CZ298548B6 - Electroinsulating cover of moving contact carrier of electric appliance, particularly of power circuit breaker - Google Patents

Abstract

The present invention relates to an electroinsulating cover (1) of moving contact (3) carrier (2) of an electric appliance, particularly of power circuit breaker with a quenching chamber (5) comprising front sliding and fixing parts (6) arranged on the moving contact (3) carrier (2) and reaching up to the moving contact (3) within the quenching chamber (5) gap (4), and screening parts (7) arranged in front of the quenching chamber (5) gap (4) wherein the sliding and fixing parts (6) are provided with a longitudinal groove (8) with internal skew arresting projection (9) for putting thereof onto bottom ridge (10) and backward cut (11) on the moving contact (3) carrier (2), wherein at least one wall of the longitudinal groove (8) above run-out thereof at the moving contact (3) is provided with an opening (12) for connecting with a fixing side projection (13) performed on the moving contact (3) carrier (2) side. The electroinsulating cover (1) screening part (7) is formed by a collar (14) for external covering of the quenching chamber (5) gap (4).

Description

Technical field

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrical insulating cover for a movable contact carrier of an electrical apparatus, particularly in a circuit breaker and other switchgear equipped with an arc chute.

BACKGROUND OF THE INVENTION

In electrical devices, especially in circuit breakers, switch-disconnectors, etc., when short-circuit current is switched off, the electric arc, which is ionized gas - plasma, containing positive and negative ions, develops intensively. The arc is characterized by high current density, high temperature and a large amount of radiation in a wide spectrum. The effect of the electric arc severely disrupts the contact material, which is melted and sprayed. Because of the large temperature drop on the contacts at the same time, they can be destroyed, cracked, etc. In order to minimize contact disruption, a rapid transition of the electric arc to the tanning sheet must be achieved and then dynamically stretched onto the arc quenching sheet. One of the decisive factors for extinguishing the electric arc is its intensive cooling by the arc quenching plates of the arc chamber and also by the pressure conditions prevailing in the arc chamber.

The second, no less important element is the speed of movement of the mobile contact carrier. Paradoxically, the speed of contact separation and reaching distant positions is, however, paradoxically limited by the phenomenon when the electric arc, when short-circuited, travels from the movable contact on its own movable contact carrier back to the fixed contact so that the distance between the movable and fixed contact for the arc does not increase the degree of opening of the movable contact and the arc is not effectively drawn between the cooling sheets of the arc chute. To counteract this phenomenon, various electrically nonconductive covers are mounted on the movable contact carrier.

From the constructional point of view, a cover is known in the field of insulating the movable contact carriers, but which does not pass through the slot in the arc chute to form a spacer bush there but only remains in positions in front of the arc chute itself. The well-known electrical insulating cover is fastened to the movable contact carrier by means of a screw, rivet-type connecting element, without further simple assembly, without reliable locking and electrical resistance.

This implies the need to minimize the effect of the electric arc on the contacts and to achieve the extinguishing of the electric arc as soon as possible, which the previously known structures do not provide.

SUMMARY OF THE INVENTION

The object is to provide an electrical insulating cover for the movable contact carrier, in which the rate of its deflection alone will not be limited by the phenomenon when the electric arc travels from the movable contact on its own movable contact carrier back to the fixed contact. The object of the present invention is to provide an electrical insulating cover for the movable contact carrier of the electrical apparatus, which is arranged on the movable contact carrier, into the arc chute slot, and reaches the movable contact. engaging the front sliding and fastening portions and upstream of the arc chute slot.

-1 CZ 298548 B6

This arrangement and the main effect of the invention is that upon short-circuiting and subsequently diverting the movable contact, the possibility that the resulting arc can slide down on the electroconductive carrier of the movable contact back to the fixed contact and thus eliminate relatively electrodynamically increasing the beneficial distance between diverted contacts was effectively and preferably drawn onto the tanning sheet and further between the cooling sheets of the arc chute. As a result of the arrangement, the electric arc, due to the insulation of the plastic cover of the movable contact carrier, is effectively pulled into the arc chute where it extinguishes.

For reliable, tight and economical mounting of the electrical insulating cover to the movable contact carrier, it appears advantageous according to the invention that the front sliding and fastening part of the electrical insulating cover is provided with a longitudinal groove with an internal oblique locking projection. wherein at least one of the walls of the longitudinal groove is provided with an aperture above the protrusion thereof at the movable contact for connection to the fixation side outlet formed on the side of the movable contact carrier. The electrical insulating cover by said front sliding and fastening portion forms a respective spacer and sliding sleeve in the arc chute slot for the movable contact carrier against eventual seizure of the movable contact carrier in the arc chute slot.

