The PSC tool interface adopts a triangular pyramid positioning and flange end face synchronous clamping design, which has been incorporated into ISO and national standards. One of its core advantages is high rigidity. Its over-positioning interface technology enables the pyramid cone surface and flange end face to bear force simultaneously, greatly improving bending and torsion resistance, reducing cutting vibration, adapting to high-speed and heavy-load processing scenarios, and extending tool service life. Example 1: In 45# steel turning, the PSC tool interface, with its excellent rigidity, increases tool life by 50% compared with traditional interfaces under the same cutting parameters.
High precision is a prominent advantage of the PSC tool interface. Triangular pyramid positioning can achieve a repeat positioning accuracy of ±0.002mm in the X, Y, and Z directions. There is no need for trial cutting and tool setting every time clamping is performed, realizing offline tool setting and online direct processing, which effectively avoids batch defective products. Example 2: In the processing of aero-engine parts, the high precision of the PSC interface ensures that the part size tolerance is controlled within 0.005mm, meeting high-end manufacturing requirements.
Efficient and convenient tool change is another major advantage. It adopts a claw-type clamping structure, and the tool change time can be shortened to within 1 minute with a torque wrench, significantly improving machine tool utilization and reducing production downtime. Example 3: In the new energy vehicle parts production line, the PSC interface shortens the line change time from 30 minutes to 3 minutes, greatly improving the production rhythm.
In addition, the PSC interface is easy to realize modular combination. It can be flexibly composed of required tools through various extension rods, reducing tool inventory and production costs. It is also compatible with various CNC machine tools and suitable for multi-scenario processing such as turning and milling.
In summary, the PSC tool interface integrates high rigidity, high precision, quick change and modularization, solving the pain points of traditional interfaces such as insufficient rigidity, inaccurate positioning and cumbersome tool change. It is suitable for key fields such as high-end CNC machine tools, aerospace and new energy, and is the preferred interface for improving processing efficiency and product quality.