus prone to failure. DIY and desktop 3D printing, in particular, frequently fails, and users must use a trial-and-error approach to eliminate or reduce failed prints.

What is OctoPrint and why would you want it?​

OctoPrint Bed Level Visualizer plugin display screen/Courtesy: OctoPrint

We are all aware of how critical, yet difficult, it is to level a 3D printer bed. All of your prints will fail if you don't have a level bed, wasting your time, materials, and money. Even having an auto-bed leveling feature is not always sufficient, and your prints may still fail. To solve this issue, OctoPrint's Bed Level Visualizer plugin is the only tool you need to easily level your print bed.

To help you understand this useful OctoPrint plugin, we've written a complete guide on the Bed Level Visualizer to help you set it up quickly and eliminate your bed leveling issues.

What is the OctoPrint Bed Level Visualizer Plugin?​

Bed level visualizer is a useful OctoPrint plugin that converts the bed topography report into a comprehensive 3D map to show the varying elevation (height) across a 3D printer bed, assisting users in leveling the same. This plugin also assists you in determining whether your bed is warped or simply tilted. Thus, the bed is leveled by carefully tightening or loosening the leveling screws at peaks and valleys respectively, to make it as flat as possible for a successful print.

The Bed level visualizer plugin was created by jneilliii (GitHub page). This plugin was installed on at least 35.84k instances in the previous month (August 2022), with at least 759 new installations in the previous week (at the time of writing this article).

The core of 3D printing is a 3D model. 3D modeling for 3D printing is important as all 3D prints start with a digital CAD model that is "sliced" in a slicing software which the 3D printer prints. Being an integral part of 3D printing, having a working knowledge of 3D modeling and the various tools becomes crucial.

In this article, we'll go over the fundamentals of 3D modeling for 3D printing, as well as the distinction between inorganic and organic 3D models, and the popular software for each type.

We've included 3D modeling software for beginners for those on a low budget, as well as a few high-end options for professionals.

But first, to make sure we're all on the same page, let's go through the fundamentals of 3D printing.

How does 3D Printing work?​

A CAD design (left screen), slicing software (right), and the finished print / Courtesy: Ultimaker

3D printing, also known as additive manufacturing, is a method of creating three-dimensional objects layer by layer using a computer-aided design, or CAD. 3D printing builds objects by layering materials such as polymers, composites, or biomaterials that vary in shape and size, as well as rigidity and color.

Even though 3D printing isn't new, there are some who will benefit from our guide to the most common 3D printing terms for beginners.

Regardless of the 3D printing technology being used, it all starts with a 3D CAD model. In this article, we will go through the fundamentals of 3D modeling and its different types, with a focus on 3D printing.

To further help you in selecting the best CAD software for your 3D models, we will also list out a number of 3D modeling software suitable for both beginner and advanced users.

So let's jump in!

O Klipper é um dos poucos firmwares para impressão 3D que oferece suporte nativo a uma câmera externa para monitorar sua impressora 3D. A interface web do Klipper facilita a conexão de uma câmera ao Raspberry Pi e o acompanhamento do progresso da impressão.

Mas o Klipper é um firmware relativamente novo, com recursos e guias limitados que detalham suas diversas funcionalidades. Como usuário iniciante, é fácil se confundir com a instalação e configuração de uma câmera em sua impressora 3D Klipper.

Este artigo tem como objetivo facilitar esse processo e ajudar você a configurar uma câmera na sua impressora 3D conectada ao Klipper. Continue lendo para aprender em detalhes sobre o procedimento de configuração da câmera no Klipper e como uma câmera pode beneficiar seu fluxo de trabalho de impressão 3D.

Introdução​

Usando o recurso de timelapse do Klipper, você pode gravar todo o seu processo de impressão 3D e compartilhar trechos dele em suas redes sociais. Esses vídeos também são uma ótima ferramenta para analisar falhas de impressão e identificar as causas por trás de um problema.

