RU2224326C2 - Automatic switch - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: proposed automatic switch incorporates body with cover, free release mechanism with rack, contact system with arc chutes, thermal and electromagnetic maximum current release devices in each pole. Thermal release device is divided into two electrically parallel parts. Electromagnetic maximum current release device includes current conductor coming in the form of flat bus on which magnetic circuit and post with armature, spring and adjustment screw are anchored. EFFECT: increased current-carrying capacity without enlargement of overall dimensions. 2 dwg

Description

 The invention relates to electrical engineering, in particular to circuit breakers.

 Known circuit breakers containing a housing with a lid, a free trip mechanism with a rail, a contact system with arcing chambers, thermal and electromagnetic overcurrent releases in each pole (RF patent 2095875).

 The disadvantage of such circuit breakers is that with an increase in the currents of the maximum breaking capacity and the rated operating maximum breaking capacity flowing through the circuit breaker, it is necessary to increase the overall dimensions of the arcing chambers with a contact system and, as a result, the overall dimensions of the circuit breakers.

 The basis of the invention is the task of creating a circuit breaker in which due to a constructive change in the contact system with interrupter chambers, it is possible to increase the currents of the maximum rated breaking capacity, the rated working maximum breaking capacity flowing through the circuit breaker without increasing the overall dimensions of the arcing chambers with a contact system of automatic circuit breaker.

 The problem is solved in that the circuit breaker (Fig. 1) contains a housing 1 with a cover 2, a free trip mechanism 3 with a rail 4, a contact system 5 with arc chambers 6, thermal 7 and electromagnetic 8 overcurrent releases in each pole, except Moreover, the thermal release is electrically connected to the electromagnetic one, and the electromagnetic one is electrically connected to the moving contact of the contact system by a flexible conductor, the thermal release is divided into two electrically parallel parts according to and acquiring, the disclosure of which is explained in Figure 2. Shore 1 of the arc-resistant material is located inside the arcing chamber 2 of each pole, and the contact stand 3 of the contact system in each pole is located inside the shores. The steel plate 4 is riveted with a contact stand 3, and is located end-to-end with the contact part 5 from the side of the arcing chamber.

 At the moment of opening the contact system when flowing through the circuit breaker of the maximum allowable switching currents between the contact parts of the contact system 5 (Fig.1), an electric arc occurs. Shore 1 (Fig. 2) is located in such a way that the electric arc does not fall on the side walls of the arcing chamber 2 (Fig. 2), but is driven to the arcing chamber of the chamber through a steel plate 4 riveted to the contact column 3 (Fig. 2) (Fig. 2) 2). The electric arc, being drawn into the arcing chamber 2 (Fig. 2), its main share falls on the steel plate 4 (Fig. 2), that is, in the region with high electrical resistance, which contributes to a more intensive arcing process and increase the arcing ability.

 This design of the arcing chambers and the contact system of the circuit breaker allows, without increasing the overall installation and connecting dimensions of the circuit breaker, to pass through it increased maximum permissible switching currents, which reduces the material consumption and the complexity of circuit breakers.

Claims (1)

A circuit breaker comprising a housing with a cover, a free trip mechanism with a rail, a contact system with arcing chambers, thermal and electromagnetic overcurrent releases in each pole, in addition, the thermal release is electrically connected to the electromagnetic, and the electromagnetic release is flexible with the moving contact of the contact system a current path, characterized in that the current path of the electromagnetic overcurrent release is made in the form of a flat bus made of non-magnetic material and olozhen inside magnetic circuit configured in the form of U-shaped staples of a soft magnetic material, which are fastened to the conductive core and the column with the armature, the spring and adjusting screw.

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