SU1723596A1 - Vacuum generator switch - Google Patents

Abstract

Use: for switching high currents. SUMMARY OF THE INVENTION: The moving contacts of the vacuum interrupter chamber are connected to actuators controlled by a pneumatic distributor, which is made in the form of an insulating tube with two metal tips with openings in which plungers with annular grooves and through openings are mounted, interconnected by an insulating t goy. 1 hp f-ly, 1 ill.

Description

The invention relates to electrical engineering, in particular to high-current vacuum generator switches.

Known vacuum generator switch with two arcing chambers per pole, common drive and a transfer mechanism that transmits drive force to the moving contacts of both chambers.

The disadvantages of this switch are the complexity of the design and the need to adjust the transfer mechanism after performing a certain number of switching operations.

Closest to the proposed technical entity is a vacuum generator switch containing a vacuum arcing chamber with two moving contacts, each of which is equipped with a driving device with a piston.

However, using a known hydraulic actuator switch requires additional insulating trays (mechanisms) for transmitting commands to a high potential, which complicates the design and, therefore, reduces the reliability of the switches.

The purpose of the invention is to increase the reliability of the switch by reducing the difference in the response times of the moving contacts of the vacuum interrupter chamber. ry (VDK) ....

The goal is achieved by the fact that a vacuum generator switch containing a VDK with two movable contacts mounted on rods, each of which is connected to a driving device with a piston, and the main contacts connected to the drive, is equipped with a pleural distributor, made in the form of

VI N5 CO SL U O

an insulating pipe with two metal lugs with plungers installed in them, mounted on an insulating tube, and a pneumatic cylinder with a plunger; one of the plungers of the insulating tube is mounted on an additionally introduced return spring and is rigidly connected to the plunger of the pneumatic cylinder additionally introduced by a pull-through through one of the specified pipe tips, and the insulating pipe tips are each made with two through holes connected to the opposite cavities of the corresponding drive The device, and each plunger of the insulating tube is made with a through hole, which in the extreme positions of the plunger in turn communicates with said through holes of the respective tip.

Each plunger of an insulating tube can be made with at least one annular groove, and each tip of the insulating tube can be made with an additional through-hole connected to the atmosphere, and the plunger groove in one of the plunger positions connects one of the through holes the nozzle holes connected to the cavities of the drive unit with the specified additional atmospheric through hole.

The drawing shows the proposed vacuum generator switch, General view.

Vacuum generator switch contains two fixed current-carrying cylinder 1 and 2, located on the same axis. The gap between the contacts is closed by the main movable contact 3 driven by the actuator 4. Parallel to the current-carrying cylinders 1 and 2 are connected VDC 5 with two movable contacts 6 and 7. The current-carrying cylinders 1 and 2 are electrically connected to the movable contacts 6 and 7 VDC 5 by flexible connections 8 and 9. The movable contacts 6 and 7 are connected respectively to the actuators 10 and 11, which are controlled from the distributor 12. The distributor 12 is made in the form of an insulating tube 13 with two tips 14 and 15, each of which is installed along a plunger (16 and 17). The plungers 16 and 17 are interconnected by an insulating rod 18, and each of them is provided with a hole 19 (20) for supplying compressed air from the internal cavity of the pipe 13 through the holes 21 (22) or 23 (24) in the distributor tips to the actuators 10 and 11. The distributor 12 is equipped with a pneumatic cylinder 25

with the plunger 26, which is rigidly connected to the plunger 17 by means of the rod 27. In the housing of the pneumatic cylinder 25 there are two holes 28 and 29, and the hole 28 serves

for supplying compressed air to the pneumatic cylinder 25, and opening 29 for supplying compressed air from the pneumatic cylinder 25 to the actuator 11 and through the insulating tube 30 to the actuator 10. The distributor 12 is provided with

a return spring 31 mounted between the plunger 17 and the body of the tip 15. Th ha 27 of the distributor 12 is equipped with a lever 32 connected to the stop 33 and rigidly connected to the movable contact 3.

