SU1119092A1 - High-voltage vacuum circuit breaker - Google Patents

Abstract

HIGH-VOLTAGE VACUUM. A SWITCH containing an even number of consecutively connected vacuum arcing chambers placed in a horizontal grounded casing, outside of which there is an actuator controlling the moving contacts of the chambers by means of a drive mechanism connected with a pull to the output element of the drive, characterized in that the chambers are grouped into two electrically interconnected sets, each of which contains half the number of chambers, the switch is equipped with an additional By the inserted drive mechanism, both mechanisms are fixed in its end parts, and the output element of the drive is made in the form of a two-arm lever symmetrical with respect to the drive shaft, each drive mechanism being connected to the moving contacts of the chambers of the same set on one side, on the other hand, to one of the shoulders of the two shoulders.

Description

The invention relates to electrical engineering, specifically to high-voltage, high-voltage vacuum switches. A vacuum switch is known that contains several successively connected vacuum arc extinguishing chambers (VDC) installed in a grounded horizontal Koptiyce filled with an insulating medium. A control mechanism that transfers motion from the switch actuator to the movable contacts of the chambers is located inside the housing in its middle part G1. The design of such a switch allows placing any required number of VDCs in the housing, however, with an increase in the number of chambers, the size, switch and lengths of control r, which carry out the kinematic connection of the drive with the movable contacts of the chambers, increase significantly. The tensile forces acting on the glands during the operation of the switch cause an increase in the length of the g g, which is the greater, the longer the g. When lengthening the pull, the adjustment is disturbed, changes from the contact stroke, so the cameras operate non-simultaneously and individual cameras experience loads, which reduces their mechanical and switching life and reliability of operation. In addition, with the increase in the number of chambers, the installation and adjustment of the VDK inside the housing becomes more difficult, and to perform these operations, as well as to replace the VDC during operation, a significant increase in the transverse dimensions of the switch body is required. The closest in technical essence and the achieved result of the invention is a high-voltage vacuum switch containing an even number of series-connected vacuum arc extinguishing chambers placed in a horizontal body behind the earth, outside of which there is an actuator controlling the moving contacts of the chambers by means of a drive mechanism connected with drives with the output element of the drive 2. Arcing chambers with a supporting frame can be removed through the end of the tank as a single node, after which TC adjustment or replacement of cameras. 922 Such a design, compared with the previous one, has reduced dimensions and, in addition, allows for easier installation and adjustment of cameras. However, with an increase in the number of cameras, the VDK kit is difficult to remove from the case, as the weight of the kit increases, and it is necessary to provide for the implementation of an additional special device to ensure the stability of the kit. In addition, the main control gear is still of considerable length and therefore does not provide synchronous operation of the camera contacts. The purpose of the invention is to increase the reliability of the switch by providing simultaneous operation of all the cameras, simplifying assembly and revision. The goal is achieved by the fact that in a high-voltage vacuum switch containing an even number of series-connected vacuum arcing chambers, placed in a horizontal grounded housing, outside of which a drive is installed, controls the moving contacts of the chambers through a drive mechanism connected to the output element of the drive , chambers sg1) are packaged into two electrically interconnected sets, each of which contains half the number of cameras, a sleep switch It is additionally introduced by a drive mechanism, both mechanisms being fixed in its end parts and the output element of the drive is made in the form of a two-arm lever symmetrical with respect to the drive shaft, with each drive mechanism being connected to the movable contacts of the chambers of one set on one side, and on the other hand, to one of the shoulders of the two shoulders. Since the mechanisms are installed in the end parts of the body, the control pulls transmitting the movement from the drive to the moving contacts of the chambers are twice as short, and the tensile forces acting on the cables are half as much as when installing one mechanism. Therefore, the elongation of the cable will also be half as much, and the effect of the change in the length of the cable on the magnitude of the contact travel will be reduced, thus ensuring simultaneous switching on and off of the contacts of all cameras. The camera kits are mounted on insulating supports equipped with rolling elements, such as rollers, which make it easy to put the cameras inside the housing during assembly and revision of the switch or to pull them out. This design allows the assembly of the kit, installation and adjustment of chambers and mechanisms to be simplified and simplified, and also replacing the cameras during operation due to the fact that all these operations are carried out before installing the kit in the case, thus reducing the size and: YOU switch. The drawing shows the switch, a longitudinal section. The switch contains six series-connected vacuum fire chambers assembled three in two sets 1 and 2. which are mounted on insulating supports 3 in a common metal grounded housing 4. Two identical drive mechanisms 5 are installed in the front parts of the housing 4 and each By means of the insulation, the grids 6 are connected with the movable contacts of the chambers of the sets I and 2, respectively, with the aid of the bars of the grids 7 with the respective arms of the double-arm lever 8 mounted on the drive shaft 9. The insulating supports 3 are provided with rollers 10. A set of chambers 1 is electrically connected With a set of chambers 2 by means of a detachable contact of the 1st type II socket, which makes it possible to compensate for possible deviations of 1 to 24 dimensions along the axis of the housing and providing a rigid connection of the sets to each other. Extreme chambers are connected to high-voltage inputs 12. The switch operates as follows. The command to turn on (or turn off) is applied to a drive (not shown), and the shaft 9 is rotated with a fixed symmetrical one. a double arm lever 8- mounted on the shaft 9 in such a way that when it rotates, the rods 7 connected to the lever 8 move in the opposite direction and transmit the movement to the drive mechanisms 5, which move the moving camera contacts to enable (or disable). During installation and revision of the switch, the insertion and withdrawal of the sets of chambers 1 and 2 from the housing 4 is carried out using rollers 10 mounted on insulating supports 3. Applying the invention to high-voltage vacuum switches containing several vacuum arcs. the effect of extension insulating tg on the motion of moving contacts and, thereby, reducing the number of times of switching on and off of all cameras, which increases the reliability of the switch. In addition, the use of this design allows to simplify the installation and adjustment of the switch, its revision and replacement of vacuum chambers during operation.

Claims (1)

HIGH VOLTAGE VACUUM. A SWITCH containing an even number of series-connected vacuum interrupter chambers placed in a horizontal grounded housing, the drive is installed outside of it, controlling the movable contacts of the chambers by means of a drive mechanism connected by traction to the output element of the drive, characterized in that the chambers are grouped to increase reliability in two sets electrically interconnected, each of which contains half the number of chambers, the circuit breaker is equipped with a drive mechanism, both mechanisms being fixed in its end parts, and the drive output element made in the form of a two-shouldered lever symmetrical with respect to the drive shaft, with each drive mechanism being connected via rods on one side to the moving contacts of the cameras of one set, on the other to one of the shoulders of the two shoulders of the lever. SII, 1119092