RU61945U1 - AUTOMATIC DIRECT CURRENT SWITCH - Google Patents

Abstract

The utility model relates to electrical engineering and is used to protect against overloads and short circuits of electrical installations and power lines. The automatic high-speed switch contains an electromagnetic drive, a contact block connected to a differential shunt relay (RDSH). The novelty is that the RDSH output bus is located on the magnetic circuit of the electromagnetic drive. The technical result is an increase in the speed of the circuit breaker when tripping, reducing the space occupied by the circuit breaker. This is achieved by directly installing the RDSH output bus on the magnetic circuit, as a result of which the circuit breaker trips before the current of the circuit to be protected reaches the current setting of the circuit breaker. 1 p. F-l 2 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 power lines.

Automatic high-speed DC switches that trip when a magnetic flux changes in the magnetic circuit of an electromagnetic drive are known, for example, from the following sources: A.I. Golubev High-speed automatic switches M. - L .: Energia, 1964, p.208-213.

The switch on this source contains an electromagnetic drive, consisting of an armature, a magnetic circuit on one (right) core of which the switching coil is fixed, and on the other (left) is the main current coil and permanent magnets, which make it impossible to turn off the switch in case of an accidental power failure in the switching coil . The contact block contains a movable contact, mounted on the anchor of the switch and a fixed contact. The movable contact through a flexible connection is connected to the output bus of the switch. A differential shunt relay is connected to the switch bus. In the on position, the magnetic flux closes through the right side of the core of the magnetic circuit. When a short circuit current flows through the main current coil, a magnetic flux is created in the left core of the magnetic circuit, due to which the armature is attracted to the left core and the switch contacts open.

The disadvantage of this design of the switch is that when disconnecting, additional time is required to create a magnetic flux,

determined by the setting of the switch, which reduces the speed of the switch.

In addition, the installation of a differential shunt relay requires additional space, which reduces the working space of maintenance personnel.

The utility model solves the problem of increasing the reliability of protection of electrical installations in emergency situations.

The technical result, which is achieved by the utility model, is to increase the speed of the circuit breaker during tripping, as well as to reduce the area occupied by this circuit breaker.

This is achieved by the fact that the output bus of the differential shunt relay is located on the magnetic circuit of the electromagnetic drive.

The essence of the utility model is that, thanks to the direct installation of the differential shunt relay bus on the magnetic circuit, the armature of the electromagnetic drive will break away from the magnetic circuit faster than the short circuit current reaches the setpoint of the circuit breaker. In addition, one of the relay buses is mounted on the core of the magnetic circuit, which creates convenience in the maintenance of the circuit breaker and does not require additional working space for installing the relay.

The utility model is illustrated by an example of a circuit breaker. Figure 1 of the drawing shows a patentable switch in the on position; figure 2 is the same in the off position.

The automatic high-speed circuit breaker contains an electromagnetic drive, which consists of an armature 1 and a magnetic circuit 2 on one core of which a permanent magnet 3 and a switching coil 4 are fixed, and one of the buses 5 is located on the other core - an output bus of a differential shunt relay (RDS). The contact block of the switch consists of a fixed contact 6 and a movable contact 7. The latter is electrically connected through a flexible connection 8 with the second bus 9 RDSH. Anchor

1 through the lever 10, the spring 11, the rod 12 and the lever 13 is also connected to the movable contact 7. Disconnection is carried out by a spring 14, mounted on the axis 15 of the lever 10.

The switch operates as follows. The required value of the set current is adjusted using the indicator 16. When current flows through the switching coil 4, the armature 1 is attracted to the magnetic circuit 2, moving the rod 12 and the lever 13, which transmit the movement to the movable contact 7. The movable contact closes with the fixed contact. In this case, the current in the switching coil decreases to zero, and the anchor is held in a position drawn to the magnetic circuit due to the magnetic forces created by the permanent magnet 3 (Fig. 1). On the bus 17 flows the rated current of the switch.

When a short circuit current flows in the core of the magnetic circuit on which the RDSH output bus is located, a magnetic flux is created that weakens the action of the magnetic forces of the permanent magnet 3. In this case, the RPSH is activated before the current of the protected circuit reaches the set current value. The anchor cannot be held in the pulled position and, under the action of the forces of the spring 14, falls off from the magnetic circuit 2. In this case, the contacts 6 and 7 of the switch open (Fig. 2).

Thus, due to the position of the RDSH output bus on the magnetic circuit of the electromagnetic drive, the circuit breaker performance is achieved. With such an installation, circuit breaker maintenance is facilitated, circuit breaker reliability is increased, and additional floor space is freed up.

Claims (1)

An automatic high-speed DC switch containing an electromagnetic drive, a contact block electrically connected to a differential shunt relay, characterized in that the output bus of the differential shunt relay is located on the magnetic circuit of the electromagnetic drive.