SU974451A1 - Automatic switch - Google Patents

Description

(54) AUTOMATIC SWITCH

The invention relates to electrical equipment, in particular to automatic switches with maximum current release.

Circuit breakers are known, which contain a contact system, a free trip mechanism, and a maximum current release made in the form of an electromagnet.

The electromagnetic overcurrent release has a long tripping time.

The closest to the invention to the technical essence is a circuit breaker containing movable and fixed contacts, a free trip mechanism and a maximum current release, made in the form of a movable node having at least one closed closed-loop element located at the conductor and acting upon movement of the free uncoupling 21.

The main disadvantage of this design is that in switches for large nominal currents, such a structure has considerable dimensions, since the coil with

: current around the magnetic circuit has a large cross section.

The purpose of the invention is to simplify the design of the maximum current release and reduce the tripping time of the circuit breaker when a short circuit current occurs.

ten

The goal is achieved by the fact that in a circuit breaker containing movable and fixed contacts, a free disconnect mechanism and a maximum dissolver, a current detector made in the form of a movable node having at least one short-circuited element located near the conductor and acting upon the mechanism

20 free tripping, horizontal symmetry of the short-circuited element is shifted relative to the conductor - so that one of its sections is removed from the conductor more,

25 than the rest.

The conductor in the circuit breaker can be split into parallel branches, and short-circuited. The elements are located in parallel

Claims (2)

30 branches. The short-circuited elements can be located on both sides of the COTCOPLES ha of fig. 1-3, the possible variants of the arrangement of short-circuited elements relative to the conductor are shown. Figure 1 shows the maximum current release of the circuit breaker consisting of a short-circuited element 1 in the form of one short-circuited turn located on one side of the conductor 2. so that one of its sections 3 is removed | FROM the conductor 2 is larger than the others, and A short-circuited element is designed to act when moving around an axis 4 on the free-unlocking mechanism 5. FIG. 2 shows the maximum current release consisting of a movable short-circuited element in the form of one short-circuited ka located in the gap between the parallel branches of the split conductor 2 so that its section 3 is more distant from the split conductor 2 than the rest, and the short-circuited element is capable of acting on the movement of around the axis 4 on the free release mechanism 5, FIG. , 3 shows the maximum current release consisting of a movable short-circuited element in the form of two short-circuited turns located along the sides of the wire 2 so that their Sections 3 are removed from the conductor 2 more than the rest In addition, the short-circuited element is adapted to act upon movement around the axis 4 on the free-release mechanism 5. When a short circuit current occurs, the magnitude of the electromagnetic field generated around the conductor 2 by this current increases. This field penetrates the short-circuited element 1 and excites an electric current in it, which is directed so that the electromagnetic field created by it prevents the electromagnetic field from changing the current of the conductor 2, the electric current is directly proportional to the rate of change of the electromagnetic field 4a. in the conductor 2. Current. the short-circuited element 1 enters the electrodynamic effect with the current of the conductor 2 and the section closest to the conductor is repelled from it, and the distant one is drawn away from it. The short-circuited element 1 moves around the axis 4, acting on the mechanism of free tripping in the direction of the disconnection of the switch. The developed circuit breaker, using the proposed maximum current release, is intended to replace the Electron series circuit breakers. The proposed execution of the switch allows a significant increase in the sensitivity of the release and, therefore, shorten the short circuit current, which, moreover, does not reach the maximum value. This increases the breaking capacity of the circuit breaker. Claim 1, Circuit-breaker containing movable and fixed contacts, free trip mechanism and maximum current release, made in the form of a movable node, having at least one short-circuited element located near the conductor and acting upon the free trip mechanism , which, in order to simplify the construction and reduce the opening time, the horizontal axis of symmetry of the short-circuited element is shifted relative to the current lead so that one of its sections is more distant from the current conductor than the others. 2. The switch according to any one of claims 1 to 1, characterized in that the conductors are split into parallel branches, and the short-circuited elements are located between parallel branches, .3. A switch according to claim 1, characterized in that the short-circuited elements are located on both sides of the conductor. Sources of information taken into account in the examination 1. R.S. Kuznetsov, Apparatuses for the distribution of electrical energy for voltage up to 1000V, M., Energie, 1970, p. 316-320. I 2. USSR author's certificate 580598, class, H 01 H 73/36, 1975 (prototype), v / y //// free release mechanism ue.t Mechanism sbobodnoi bloom