RU88842U1 - CONTACT SYSTEM OF THE CIRCUIT BREAKER - Google Patents

Abstract

A contact system of a circuit breaker comprising a fixed contact with an arcing horn, a movable contact rigidly fixed in a contact carrier mounted to rotate about an axis, a contact pressing spring and a traction, characterized in that a L-shaped groove is made on the movable contact so that the cross section the movable contact is divided along the current-carrying system (along the direction of electric current) into two parts A and B, and the condition A> B is always satisfied, and the groove itself is made at a distance With respect to the movable contact contacting the fixed plane.

Description

The utility model relates to electrical engineering, namely, to circuit breakers of direct and alternating current, and can be used in the design of circuit breakers with an arcing contact.

Contact switch systems are known from the following sources:

1. Patent for invention RU No. 2273912, 2004;

2. Patent for invention RU No. 2316842, 2006;

3. Patent for utility model RU No. 63116, 2006;

4. Patent for invention RU No. 2017249, 1992

5. Golubev A.I. High-speed circuit breakers. M. - L., publishing house "Energy", 1964 p. 156-157;

6. Reference for the adjustment of electrical equipment of industrial enterprises. Ed. M.G. Zimenkova, G.V. Rosenberg, E.M. Feskova. - 3rd ed., Revised. and add. - M .: Energoatomizdat, 1983, p. 236-239, Fig. 6-43.

The closest analogue can be a contact system of a circuit breaker according to a third source (Utility Model Patent RU No. 63116, 2006). The contact system of this switch contains movable and fixed contacts, a rod connecting the armature to the movable contact, a contact pressing spring disconnecting the spring and the earring, one end of which is connected to the said rod and the other to the base of the switch.

When the switch is turned on under the influence of traction, the contact together with the earring rotates around the hinge until it stops in a fixed contact. Then the movable contact slides over the surface of the fixed contact by moving the lever around the hinge and thereby ensures the grinding of the contacts. The spring provides the necessary contact pressure.

The circuit breaker trips when the current in the holding coil drops. The anchor cannot be held in the pulled position and, under the action of a breaking spring transmitting force to the traction, rotates, falling away from the magnetic circuit. In this case, the movable contact makes a complex movement. At the same time, both springs act on the movable contact. Under the action of the efforts of the springs, the movable contact rotates in a hinge towards the disconnected position.

The disadvantage of this design of the contact system is that with an increase in the current passing through the closed contacts, the voltage drop across their transition resistance increases. The increase in voltage drop in the contact is due to an increase in both the current and the transition resistance of the contact due to a significant increase in the temperature of the contact zone. Upon reaching the heating pad to the value of the melting temperature of the metal of the contacts, welding of the contacts may occur, and the switch will not disconnect the short circuit. Therefore, the equipment protected by the circuit breaker and the circuit breaker itself under the influence of emergency current will be ignited, which is extremely unacceptable.

The utility model is aimed at creating a contact system that increases the reliability of the circuit breaker.

The technical result, which is created by the utility model, is to ensure guaranteed opening of the contacts when they are welded.

This is achieved by the fact that the L-shaped groove is made on the movable contact so that the cross-section of the movable contact is divided along the current-carrying system (along the direction of electric current) into two parts A and B, and the condition A> B is always satisfied, and the groove itself is satisfied at a distance C relative to the plane of contact of the movable contact with the stationary.

With this embodiment, the movable contact at the time of the emergency current flow, creating the welding of the contacts, under the influence of heating and spring forces, the movable contact along section B breaks. This ensures guaranteed contact opening.

The utility model is illustrated by an example. The figures schematically depict a contact system, where in Fig.1 the contact system is shown in the open position; figure 2 is the same in the closed position; figure 3 is the same in the open position when welding the contacts; figure 4 - shows a movable switch.

The contact system of the circuit breaker contains a fixed contact 1 with an arcing horn 2, a movable contact 3, rigidly fixed in a contact holder 4 mounted for rotation about an axis 5, a contact pressing spring 6 and a rod 7. A movable groove is made on the movable contact 3 in this way that its cross section is divided along the current-carrying system (along the direction of electric current) into two parts A and B, and the condition A> B is always satisfied, and the L-shaped groove itself is made at a distance C relative to the plane contact between movable contact 3 and fixed 1.

Contact system circuit breaker operates as follows.

When the contacts are closed, a corresponding voltage is applied to the control coil (not shown in the figures). The anchor of the electromagnet is attracted to the magnetic circuit (not shown in the figures). The movement of the armature is transmitted to the rod 7. The movable contact 3 is closed with a fixed contact 1 with the necessary contact pressing by means of a spring 6 (figure 2).

At the moment of occurrence of a short circuit current in the protected network, leading to welding of contacts 1 and 3, the current in the control coil breaks. The movable contact 3 cannot break away from the fixed contact 1 due to the welding of their contacting surfaces. When a large current flows for a long time, the conductive part B of the movable contact 3 heats up and under the action of the forces of the spring 6, the movable contact 3 begins to move toward the disconnected position, while stretching and reducing the cross section of the movable contact portion B. 3. There comes a moment when the movable contact 3 breaks through the portion B (figure 3). This ensures guaranteed disconnection of the protected network with the possible welding of contacts.

So, due to the execution of the L-shaped groove on the movable contact, the reliability of the circuit breaker is increased.

Claims (1)

A contact system of a circuit breaker comprising a fixed contact with an arcing horn, a movable contact rigidly fixed in a contact carrier mounted to rotate about an axis, a contact pressing spring and a traction, characterized in that a L-shaped groove is made on the movable contact so that the cross section the movable contact is divided along the current-carrying system (along the direction of electric current) into two parts A and B, and the condition A> B is always satisfied, and the groove itself is made at a distance With respect to the movable contact contacting the fixed plane.