To increase the speed of VDK actuators in the plungers 16 and 17, annular grooves 34 and 35 are made, and in each tip (14 and 15) - through an additional hole (36 and 37), which can be opened by moving the distributor system 12. One of the holes connects the annular groove with the atmosphere, and the other one of the cavities of the pneumatic actuator with

annular groove. Due to this, there is an acceleration of the evacuation of compressed air from the cavities, which increases the speed of the switch.

The switch works as follows.

In the initial position, the contact 3 is in the extreme right position, the current-carrying cylinders 1 and 2 are open. Under the action of actuators 10 and 11 contacts VDK

5 open. Upon a command to turn on, the compressed air enters the actuator 4 and the movable contact 3 begins to move from right to left. After the contact 3 is moved for a given distance, the stop 33 releases the lever 32. Under the action of the spring 31, the movable valve system 12 (elements 16, 17, 18,26 and 27) starts to move from right to left and the plunger 26 opens the holes 28 and 29. Compressed air

through the pneumatic drive 25 enters the actuators 11 and 10. First, the main contacts 3 are closed, and then the contacts VDK 5, thus providing the contact pressure necessary for normal operation of VDK.

In the on position, the main contacts 3 and the VDC 5 contacts are closed, the movable system of the distributor 12 is in the extreme left position.

When a shutdown command is received, the compressed air simultaneously enters the drive of the main contacts 4 and into the pipe 13, from which compressed air is fed into the actuators 10 and 11 through the openings 19, 23 and 20, providing additional contact pressure required to flow through the VDC 5 nominal shutdown current before the start of the opening of the main contacts.

When the main contact 3 opens, the current to be switched goes to the circuit of elements 1, 8, 6, 5, 7, 9, 2. When the contact 3 moves from left to right, the stop 33 moves the lever 32 and the moving distributor system 12. When the main contacts move for a given distance through The holes 19 and 20 in the plungers stop the supply of compressed air to the holes 23 and 24 (additional contact pressure on the VDC 5 contacts is removed) and compressed air through the holes 19, 20 and 21, 22 begins to flow into the shut-off cavities of the actuators 10 and 11. At the same time the cavities to ensure complement A contact pin through openings 23 and 24, annular grooves 34 and 35, and openings 36 and 37 are connected to the atmosphere, allowing quick evacuation of air from these cavities. At the same time, the plunger 26 shuts off the compressed air supply to the actuators 10 and 11 (the main contact pressure is removed). Contacts VDK 5 is opened, the arc goes out.

The use of the proposed vacuum generator switch allows to obtain a low actuating time difference, which, in turn, leads to an even distribution of voltage between arc breaks, and consequently, to an increase in reliability of the switch as a whole.

Claims (2)

Claims 1. Vacuum generator switch containing a vacuum arc extinguishing chamber with two moving contacts mounted on rods, each of which is connected to a driving a device with a piston, and main contacts connected to a drive, characterized in that, in order to increase reliability by reducing the varying response times of the moving contacts of the vacuum arcing chamber, it is equipped with a pneumatic distributor, made in the form of an insulating tube with two metal tips with installed in them plungers, mounted on an insulating tube, and . pneumatic cylinder with plunger, one of the plungers of the insulating tube is mounted on the additionally introduced return 5 spring and rigidly connected to the plunger pneumatic cylinder additionally entered insulating cable passing through one of the specified pipe tips,  the tips of the insulating tube 0 are each made with two through holes connected to the opposite cavities of the corresponding drive device, and each insulating pipe plunger is made with through 5, which in each of the extreme positions of the plunger communicates with the corresponding of said through holes of the corresponding tip. 2. The switch according to claim 1, characterized in that each plunger of the insulating tube is made with at least one annular groove, and each tip of the insulating tube is made with an additional through hole connected to the atmosphere, and the plunger groove in one of the the extreme positions of the plunger interconnects one of the said through holes of the tip connected to the cavities of the driving 0 device, and the specified additional atmospheric through hole.