RU2481665C1 - Method for electronic disconnection of automatic circuit breaker and electronic automatic circuit breaker - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: method for electronic disconnection of an automatic circuit breaker, based on assessment of thermal and electromagnetic values of electric current and generation of a disconnecting signal by an external system, when the specified values exceed the specified value, which is sent to one of the inlets of the electronic remote control unit, in which the disconnecting signal via a logical element OR is sent to the control input of a symistor, unlocking of which provides for additional flow of current through the automatic circuit breaker, and this current is sufficient for its electromagnetic disconnection. An electronic automatic circuit breaker (17) comprises an automatic circuit breaker (14), a remote control unit (15), comprising a symistor (16), the control inlet of which is connected to the outlet of the OR element (18), inlets of which are inlets of the remote control unit, the inlet and outlet of the symistor are accordingly the first and second outlets of the remote control unit (15). Besides, the first outlet of the remote control unit (15) is connected with an outlet contact (13) of the automatic circuit breaker (14), the inlet contact (12) of which is connected with the first wire of the power transmission line, and the second outlet of the remote control unit (15) is connected with the second wire of the power transmission line.

EFFECT: expansion of functional capabilities.

2 cl, 3 dwg

Description

The invention relates to low-voltage apparatus, in particular to circuit breakers.

A known method of opening a circuit breaker, based on the assessment of thermal and electromagnetic values of electric current and the formation of a tripping signal when exceeding the specified values of a given value (RF patent for the invention No. 2095875, M. CL N01H 73/48, H01H 71/74, publ. 10.11 .1997).

A circuit breaker is known comprising a housing with a cover, a mechanism for free trip with a rail, a contact system with arcing chambers, thermal and electromagnetic overcurrent releases in each pole, in addition, the thermal release is electrically connected to the electromagnetic, and the electromagnetic release is electrically connected to the movable contact of the contact system flexible current lead, and the current lead of each pole is bifurcated, one part of it is rigidly fixed with one of the releases, and the other part is Odita bypassing the release, and is fixedly secured with the next node for the trip unit, wherein both the conductive portion are electrically connected in parallel (RF patent №2095875, M. Cl. N01N 73/48, N01N 71/74, publ. 10.11.1997).

A disadvantage of the known method of tripping and circuit breaker is the reduced functionality, which consists in the absence of the possibility of its remote electronic shutdown by signals from other systems (for example, fire fighting).

An object of the invention is the provision of electronic remote shutdown circuit breaker.

The technical result is achieved by the fact that the method of electronic tripping of a circuit breaker, based on the assessment of the thermal and electromagnetic values of the electric current and the formation of a tripping signal when the specified values exceed the specified value, additionally, when a tripping signal is supplied, only sufficient current is generated through the circuit breaker for its electromagnetic shutdowns.

An electronic circuit breaker, including a circuit breaker containing a housing with a cover, a free trip mechanism with a rail, a contact system with arcing chambers, thermal and electromagnetic overcurrent releases in each pole, in addition, the thermal release is electrically connected to the electromagnetic, and the electromagnetic release is electrically - with a movable contact of the contact system with a flexible current lead, and the current lead of each pole is bifurcated, one part of it is rigidly fixed with one of the releases, and the other part passes bypassing the release, and is rigidly fixed to the node following the release, and both parts of the current lead are electrically connected in parallel, further comprises a remote control unit containing a triac, the control input of which is connected to the output of the OR element, the inputs of which are the inputs of the remote control unit, the input and output of the triac are respectively the first and second inputs of the remote control unit, and the first input of the remote control unit the control is connected to the output contact of the circuit breaker, the input contact of which is connected to the first wire of the power line, the second input of the remote control unit is connected to the second wire of the power line.

In Fig.1 shows a functional diagram of an electronic circuit breaker, Fig.2 is a functional diagram of a remote control unit, Fig.3 is a functional diagram of a circuit breaker, where 1 is a housing; 2 - cover; 3 - contact system; 4, 5 - contacts; 6 - arcing chamber; 7 - free trip mechanism; 8 - rail; 9 - electromagnetic release of the maximum current; 10 - thermal overcurrent release; 11 - current lead; 12, 13 - contacts of the circuit breaker, 14 - circuit breaker, 15 - remote control unit; 16 - triac; 17 - electronic circuit breaker; 18 is an OR element.

