Die forging machine can be regarded as a kind of basic equipment widely used in the manufacturing industry, and it plays an irreplaceable important role in the development of society. With the development of technology, the equipment of die forging machine has changed in many aspects such as driving mode, control system and structure function. Of course, there are still some shortcomings.
In view of such problems, we need to further optimize the system design of the die forging machine. By comparison, the forging products obtained by using the equipment not only have good quality, but also have light weight. More importantly, the cost can also be significantly reduced. Therefore, the equipment is more and more widely used in the production work, and the proportion in the industry is also more and more large.
So, when doing the optimization design, do you know what the main aspects should be considered? In the current situation analysis, we can mainly start from two aspects: First, optimize the design form the overall structure of the die forging machine equipment. Secondly, the structure and size of the key components which constitute the equipment are optimized, so as to improve the overall performance of the equipment.
In view of such requirements, at present in the work of the structural optimization of the die forging machine, different softwares and technology can be used. At the same time, we can use the systematic analysis calculation to further guide the optimization design. Therefore, in order to improve the comprehensive mechanical properties, we can design several different machine beds, and then carry on the finite element analysis, according to the analysis results, the best machine bed design is optimized.
After such analysis and calculation, it not only can obviously improve the dynamic and static performance of the die forging machine, improve the vibration resistance, but also can improve the overall stability of the die forging machine, and can also save a part of materials.