What are the structural characteristics of the continuous die used in high-speed punching machines?
Compared with single process molds and composite molds, the structure of continuous molds used in punching machines has the following characteristics:
1. The number of components that make up a continuous mold is large and the structure is complex;
2. Mold manufacturing and assembly are difficult, with high precision requirements, precise step control, and convenient blade grinding and maintenance;
3. Strong rigidity;high speed punch press
4. High requirements for mold component materials and heat treatment;high speed punch press
5. Generally, guiding mechanisms should be used, and sometimes auxiliary guiding mechanisms are needed;
6. High degree of automation, with permanent automatic feeding and safety inspection institutions to achieve efficient automated production.high speed punch press
High-speed press is an indispensable and important equipment in modern industrial production.
Its working principle is to drive the flywheel to rotate and store energy through the motor, and then through the control of the clutch and brake, the energy of the flywheel is instantly released to drive the slider to carry out high-speed reciprocating motion to realize stamping processing.
The advantages of high-speed presses are numerous. Firstly, the extremely high stamping speed significantly improves the production efficiency and can complete a large number of stamping tasks in a short period of time. Secondly, the high-precision stamping capacity ensures the quality and consistency of the products, which meets the demand for the production of precision parts. Furthermore, it has a high degree of automation and can cooperate with various automation equipment to realize unmanned or less-manned production and reduce labor costs.
In practical applications, high-speed presses are widely used in electronics, communications, automotive, home appliances and other industries. For example, in the field of electronics, for the manufacture of a variety of micro-connectors and chip pins; in the automotive industry, the production of automotive parts such as radiator pads, door lock parts, and so on.
