RU142045U1 - CIRCUIT BREAKER - Google Patents

Abstract

1. A circuit breaker comprising a housing, control buttons, free trip mechanism, movable and fixed contacts, a contact beam, a trip rail, thermal and electromagnetic releases, arcing chambers, characterized in that the free trip mechanism is installed across the main circuit between the thermal release unit and a block of electromagnetic releases above the system of movable and the system of fixed contacts, the system of fixed and movable bridge contacts are located in the lower part switch case, each of the fixed contacts is made in the form of a sleeve with an internal thread placed in the protrusion hole in the middle part of the case, a release is fixed to each of the above bushings from the upper side by means of a bolt, and a bolt is fixed from the lower side, which serves to interact with one of the movable bridge contacts, and the contact beam with a system of movable bridge contacts is placed parallel to the rows of fixed contacts and is coupled to the lever for controlling the movable contacts and free tripping by means of the shaft of fastening of movable contacts. The circuit breaker according to claim 1, characterized in that the contact beam is made in the form of an insulator plate, in the windows of which parallel bridge contacts spring-loaded upwards are installed parallel to each other. 3. The circuit breaker according to claim 1, characterized in that the arcing chambers are installed in slots of insulating material, made in the lower part of the housing on both sides of each movable bridge contact.

Description

The utility model relates to electrical engineering, in particular to circuit breakers and can be used in power supply facilities to turn off overload current and short circuits, as well as for quick switching on and off of electrical circuits.

According to patent RU 2235381, a contact-extinguishing device is known that contains an arcing chamber, current-carrying tires, the longitudinal axis of symmetry of which lie in the same plane, a bridge contact system, movable contacts of which are located in the crosshead windows along the longitudinal axis of symmetry of the current-carrying tires, at least one constant magnet, where the permanent magnet is mounted directly on the traverse under the bridge of movable contacts so that the resulting magnetization vector of the permanent magnet is oriented perpendicular the longitudinal axis of symmetry of the current-carrying busbars and the bridge of movable contacts.

A disadvantage of the known device is the design complexity of the contact system using magnets.

Closest to the claimed technical solution is a circuit breaker known according to the patent RU 65294, comprising a case with a cover, electromagnetic overcurrent releases, at least one free trip mechanism with a handle and brackets having a thrust protrusion and mounted on a common traverse, a contact system consisting of fixed contacts in the form of a loop and movable contacts with contact pressing springs fixed on the axes and mounted with the possibility of rotation on another axis passing through the brackets of the free trip mechanism, an arcing system in the form of chambers installed in the housing, fixed by a cover and containing side walls of electrical insulation material, between which metal plates are formed and rigidly connected to them, forming a deionic lattice bounded on the handle side by a curved metal plate, also rigidly connected to the walls of the chamber, while the end of the specified plate facing the free trip mechanism has a limb towards the movable contact a, and the bent end of the plate serves as an abutment for the movable contact when the mechanism of free tripping.

The disadvantages of the known device are large dimensions, high metal consumption and design complexity.

The technical result of the claimed utility model is to reduce dimensions, reduce metal consumption and simplify the design of the product.

The technical result is achieved by the fact that in a circuit breaker comprising a housing, control buttons, a free trip mechanism, movable and fixed contacts, a contact beam, a trip rail, thermal and electromagnetic releases, arcing chambers, according to a utility model, a free trip mechanism is installed across the main circuit between the thermal release unit and the electromagnetic release unit above the movable system and the fixed contact system, the fixed and movable systems bridge contacts are located in the lower part of the circuit breaker case, each of the fixed contacts being made in the form of a sleeve with an internal thread placed in the protrusion hole in the middle part of the case, a trip unit is fixed to each of the above bushings from the upper side by means of a bolt, and is fixed from the lower side a bolt that serves to interact with one of the movable bridge contacts, and the contact beam with a system of movable bridge contacts is placed parallel to the rows of fixed contacts and is coupled to the lever Agom controlling the movable contacts of the free trip mechanism by means of a shaft for fastening the movable contacts.

The contact beam is made in the form of an insulator plate, in the windows of which parallel bridge contacts spring-loaded upwards are installed parallel to each other.

Arcing chambers are installed in slots of insulating material, made in the lower part of the housing on both sides of each movable bridge contact.

The location of the trip units on both sides of the free trip mechanism, as well as the location of the system of movable and fixed contacts in the lower part of the housing, allows the free trip mechanism to be positioned across the main circuit, which reduces the size of the circuit breaker, reduces metal consumption and simplifies the design due to the exclusion of long live parts.

