RU139886U1 - MODULAR CIRCUIT BREAKER - Google Patents

Abstract

1. The circuit-breaker of modular design, comprising a housing, an electromagnetic release, a thermal release, an arcing system and a free trip mechanism, characterized in that the arcing system contains an exhaust chamber in the cavity of the housing, consisting of at least two parallel arrester, located at an angle to the arcing chamber. 2. The circuit breaker of modular design according to claim 1, characterized in that the flame arrester is made in the form of partitions protruding from both parts of the housing, with grooves for tight connection. The modular circuit breaker according to claim 1, characterized in that the connection of the arc outlet plate and the contact soldering of the fixed contact is stepless. The circuit breaker modular design according to claim 1, characterized in that it contains an indicator of the status of contacts.

Description

A useful model relates to devices for closing and opening an electric circuit, in particular, to circuit breakers designed to protect against overload currents and short circuit currents of electric circuits with individual and group consumers of electric energy.

The closest in technical essence to the proposed utility model is a modular circuit breaker (RU 126506 U1, H01H 77/00, 03/27/2013) comprising a housing, an electromagnetic release, a thermal release, an arcing system and a free trip mechanism consisting of a shift handle installed on the first axis, the driven link mounted on the second axis, a movable contact holder with a movable contact at one end located on the driven link, a latch made in the form of a U-shaped bracket, with knitted pivotally with the shift handle and engaged with the driven link, a trip mounted on the third axis and configured to act on the latch, the switching spring and return, characterized in that the driven link is made in the form of a bent element, one part of which has a P- shaped, and the other part is an S-shaped section, and the movable contact holder is mounted inside the U-shaped part with the possibility of rotation relative to the bent element and a closed groove is made at its free end, h which the second axis passes.

The disadvantage of a modular circuit breaker is its low breaking capacity.

Breaking capacity - this is the maximum permissible value for the circuit breaker of the short circuit current flowing through it without loss of performance. If the magnitude of the short circuit current flowing through the circuit breaker is greater than that for which it is designed, the arc extinguishing system at the divergent contacts of the machine will not be able to dissipate the released energy and the circuit breaker will be destroyed.

The following solutions are used in the design of a circuit breaker with a larger breaking capacity: more massive power contacts, refractory soldering of power contacts, contacts with less resistance, a more efficient arcing system, a high speed of contact separation when the circuit breaker is turned off.

In the claimed utility model, an arc quenching system is considered, which allows to open a circuit with a larger value of short circuit current.

The problem to which the claimed utility model is directed is to increase the breaking capacity of a modular circuit breaker.

The technical result of the utility model is to reduce the exhaust of the flame and the emission of particles of molten metal, in order to increase the breaking capacity of the modular circuit breaker.

The specified technical result is achieved by the fact that in a circuit breaker of modular design, which contains a housing, an electromagnetic release, a thermal release, an arcing system and a free trip mechanism, according to a utility model, an arcing system contains an exhaust chamber in the cavity of the housing, consisting of at least two parallel flame arrester located at an angle to the arcing chamber.

In this case, flame arresters are made in the form of partitions protruding from both parts of the housing, with grooves for a tight connection, and the connection of the arcing plate and the contact soldering of the fixed contact is made stepless. In addition, the modular circuit breaker contains a status indicator for contacts.

The drawing 1 shows a circuit breaker General view.

A circuit breaker 1 of modular design, comprising a housing 2, an electromagnetic release 3, a thermal release 4, an arcing system 5 and a free trip mechanism 6. The arcing system 5 comprises an exhaust chamber 7 in the cavity of the housing 2, consisting of at least two parallel flame arrester 8 located at an angle to the arcing chamber 9.

In this case, flame arresters are made in the form of partitions protruding from both parts of the housing 2 with grooves for a tight connection, and the connection of the arcing plate 10 and the contact soldering 11 of the fixed contact 12 is made stepless. In addition, the circuit breaker 1 modular design contains an indicator 13 of the status of contacts.

The device operates as follows:

The modular circuit breaker 1 is mounted in accordance with standard regulatory requirements. The mounting of the circuit breaker 1 of a modular design is carried out on a rail. Moreover, on the back side of the housing 2 of the circuit breaker 1 of a modular design, a latch with double locking is provided, which facilitates installation.

After installation, the modular circuit breaker 1 is connected to the network. External conductors or busbars from the network are inserted into terminal 14 and secured with a screw connection. The load is connected by conductors to the lower contact terminal 15. The shutters 17 and 18 are mounted on the moving parts of the contact terminals 14 and 15 and prevent the erroneous installation of external conductors.

The contact clamp 14 is connected to the fixed contact 12 with the contact solder 11. Next, the movable contact 16 is connected by a flexible conductor to the coil of the electromagnetic release 3, the second terminal of which is connected by a flexible conductor to the bimetallic plate of the thermal release 4. The bimetallic plate is connected by a hard conductor to the load terminal 15.

The electromagnetic release 3 is a solenoid, the movable core of which can actuate the mechanism 6 of the free trip. The short circuit current passing through the switch flows along the solenoid winding and causes the core to retract when the specified threshold is exceeded, which leads to the opening of contacts 12, 16.

The thermal release 4 is a bimetal plate heated by a flowing current. When the current flows above the permissible value, the bimetallic plate bends and activates the free tripping mechanism 6, which leads to the opening of contacts 12, 16.

During the disengagement of the contacts, an electric arc occurs, therefore it is necessary to apply an extinguishing system, which includes: an arcing plate 10, an arcing chamber 9 and an exhaust chamber 7 with flame arresters 8.

When the contacts 12, 16 are opened, the arc propagates along the arcing plate 10, the connection of which with the contact soldering 11 of the fixed contact 12 is made stepless, due to which the smooth passage of the arc without burning out of the metal, which happens with a stepwise connection, is achieved.

Further, the arc falls on the lattices of the arcing chamber 9, in which it is crushed into many small sections. By crushing and transferring heat to the plates of the arcing chamber 9, the arc stops burning, while the exhaust products, particles of molten metal and flame are exhausted into the exhaust chamber 7. The walls of the arrester 8, located at an angle to the arcing chamber 9, deflect the exhaust direction, taking away heat and thus prevent the release of flame, combustion products and particles of molten metal outside the housing of the circuit breaker 1 of a modular design.

Claims (4)

1. The circuit-breaker of modular design, comprising a housing, an electromagnetic release, a thermal release, an arcing system and a free trip mechanism, characterized in that the arcing system contains an exhaust chamber in the cavity of the housing, consisting of at least two parallel arrester, located at an angle to the interrupter chamber. 2. The modular circuit breaker according to claim 1, characterized in that the flame arrester is made in the form of partitions protruding from both parts of the housing, with grooves for tight connection. 3. The modular circuit breaker according to claim 1, characterized in that the connection of the arc outlet plate and the contact soldering of the fixed contact is made stepless. 4. The modular circuit breaker according to claim 1, characterized in that it contains an indicator of the status of contacts.

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