RU65294U1 - CIRCUIT BREAKER - Google Patents

Abstract

The circuit breaker contains a housing with a cover and electromagnetic overcurrent releases. The free trip mechanism has a handle and staples with persistent protrusions. The brackets are mounted on a common traverse. The contact system contains fixed contacts in the form of a loop and movable contacts with contact pressing springs. Contact pressing springs are fixed on the axles. Movable contacts are mounted on the axis of rotation, which passes through the staples of the free trip mechanism. The interrupter system has cameras that are installed in the housing and secured by a cover. The cameras contain side walls of insulating material. Between the walls are installed and rigidly connected to them metal plates forming a deionic lattice. On the handle side, the deion grating is bounded by a curved metal plate. A curved metal plate is also rigidly connected to the walls. The end of the plate on the side of the free trip mechanism has a limb towards the movable contact. The bent end of the plate acts as an abutment for the movable contact when the free trip mechanism is activated. This ensures that a breaking moment occurs and the movable contact returns to its original position. The technical result is an increase in the reliability of the circuit breaker. 4 ill.

Description

The utility model relates to electrical engineering, in particular to low-voltage circuit breakers.

A circuit breaker is known which is the closest in terms of essential features to the claimed one, containing a housing with a cover, electromagnetic overcurrent releases and at least one free trip mechanism containing a handle and staples having a persistent protrusion and mounted on a common crosshead. The contact system of the switch contains fixed contacts in the form of a loop and movable contacts mounted for rotation on an axis passing through the brackets of the free trip mechanism. The movable contacts also have axes for fixing contact pressing springs. The extinguishing system is made in the form of cameras installed in the housing and fixed by a cover. The chambers have side walls of electrical insulating material, between which there are metal plates rigidly connected to the walls and forming a deionic lattice. The grate is bounded on the handle side by a curved metal plate, also rigidly connected to the walls (RU 53814, 05.27.2006).

We make a well-known decision for the prototype.

The disadvantages of the known device include the fact that when the mechanism of free tripping under the action of the limiting short-circuit currents, there is no return of the moving contacts to their original position. This makes it impossible to restart the circuit breaker (lack of an electrical circuit).

The task to which the claimed utility model is directed is to create a design that can guarantee

the return of the movable contacts to their original position when the free trip mechanism is activated after exposure to extreme short-circuit currents, which will ensure reliable operation of the circuit breaker.

To solve this problem, an automatic switch containing a housing with a cover, electromagnetic overcurrent releases, and at least one free trip mechanism with a handle and brackets with a persistent protrusion and mounted on a common traverse were used. The contact system of the switch contains fixed contacts in the form of a loop and movable contacts mounted for rotation on an axis passing through the brackets of the free trip mechanism. The movable contacts have contact pressing springs fixed on the axles. The interrupter system is made in the form of chambers with side walls of electrical insulation material, between which metal plates forming a deionic lattice are mounted and rigidly connected to them. The grate is bounded on the handle side by a curved metal plate, also rigidly connected to the walls of the chamber.

What is new is that the end of the curved metal plate, facing the free trip mechanism, is bent toward the movable contact. The bent end of the plate acts as an abutment for the movable contact when the free trip mechanism is activated.

The essence of the utility model is as follows. When the limiting short-circuit currents are disconnected, the free trip mechanism is activated. Moving under the action of the free tripping mechanism, the movable contact abuts against the bent end of a rigidly fixed curved metal plate, which ensures a free

tripping the occurrence of a breaking moment and the return of the movable contact to its original position.

The proposed design allows to obtain a technical result - to increase the reliability of the circuit breaker by returning the movable contacts to their original position when the free trip mechanism is triggered.

Figure 1 shows a circuit breaker in the on position (contacts closed), section;

Figure 2 - circuit breaker at the time of electrodynamic rejection of contacts;

Figure 3 - circuit breaker at the time of emphasis of the movable contact in the bent end of a metal curved plate of the arcing chamber;

Figure 4 - circuit breaker in its original position.

The automatic switch contains a housing 1 with a cover 2 having internal protrusions 3 and electromagnetic releases 4 of the maximum current (figure 1).

The free trip mechanism 5 has a handle 6 and brackets 7 with a persistent protrusion 8. The brackets 7 are mounted on a common traverse 9 having an axis of rotation 10.

The contact system of the switch consists of fixed contacts 11 in the form of a loop for providing electrodynamic rejection and movable contacts 12 mounted for rotation on the axis 13 passing through the brackets 7 of the free-release mechanism 5. The movable contacts 12 are equipped with contact pressing springs 14 fixed on the axes 15 The arcing system is made in the form of arcing chambers, each consisting of two walls 16 of insulating material, between which there are metal plates 17 forming eionnuyu bars. On the handle side 6, the deion grating is bounded by a curved metal plate

18. Metal plates 17 and 18 are rigidly connected to the walls 16 of the chambers.

The end of the plate 18, facing the free trip mechanism 5, is bent 19 towards the movable contact 12. The length of the bent end 19 of the plate 18 is selected so as to provide an emphasis on the movable contact 12 when the free trip mechanism is triggered after exposure to extreme short-circuit currents. The inner protrusions 3 of the cover 2 rest on the walls 16 of the arcing chambers, ensuring the fixation of the arcing chambers.

Fixation of the arcing chambers and plate 18 is a prerequisite for the bent end 19 of the plate 18 to perform a stop function.

The circuit breaker operates as follows.

When disconnecting the limiting short-circuit currents (Fig. 2), electrodynamic rejection and a turn on the axis 13 of the movable contact 12 to the stop of the axis 15 into the protrusion 8 of the bracket 7 with its holding in this position by the spring 14.

Further, under the action of the electromagnetic release 4 of the maximum current, the mechanism of free trip 5 is triggered (Fig. 3). Traverse 9 is rotated clockwise with brackets 7 fixed on it. At a certain moment, the movable contact 12 abuts against the bent end 19 of the plate 18. The traverse 9 continues to unfold, while the axis of rotation 13 of the movable contact 12 intersects the longitudinal axis of the spring 14 and a breaking moment occurs , ensuring the return of the movable contact 12 to its original position.

The return of the movable contact 12 and its rotation around the axis 13 occurs until it touches the axis of rotation 10 of the yoke 9 (Fig. 4). After the movable contact 12 is returned to its original position, the circuit breaker is ready for a repeated cock-turn cycle.

Claims (1)

A circuit breaker comprising a housing with a cover, electromagnetic overcurrent releases, at least one free trip mechanism with a handle and brackets with a thrust protrusion and mounted on a common traverse, a contact system consisting of fixed contacts in the form of a loop and movable contacts with fixed on the axes contact pressing springs and mounted with the possibility of rotation on another axis passing through the staples of the free trip mechanism, an extinguishing system in the form of chambers, new in the case, fixed by a cover and containing side walls of electrical insulating material, between which metal plates are formed and rigidly connected to them, forming a deionic lattice bounded on the handle side by a curved metal plate, also rigidly connected to the chamber walls, characterized in that the end of said the plate facing the free trip mechanism has a limb towards the movable contact, and the bent end of the plate serves as a stop for the movable ontact when the free trip mechanism is triggered.