RU136232U1 - CIRCUIT BREAKER - Google Patents

Abstract

1. Circuit breaker, comprising a housing with a cover, a mechanism of free trip with a rail and a bracket, which is engaged with the lever of the mechanism of free trip, a contact system with fixed and movable contacts, arcing chambers, characterized in that at least two of a thermomagnetic release unit installed in the corresponding poles and containing a contact terminal, a p-shaped magnetic circuit, a bimetallic plate with an adjusting screw and an arm mounted on the heating bus Tel, with the lever swivel anchor mounted side protrusions into slots on the bracket and a spring biasing the armature to the rotary lever mounted on the pivot arm and the armature kronshteyne.2. The circuit breaker according to claim 1, characterized in that the lever of the rotary armature has a wave-like protrusion for regulating the spring tension. The circuit breaker according to claim 1, characterized in that the rail of the free trip mechanism is common to all poles. The circuit breaker according to claim 1, characterized in that the casing is divided by partitions into cavities according to the number of poles and comprises protrusions for mounting thermomagnetic releases. The circuit breaker according to claim 1, characterized in that the lid is divided by partitions into cavities by the number of poles and has hollow niches for installing additional devices. The circuit breaker according to claim 1, characterized in that the cover has slots for outputting the conductors of additional devices. The circuit breaker according to claim 1, characterized in that the cover contains a linear thrust push button in the form of a button "Test" with

Description

The utility model relates to the field of electrical engineering, in particular, to circuit breakers designed to conduct current in normal mode and to turn off overcurrents during short circuits and overloads, as well as for infrequent operational on and off electrical circuits in three-phase AC networks with voltage up to 400 V frequency 50 Hz.

The closest in technical essence to the proposed utility model is a circuit breaker (RU 84623 U1, H01H 73/48, 07/10/2009), which includes a housing with a cover, a free trip mechanism with a rail and a bracket engaged with a lever of the free trip mechanism, a contact system with fixed and movable contacts and arcing chambers, thermal and electromagnetic releases at each pole, electrically connected, and the connection of the electromagnetic release to the moving contact of the contact system with flexible okkrovoy, while the clutch is engaged with the lever of the mechanism of free uncoupling is carried out through an emphasis, fixedly fixed in the bracket, spring-loaded spring, excluding spontaneous engagement of the bracket with the rack of the mechanism of free uncoupling.

The disadvantage of this circuit breaker is the individual nodes of the thermal and electromagnetic releases, which reduces the sensitivity to the threshold of the electromagnetic release and there is no possibility of adjusting the threshold of protection against short circuit.

The technical result of the utility model consists in combining thermal and electromagnetic releases into a single unit - a thermomagnetic release with the possibility of separately adjusting the response threshold from overload and short circuit currents, which allows to increase the sensitivity of the circuit breaker and expand the range of thresholds from short circuit currents.

The specified technical result is achieved by the fact that in the circuit breaker, which includes a housing with a cover, a mechanism of free trip with a rail and a bracket, which is engaged with the lever of the mechanism of free trip, a contact system with fixed and movable contacts, arcing chambers, according to the utility model, are introduced at least two nodes of the thermomagnetic release installed in the corresponding poles and containing a contact terminal, a p-shaped magnetic circuit, a bimetallic plate with adjustable screw and bracket mounted on the heater bus, a rotary anchor with a lever installed by the side protrusions in the grooves on the bracket and a spring deflecting a rotary anchor with a lever mounted on the lever of the rotary armature and the bracket.

The lever of the rotary armature has a wave-like protrusion for regulating the spring tension, the rail of the free trip mechanism is common for all poles, the housing is divided by partitions into cavities by the number of poles and contains protrusions for installing thermomagnetic releases, the cover is divided by partitions into cavities by the number of poles, has hollow niches for installation of additional devices and slots for outputting conductors of additional devices.

In addition, the cover contains a linear thrust push button, in the form of a “Test” button, with the possibility of direct impact on the rail of the free tripping mechanism, and the arcing chambers are located at each pole of the circuit breaker and consist of a set of metal arcing plates fixed in heat-resistant sidewalls.

In FIG. 1 shows a circuit breaker,

In FIG. 2 shows a circuit breaker without a cover,

In FIG. 3 shows a circuit breaker in section,

In FIG. 4 shows the assembly of a thermomagnetic release,

In FIG. 3 shows the cover of a circuit breaker.

The circuit breaker 1 contains a housing 2 with a cover 3, a free trip mechanism 4 with a common rail 5 and a bracket 6, which engages with a lever 7 of the free trip mechanism 4, a contact system with fixed 8 and movable 9 contacts, interrupter chambers 10, at least two nodes of the thermomagnetic release 11, which are installed in the respective poles 12. The nodes of the thermomagnetic release 11 contain a contact terminal 13, a p-shaped magnetic circuit 14, a bimetallic plate 15 with an adjusting screw 16 and an arm 17 mounted Oval on the heater bus 18, a rotary armature 19 with a lever 20, mounted by the side protrusions 21 in the grooves 22 on the bracket 17 and a spring 23 deflecting the rotary armature 19 with a lever 20 mounted on the lever 20 of the rotary armature 19 and the bracket 17.

