RU2541517C2 - Automatic circuit breaker - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: automatic circuit breaker, which is intended for overload protection, short-circuiting protection of electric circuits with single and grouped power consumers and electric shock protection when insulation of electrical installations is damaged, comprises a case made of an insulating material with the following components: the first and second poles placed symmetrically on the left and right from the longitudinal axis of the circuit breaker; the first pole comprises the first and second contacts capable of mutual connection/disconnection. The second pole comprises the third and fourth contacts capable of mutual connection/disconnection. A kinematic connection/disconnection mechanism is coupled to the first and second poles for connection/disconnection of the first and second poles and the third and fourth contacts. The first, second and third protective devices, a connecting device, which couples the kinematic connection/disconnection mechanism with the first, second and third protective devices. A coil trip of the third protective device is placed under an angle to the kinematic connection/disconnection mechanism and connected with it by a U-shaped lever, and the third and fourth contacts with an arcing system are separated from the electronic board by a cover.

EFFECT: maintenance of overall dimensions for the circuit breaker design when introducing an electronic board into the third protective device.

14 cl, 5 dwg

Description

The invention relates to devices for closing and opening an electric circuit, in particular to circuit breakers designed to protect against overload, short circuit currents of electric circuits with individual and group consumers of electric energy and to protect a person from electric shock if the insulation of electrical installations is damaged.

There is a known differential current circuit breaker (RU 75103 U1, H02H 1/00, 07/20/2008), consisting of a bipolar switch combined with a residual current circuit breaker, in the neutral pole of which there is a control board, a residual current circuit breaker and an independent trip, a power circuit trip mechanism It is located only in the phase pole, which eliminates the influence of the intermediate links of the mechanism when the trip is activated and provides advanced opening of the contacts in the phase pole, while Shareable release mechanism and a differential sensor placed in the volume of two poles (in the isolated cavity) that enables the installation of wires of large cross section and, therefore, increase the rated current.

The disadvantage of the differential current circuit breaker is the limitation on the range of operating temperatures due to the presence of a load current sensor with an electronic actuation circuit.

The closest in technical essence to the present invention is an automatic low-voltage circuit breaker (RU 2477541 C2, H01H 83/22, 03/10/2013), which contains a housing of insulating material, including: a first pole containing a first contact and a second contact, made with the ability to mutually connect / disconnect with each other; a second pole comprising a third contact and a fourth contact, configured to mutually connect / disconnect with each other; a kinematic closing / opening mechanism associated with the first and second poles for connecting / disconnecting the first and second contacts, and the third and fourth contacts; first, second and third protective devices designed to activate the release of the kinematic mechanism of closing / opening and opening of contacts due to the corresponding first, second or third situation of a malfunction in an electrical installation associated with a switch; connection means that connects the kinematic closing / opening mechanism to the first, second and third protective devices, characterized in that in the front view of the switch, the first and second pole are located symmetrically to the left and to the right of the longitudinal axis of the switch, and the kinematic closing / opening mechanism is located in center relative to the first and second poles.

A disadvantage of the known automatic low-voltage circuit breaker is that it has mechanical protection against differential current.

The technical result of the utility model is to preserve the overall dimensions of the circuit breaker design when the electronic circuit board is inserted into the third protective device of the circuit breaker.

The specified technical result is achieved in that in a circuit breaker, which contains a housing of insulating material, including: the first and second poles located symmetrically to the left and to the right of the longitudinal axis of the circuit breaker, the first pole contains a first contact and a second contact configured to interconnect / 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 mechanism closing / opening 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 and connection means that connects the kinematic closing / opening mechanism with the first, second and third protective devices, according to the invention, 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 ends The cables with the arcing system are separated from the electronic board by a cover.

In this case, the third protective device is installed in the second pole, the first and second protective devices are installed in the first pole; the first protective device provides protection against short circuits, the second protective device provides protection against overload currents, and the third protective device provides protection against differential currents; the third protective device comprises an electronic circuit board connected to a differential current sensor and a trip coil; the second protective device is made in the form of a bimetallic plate; the first protective device is made in the form of an electromagnetic release coil; the trip coil of the third protective device comprises a retracting actuation mechanism; the housing design at the location of the differential current sensor is made in the form of a separate plastic part, mounted on other parts of the housing with the help of protrusions and grooves; in the second pole there is a device for operational control of the third protective device; the circuit breaker contains a mechanical status indicator in the first pole, and the contact clamps are made on the side of the network with the ability to connect with both the bus and the conductor, and on the load side - only the conductor.

