Abstract
With the improvement of modern industry, the fluid control technology has gained wide application, and the developed countries of the world and the application, it has become a national industrial level one of the important marks. Electromagnetic valve as servo system is one of the core control components, which will directly affect the whole control system, and even the performance. The development of modern industrial technology of electromagnetic valve control precision and response speed were put forward higher request, the internal structure of electromagnetic valve improved design is a kind of effective solution.
In every link of the electromagnetic valve, electromagnetic machinery converter is one of the most lag response, the response time can usually the electromagnetic valve response time of 70% ~ 80% in the electromagnetic valve, plays a vital role. This valve electric machinery at home and abroad research foundation of the converter, design a kind of electromagnetic valve electric machinery converter – disc electromagnets.
Firstly, through the electromagnet coil theory to understand the design of electromagnet; then the basis of known parameters, calculate the disc magnet size and select the various parts of the structure, high-speed disc magnet to draw the various parts map and the structure diagram.This article is divided into four chapters: Chapter Ⅰ Introduction, Mainly about the development of an overview of the electromagnetic valve, electrical - mechanical converter application and research status, disc magnet research, background and significance of research topics,Chapter Ⅱ Solenoid Electromagnet theoretical analysi, Calculated on the basis of magnetic field were described, Solenoid Electromagnet,Chapter III disc design of the electromagnet, Mainly about the design and calculation of disc magnet, disc magnet structure,Chapter IV Conclusions
Keywords: disc electromagnet; Electrical machinery converter; Solenoid Electromagnet