RU178955U1 - DIFFERENTIAL CURRENT CIRCUIT BREAKER - Google Patents

Abstract

The utility model relates to the field of electrical engineering and can be used to quickly turn on and off, as well as automatically turn off when overload currents, short circuits, and leakage currents. The technical result is to increase the safety of users during the operation of the CBR by identifying the causes of the device and the transition of the CBR during this is in a protective state "latch", from which the device can be removed only by a specialist. The technical result is achieved by using the use of a differential current circuit breaker comprising a differential unit and a circuit breaker, wherein the differential unit comprises a differential control handle, an actuator head, a differential unit lever, a differential unit rocker, a stopper with a holding protrusion to provide a protective state for the “latch” of the differential unit, traction , differential handle control spring, movable differential contact, actuator the anism, the pendulum, the automatic part contains a bimetallic plate, a solenoid coil, a solenoid striker, a movable contact of the automatic part, which is connected via a pendulum to the movable contact of the differential unit, a contact position indicator, a return spring, the rocker of the automatic part, a locking strip to ensure a protective state "latch »The automatic part, the control handle of the automatic part, which is connected to the control handle of the differential unit.

Description

The utility model relates to the field of electrical engineering and can be used for quick switching on and off, as well as automatic switching off at overload currents, short circuits of electric circuits and leakage currents.

The design of circuit breakers, including residual current circuit breakers (AEDT), replaced fuses with single-acting fuses, the operation of which was based on the fuse blown after a short circuit. After closing the circuit, the insert had to be changed. And if the cause of the circuit was not detected, the insert burned out again. Also, these fuses did not provide protection against overcurrents.

A known design of a circuit breaker for protection against overload, short circuit currents of electrical circuits with individual and group consumers of electric energy (RF patent No. 2541517, 02.20.2015, 2015), which contains a housing of insulating material, including: the first and second poles, located symmetrically to the left and right of the longitudinal axis of the switch, the first pole contains a first contact and a second contact, configured to mutually connect / disconnect with each other. The second pole contains a third contact and a fourth contact, configured to mutually connect / disconnect with each other. The kinematic closing / opening mechanism is connected to the first and second poles for connecting / disconnecting the first and second contacts, and the third and fourth contacts. The first, second and third protective devices, connection means, which connects the kinematic closing / opening mechanism with the first, second and third protective devices. The release coil of the third protective device is located at an angle to the kinematic closing / opening mechanism and is connected to it by a U-shaped lever, and the third and fourth contacts with the arcing system are separated from the electronic circuit board by a cover.

The switching resource of the specified AVDT is estimated in hundreds of thousands of inclusions. However, the technical problem in this case is that when installing such an AEDT, the end user immediately arches a lever in the event of an AEDT operation, which, if the cause of the device is unclear and there is an accident, can lead to a dangerous situation.

The objective of the utility model is to expand the arsenal of devices of a similar purpose and reduce the risk of an accident during the operation of high voltage drives.

The technical result is to increase the safety of users during operation of the CBRT by identifying the causes of the device’s operation and the transition of the CBRD to the “latch” protective state, from which the device can only be removed by a specialist.

The technical result is achieved by using a differential current circuit breaker containing a differential unit and an automatic switch, while the differential unit contains a differential unit control handle, an actuator head, a differential unit lever, a differential unit rocker, a stopper with a holding protrusion to provide a “latch” protective state differential block, traction, differential control lever spring, movable contact of the differential unit, actuator, pendulum, the automatic part contains a bimetallic plate, a solenoid coil, a solenoid striker, a movable contact of the automatic part, which is connected via a pendulum to the movable contact of the differential unit, a contact position indicator, a return spring, rocker of the automatic part, a locking plate to provide the protective state “latch” of the automatic part, the control handle of the automatic part, which is connected to the diffe potential block.

The inventive AVDT has two interconnected control knobs for the automatic part and the differential unit for indicating the cause of operation: if only one control handle is in the off position, then the cause of operation is overcurrent, if both control knobs are in the off position, then the leakage current is the cause of the operation. After operation, any of the control knobs of the claimed AVDT switches to the "trip" protective state, as a result of which a second cocking is possible only after the control handle is fully lowered. In this case, only a specialist can carry out work to find and eliminate the cause of the device’s operation. Thus, uncontrolled impact of the end user on the AVDT handles in case of operation is excluded, and safety during operation is increased.