In addition, the circuit breaker can be multi-pole with a common for all poles kinematic closing / opening mechanism with connected platoon handles and a common differential current sensor and contains a mechanical status indicator in each of the poles.

The drawing 1 shows a circuit breaker in General.

Figure 2 shows the second pole of a circuit breaker with an installed electronic circuit board, without a cover.

Figure 3 shows the second pole of a circuit breaker with an electronic circuit board and a cover.

Figure 4 shows a U-link release coil.

Figure 5 shows a multi-pole circuit breaker.

The circuit breaker 1, which contains a housing 2 made of insulating material, includes: the first 3 and second 4 poles located symmetrically to the left and right of the longitudinal axis of the switch 1, the first pole 3 contains the first contact 5 and the second contact 6 (not shown in the drawings ), configured to mutually connect / disconnect with each other, the second pole 4, contains a third contact 7 and a fourth contact 8, configured to mutually connect / disconnect with each other, a kinematic closing mechanism 9 / open I, connected to the first 3 and second 4 poles for connecting / disconnecting the first 5 and second 6 contacts, and the third 7 and fourth 8 contacts, the first 10, second 11 and third 12 protective devices and means of connection 13 (not shown in the drawings), which connects the kinematic mechanism 9 of the circuit / opening with the first 10, second 11 and the third 13 protective devices. The coil 14 of the release of the third 12 protective device is located at an angle to the kinematic mechanism 9 of the closing / opening and is connected to it by a U-shaped lever 15, and the third 7 and fourth 8 contacts with the arcing system 16 are separated from the electronic board 17 by the cover 18.

The electronic board 17 is connected to a differential current sensor 19 and a coil 14 of the trip unit of the third 12 protective device; the second protective device is made in the form of a bimetallic plate (not shown in the drawings); the first protective device is made in the form of an electromagnetic release coil (not shown in the drawings); the trip coil of the third protective device comprises a retracting actuation mechanism (not shown in the drawings); the design of the housing 2 at the location of the differential current sensor 19 is made in the form of a separate plastic part 20, mounted on other parts of the housing 2 using protrusions and grooves; in the second pole 4 there is a device 21 for operational monitoring of the third 12 protective device; a mechanical status indicator 22 is located in the first pole; contact clamps 23 on the side of the network connection are made with the possibility of connection with both the bus and the conductor; the multi-pole circuit breaker 24 comprises a common for all poles kinematic closing / opening mechanism 9 with connected platoon handles 25, a common differential current sensor 19 and a mechanical status indicator 26 in each of the poles.

The device operates as follows.

Circuit breaker 1 is installed in accordance with standard regulatory requirements. The circuit breaker 1 is mounted on a rail. Moreover, on the back side of the housing 2 of the circuit breaker 1 provides a latch with a latch, which facilitates installation.

After installation, circuit breaker 1 is connected to the network. External conductors or busbars from the network are inserted into the contact terminals 24 and secured by screw connection of the contact terminal 24. The load is connected by conductors to the lower contact terminal.

The first 3 and second 4 poles of the circuit breaker, located symmetrically to the left and right of the longitudinal axis of the circuit breaker 1, the first 3 pole contains the first contact 5 and second 6 contact, the first 10 and second 11 protective devices.

The first protective device 10 provides protection against short circuits, the second protective device 11 provides protection against overload currents (not shown in the drawings).

The first protective device 10 is made in the form of an electromagnetic release coil. When the threshold value of the short circuit current passing through the first protective device 10 is exceeded, the rod extends, which activates the kinematic mechanism 9 of the short circuit / opening and the circuit breaker 1 is turned off.

The second protective device 11 is made in the form of a bimetallic plate with an element for setting the thermal release. When overload currents appear and, accordingly, the temperature rises, the bimetallic plate bends and acts as a staple on the kinematic mechanism 9 of closing / opening - the circuit breaker 1 is turned off. The bimetallic plate is self-returning, i.e. when it cools, it returns to its original position.

