RU76162U1 - AUTOMATIC FAST SWITCH - Google Patents

Abstract

The utility model relates to electrical engineering, in particular to protective switching equipment, and can be used to protect against overloads and short circuits of electrical installations and direct and alternating current lines. The automatic high-speed switch contains movable and fixed contacts, holding an electromagnet with a magnetic circuit and an armature, disconnecting a spring, including an electromagnet. The difference is that the magnetic circuit of the holding electromagnet is at the same time an anchor for the switching electromagnet. Thanks to this, a more reliable and simpler in design switch was created. 1 p. F-ly, 3 fig. heck.

Description

The utility model relates to electrical engineering, in particular to protective switching equipment, and can be used to protect against overloads and short circuits of electrical installations and direct and alternating current lines.

High-speed automatic switches that are held in the on position due to magnetic flux in the working gap of the armature created by the current of the holding coil, and which trip when the specified magnetic flux decreases, are known, for example, from the book: A. Golubev High-speed circuit breakers, M.-L., Energia Publishing House, 1964, pp. 42-43, Utility Model Patent RU No. 336161 H01H 77/00, 2003

As the closest analogue, one can consider the switch shown in patent RU No. 333261 H01H 77/00, 2003

This switch contains a movable and fixed contacts, holding an electromagnet with a magnetic circuit and an anchor, breaking the spring, including an electromagnet with an anchor.

The main disadvantage of this design is that the inclusion electromagnet is made of a retractable type, with a large number

on-off cycles, it becomes possible to mash the armature in the retractable magnetic circuit. This reduces the reliability of the circuit breaker.

Another disadvantage is the complexity of manufacturing an including electromagnet, which leads to a high cost of the product.

The task of creating a utility model was the development of a more reliable and simple switch design.

The technical result, which is achieved by the utility model, consists in eliminating the possibility of mashing the armature in the switching solenoid and simplifying its design.

To achieve the stated result, the drive of the switch consists of U-shaped parts, and the magnetic circuit of the holding electromagnet is an anchor for the switching electromagnet. This eliminates the possibility of mashing, eliminates the need for an anchor including an electromagnet.

The utility model is illustrated by drawings, where in Fig.1 schematically shows a patentable switch in the on position; figure 2 is the same in the off position; figure 3 is the same in the position when the switch is turned off by the emergency shutdown signal.

The automatic high-speed switch contains movable 1 and fixed 2 contacts, holding an electromagnet with a magnetic circuit 4 and an armature 5, disconnecting a spring 6 and turning on an electromagnet 7. Anchor 5 is mounted on axis 8, and a magnetic circuit 4 on axis 9. Anchor 5

connected to the movable contact through the insulating rod 10. The breaking spring 6 is fixed to the movable contact through the earring 11.

The switch operates as follows.

In the on position (figure 1), the magnetic circuit 4 and the armature 5 are attracted to each other due to the current in the coil of the holding electromagnet. The magnetic circuit 4, in turn, is held in an attracted position to the magnetic circuit 7 due to the current in the coil of the turning on electromagnet.

For operational shutdown, it is necessary to interrupt the holding current in the coil of the switching electromagnet. Under the action of the breaking spring 6, the movable contact 1 and the holding electromagnet with the armature 5 and the magnetic circuit 4 go into the off position until the armature of the holding electromagnet reaches the stop 3, while the armature 5 and the magnetic circuit 4 of the holding electromagnet remain attracted to each other (see Fig. .2).

A signal from a current sensor or other emergency shutdown sensor (not shown in FIG.) Interrupts the current in the coil of the holding electromagnet. Under the action of the tripping spring 6, the movable contact 1 and the armature 5 of the holding electromagnet go into the off position. Anchor 4 (aka the magnetic circuit 4 of the holding electromagnet) of the turning on electromagnet remains in the pulled position, as shown in FIG. 3.

To turn on the circuit breaker after an emergency shutdown, it is necessary to restore the current in the coil of the holding solenoid, then interrupt the holding current in the coil of the turning solenoid. Under the action of the spring 6 through the lever 10, the magnetic circuit 4 of the holding electromagnet will join the anchor 5 of the holding electromagnet and remain attracted. The switch will take the position as shown in figure 2. If a current-switching electromagnet passes through a coil, the switch will turn on.

Thanks to the indicated structural differences, a quick-acting automatic switch, reliable in operation and simple in design, has been created.

Claims (1)

An automatic high-speed switch containing movable and fixed contacts, holding an electromagnet with a magnetic circuit and an armature, breaking a spring, including an electromagnet, characterized in that the circuit-breaker drive consists of U-shaped parts, and the magnetic holding magnet circuit is an armature for an electromagnet.