The location of the free tripping mechanism across the main circuit allows you to set the contact beam connected to it via a shaft with a bridge contact system parallel to the rows of fixed contacts, which ensures the correct interaction of moving and fixed contacts on both sides of the contact beam and reduces the dimensions of the device.

The implementation of the protrusions in the middle part of the switch housing allows you to simply and compactly place the fixed contacts in them.

The execution of fixed contacts in the form of bushings with an internal thread placed in the holes in the middle part of the housing, with bolts screwed on the upper side for mounting the releases, and on the lower side with bolts used to interact with one of the movable bridge contacts, ensures the coupling of each contact of the maximum release through the sleeve and the bolt screwed into it, which serves as a contact, directly with the system of movable contacts, excluding current-carrying tires from the design, thereby simplifying the design and reducing abarity products.

The implementation of the contact beam in the form of an insulator plate, in the windows of which parallel-mounted bridge contacts spring-loaded upward, allows interaction with fixed contacts from bottom to top, which makes it possible to stir the system of movable contacts in the lower part of the circuit breaker housing, under the system of fixed contacts and makes the device more compact.

The placement of the arcing chambers in the grooves of insulating material, made in the lower part of the housing on both sides of each movable bridge contact, allows for efficient arcing without increasing the dimensions of the device.

The claimed system of layout and relative positioning of the structural elements of the circuit breaker allows you to create a simple and compact device, with smaller than the known analogues, dimensions.

The essence of the claimed utility model is illustrated in the figure:

In FIG. 1 shows a general view of a circuit breaker.

A circuit breaker comprising a case, control buttons 1, free trip mechanism 2, movable 3 and fixed 4 contacts, contact traverse 5, trip rail 6, thermal 7 and electromagnetic 8 releases, arcing chambers 9, where the free trip mechanism 2 is installed across the main circuit between the block of thermal 7 releases and the block of electromagnetic 8 releases above the system of movable 3 and the system of fixed 4 contacts, the system of fixed 4 and movable 4 bridge contacts are located in the lower part of switch housing, wherein each of the fixed 4 contacts is made in the form of a sleeve with an internal thread placed in the hole of the protrusion 10 in the middle part of the housing, a trip unit 7 or 8 is fixed to each of the above bushes by means of a bolt, and a bolt is fixed from the lower side , which serves to interact with one of the movable 3 bridge contacts, and the contact beam 5 with a system of movable 3 bridge contacts is placed parallel to the rows of fixed 4 contacts and is coupled to the lever 11 for controlling the movable contacts ami 3 of the mechanism of free trip 2 through the shaft 12 of the mounting of the movable contacts. The contact traverse 5 is made in the form of an insulator plate, in the windows of which parallel-mounted bridge contacts 3 are mounted parallel to each other, arcing chambers 9 are installed in slots of insulating material, made in the lower part of the housing on both sides of each movable bridge contact.

The circuit breaker has a group of additional contacts, which makes it possible to switch a secondary circuit.

When the circuit breaker is turned on through the free trip mechanism, movable and fixed contacts are closed. When overcurrent flows through one of the maximum current releases, an action is taken on the trip rail, as a result of which it rotates around its axis, exerting pressure on the release lever of the free trip mechanism. The free tripping mechanism is triggered, the movable and fixed contacts are disengaged, the circuit breaker is tripped.

Claims (3)

1. A circuit breaker comprising a housing, control buttons, free trip mechanism, movable and fixed contacts, a contact beam, a trip rail, thermal and electromagnetic releases, arcing chambers, characterized in that the free trip mechanism is installed across the main circuit between the thermal release unit and a block of electromagnetic releases above the system of movable and the system of fixed contacts, the system of fixed and movable bridge contacts are located in the lower part switch case, each of the fixed contacts is made in the form of a sleeve with an internal thread placed in the protrusion hole in the middle part of the case, a release is fixed to each of the above bushings from the upper side by means of a bolt, and a bolt is fixed from the lower side, which serves to interact with one of the movable bridge contacts, and the contact beam with a system of movable bridge contacts is placed parallel to the rows of fixed contacts and is coupled to the lever for controlling the movable contacts and free tripping by means of a shaft of fastening of mobile contacts. 2. The circuit breaker according to claim 1, characterized in that the contact beam is made in the form of an insulator plate, in the windows of which parallel bridge contacts spring-loaded upwards are installed parallel to each other. 3. The circuit breaker according to claim 1, characterized in that the arcing chambers are installed in slots of insulating material, made in the lower part of the housing on both sides of each movable bridge contact.

Images