RU213016U1 - CURRENT SENSOR OF THE QUICK BREAKER - Google Patents

Abstract

The utility model relates to the field of electrical engineering, in particular to current sensors of high-speed circuit breakers. The technical result is to increase the speed. The current sensor contains a prefabricated insulating housing, a magnetic circuit in which an insulating cylinder is installed, an armature fixed on insulating levers mounted on an axis, and an insulating block with a contact bridge at the other end of the insulating levers. 1 ill.

Description

The utility model relates to the field of electrical engineering, in particular to current sensors of high-speed circuit breakers.

Electromagnetic mechanisms are widely used as sensitive elements that respond to the magnitude of the current. In circuit breakers for general use, electromagnetic releases are used as the main element of protection against short-circuit currents. In high-speed circuit breakers for these purposes, electromagnetic current sensors are used, which are used in a number of designs of high-speed circuit breakers, in particular VAB-49 manufactured by UETM, Yekaterinburg, VB-3 manufactured by Technos, Yekaterinburg, UR6 manufactured by Secheron Switzerland.

The closest in technical essence to the claimed solution is the electromagnetic sensor of the high-speed switch VB-3, described in E.Sh. Muradov, A.A. Gritsuk "High-speed switches of Technos LLC". 4.2", Yekaterinburg: Middle-Ural. book. publishing house, 2009, p. 47-49, installed on the magnetic blast magnetic circuit through an insulating panel, and containing the armature of the electromagnetic current sensor, the axis, the scale of the electromagnetic current sensor, the insulating block, the bearing, the adjusting screw, the spring and the contact system.

The disadvantage of this current sensor is its installation on the magnetic circuit of the magnetic blast, which makes it impossible to install it on high-speed switches of other types, large dimensions and mass of the armature of the current sensor leads to a decrease in the speed of the electromagnetic sensor, excessive depth, complexity and insufficient accuracy of setting current adjustment, excessive complexity design and large dimensions of the contact system, which reduces the reliability of the contact system and the electromagnetic sensor as a whole.

The technical task of the utility model is to increase the speed of the current sensor while maintaining its functionality.

The stated technical problem is solved in a current sensor containing a magnetic circuit, an armature installed through insulating levers on the axis, a prefabricated insulating housing, a spring, an adjusting screw, an insulating block, a contact bridge and two fixed contacts.

The drawing shows a functional diagram of the current sensor. The device contains a magnetic circuit 1, an armature 2 fixed through insulating levers 3 on the axis 4, all elements of the current sensor are installed in a prefabricated insulating housing 5, which includes an insulating cylinder 13. change with the adjusting screw 7. The force of the spring 6 through the insulating block 8 is transmitted to the contact bridge 9, which closes the fixed contacts 10. The length of the spring 6 is adjusted by the interaction of the adjusting screw 7, through the stand 11 and the insulating sleeve 12, to the spring 6.

The principle of operation of the current sensor is as follows: a conductor with the current of the main circuit of the switch is passed through the hole in the insulating cylinder 13. The current of the secondary circuits of the circuit breaker flows through two fixed contacts 10, closed by a contact bridge 9. When the set current is reached, the armature 2 begins to move under the action of electromagnetic forces, rotating on the insulating levers 3 around the axis 4 in the direction of the magnetic circuit 1. Rigidly fixed on the insulating levers 3 the insulating block 8, with the contact bridge 9 fixed on it, also sets in motion, breaking the electrical connection between the fixed contacts 10 and the contact bridge 9. The secondary circuit of the switch opens.

The current setting of the main circuits of the switch is regulated by changing the length and, accordingly, the force of the spring 6 by rotating the adjusting screw 7, while the rack 11 moves forward, changing the length of the spring 6.

Claims (1)

A high-speed switch current sensor containing an armature, a magnetic circuit, an axis, a spring-loaded insulating block with a contact bridge fixed on it, an adjusting screw, characterized in that the current sensor is assembled in a prefabricated insulating housing, in which a magnetic circuit is installed, in which an insulating cylinder is installed, designed for the current conductor of the main circuit, the armature is fixed on the insulating levers installed in the housing on the axis, at the other end of which the insulating block is rigidly fixed.

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