RU2402095C1 - Electromagnetic mechanism - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: electromagnetic mechanism is equipped at least with a pair of contacts, magnetic circuit with control coil, anchor, insulating rod, contact spring and disconnection spring. In addition, mechanism contains the stop rigidly fixed on insulating rod, and two clamps. Clamps are installed with possibility of rotation about axes. On one end of each clamp there fixed is the appropriate contact, and stop with the force generated with contact spring acts on the other end.

EFFECT: shortening the time during cutting-off short circuit currents with electromagnetic mechanism.

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Description

The invention relates to electrical engineering, in particular to electromagnetic mechanisms of switching devices.

Known electromagnetic mechanisms as part of high-speed automatic DC switches, for example:

1. Patent RU No. 2239253 for the invention, 2003

2. Patent RU No. 2232768 for the invention, 2004

3. Patent RU No. 333261 for the invention, 2003

4. Patent RU №2324253 for the invention, 2004

5. Patent RU No. 2215162 for the invention, 2002

The closest to the patent should be considered the electromagnetic mechanism of the switch according to patent RU No. 2239253 for the invention H01H 77/06, 2003. It contains one movable, one fixed contact, disconnecting the spring, the free-release spring, the magnetic circuit with a coil located on its central core, main anchor, free trip anchor. The magnetic circuit is assembled from H-shaped electrical steel plates.

The electromagnetic mechanism of the switch operates as follows. way.

When the switching current flows through the holding coil to the magnetic circuit, the main armature and the free trip armature are simultaneously attracted. The main anchor through the springs and traction pulls a movable contact. The switch is in the up position. Then the holding coil switches to a lower holding current. In this case, the free trip anchor cannot be held by the magnetic flux of the holding current in the drawn position, it disappears. The springs move the contacts to the on position and create a contact push. The circuit breaker is ready for immediate tripping.

The disadvantage of this electromagnetic mechanism is the lack of high speed. The design consists of one movable and one fixed contacts, therefore, when the armature moves (both when closing and opening) under the action of the springs, only one movable contact is driven through the rod.

The objective of the invention is the creation of an electromagnetic mechanism of a switching apparatus, characterized by high speed during shutdown, reliable operation.

The technical result is a reduction in time when disconnecting short circuit currents.

To ensure this, the mechanism further comprises an emphasis fixedly mounted on the rod and two brackets mounted for rotation around the axes, with a corresponding contact being fixed at one end of each bracket and a stop acting on the other end with the force developed by the contact spring.

The invention consists in the following.

With this design, both contacts are driven (the speed of the first contact V1, the speed of the second contact V2) and rotate around the axes towards each other when closing and in opposite directions when the protected circuit is opened. Therefore, when the armature moves, the speed of movement of the contacts is doubled V1 + V2, that is, the time to turn off the short-circuit currents decreases. Thus, due to the joint movement of the contacts, speed is achieved when disconnecting short circuit currents.

The invention is illustrated by an example implementation. Figure 1 schematically shows the electromagnetic mechanism in the on position, figure 2 is the same in the off position.

The electromagnetic mechanism contains two contacts 1 and 2, a magnetic circuit 3 with a control coil 4, an anchor 5 on which an insulation rod 6 is fixed, a contact spring 7 and a trip spring 8. A stop 9 is fixed on the insulation rod 6. Contact 1 is mounted on the bracket 10, and contact 2 is on the bracket 11. The brackets 10 and 11 are respectively rotatably disposed on the axes 12 and 13. The stop 9 acts on the free end of the bracket 10 and 11 with the force developed by the contact spring 7.

The electromagnetic mechanism operates as follows.

When turned on, the corresponding current is supplied to the control coil 4, while the armature 5 is attracted to the magnetic circuit 3 and, through the clamping rod 6, moves the contacts 1 and 2 through the brackets 10 and 11. Contacts 1 and 2 rotate around the axes 12 and 13 towards each other, stretching the trip spring 8, and are closed (figure 1). The contact spring 7 provides the necessary contact pressing.

At the time of the short circuit current, the current in the control coil 4 is terminated. The magnetic flux decreases and cannot hold the armature 5 in the position drawn to the magnetic circuit 3. Under the action of the trip spring 8, the contacts 1 and 2 immediately rotate in opposite directions relative to each other (figure 2).

Thus, due to the joint movement of the contacts, speed is achieved when disconnecting short circuit currents.

Claims (1)

An electromagnetic mechanism comprising at least a pair of contacts, a magnetic circuit with a control coil, an anchor on which an insulating rod is fixed, a contact spring and a disconnecting spring, characterized in that it further comprises a stop fixedly mounted on the insulating rod, and two brackets installed with the possibility of rotation around the axes, and at one end of each bracket the corresponding contact is fixed, and the stop acts on the other end with the force developed by the contact spring.

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