RU2095875C1 - Circuit breaker - Google Patents

Abstract

FIELD: low-voltage circuit-opening devices. SUBSTANCE: current conductor of each circuit-breaker pole is split and its one part is fixed to one of releases and other part is passed to assembly past release bypassing the latter; both parts are electrically interconnected in parallel. Flexible current conductor is preferable. EFFECT: improved design, facilitated servicing. 1 dwg

Description

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

Known circuit breakers containing a housing with a lid, a mechanism for free tripping with a rail, a contact system with arcing chambers, thermal and electromagnetic overcurrent releases in each pole [1]
The disadvantage of such circuit breakers is the large number of types of releases to provide various rated currents and a relatively large power consumption.

The closest in technical essence to the proposed one is a circuit breaker selected as a prototype, 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 [2]
The disadvantage of such a circuit breaker is the relatively high power consumption and the presence of a release for each rated current.

 The basis of the invention is the task of creating a circuit breaker in which, due to a structural change in the current lead, the maximum current release performs its functions for several rated currents and due to this, a reduction in labor intensity is achieved.

 The problem is solved in that in a circuit breaker containing 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, according to the invention, a part of the current path of each pole is rigidly fixed with a trip unit, and the other part of the current path passes bypassing the trip unit and is rigidly fixed with the circuit breaker assembly following the trip unit.

 A causal relationship between the totality of the essential features of the invention and the achievement of a technical result is as follows. It is the implementation of the circuit breaker in the above manner that ensures the partial passage of the current of the protected circuit through the release. The remaining part of the current passes, bypassing the release, to the circuit breaker assembly next to the release (for a thermal release, the next assembly is an electromagnetic release, and for an electromagnetic release, the next assembly is a movable contact of the contact system). By varying the cross-section of the current path passing the release, it is possible to ensure, within certain limits, the same current passing through the release for different rated currents of the circuit breaker. This variation in the cross-section of the current lead is especially rational when the lead is made flexible.

 Due to the fact that the proposed circuit breaker contains overcurrent releases partly streamlined by the current of the protected circuit, this allows to reduce power consumption, material consumption and laboriousness.

 The invention is illustrated in the drawing.

 The circuit breaker comprises a housing 1 with a cover 2, in which a contact system 3 with a movable 4 and a fixed 5 contacts and with an arcing chamber 6 is placed, a free trip mechanism 7 with a rail 8, kinematically connected with the contact system 3. The free trip mechanism 7 is filled with the possibility the impact on it of overcurrent releases: electromagnetic 9 and thermal 10.

 The current flow of the protected circuit through the circuit breaker is carried out partly through overcurrent releases 9 and 10 and partly through conductors 11 and through the contact system 3.

 The circuit breaker operates as follows: When the circuit breaker 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 protected circuit passes through the overcurrent releases 9 and 10, and the 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. opens the movable and fixed contacts 4, 5 and provides protected equipment.

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

 Since not all the current of the circuit breaker 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.

Claims (1)

 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 one, and the electromagnetic release is electrically connected to the moving contact of the contact system by a flexible a current conductor, characterized in that the conductor of each pole is bifurcated, one part of it is rigidly fixed with one of the releases, and the other part of it L passes bypassing the trip unit and is rigidly fixed to the unit following the trip unit, with both parts of the current path being electrically connected in parallel.