In FIG. 1 shows the differential block ABDT.

In Fig.2 shows the automatic part of the AVDT.

The differential current circuit breaker contains a differential block and an automatic switch, while the differential block (Fig. 1) contains a differential handle 1 control handle, actuator strikes 2, differential block 3 lever, differential block 4 rocker, stopper 5 with a holding protrusion to provide a protective state “latch” of the differential block, rod 6, spring of the control handle of the differential block 7, movable contact of the differential block 8, executive mechanism 9, pendulum 10, the automatic part (Fig. 2) contains a bimetallic plate 11, a coil of a solenoid 12, a firing pin of a solenoid 13, a movable contact of the automatic part 14, which is connected via a pendulum 10 to the movable contact of the differential unit 8, the position indicator of the contacts 15, the return a spring 16, the rocker of the automatic part 17, the locking plate 18 to provide a protective state "latch" of the automatic part, the control handle of the automatic part 19, which is connected to the control handle of the differential unit ohm 1.

The operation of the AVDT differential block is as follows.

The control handle of the differential unit 1 is in the cocked state. When an unacceptable differential current flows, the shutdown signal is supplied to the actuator 9, which strikes the actuator 2 briskly on the lever of the differential block 3, which serves to transfer force to the rocker of the differential block 4, which fixes the stopper 5, which holds the rod 6 of the control handle of the differential block 1 in the on condition. The stopper 5 jumps off the retaining protrusion on the beam of the differential unit 4, releases the control handle of the differential unit 1, which, under the action of the spring of the control handle of the differential unit 7, goes into an intermediate position, indicating the operation of the automatic current transformer against the leakage current. In this case, the protective state “latch” for the differential unit is realized. At the same time, the pendulum 10 of the movable contact of the differential unit 8 is released and then returns to its original position, as a result of which the circuit opens. The pendulum 10 controls the position of the movable contacts of the differential unit 8 and the contacts of the automatic part 14 of both parts of the CBR, respectively, both parts of the CBR open.

The operation of the automatic part of the AVDT is as follows.

The control handle of the automatic part 19 is used for cocking and indicating the status of the automatic part of the AVDT. When the overload current flows, the bimetallic plate 11, bending to the right, pushes the rocker of the automatic part 17, which presses on the locking plate 18 with its opposite end and determines the position of the pendulum 10 of the movable contact of the automatic part 14. The pendulum 10 freed from the action of the locking plate 18 under the action of the return spring 16 returns the movable contact of the automatic part 14 to the open position. The control handle of the automatic part 19 remains in the intermediate position (provided by the locking strip 18), which signals the operation of the automatic circuit breaker for current overload. In this case, the protective state “latch” for the automatic part is realized. The indicator of the position of the contacts 15 in the status window shows closed or open contacts.

In overcurrent mode (short circuit), the coil of the solenoid 12 draws the core and acts on the firing pin of the solenoid 13, which hits the pendulum 10, which disengages from the locking plate 18 and moves the movable contact of the automatic part 14 to the starting position. The control handle of the automatic part 19 remains in the intermediate position (provided by the locking strip 18), which signals the operation of the automatic circuit breaker for current overload.

Thus, the claimed AVDT is safe during operation for users, at the same time, it allows a specialist to clearly identify the problems that have arisen and quickly put the device into operation after operation.

Claims (1)

A differential current circuit breaker, characterized in that it contains a differential unit and an automatic circuit breaker, while the differential unit contains a differential block control handle, an actuator head, a differential block lever, a differential block rocker, a stopper with a retaining protrusion to ensure the differential latch block, traction, differential handle control spring, movable contact of differential block, use the body mechanism, the pendulum, the automatic part contains a bimetallic plate, a solenoid coil, a solenoid striker, a movable contact of the automatic part, which is connected to the movable contact of the differential unit via a pendulum, an indicator of the position of the contacts, a return spring, rocker of the automatic part, a locking strip to ensure a protective state latch ”of the automatic part, the control handle of the automatic part, which is connected to the control handle of the differential unit.

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