CS236729B1 - Extinguishing chamber of pressure gas switch - Google Patents

Abstract

The solution concerns the extinguishing chamber of a gas pressure switch, especially for SFg fe gas, it solves the extinguishing of the arc of the flowing gas. The essence of the solution lies in the fact that the compression space between the cover of the movable cylinder and the fixed piston is connected by holes in the cover of the movable cylinder with the inlet space of the insulating tube. This inlet space is connected by radial channels in the hollow cylindrical holder of the thumb contacts with the internal space between the thumb contacts in the recess of the inner shell of the hollow cylindrical holder of the thumb contacts and the second contact. The internal space between the thumb contacts in the recess of the inner shell of the hollow cylindrical holder of the thumb contacts and the second contact is connected by axial channels in the cover of the movable cylinder with the compression space between the cover of the movable cylinder and the fixed piston. The extinguishing chamber is characterized by the attached figure

Description

The present invention relates to a gas pressure switch arc chute, in particular for SFg gas, comprising a rigid tubular contact and a movable fixed piston cylinder having a lid to which an insulating nozzle is fixedly connected. Inside is a hollow cylindrical thumb contact holder with a recess in its inner housing. in which the thumb contacts are stored and inside which there is a second contact. The axes of the first tubular contact, the second contact, and the hollow cylindrical thumb contact holder are identical.

Until now, it has been used to extinguish an arc of flowing gas which has been briefly compressed between the cylinder cover and the piston, from which gas flows through the openings in the cover to the insulating nozzle. The disadvantage of this arrangement is that the contact device located in the inlet part of the insulating nozzle and fixed in the cylinder cover formed an obstacle in the inlet part of the insulating nozzle which inappropriately directed the gas flow outside the desired area and thereby not optimally distributing the pressure field and velocity field. ie also the derivative of the gas pressure in the axis of the insulating nozzle. The reason for this was the inefficient internal space inside the contact system, which was flooded with back-flowing gas heated by an electric arc.

This has been unfavorable when switching off large short-circuit currents in the area of terminal short-circuits and near short-circuits on the line. The heated gas in the contact space was then entrained after the zero passage into the main component of the cold gas stream from the compression space, which reduced the overall stress strength and disrupted the loss of losses from the residual arc column. At the same time, the contacts were excessively heated and the lifetime was shortened by opals. Overall, high breaking capacity and reliability of the switch have not been achieved.

The above mentioned disadvantages are eliminated by the bursting chamber of the gas-pressure switch in particular for SF & gas according to the invention, which is characterized in that of the thumb contacts with the internal space between the thumb contacts in the inner surface of the hollow cylindrical thumb contact holder and the hollow contact.

The inner space between the thumb contacts in the recess of the inner sheet of the hollow cylindrical thumb contact holder and the second contact can be connected by axial channels in the movable cylinder cover to the compression space between the movable cylinder cover and the fixed piston.

The cross-section of the holes may be larger than the total cross-section of the radial channels and the axial channels.

By utilizing the invention, the service life of the thumb contacts as well as the fixed hollow and second contacts is substantially increased. Overall, the tripping steep of the recovered voltage as well as the tripping reliability are increased by utilizing the invention. The breaking capacity is increased by up to 20% and this is not adversely affected by the statistical nature of the dielectric breakdowns due to the entrainment of hot ionized gas into the breaking path.

An example of a practical embodiment of the invention is shown in the accompanying drawing, in which the squeezing chamber of a one-pressure switch with gas SF 4 is shown in the off position.

