1 / 6

建筑电气控制技术

建筑电气控制技术. 三相异步电动机的制动控制电路及其控制规律. 电磁通断抱闸控制电路 图 2-25 2-56. 07 楼宇 陈丹丽 覃泷霏 A+ 08.10.26. 电磁抱闸断电制动控制电路. 断电制动就是当电磁抱闸通电时,闸瓦制动器处于松弛状态,闸轮可以自由转动;断电时闸瓦抱紧闸轮,闸瓦制动器处在制动状态。 通电制动制动正好相反,即断电是处在松弛状态,不工作,通电时工作。 作用:使得电动机快速停转。. 通断抱闸. 断电制动分析.

benedict-levine
Download Presentation

建筑电气控制技术

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. 建筑电气控制技术 三相异步电动机的制动控制电路及其控制规律 电磁通断抱闸控制电路 图2-25 2-56 07楼宇 陈丹丽 覃泷霏 A+ 08.10.26

  2. 电磁抱闸断电制动控制电路 • 断电制动就是当电磁抱闸通电时,闸瓦制动器处于松弛状态,闸轮可以自由转动;断电时闸瓦抱紧闸轮,闸瓦制动器处在制动状态。 • 通电制动制动正好相反,即断电是处在松弛状态,不工作,通电时工作。 • 作用:使得电动机快速停转。

  3. 通断抱闸

  4. 断电制动分析 • 按下SB2,KM线圈得电,KM常开主触头闭合,KM常开触头闭合。电动机与YB同时接通电源,Y电磁抱闸松开,电动机转。当KM断电时,电动机与电磁抱闸同时断电,电磁抱闸在弹簧的作用下,闸轮被闸瓦抱紧。电动机就被速度制动停转。

  5. 断电抱闸

  6. 通电制动分析 • 按下SB2,KM1线圈接通KM1主触头接通,KMI常开也接通,电动机转动。当按下SB1时,KMI断电,电动机脱离电源,KM2通电,电磁抱闸通电动作,使电动机立即制动停转。松开SB1后,电磁抱闸又断电,制动结束。

More Related