The Features That Make The Snapmaker Rotary Module An Exceptional Tool
Snapmaker 2.0 3-in-1 3D printers are multifunctional modular devices that have three modules such asThe Snapmaker Rotary Module
The rotary module is proven to create high-quality, detailed three-dimensional parts like never before. Why? First, it is because of its spectacular high precision, combined with the fact that it can achieve a continuous 360 degrees rotation and maximum angular velocity of 45 degrees per second
- 3D printing
- CNC machining machine
- Laser engraving and cutting machine
The 3D printing function turns your Snapmaker 2.0 into a mighty FDM 3D printer with which the user can create parts from a wide range of materials. On the other hand, with a CNC machining module, the user can easily carve or even cut various materials, offering spectacular results. The laser engraving and cutting module also allow the user to laser engrave and cut many materials such as fabric, nylon, cardboard, leather, etc.
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3D printing
Even so, Snapmaker is constantly making their machines incredible by developing new modules and accessories to make the printers an all-in-one manufacturing solution to tackle whatever creative project. And one of the developments they have done so far is the introduction of the Snapmaker 2.0 Rotary module; it is an extra tool compatible with the Snapmaker 2.0 and Artisan CNC machining and laser engraving and cutting module. The Rotary module offers you the advantage of providing a high-precision 4-axis rotary milling or laser engraving on a curved surface.
Snapmaker Rotary module can achieve ultra-fine machining without losing a single detail and supports various materials. Whether it is combined with the CNC machining module or the laser engraving and cutting module, the Rotary will still be compatible with one material or another. The materials are such;
- Non-transparent acrylic
- Wood
- Leather
- Plastic
- Fabric
- Paper
- Bamboo etc
The rotary module is proven to create high-quality, detailed three-dimensional parts like never before. Why? First, it is because of its spectacular high precision, combined with the fact that it can achieve a continuous 360 degrees rotation and maximum angular velocity of 45 degrees per second. Additionally, the material is securely put. It has a three-jaw clamping piece; hence the material is securely clamped during machining or laser engraving.
The 3D printing function turns your Snapmaker 2.0 into a mighty FDM 3D printer with which the user can create parts from a wide range of materials. On the other hand, with a CNC machining module, the user can easily carve or even cut various materials, offering spectacular results. The laser engraving and cutting module also allow the user to laser engrave and cut many materials such as fabric, nylon, cardboard, leather, etc.
Therefore, there is no worry about it moving unnecessarily and causing damage to the object.
Therefore, the Snapmaker Rotary module can undoubtedly expand the creative possibilities, allowing the production of previously unimaginable parts with a desktop machine. Furthermore, the dimension of the Rotary module will depend on the measurement and size of your 3D printer machine. Below are the specifications of the Rotary module depending on the size of the printer;
- A250T Rotary modules specifications include the following;
- It weighs 2.2 kg
- It has a dimension of 120 x 284 x 108 mm (W x D x H)
- The material length range with tailstock is 10 – 70 mm, and without tailstock is 10 – 125 mm.
- The maximum material size to be used with the Rotary with tailstock is 70 x 68 mm; without tailstock is 125 x 68 mm.
- A350T Rotary module specifications include the following;
- It weighs 2.4 kg
- It has a dimension of 120 x 384 x 108 mm (W x D x H)
- The material length range with tailstock is 10 – 170 mm, and without tailstock is 10 – 225 mm.
- The maximum material size used with the Rotary with tailstock is 170 length x 68 radii (mm), and without tailstock is 225 x 68 mm.
- with a CNC machining module, the user can easily carve or even cut various materials, offering spectacular results. The laser engraving and cutting module also allow the user to laser engrave and cut many materials such as fabric, nylon, cardboard, leather, etc.
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CNC machining machine
The specifications mentioned above are what makes the difference between the Rotary, but the following specifications are common with both sizes of 3D printer. The specifications include the next;
- The Rotary module is designed with aluminum alloy.
- The maximum angular speed of the Rotary module is 45 degrees per second
- It has a rotation type of 360 degrees continuous.
- Its precisions are 1.0-degree angle precision, while precise control is 0.2 degrees.
- The Rotary Module supports the following software; Snapmaker Luban, Autodesk Fusion 360, and Vectric Aspire
- the creative possibilities, allowing the production of previously unimaginable parts with a desktop machine. Furthermore, the dimension of the Rotary module will depend on the measurement and size of your 3D printer machine. Below are the specifications of the Rotary module depending on the size of the printer
CNC machining is a way to make things that uses computerised controls and machine tools to take material away from a workpiece. Most CNC machining machines have a CNC controller, a machine tool, and something to hold the workpiece. The CNC controller is the machine’s brain. It is where the computer is that controls how the machine tool moves. The machine tool cuts, drills, or shapes the workpiece, and the workpiece holding device keeps the piece from moving while it is being machined.A computer-aided design (CAD) model is read by the CNC controller, which then turns it into a set of instructions that the machine tool can understand. The machine tool then moves along the path set by the CNC controller and cuts away material from the workpiece based on those instructions. The process is highly automated, which makes it possible to get results that are accurate and consistent..CNC machining machines can work with a wide range of materials, such as metals, plastics, and composites. This makes them flexible and able to meet a variety of manufacturing needs.