The core function of Double-Tilting Permanent Magnetic Suction Cup is its dual-tilt design. This design allows the suction cup to be angled in both the X-axis and Y-axis directions, providing greater flexibility during processing. The main advantage of this design is that it can adjust the angle of the workpiece in two directions at the same time, which is suitable for complex workpiece shapes and multi-angle processing requirements.
X-axis and Y-axis angle adjustment
Double-Tilting Permanent Magnetic Suction Cups achieve angle adjustment in the X-axis and Y-axis directions through independent adjustment mechanisms. Adjustment in each direction can be completed with the corresponding adjustment knob or bolt. Specifically, the angle adjustment in the X-axis direction allows the suction cup to be tilted in the horizontal direction, while the angle adjustment in the Y-axis direction allows it to be tilted in the vertical direction. In this way, the operator can adjust the workpiece to the processing angle, thereby improving processing accuracy and efficiency.
Implementation mechanism of bidirectional angle adjustment
In the design of Double-Tilting Permanent Magnetic Suction Cups, the angle adjustment of the X-axis and Y-axis is achieved through a precise mechanical structure. Usually, these suction cups are equipped with angle adjustment mechanisms, such as bevel gears, adjustment screws, etc. The operator can make fine adjustments through these adjustment mechanisms to ensure that the tilt angle of the workpiece in both directions meets the requirements. During adjustment, the two-direction angle of the suction cup can be set independently, thus achieving a high degree of flexibility.
High-precision angle control
Double-Tilting Permanent Magnetic Suction Cups have extremely high angle control accuracy. Its parallelism accuracy reaches 0.005mm, which is crucial for precision machining. Through the high-precision angle adjustment mechanism, the operator can ensure that each angle adjustment of the workpiece is within the error range of the micron level. Such precision control not only improves the machining quality of the workpiece, but also reduces the rework or scrap caused by angle errors.
Importance of parallelism
Parallelism refers to the error between two parallel surfaces. In Double-Tilting Permanent Magnetic Suction Cups, the parallelism reaches 0.005mm, which means that even under extremely precise machining conditions, the clamping and positioning of the workpiece can maintain extremely high stability and consistency. Such high parallelism can effectively reduce errors in the machining process and improve the quality of the final product.