In order to suppress the other negative effects of the arc, in particular against splashing of fused contact material upon arcing after short-circuiting into the interior of the mechanism of the electrical apparatus, it is advantageous according to the invention that the electrical insulating cover of the movable contact carrier is provided with a shielding part of the cover. overlap of the arc chute slot.

It is advantageous according to the invention that the construction and the shape of the electrical insulation cover make it possible to form it in the form of a thermoplastic molding.

Overview of the drawings

Further advantages and effects of the invention are apparent from the drawing, where:

Fig. 1 is an exploded perspective view of the electrical insulating cover and movable contact carrier; Fig. 2 is an exploded perspective view of the electrical insulating cover and movable contact carrier; and Fig. 3 is an angled view of the arc chute and movable contact carrier engaging; Fig. 4 is an oblique view of the arc chute assembly and the movable contact carrier with the electrical sheath when the electrical apparatus is turned off, showing the shielding of the arc chute slot with the collar of the shielding portion of the electrical sheath.

DETAILED DESCRIPTION OF THE INVENTION

The electrical insulating cover 1 (FIG. 1) of the movable contact carrier 3 of the electric apparatus consists of a movable contact carrier 3 arranged in the slot 4 of the arc chute 5 (FIG. 3) up to the movable contact 3 engaging the front sliding and fastening parts 6. and therefrom, in front of slot 4 of the arc chute 5 of the adjoining screen portion 7.

The front sliding and fastening portion 6 of the electrical insulating cover 1 is provided with a longitudinal groove 8 with an internal oblique detent protrusion 9 for mounting them on the lower back 10 and a return lug 11 on the movable contact carrier 2. At least one of the walls of the longitudinal groove 8

The sliding opening of the movable contact 3 is provided with an opening 12 for connection to the fixation side outlet 13 formed on the side of the movable contact carrier 3. The electrical insulation cover 1 by said front sliding and fastening portion 6 forms a respective spacer and sliding insert in the slot 4. the arc chutes 5 for the movable contact carrier 2.

In order to suppress the other negative effects of the electric arc, in particular against the penetration of molten material from the fixed contact (not shown) and the movable contact 3 upon arcing after short-circuiting into the electric device mechanism. which is formed by a collar 14 for at least the lower outer overlap of the slot 4 of the arc chute 5 seen in FIG. 4.

The construction and shape of the electrical insulating cover 1 allows it to be formed in the form of a thermoset molding.

The electrical insulating cover 1 is mounted on the carrier 2 of the movable contact 3 by first being hinged by an internal oblique locking projection 9 in the longitudinal groove 8 behind the return lug 11 in the carrier 2 of the movable contact 3. Then the electrical insulating cover 1 is further tilted to the lower back 10 of the carrier 2 3 until the fixing side projection 13 on the side of the carrier 2 of the mobile contact 3 pushes the associated wall of the longitudinal groove 8 and then penetrates into the opening 12 in this wall of the longitudinal groove 8 the fixing side projection 13 penetrates. As a result, the electrical insulating cover 1 is tightly fastened to the carrier 2 of the movable contact 3 without the need for any other connecting element.

Claims (4)

PATENT CLAIMS An electrical insulating cover for a movable contact carrier of an electrical apparatus, in particular a circuit breaker with a quenching chamber, characterized in that it consists of a movable contact carrier (2) arranged in the slot (4) of the quenching chamber (5) up to reach to the movable contact (3) engaging the front sliding and fastening portions (6) and therefrom, in front of the arc chute (4) of the arc chute (5) of the adjacent screening portion (7). The electrical insulating cover of a movable contact carrier according to claim 1, characterized in that its front sliding and fastening part (6) is provided with a longitudinal groove (8) with an internal oblique locking projection (9) for their mounting on the lower back (10) and a return lug (11) on the carrier (2) of the movable contact (3), wherein at least one of the walls of the longitudinal groove (8) is provided with an opening (12) above its runout at the movable contact (3) formed on the side of the movable contact carrier (2). The electrical insulating cover of the movable contact carrier according to claim 1, characterized in that the screening part (7) of the electrical insulating cover (1) is formed by a collar (14) for overlapping the slot (4) of the arc chute (5). The electrical insulating cover of the movable contact carrier according to claim 1, characterized in that it is formed by a thermoplastic molding.