磁粉离合器

  • 网络Magnetic particle clutch;ZXF-C;CD-ZKC;FLK;CD-ZKB
磁粉离合器磁粉离合器
  1. 提出了一种微型客车功率分流式自动变速器的技术方案,变速器由V带式无级变速单元与二自由度行星齿轮机构的组合以及磁粉离合器、电控单元等构成。

    The scheme of power split automatic transmission for mini-car is presented , composed of V-belt continuously variable unit and two freedom planetary gear train , magnetic powder clutch ( MPC ) and electronic control unit , etc.

  2. 磁粉离合器(MPC)和磁粉制动器(MPB)是性能优异的自动控制和自动调节元件。

    The magnetic powder clutch ( MPC ) and brake ( MPB ) are high qulity elements for automatic controlling and regulating .

  3. 动力由电机提供,活塞的驱动由滚珠螺旋机构来执行,活塞的换向由两个磁粉离合器和PLC来控制。

    The power is provided by the electrical motor , the piston actuation carries out by the ball bearing spiral mechanism , the piston direction alternation is controlled by two magnetic powder clutches , the entire control system is completed by PLC .

  4. 以磁粉离合器为执行件的张力控制系统

    The Tension System with Magnetic Particle Clutch as the Executive Element

  5. 汽车起步磁粉离合器模糊控制研究

    Research on Fuzzy Control of Electromagnetic Clutch for Vehicle Staring

  6. 磁粉离合器设计计算中的几个问题

    Some problems of design and calculation for magnetic particle clutch

  7. 磁粉离合器的故障及其防止原粉和B.t。

    The Accidents of Magnetic Powder Clutch and their Prevention formulation , B.t.

  8. 新型磁粉离合器无级调速电机

    New Type Stepless Speed Regulation Motor with Magnetic Particle Clutch

  9. 非稳态工况下磁粉离合器的温度场计算

    The Calculation Method of MPC 's Temperature Field at Unstable State Performance

  10. 采用热管技术的磁粉离合器散热新方式

    A new radiating way of magnetic particle clutch adopting heat pipe techniques

  11. 磁粉离合器调速原理及其参数分析

    Analysis of speed control principle of magnetic particle clutches and its parameters

  12. 磁粉离合器在小汽车差速系统中的应用

    Application of Magnetic Particle Clutch in the Auto Difference Rotational Speed System

  13. 可控元件&磁粉离合器的性能与应用

    Property and application of the controlled magnetic particle clutches

  14. 磁粉离合器在齿轮试验台中的应用

    A study on the application of magnetic powder clutch in the gear tester

  15. 车辆起步过程中的磁粉离合器模糊控制技术研究

    Research on Fuzzy Control Technology Applied to Magnetic Powder Clutch during Vehicle Starting

  16. 磁粉离合器对传动系统性能的改善

    The Improvement of Magnetic Powder Clutch and the Properties of the Transmission System

  17. 汽车起步时磁粉离合器的控制过程是较特殊的非线性问题。

    The controlling process of electromagnetic clutch is a non-linear problem during vehicle starting .

  18. 磁粉离合器在高精度传动试验台中的应用

    Application of the magnetic particle clutch in the high accuracy belt drive laboratory bench

  19. 磁粉离合器磁粉特性及其相关参数的关系

    The Magnetic Property of Powder in Clutch and The Relationship Between Their Relative Parameters

  20. 磁粉离合器温度场的计算方法

    Calculation method of mpc 's temperature field

  21. 磁粉离合器(制动器)是电磁离合器的一个重要分支。

    Magnetic particle clutch ( brake ) has become an important branch of electromagnetic clutch .

  22. 通过磁粉离合器起步模糊控制系统仿真较好地解决了车辆起步过程中磁粉离合器的接合问题。

    The fuzzy control system simulation does well with magnetic powder clutch connection during vehicle starting .

  23. 采用模糊控制的方法来控制汽车在起步过程中磁粉离合器的励磁电流变化。

    Therefore , fuzzy control technology is applied to control the current change of electromagnetic clutch .

  24. 汽车车轮制动力机电模拟系统以车轮制动力特性模拟为目标,是一开环磁粉离合器传递力矩控制系统。

    System to simulate vehicle wheel braking force is a open loop force delivering control system .

  25. 本文介绍了磁粉离合器伺服机构的构成、特点以及设计和应用中的关键问题。

    This paper introduces the constitution . character and the key problems in its design and application .

  26. 交流电机与行星磁粉离合器组合调速方案研究

    Research on speed governing scheme for the combination of alternating current motor and planetary magnetic particle clutch

  27. 对磁粉离合器的工作机理进行了深入的分析,并进行了相应的磁路计算;

    The working mechanism of magnetic particle clutch is deeply analysed and the corresponding magnetism circuit is calculated ;

  28. 用有限差分的方法分析了磁粉离合器在各种不同工况下的温度场分布,并设计了相应的计算程序。

    Magnetic particle clutches distribution of temperature field at every different work condition was analyzed by finite difference method .

  29. 利用磁粉离合器恒力矩,无级加载的特性,对带传动试验台进行改造。

    By magnetism particle clutch constant moment and characteristic of stepless loading , the drive laboratory bench has been reconstructed .

  30. 作者利用磁粉离合器和制动器的特性,开发了一种全数字式的张力控制系统。

    Uiing the character of magnetic powder clutch and breaker , author have developed a full digital tensile control system .