RU2208870C2 - Contactor - Google Patents

Abstract

FIELD: devices for frequent switching of electric circuits; electric motor control. SUBSTANCE: contactor has electromagnetic operating mechanism, movable and fixed contacts connected to terminal leads, and also spring-loaded armature disposed in immediate proximity of electromagnetic operating mechanism core; its mobility is enhanced by introducing vacuum chamber and damping member with alignment strap. Vacuum chamber is designed to accommodate movable and fixed contracts and damping member incorporating alignment strap connecting movable contact to spring-loaded armature functions to damp forces during connection of movable contact to fixed one. EFFECT: enhanced reliability. 1 cl, 1 dwg

Description

 The invention relates to electrical engineering and can be used to create equipment for frequent switching of power electrical circuits, in particular when controlling electric motors.

 A device is known that contains a metal base, fixed and movable bridge contacts, a contact spring, a closed arcing chamber, a traverse, an armature, a coil and a magnetic circuit of an electromagnet, shock-absorbing springs, a thermal relay that disconnects a spring and a short-circuited coil on a magnetic circuit [1].

 The disadvantage of this device is the relatively narrow functionality that does not allow it to be used for multiple switching currents.

 Closest to the proposed is a contactor containing an electromagnetic drive with a coil and a core mounted on the base yoke, a contact block including movable and fixed contacts located in the chamber, an armature spring-loaded at one end and located in close proximity to the core of the electromagnetic drive, contact conclusions and an insulating unit, and the movable contact is mounted on an anchor connected to the contact output by a flexible contact element, and the armature spring on the main threaded a rod with restrictive elements and an adjusting nut [2].

 The disadvantage of the closest technical solution is the relatively low reliability of the device in conditions of the need for a high frequency of switching currents, since there are no damping elements, and, moreover, it does not provide means to protect the working surfaces of the contacts from damage caused by the occurrence of discharges.

 The technical result of the invention is to increase reliability.

 The technical result is achieved in that the contactor comprising an electromagnetic drive with a coil and a core mounted on the base yoke, a contact block including movable and fixed contacts, an armature spring-loaded at one end and located in close proximity to the core of the electromagnetic drive, contact leads and an insulating assembly, the movable contact being mounted on an anchor connected to the contact terminal by a flexible contact element, and the armature spring on the main threaded rod with restrictive elements and an adjusting nut, it is equipped with a vacuum chamber, damping and mounting elements, the latter being made in the form of a strap with a hole connected at one end to an anchor and mounted to rotate in the frontal plane relative to an axis located on its other end, while the hole in the bar it is designed to accommodate an additional threaded rod introduced into the contactor with restrictive elements and an adjusting nut, the damping element is made with possible awn compound with a base at one end and the other - the upper part of the additional threaded rod, moreover, the anchor is formed with a projection intended to interact with the armature spring, and the vacuum chamber is designed to accommodate the movable and stationary contacts.

 The drawing shows a longitudinal section of the contactor.

 The contactor comprises an electromagnetic drive 1 with a coil 2 and a core 3 fixed on the yoke 4 of the base 5. The contact block 6 includes a vacuum chamber 7 and a fixed contact 8 and a movable contact 9 mounted on the base 10 located thereon. Anchor 11 is located in close proximity to the core 3 and is made with the release 12 in contact with the return spring 13 mounted on the threaded rod 14, which is fixed on the base 5 by the nut 15. There is also a restrictive element 16 in the form of a flange and an adjusting nut 17. Contact Pins 18 and 19 are connected to pins 8 and 9, moreover, to connect the movable pin 9 to pin 19, a flexible contact element 20 is used. The damping element 21 is fixed at one end to the base 10 and the other to the strap 22, for which the technological holes 23, in which a threaded rod with a head 24 and an adjusting nut 25 is placed. The bar is mounted on the horizontal axis 26 and connected to the armature 11 at the other end. The device has an insulating unit 27, terminals 28, 29 and connecting elements 30 and 31.

 The contactor operates as follows.

 When a control signal is applied to coil 2, the armature 11 is attracted by the core 2, which leads to the closure of the movable contact 9 with the fixed contact 8. As a result, the conductive circuit is closed between the first terminal 18 and the second terminal 19, which are connected to an external power bus (not shown ) When the signal is disconnected from the coil 2, the attractive force of the armature 11 disappears and the tensile force of the return spring 13 returns the device to its original state when the stationary contact 8 is not in contact with the movable contact 9.

 Moreover, since the action of the rod 24 on the movable contact 9 is made on the damping element 21, and with the help of the lower adjusting nut 24 it is possible to control the damping effect, the reliability of the entire device is increased. In addition, to increase the reliability of the device leads to the use to adjust the action of the return spring 13 of the lower 15 and upper 17 nuts.

 The use of a vacuum chamber 7 also leads to increased reliability. Using a vacuum eliminates the appearance of discharges and reduces the destruction of the contact surfaces of contacts 8 and 9.

Sources of information
1. Electrical reference book / Under the general. ed. V.V. Gerasimova et al., Vol. 2, 8th edition. - M .: publishing house MPEI, 1995, p. 354, Fig. 34.5.

 2. SU 1181005, class H 01 H 51/06, 1985.

Claims (1)

 A contactor comprising an electromagnetic drive with a coil and a core mounted on the base yoke, a contact block including movable and fixed contacts, an armature spring-loaded at one end and located in close proximity to the core of the electromagnetic drive, contact leads and an insulating assembly, the movable contact being installed on the base connected to the contact view by a flexible contact element, and the anchor spring on the main threaded rod with restrictive elements and an adjusting nut characterized in that it is equipped with a vacuum chamber, damping and mounting elements, the latter being made in the form of a strap with a hole connected at one end to an anchor and mounted to rotate in the frontal plane relative to an axis located on its other end, the hole being the bar is designed to accommodate an additional threaded rod introduced into the contactor with restrictive elements and an adjusting nut, the damping element is made with the possibility of connection at one end with the base and the other with the upper part of the additional threaded rod, in addition, the anchor is made with a protrusion designed to interact with the spring of the armature, and the vacuum chamber is designed to accommodate movable and fixed contacts.