RU2020625C1 - Arc control chamber - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: arc control chamber has housing 1 made of insulating material, deion grid consisting of cross insulating partitions with deion strips 3 with inclined projections being fitted in slots between partitions. Upper part of strip projections has radius lip and lower part, radius recess. Housing has cavities corresponding to radius lips to receive lips of strip projections. EFFECT: enhanced reliability. 3 dwg

Description

 The invention relates to electrical equipment, in particular to electrical switching devices, and can be used in arcing devices of contactors and starters.

 Known interrupter chamber (ed. St. N 488264, class N 01 N 9/30, 1975), containing a housing, a deion grating, consisting of transverse insulating walls, in the grooves of which are inserted deion plates, the upper part of which is made with figurative oncoming ledges. Installation of these plates is carried out by deploying L-shaped protrusions from the outside of the camera.

 A disadvantage of the known camera is the complexity of the assembly, caused by the difficulty of installing deionic plates, since each plate is fixed separately, and the use of devices for simultaneously unfolding the protrusions of the plates in at least one camera window is difficult.

 The closest in technical essence and adopted for the prototype is an arcing chamber used in PMA starters [1] and containing a body of insulating material, a deion grating, deion plates with inclined protrusions.

 When assembling the camera, deion plates are fixed by bending the tabs of the plates in opposite directions.

 The disadvantage of this camera is the complexity of its assembly, associated with the complexity of bending the protrusions of the plates, since it requires a lot of effort to simultaneously bend the protrusions in at least one camera window. Also, when the protrusions of the plates are bent, a chip of the plastic case of the chamber may occur, which will lead to a loose fit of individual plates and their swinging during operation. And the very movement of the plates in the grooves of the case leads to the formation of plastic dust and its getting on the contacts of the device, as a result of which the reliability of contacting and the reliability of the camera as a whole are reduced.

 The aim of the invention is to simplify the assembly and increase the reliability of the camera in operation.

 This is achieved by the fact that in the known arcing chamber containing a housing made of electrical insulating material, a deion grating consisting of transverse insulation baffles, deion plates with inclined protrusions are inserted in the grooves between them, the upper part of the plate protrusions is made with a radius peak, the lower part with a radial recess, and in the housing are made corresponding to the radial visors of the recess in which these visors of the protrusions of the plates are placed.

 The essence of the invention lies in the fact that by performing a radial recess on the protrusions of the plates, the cross section of the protrusion is reduced, which makes it possible to perform bending with less effort and eliminates the possibility of chipping the camera body during the bending of the protrusions of the plates. This simplifies camera assembly technology and increases camera reliability.

 Performing in the upper part of the protrusion of the radius peak and the corresponding recess in the housing, provides a snug fit of the plate to the body, which eliminates the possibility of rocking the plate during operation and increases the reliability of the camera.

Figure 1 presents the proposed arcing chamber, a General view in section; in FIG. 2 - deionic plate; figure 3 - body of the arcing chamber, section;
The arcing chamber contains a housing 1 made of an insulating material, a deion grating, consisting of transverse insulating partitions with grooves 2, deion plates 3 with inclined projections 4.

The upper part of the protrusion 4 of the plate 3 is made with a visor A of radius R, the lower part with a recess B of radius R ₁ . In the housing 1, a recess B is made with a radius R, in which a visor A of the protrusion 4 of the plate 3 is installed.

 Assembly of the arcing chamber using the proposed housing and plates is as follows.

 The plate 3 protrusions 4 is inserted with an interference fit into the groove 2 of the lattice until it stops. Then the inclined protrusions are bent over the inclined surfaces of the grooves, while the radius peaks A of the upper part of the protrusion 4 go into the recesses B of the housing and are securely fixed.

 During the operation of the arcing chamber, the electric arc formed by opening the contacts enters the deionic lattice and, passing through it, is intensively cooled and deionized.

Claims (1)

 ARC CHAMBER, comprising a body made of electrical insulation material, a deion grating, consisting of transverse insulating walls, in the grooves of which are inserted deion plates with inclined protrusions, characterized in that, in order to simplify assembly and increase reliability, the upper part of the protrusions of the plates is made with a radial visor, the lower part with a radial recess, and in the casing are made corresponding to the radial visors of the recess in which these visors of the protrusions of the plates are placed.

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