RU2041528C1 - Arc-control chamber - Google Patents

Abstract

FIELD: electromechanical engineering. SUBSTANCE: arc-control chamber has insulated plates provided with two slits and installed for mirror reflection; plate slits are unevenly spaced from side edges. Plates 3 have projections 4 on side edges and slot 5 in bottom part of plate; one of slits 6 is built up of two sections parallel to side edge unequally spaced from it and joined by inclined section 8; end of slit is bent out towards bottom projection of side edge and other slit 7 is inclined to axis of plate 3 and its upper end is located within inclined section 8 of slit 6 while bottom end is within bottom projection of opposite side edge; jumper is fitted between slits. EFFECT: improved design. 3 dwg

Description

 The invention relates to electrical equipment and can be used in low-voltage switching devices, in particular in contactors of direct and alternating current.

A known design of an arcing chamber with a large number of insulated plates located at a certain distance from one another, equipped with slots tapering in the direction of arc movement. The plates are made of two types. For one type of plate, a slot is made in the middle, for another type of pair of slots diverging in the direction of movement of the electric arc [1]
A known extinguishing chamber with insulated plates provided with two slots, the plates being installed alternately according to the principle of mirror image and in each plate the slots have an unequal distance from the side faces of the plate. As a result, two parallel zigzag paths of the electric arc arise [2] It was assumed that such a deion lattice design will allow the arc to be divided into two parallel zigzag electric arcs, which will reduce the local heating of the plates and increase the contact surface of the plate with the arcs. However, as practice shows, when two parallel arcs arise, one of them instantly goes out. As a result, only one zigzag electric arc passing through one slot of the plates will stably burn. The speed of the arc in such a grid is slowed down and the burning of the arc stops until it is divided into partial arcs, which leads to local fusion of the plates. In addition, with this arrangement of the slots, the arc that has come down from the contact to the side portions of the plates will move to the side edge and will move along it, bypassing the slots.

 The objective of the invention is to increase the efficiency of arc extinction.

 The problem is solved due to the fact that in the arcing chamber with insulated plates provided with two slots, the plates are mounted alternately according to the mirror image principle and in each plate the slots have an unequal distance from the side faces of the plate, the plates are equipped with protrusions on the side faces and a groove in the lower part plate, and one of the slots consists of two parallel to the side face placed at different distances from it sections connected by an inclined section, while q slits formed bent toward the lower lip on the side edge and the other slot is formed with an inclination to the axis of the plate and its upper end portion disposed in an inclined zone of the other slot, and a lower end located in a zone opposite face of the protrusion, and between the slits has isthmus.

 The novelty of the proposal is a new set of well-known features. The inventive step is confirmed by the fact that the interaction of the features of the new aggregate allows one to obtain a new property, expressed in that, thanks to the proposed design, the arc is first divided into partial arcs, not allowing their reference spots to go to the edges of the plates, and then when partial arcs approach the edges the slots form a single unstable zigzag electric arc, the formation and decay of which will consume the thermal energy of the partial arcs. This will accelerate the decay of the arc.

 In FIG. 1 shows a fragment of the proposed arcing chamber; in FIG. 2 insulating plate; in FIG. 3 is a section along AA in FIG. 1.

 The interrupter chamber consists of a housing 1, inside of which two insulating plates 2 are placed, between which deionic metal plates 3 are installed. The plates 3 are installed according to the principle of mirror image.

 Each plate 3 has protrusions 4 on the side faces that are included in the grooves of the plates 2 and a groove 5 in the lower part of the plate. In the groove 5 place the contacts (not shown). The plate is provided with two slots 6 and 7. The slot 6 consists of two parallel side faces placed at different distances from the sections connected by an inclined section 8. The end of the slot 6 is bent in the direction of the protrusion 4 on the side face, overlapping part of the plate between the groove and the side edge . The slot 7 is made with an inclination to the axis of the plate, and its upper end is placed in the area of the inclined section 8 of the slot 6, and its lower end is located in the region of the protrusion 4 on the opposite side face.

 The device operates as follows. The electric arc that occurs when disconnecting the contacts placed in the groove 5, falls on the plate 3 and moves along them. When approaching the edges of the slots in the lower part of the plate, a single electric arc is formed, moving along the edge of one of the slots 6 to the inclined section 8, and then along the straight upper section. Since, due to the mirror arrangement of the plates, 3 slots are located on different sides from the middle of the plate, a zigzag arc is formed, the maintenance of which additionally consumes thermal energy, which accelerates the decay of the arc.

 When performing this device, the heat-absorbing ability of deion plates increases, arc decay is accelerated, the overall gas-dynamic resistance to the movement of ionized gases is reduced, arc burning at the edge of the gratings is excluded, because the arc is reduced to the edges of the slots. As a result, the quenching efficiency is increased, the ionized exhaust zone is reduced, and repeated ignition of the arc in the contact gap is excluded.

Claims (1)

 ARC CHAMBER with insulated, equipped with two slots plates mounted alternately according to the principle of mirror image, and the slots in the plates have an unequal distance from the side faces, characterized in that the plates are provided with protrusions on the side faces and a groove in the lower part of the plate, one of the slots being composed from two parallel lateral faces located at different distances from it sections connected by an inclined section, while the end of the slot is bent towards the lower ledge on the side Rani, and the other slot is formed inclined relative to the axis of the plate, with the upper end thereof is located in the zone of the inclined portion of the other sipe, the bottom end thereof is disposed in the zone of the lower lip opposite side face, and between the slits has isthmus.

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