The burst chamber of the pressure gas switch comprises a fixed pipe contact 6 and a movable cylinder 2 with a fixed piston 6. The movable cylinder 6 is closed by a cover χ. An insulating nozzle 6 is fixedly connected to the movable cylinder 2. Inside the insulating nozzle 6 is a hollow cylindrical contact holder 6 fixedly connected thereto, the inner shell of which is a recess 165e in which the thumb contacts 6 are received. Inside the hollow cylindrical thumb contact holder X there is a second contact 8, the axes of the fixed tubular contact X, the second contact 8 and the cylindrical thumb contact holder 8 are identical. The fixed tube contact X has an outer diameter smaller than the inner diameter of the hollow cylindrical contact holder χ and an inner diameter larger than the outer diameter of the second contact 8. The compression space 12 between the cover X of the movable cylinder 2 and the fixed piston 6 is connected by openings X in the cover X of the movable cylinder 2 with the entrance space of the insulating nozzle 6. The cross section of the apertures 2, 3 ' is greater than the total cross section of the radial ducts 11 and axial ducts 10. The inlet space 13 of the insulating nozzle 6, which emits into the outlet space 15 of the insulating nozzle 6 is interconnected by the space 14 between the thumb contacts 6 in the inner shell recess 16 of the hollow cylindrical contact holder 2 and the second contact 8 /

The inner space 14 between the thumb contacts 8 of the inner shell 16 of the hollow cylindrical holder of the thumb contacts and the second contact 6 is connected by axial channels 10 in the cover J of the movable cylinder 2 with the compression space 12 between the cover J of the movable cylinder 2 with the fixed piston.

In the closed position of the arc chute, the fixed tubular contact 2 is inserted into the hollow cylindrical holder J of the thumb contacts and the thumb contacts 6 abut on the outer surface of the fixed tubular contact 2. The movable cylinder 2 with the cover J moves against the fixed piston J. the compressed gas flows through the openings j) of the inlet chamber 13 of the insulating nozzle 4, then through the insulating nozzle 4 to the outlet chamber 15 of the insulating nozzle 10. The arc is stabilized by the gas flowing through the radial channels 11 and the axial channels 10 into the cavity of the second contact 8.

The hot ionized gas is also expelled by the cold gas flowing from the interior 14 between the thumb contacts 6, at the recess 16 of the inner casing of the hollow thumb contact holder 11 and the second contact 6. In the interaction interval, the stabilized arc column is cooled by a first main cold gas stream from the apertures 2 as well as a second gas stream from the axial channels 10 and radial channels 11. This second stream is co-current with the first main gas stream and is mainly focused on the portion of the arc from the second contact, 8 and damping, extending the effective cooled arc length by the portion of the second contact 8 which is hollow and increasing the loss of arc loss.

Claims (3)

SUBJECT OF THE INVENTION A quenching chamber of a gas-pressure switch, in particular for SF ' gas comprising a fixed pipe contact, a movable cylinder with a fixed piston having a lid to which an insulating nozzle is fixedly connected, inside which is a hollow cylindrical thumb contact holder; wherein the axial contacts of the tubular contact, the second contact, and the hollow cylindrical thumb contact holder are identical, characterized in that the compression space (12) between the wolf (3) of the movable cylinder (2) and the fixed the piston (1) is connected by openings (9) in the cover (3) of the movable cylinder (2) to the inlet space (13) of the insulating nozzle (4) interconnected by radial channels (11) in the hollow cylindrical thumb contact holder (5) 14) between the thumb contacts (6) in the recess (16) of the inner casing of the hollow cylindrical contact holder (5) and the type m contact (8). Extinguishing chamber of a gas-pressure switch, in particular for SF 4 gas according to claim 1, characterized in that the inner space (14) between the thumb contacts (6) in the inner casing recess (16) of the hollow cylindrical contact holder (5) and the second contact (8) communicates via axial channels (10) in the cover (3) of the movable cylinder (2) with the compression space (12) between the cover (3) of the movable cylinder (2) and the fixed piston (1). An arc chute of a pressure gas switch, in particular for SFg gas according to Claims 1 and 2, characterized in that the cross-section of the openings (9) in the cover (3) is larger than the total cross-section of the radial channels (11) and axial channels (10).