RU88207U1 - AC DC SWITCH - Google Patents

Abstract

The utility model relates to electrical engineering, in particular to switching equipment, and is used in the designs of high-speed DC circuit breakers designed to protect against overloads and short-circuit currents in DC lines and electrical installations. New is that the switch additionally contains an accelerating spring, which is placed concentrically and inside the disconnecting spring, and the springs are installed with the possibility of impact directly on the main armature. The technical result consists in increasing the speed of movement of the movable contact upon opening. 1 p. Fs, 5 fig.

Description

The utility model relates to electrical engineering, in particular to switching equipment, and is used in the designs of high-speed DC circuit breakers designed to protect against unacceptable overloads and short circuit currents in DC lines and electrical installations.

High-speed automatic switches that are held in the on position by an electromagnetic drive and are turned off when the current drops in the electromagnet coil are known from the following sources:

1. Patent RU No. 27773 Switch high-speed automatic DC, 2002

2. 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. 236-238;

3. Patent RU №2328789 Circuit breaker automatic high-speed DC, 2006

The closest to the patented device should be considered a switch for the first source (Patent RU No. 27737).

This switch contains two movable and two fixed contacts, breaking and contact spring, electromagnetic drive, free trip anchor, traction.

The disadvantage of this design is the manufacture of a breaking spring by type of loading in the form of a tension spring. And as you know, tension springs are inferior in characteristics to compression springs. Namely, during long-term operation, the tension spring loses its technical parameters much faster than the compression spring, which reduces the reliability of the circuit breaker.

In addition, the breaking spring is located with the possibility of acting on the main armature through the bracket, and is removed at a considerable distance from the working gap between the armature and the magnetic circuit. This leads to the need to use a spring that develops significant efforts, and the opening time of the switch contacts increases.

A useful model solves the problem of creating a high-speed direct current circuit breaker, characterized by high speed and operational reliability.

The technical result consists in increasing the speed of movement of the movable contact upon opening.

To ensure this, the switch further comprises an accelerating spring, which is placed concentrically and located inside the tripping spring, the springs being installed with the possibility of acting directly on the main armature.

The essence is as follows.

The presence of an accelerating spring, the force of which acts at the moment of disconnection and the location of the disconnecting spring with the possibility of acting directly on the main armature, allows the main armature and, accordingly, the movable contact to move at high speed. In addition, with this design, the breaking spring is used as a compression spring, which increases the operational reliability of the circuit breaker.

The utility model is illustrated by an example implementation. Figure 1 schematically shows the switch in the on position, figure 2 is the same in the up position, figure 3 is the same in the off position, figure 4 is a top view of the switch, figure 5 is a perspective view of the switch .

The switch contains two movable 1 and two fixed 2 contacts disconnecting springs 3 and contact pressing springs 4, an electromagnetic drive consisting of a magnetic circuit 5 with a main armature 6 and a coil 7, a free trip armature 8, rods 9, 10. The breaking springs 3 are placed with the ends of the magnetic circuit 5 from the side of the main anchor 6. Inside each disconnecting spring placed an accelerating spring 11 (figure 3). The switch contains a bracket 12, one end of which is connected via a rod 10 and a spring 13 to the main armature 6 of the drive, and the other end of the bracket is located above the free trip arm 8 having a bracket 14 for movement of the bracket, while the movable contact 1 is attached to the bracket 12 and is electrically isolated from her.

The switch operates as follows.

When flowing along the drive coil 7 of the switching current, the armature 6 is attracted to the right core of the magnetic circuit 5. The breaking springs 3 and the accelerating springs 11 are compressed. The free trip anchor 8 is attracted to the left core of the magnetic circuit 5 and holds the bracket 12 with the limiter 14. The spring 13 is compressed through the rod 10 (figure 2).

The movable contacts 1 do not close with the fixed contacts 2 and remain in the upstream position. This is necessary so that the circuit breaker contacts do not close while a large amount of switching current flows through the drive coil, since if the main circuit already has a short circuit, the drive will not be able to trip to the desired speed.

The lever 15 switches the block contacts (not shown in the figures), which switch the drive coil 7 to a smaller holding current.

The free trip anchor 8 cannot be held by the magnetic currents of the holding current in the pulled position, falls off and releases the bracket 12 (FIG. 1). The spring 13 moves the bracket 12 with the traverse 16 and the movable contacts 1 to the on position, and its high-speed drive is ready for immediate shutdown.

When a short circuit current occurs, the current in the drive coil 7 is terminated. The main anchor 6 cannot be held in the position drawn to the magnetic circuit 5 and, under the action of the accelerating springs 11 and the breaking springs 3, drops away from the magnetic circuit 5 at a high speed (Fig. 3), and accordingly, the switch contacts immediately open.

Thus, due to the use of additional accelerating springs placed concentrically inside the disconnecting springs, with the possibility of their impact directly on the main armature, the circuit breaker performance is achieved and the operational reliability is increased.

Claims (1)

A high-speed DC switch containing at least one movable and one fixed contacts, which disconnects the spring and the contact pressing spring, an electromagnetic drive with a magnetic circuit, a coil, a main armature and a free trip armature, traction, characterized in that it further comprises an accelerating spring , which is placed concentrically and inside the disconnecting spring, and the springs are installed with the possibility of impact directly on the main anchor.