The third protective device 12 is installed in the second 4 pole and provides protection against differential currents.

The third protective device 12 contains an electronic board 17, separated by a cover 18 from the third 7 and fourth 8 contacts with the arcing system 16, and connected with a differential current sensor 19 and the release coil 14, which is installed at an angle to the kinematic mechanism 9 of the closing / opening.

The design of the housing 2 at the location of the differential current sensor 19 is made in the form of a separate plastic part, mounted on other parts of the housing with the help of protrusions and grooves, which increases the heat transfer of the differential current sensor with the environment.

The third protective device 12 is triggered by the appearance of differential currents (leakage currents to earth or the current that passes through a person when a person touches live parts). When these cases occur, the differential current sensor 19 receives a signal to the electronic board 17 and then to the release coil 14, the retractable release mechanism of the release coil 14 pulls the kinematic mechanism 9 of closing / opening through the U-shaped lever - the circuit breaker 1 is turned off.

The electronic board 17 is separated from the third 7 and fourth 8 contacts with the arcing system cover 18 to protect the electronic board 17 from the combustion products of the arcing system 16, which appear when the third 7 and fourth 8 contacts are opened and from elevated temperatures in their area.

In addition, due to the fact that the release coil 14 is installed at an angle to the kinematic closing / opening mechanism 9, the operational monitoring device 21 of the third protective device is located in the second pole. The device 21 operational control of the third protective device provides a periodic check of the operation of the circuit breaker in accordance with standard requirements.

Thus, due to the fact that the release coil of the third protective device is located at an angle to the kinematic closing / opening mechanism and is connected with 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 overall dimensions of the automatic structure are maintained circuit breaker when introducing the electronic board into the third protective device of the circuit breaker.

Claims (14)

1. A circuit breaker comprising a housing of insulating material, comprising: a first and a second pole symmetrically to the left and right of the longitudinal axis of the switch, the first pole comprising a first contact and a second contact configured to mutually connect / disconnect with each other, a second pole comprising a third contact and a fourth contact, configured to mutually connect / disconnect with each other, a kinematic closing / opening mechanism associated with the first and second poles and for connecting / disconnecting the first and second contacts, and the third and fourth contacts, the first, second and third protective devices, connecting means that connects the kinematic closing / opening mechanism with the first, second and third protective devices, characterized in that the release coil 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 plate cover s. 2. The circuit breaker according to claim 1, characterized in that the third protective device is installed in the second pole. 3. The circuit breaker according to claim 1, characterized in that the first and second protective devices are installed in the first pole. 4. The circuit breaker according to claim 1, characterized in that the first protective device provides protection against short circuits, the second protective device provides protection against overload currents, and the third protective device provides protection against differential currents. 5. The circuit breaker according to claim 2, characterized in that the third protective device comprises an electronic circuit board connected to a differential current sensor and a trip coil. 6. The circuit breaker according to claim 3, characterized in that the second protective device is made in the form of a bimetallic plate. 7. The circuit breaker according to claim 3, characterized in that the first protective device is made in the form of an electromagnetic release coil. 8. The circuit breaker according to claim 1, characterized in that the release coil of the third protective device comprises a retracting actuation mechanism. 9. The circuit breaker according to claim 5, characterized in that the housing design at the location of the differential current sensor is made in the form of a separate plastic part, mounted on other parts of the housing using protrusions and grooves. 10. The circuit breaker according to claim 2, characterized in that in the second pole there is a device for operational monitoring of the third protective device. 11. The circuit breaker according to claim 1, characterized in that it contains a mechanical status indicator in the first pole. 12. The circuit breaker according to claim 1, characterized in that the contact clamps are made on the side of the network connection with the possibility of connecting with both the bus and the conductor, and on the load side - only the conductor. 13. The circuit breaker according to claim 1, characterized in that it can be multi-pole with a common kinematic closing / opening mechanism for all poles with connected platoon handles and a common differential current sensor. 14. The circuit breaker according to item 13, characterized in that it contains a mechanical status indicator in each of the poles.

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