Optimize the structure of jaw crusher
Use dynamic simulation technology to optimize the structure of jaw crusher
Use computer simulation technology to optimize the structure, cavity, output and wear of the jaw crusher, and develop a new type of jaw that has no plug points, low height, light weight, good product size, and high output with high performance and low energy consumption. This type of crusher greatly improves the performance of the crusher, shortens the product development cycle, and improves the market competitiveness of the product.
However, the domestic research on the simulation optimization design of jaw crusher is mainly limited to the optimization design of the corresponding program for the specific model of jaw crusher. These programs have poor versatility and can only solve the specific problems in the specific model. However, the optimization content of the crusher is often changed according to the requirements of different customers, so the simulation optimization design work often repeats a large number of and cumbersome programming work, which is time-consuming and laborious, and also prolongs the product development cycle.
Try to use advanced kinematics and dynamics simulation design tools to quickly develop the new type of jaw crusher, to simulate and optimize the design parameters of the mechanism, thereby greatly reducing the workload of simulation design, shortening the product development cycle, and improving Simulation model reuse rate.
This article uses advanced kinematics and dynamics simulation optimization design software ADAMS to simulate and optimize the design of the new compound pendulum jaw crusher. Its main task is to optimize the feed and discharge port horizontal and vertical stroke and stroke characteristic coefficients, thereby Improve the crusher processing capacity, reduce the weight of the crusher, enhance the structural strength of the crusher, and reduce the wear of the crusher lining board, thereby greatly improving the working performance of the crusher.
Jaw crushers are widely used in mining, metallurgy, building materials, highways, railways, water conservancy and chemical industries.
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