The electronic circuit breaker 17 includes a circuit breaker 14 and a remote control unit 15, the circuit breaker 14 comprising a housing 1 with a cover 2, a free trip mechanism 7 with a rail 8, a contact system 3 with arcing chambers, a thermal 10 and an electromagnetic 9 overcurrent releases in each the pole, in addition, the thermal 10 release is electrically connected to the electromagnetic 9, and the electromagnetic 9 release is electrically connected to the movable 5 contact of the contact system by a flexible current lead house 11, and the current path 11 of each pole is bifurcated, one part of it is rigidly fixed with one of the releases, and the other part passes bypassing the release, and is rigidly fixed with the node following the release, and both parts of the current lead 11 are electrically connected in parallel, additionally contains a block remote control 15, containing the triac 16, the control input of which is connected to the output of the OR element 18, whose inputs are inputs of the remote control unit 15, the input and output of the triac 16 are respectively st and second inputs of the remote control 15, the first input of the remote control unit 15 is connected to the output terminal 13 of the circuit breaker, the input terminal 12 is connected to the first power line wire, the second input of the remote control unit 15 is connected to a second copper wire and cable.

The electronic circuit breaker 17 operates as follows: when the circuit breaker 14 is turned on, the current of the protected circuit passes through it, i.e. through its closed contacts 4 and 5. Moreover, part of the current of the circuit to be protected passes through the overcurrent releases 9 and 10, and its other part directly through the conductors 11 connected in parallel with the releases.

With the passage of the overload current (1.25 -10 I _n , where I _n is the rated current of the circuit breaker), the part of the current passing through the thermal release 10 heats it for a certain time to the tripping temperature, and it acts on the rail 8 of the free trip mechanism 7 , which brings the circuit breaker to the off position, i.e. disconnects the movable and fixed contacts 4, 5 and provides protected equipment.

In the case of the passage of a short circuit current (1≥10 I _n ) through the circuit breaker 14, the part of the current passing through its electromagnetic release 9 is sufficient to operate the electromagnetic release 9, which, with its anchor, acts on the rail 8 of the free trip mechanism 7, which and puts the circuit breaker in the off position.

Since not all the current of the circuit breaker 14 passes through the overcurrent releases, but only part of it, the power consumed by the circuit breaker is significantly reduced. In addition, by varying the cross section of the current lead connected in parallel with the release, the same release can be used for several rated currents. This reduces the consumption of materials and labor. This design of the circuit breaker is especially convenient when the current lead is made in the form of a flexible connection.

Remote opening of the electronic circuit breaker 17 is as follows. The signal from the external system is fed to one of the inputs of the remote control unit 15 and through the element 18 OR is fed to the control input of the triac 16. The input and output of the triac 16 are outputs of the remote control unit and are connected to the wires of the power line. Unlocking of the triac 16 leads to an additional current flow through the circuit breaker 14. The resistance of the triac 16 is selected based on the current flowing through it, close to (1≥10 I _n ), which triggers the electromagnetic release 9, which in this case acts on the rail 8 with its anchor free trip mechanism 7, which puts the circuit breaker in the off position.

Claims (2)

1. The method of electronic shutdown of a circuit breaker, based on the assessment of thermal and electromagnetic values of electric current and the formation of a tripping signal when the specified values are exceeded by a predetermined value, characterized in that they form a tripping signal by an external system, which is fed to one of the inputs of the electronic remote control unit, where the tripping signal through the OR logic element is fed to the control input of the triac, unlocking which provides additional flow e through a circuit breaker of current sufficient current for electromagnetic shutdown. 2. An electronic circuit breaker, comprising a circuit breaker comprising a housing with a cover, a free trip mechanism with a rail, a contact system with arcing chambers, thermal and electromagnetic overcurrent releases in each pole, in addition, the thermal release is electrically connected to the electromagnetic, and the electromagnetic release electrically connected to the movable contact of the contact system by a flexible current lead, moreover, the current lead of each pole is bifurcated, one part of it is rigidly closed It is insulated with one of the releases, and the other part passes bypassing the release and is rigidly fixed to the next node after the release, both parts of the conductor being electrically connected in parallel, characterized in that it contains a remote control unit containing a triac, the control input of which is connected to the output OR element, the inputs of which are inputs of the remote control unit, the input and output of the triac are respectively the first and second outputs of the remote control unit, and the first output unit remote control is connected to the output terminal of the circuit breaker, the input terminal of which is connected to the first power line wire, the second output of the remote control unit is connected to the second lead of the power line.

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