The lever 20 of the rotary armature 19 has a wave-like protrusion 24 for regulating the tension of the spring 23, the housing 2 is divided by partitions 25 into cavities by the number of poles 12 and contains protrusions 26 for installing thermomagnetic releases 11, the cover 3 is divided by partitions 27 into cavities by the number of poles 12 and has hollow niches 28 for installing additional devices and grooves 29 for outputting conductors of additional devices.

In addition, the cover 3 contains a linear thrust pusher 30, in the form of a “Test” button, with the possibility of direct impact on the rail 5 of the free-release mechanism 4, and the arcing chambers 10 are located in each pole 12 of the circuit breaker 1 and consist of a set of metal arcing plates 31 fixed in heat-resistant sidewalls 32.

The ability to adjust the threshold when triggered by overload currents consists in changing the relative position of the adjusting screw 16 of the bimetal plate 15 and the rack 5 of the free trip mechanism 4.

The ability to adjust the threshold when triggering from short-circuit currents is carried out by changing the stiffness of the spring 23 and adjusting its tension by reinstalling on the wave-like protrusions 24 of the lever 20 of the rotary armature 19 to provide the necessary attraction of the rotary armature 19 to the U-shaped magnetic circuit 14.

The device operates as follows:

The power conductors are connected to the “Network” terminals of the circuit breaker 1, and the load conductors (not shown in the drawings) are connected to the “Load” terminals. The “Network” terminals are electrically connected by a bus with a fixed 8 contact, then through a movable 9 contact and a flexible conductor to the thermomagnetic release unit 11. The thermomagnetic release node 11 is connected to the “Load” terminals by a bus.

When moving the cocking handle to the on position, moving 9 and fixed 8 contacts are closed and the supply voltage is applied to the load terminals.

When the rated current flows through circuit breaker 1, the device operates in continuous mode.

In case of passage of an overload current exceeding the nominal, the heater bus 18 is heated. The bimetallic plate 15, which is located close to the heater bus 18, is heated and bent towards the rail 5 of the free trip mechanism 4. Next, the adjustment screw 16 of the bimetallic plate 15 acts on the rail 5 of the free trip mechanism 4, which drives the free trip mechanism 4.

When the rack 5 of the free release mechanism 4 is rotated, the bracket 6 is deflected and the lever 7 of the free release mechanism 4 is released from the hole in the bracket 6, which leads to the opening of the movable 9 and fixed 8 contacts. Power is removed from the load.

When passing through the circuit breaker 1 short circuit current, there is an increase in the magnetic field in the u-shaped magnetic circuit 14. In this case, the rotary armature 19 with the lever 20, is attracted to the u-shaped magnetic circuit 14, the lever 20 of the rotary armature 19 rests on the rail 5 of the mechanism 4 of the free disengaging and causing it to turn. When the rack 5 of the free release mechanism 4 is rotated, the bracket 6 is deflected and the lever 7 of the free release mechanism 4 is released from the hole in the bracket 6, which leads to the opening of the movable 9 and fixed 10 contacts. Power is removed from the load.

Thus, by introducing a thermomagnetic trip unit into the circuit breaker, with the possibility of separately adjusting the response threshold from overload and short circuit currents, the sensitivity is increased and the range of thresholds from short circuit currents is expanded.

Claims (8)

1. Circuit breaker, comprising a housing with a cover, a mechanism of free trip with a rail and a bracket, which is engaged with the lever of the mechanism of free trip, a contact system with fixed and movable contacts, arcing chambers, characterized in that at least two of a thermomagnetic release unit installed in the corresponding poles and containing a contact terminal, a p-shaped magnetic circuit, a bimetallic plate with an adjusting screw and an arm mounted on the heating bus Tel, with the lever swivel anchor mounted side protrusions into slots on the bracket and a spring biasing the armature to the rotary lever mounted on a lever arm and pivoting the armature. 2. The circuit breaker according to claim 1, characterized in that the lever of the rotary armature has a wave-like protrusion for regulating the spring tension. 3. The circuit breaker according to claim 1, characterized in that the rail of the free trip mechanism is common to all poles. 4. The circuit breaker according to claim 1, characterized in that the housing is divided by partitions into cavities according to the number of poles and contains protrusions for mounting thermomagnetic releases. 5. The circuit breaker according to claim 1, characterized in that the lid is divided by partitions into cavities by the number of poles and has hollow niches for installing additional devices. 6. The circuit breaker according to claim 1, characterized in that the cover has slots for outputting the conductors of additional devices. 7. The circuit breaker according to claim 1, characterized in that the lid contains a linear thrust push rod in the form of a button "Test" with the possibility of direct impact on the rail of the free trip mechanism. 8. The circuit breaker according to claim 1, characterized in that the arcing chambers located at each pole of the circuit breaker consist of a set of metal arcing plates fixed in heat-resistant sidewalls.

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