capabilities and features of various multi-axis CNC milling machines from GUNGUN's blog



Multi-axis cnc milling machines today have a diverse range of features and cnc parts, which increases their value and capability. Additionally, the axes are primarily responsible for maintaining precision in the shaping of the feed. So, let's look into and compare the capabilities and features of various multi-axis sheet metal fabrication machines.

CNC Machines with three axes of rotation
3-axis CNC machines were developed as a result of rotating filing. The X-axis is located on top of the lathe table, the Y-axis is located against the front of the table, and the Z-axis is marked by the mandrel that falls from the top of the table. It's ideal for basic tasks that don't necessitate a great deal of detail or depth. In essence, it is one of the most widely used methods for fabricating mechanical parts for use in automated systems. Furthermore, you can use it for a variety of tasks such as cutting rough edges, milling slots, drilling and tapping holes.

4-Axis Computer Numerical Control Machines
The 4-axis CNC operates in a similar manner to its 3-axis counterpart. The feed is in a fixed position, and the cutting tool operates on it by removing excess material and molding the desired part. That additional axis movement is present in the form of rotation alongside the X-axis and forms the fourth axis (A-axis) when viewed horizontally. In any case, the cutting can also take place along the B-axis (vertically). However, because horizontal machining is considered to be more productive than vertical machining, the A-axis is the more commonly used. This cnc milling services technique is used to cut holes, carve cutouts, or cut along a curve, particularly on the edges or around a cylinder.

CNC Machines with Five Axes
It has a higher level of capability than 3- and 4-axis milling machines, and it is an accurate, fast-working micromachining power station. The X, Y, and Z axes are reminiscent of a 3-axis machine design in this context. The board is then rotated along the A-axis, just as it would be with a 4-axis machine.

5-axis machines enable the operator to simultaneously strike five different sides of a part (and sometimes even more depending on the complexity of the design). As a result, the tool is extremely capable of creating parts and products that are extremely accurate. As a result, it should come as no surprise that it finds widespread application in medical devices, architecture, research and development, the automotive industry, and the military sector.

CNC Machines with seven axes
The 7-axis sheet metal fabrication machines have the ability to produce parts that are slender, long, and extremely detailed. The seven axes included are the common top-down, back-front, and right-left axes, followed by axes accentuated by the rotation of the part, spinning of the tool, rotation of the extruder head, as well as additional movements for clamping, reclamping, and removing the part. This high level of movement results in higher precision in the final product, which eliminates the need for a post-fabrication procedure.

CNC Machines with 9 axes of movement
As a result, it can turn and mill the part in different planes in a single setup, resulting in extremely high precision. The elimination of manual loading and secondary fixtures is the most significant advantage of nine-axis CNC machining. The 9-axis CNC machines are extremely capable, to the point where they can complete a complete and finished product in a single operation.

CNC Machines with 12 axes of movement
So, if we previously stated that a 9-axis CNC machine is the complete package, then the 12-axis CNC machine is an absolute monster. The 12-axis CNC machine is equipped with two heads that enable movement in addition to the X, Y, Z, A, B, and C axes. As a result, that configuration doubles the efficiency and precision while also cutting the manufacturing process in half at the same time.

It provides services to a variety of manufacturing-concentrated sectors while maintaining accuracy, standardization, and product quality. Machines improve with each iteration as they gain more axes of movement. As a result, despite the fact that they represent a significant investment, they provide long-term service in return.




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By GUNGUN
Added Oct 11

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