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русскийThe requirements for mold design and production are: accurate size, smooth surface; reasonable structure, high production efficiency, easy automation; easy manufacturing, long life, low cost; design meets process needs, and is economical and reasonable.
Factors such as rigidity, orientation, unloading mechanism, positioning method, and gap size must be considered in mold structure design and parameter selection. The wearing parts on the mold should be easy to replace. For plastic molds and die-casting molds, it is also necessary to consider a reasonable gating system, molten plastic or metal flow state, and the position and direction of entering the cavity.
Precision automotive parts injection moulds
In order to improve productivity and reduce casting loss of runners, multi-cavity molds can be used to simultaneously complete multiple identical or different products in one mold. High-efficiency, high-precision, and long-life molds should be used in mass production.
Precision automotive parts injection moulds
In order to improve productivity and reduce casting loss of runners, multi-cavity molds can be used to simultaneously complete multiple identical or different products in one mold. High-efficiency, high-precision, and long-life molds should be used in mass production.
The stamping die should adopt a multi-station progressive die, and a progressive die with a carbide insert can be used to increase the service life. In small batch production and trial production of new products, simple molds with simple structure, fast manufacturing and low cost should be used, such as combination dies, sheet dies, polyurethane rubber dies, low melting point alloy dies, zinc alloy dies, superplastic alloy dies, etc. Molds have begun to use computer-aided design (CAD), that is, to optimize the design of molds through a computer-centric system. This is the development direction of mold design.
