Flexible loading and placement device and working method for laser flexible loading and forming disc-shaped parts

Abstract

The invention discloses a flexible loading placement device for forming a dish-shaped part through laser flexible loading and a working method thereof. The flexible loading placement device for forming the dish-shaped part through laser flexible loading comprises a pulse laser generating system, a dish-shaped part forming system, a pressure clamp system, a flexible mold placement switching system and a dish-shaped part control system. Pulse lasers and flexible films serve as loading loads, and the requirement for the coaxiality of the high-precision dish-shaped part is met through a high-precision dish-shaped part multi-process forming mold. The dish-shaped part multi-process forming mold is assembled in a dish-shaped part multi-process forming mold mounting groove so that the dish-shaped part multi-process forming mold can be taken out, forming waste can be effectively removed, the problem that the mold is blocked by the forming waste after multiple times of machining is solved, and the service life of the mold is prolonged. The flexible loading process is automatic through the flexible mold placement switching system and the pressure clamp system, and thus the dish-shaped part manufacturing efficiency is improved.

Description

technical field [0001] The invention relates to the field of advanced mechanical manufacturing of micro-parts, in particular to the field of laser flexible loading and forming of micro-parts, in particular to a flexible loading and placing device for laser flexible loading and forming of disc-shaped parts and a working method thereof. Background technique [0002] In recent years, with the development of industrial technology, the miniaturization of products has become an important trend in the development of industrial manufacturing. The manufacture of related micro-parts has become more and more important, and the corresponding micro-forming technology has also been developed. Micro-blanking and micro-drawing, as new shaping processes, have attracted more and more attention from researchers. However, the current research on microforming is limited to simple parts and only involves a single process, and less research is done on complex parts involving multiple processes. ...

AI Technical Summary

Problems solved by technology

The disadvantages of this method are: it involves multiple clamping, clamping and positioning errors, poor precision, long processing time, and low production efficiency. It is only suitable for small batches of parts that do not require high processing accuracy.

Although this processing method reduces the error caused by clamping during processing, the alignment between the punch and the die is more complicated and it is not easy to ensure the accuracy

In addition, the structure of the mold is more complicated, prolonging the manufacturing cycle and increasing the manufacturing cost, so this processing method also has many inconveniences and problems

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