Apesar de sua utilidade, configurar vídeos em time-lapse no Klipper pode ser um desafio para muitos usuários. E embora a configuração inicial seja relativamente simples, pode confundir usuários iniciantes do Klipper.

Neste artigo, vamos simplificar esse processo para você. Abordaremos todo o procedimento passo a passo e configuraremos a funcionalidade de timelapse para sua instância do Klipper. Ao final deste guia, você poderá gravar vídeos em timelapse perfeitos de suas impressões 3D e compartilhá-los com seus amigos e familiares.

Vamos começar a filmar.

3D printing is an evolving technology and engineers are constantly upgrading it to eliminate any primal issues in it. Till recently it was common to tether your 3D printer to your computer to run print jobs. But now, you can easily add WiFi to your 3D printer.

Adding WiFi to your 3D printer gives you an unprecedented advantage and we will be discussing the same in this article and how to set it up with ease.

The Basics of 3D Printing?​

Creality Ender 3 FDM 3D printer/Courtesy: Creality

3D printing is a manufacturing technology that creates three-dimensional objects by adding layers of material one on top of the other until the entire object is formed. Because it produces objects in an additive manner, the process is also known as additive manufacturing.

In comparison to traditional manufacturing methods, this process eliminates the need for tooling and reduces material waste.

The entire ecosystem of the 3D printing process can be used to explain how it works. Here's a quick rundown:

• Software: 3D printing begins with design software, which is used to create a 3D model. After that, the 3D model is sliced in a slicing software to generate a G-code file.
• Hardware: As the 3D printer can only read G-code files, the file is uploaded to the printer, which prints the designed object.
• Materials: Materials for 3D printing include filaments, resins, polymer or metal powders, and metal wires.
• Post-processing: After the 3D printer prints the object, the part usually needs to go through some sort of post-processing stage, such as support structure removal, sanding, acetone vaporing, UV curing, washing, coloring, dyeing, Hot Isostatic Pressing annealing, and so on.

Introduction​

Klipper is an upcoming and popular 3D printing firmware that's quickly becoming the standard in high-speed 3D printing. Its extensive feature set, vibrant community, and continuous development make it the go-to option for several new users and professionals.

Yet, Klipper is still in its nascent stages, and there's little information available on how to get the most out of the firmware. It causes new users to limit themselves to the basic functionalities and miss out on some valuable features of the Klipper firmware.

In this article, we'll go over some of the useful tips and tricks you can use with your Klipper 3D printer to get the most out of it. It'll help you use Klipper in the best way possible and improve your 3D printing experience.

Let's get started with some tips and tricks to optimize your klipping experience.

One of the first things many makers to to improve their experience after buying a 3D printer is install Octoprint. And why not? It's one of the best upgrades you can get for your 3D printer because it lets you control and monitor everything about your 3D printer and print jobs right from your browser.

OctoPrint, however, only works on your local network by default, which could limit its use. And let's face it, sitting through hours of print time isn't something most of us look forward to. And, while life comes in the way and we have to travel, we can certainly do better than worrying about whether our print is on track or whether it has encountered any issues.

And simply being notified of an issue is frustratingly useless. You don't want to be a bystander when something goes wrong with your 3D prints. Instead, you want to be able to take the steps needed from wherever you are to make sure your 3D printing jobs stay on track.

Accessing OctoPrint Away From Home​

When you are away from home, you can access OctoPrint using a variety of methods; the easiest being with the use of OctoPrint Remote Access plugins. This method is ideal for people who aren't technical savvy and want a simple and quick setup process. However, you can also use other methods like direct access, port forwarding, or VPN and to know more about these techniques, you can read our guide.

Over the years, developers have created numerous plugins that allow OctoPrint Remote Access. This, however, makes it difficult for new users to choose the right plugin, one that is both simple to use and feature-rich.

But don't worry, we've got you covered with a list of the best OctoPrint remote access plugins so you can access OctoPrint and your 3D printer from anywhere!