RU24598U1 - CIRCUIT BREAKER - Google Patents

Description

g a; about.; t 1: -I Н01Н 73/48

CIRCUIT BREAKER

The utility model relates to the field of electrical engineering and can be used in the design of circuit breakers designed to start and. shutdown of electrical installations, including electric motors and electric generators.

A circuit breaker is known comprising a housing in which a contact assembly is located, consisting of a fixed contact mounted on an electromagnetic release system and a movable contact connected to a trip lever, a free trip assembly consisting of a handle connected via a link to the trip lever and disconnecting rails, providing the possibility of breaking the electric circuit during current overloads (1).

The disadvantage of the device (1) is the low mass - dimensional indicators due to the significant dimensions of the electromagnetic release. The closest device to this utility model is a circuit breaker containing at least one module, the housing and the cover of which is made of insulating material, a spring-loaded rotary handle mounted pivotally connected to a spring-loaded rod, a spring-loaded release unit with a spring assembly the impact of one of its ends on a movable contact lever mounted on an axis, the contact surface of which serves to close with the contact surface the fixed contact placed on the system of the electromagnetic release, made with the possibility of impact on the trip rail when it is triggered, while the trip rail mounted on its axis is connected to the thermal release and is configured to provide an impact on the movable contact lever in the direction of its opening with fixed contact when triggered by either a thermal release or electromagnetic release, an arcing chamber, input terminals (2). In the known device, the connection of the rotary handle with a movable contact is carried out by means of a spring-loaded rod, a trip lever and an additional traverse with a corresponding spring assembly. The presence of a traverse with a spring assembly complicates the design. A disadvantage of the known technical solution (2) is low reliability due to the complexity of the design and the insufficient level of tokonominalnoy ability.

by simplifying the design and increasing the level of current rated capacity.

A positive result is achieved due to the fact that in the circuit breaker containing at least one module, the housing and the cover of which are made of insulating material, a spring-loaded rotary handle is installed in the housing,. pivotally coupled to a spring-loaded rod, spring-loaded spring assembly, a release lever mounted with the possibility of one of its ends acting on a movable contact lever mounted on an axis, the contact surface of which serves to close a fixed contact placed on the contact surface placed on an electromagnetic release system, configured to impact on the trip rail when it is triggered, while the trip rail, mounted on its axis, is connected with a thermal trip it and is made with the possibility of acting on the movable contact lever in the direction of its opening with the fixed contact when either the thermal release or the electromagnetic release is activated, the arcing chamber, input terminals (2), the release lever is installed with the ability to engage its second end with a spring-loaded traction, the indicated connection of the trip rail with the thermal release is carried out using a bracket, one end attached to the trip rail, and the other end placed in two x guides made on the inner surface of the housing, while the thermal release is installed with the ability to move the bracket when it is triggered, and the contact surfaces of the movable contact lever and the fixed contact are made in the form of separate plates of conductive material, while in the trip rail there is a place for installing additional axis used to connect to other trip rails for multi-module design, and a recess used to move the trip rail additionally itelnoy axis adjacent module rack when multimodule breaking performance, said plates can be made of an alloy containing silver.

In addition, additional (N-1) can be maintained, where N is the number of switched poles, identical modules to form a single unit, while the disconnecting rails of all modules are connected to each other by additional axes passing through the technological grooves made in the covers and cases, and the handles of all modules are fixed on one common.

The drawing shows a structural diagram of the device. The device consists of at least one module, the housing and the cover of which are made of insulating material, a spring-loaded rotary handle 1 mounted on a cone is installed in the housing.

made on the inner surface of the housing. The rotary handle 1 is pivotally connected to the spring-loaded rod 2. The release lever 4, spring-loaded by the spring assembly 3, is mounted with the possibility of acting on one of its ends on the movable contact lever 5, and its second end engages with the rod 2. The contact lever 5 is mounted on the axis 6, its contact surface, made in the form of a separate conductive plate of an alloy containing silver, serves to close with a fixed contact 7, the contact surface of which is made similarly. The movable contact 7 is mounted on the magnetic system of the electromagnetic release 8, configured to act on the trip rail 10 fixed on the axis 9 when it is triggered. The disconnecting rail 10 is connected to the thermal release 11, made in the form of a bimetallic plate, by means of a bracket 12. One end of the bracket 12 is attached to the rail 10, and the other end is installed in two guides made on the inner surface of the housing. The adjusting screw 13 connected to the thermal release 11, allows you to change the gap between the plate of the thermal release 11 and the bracket 12. The disconnecting rail 10 is configured to provide impact on the movable contact lever 5 in the direction of its opening with a fixed contact 7 when the electromagnetic or thermal releases. The spring assembly 3 is connected on one side with a stop fixed in the housing and, on the other hand, with a trip lever 4. In the trip rail 10, a place is provided for mounting an additional axis, which is used to connect to other trip bars, and a reciprocal recess in the form of a window, which serves to move the trip rail 10 with the additional axis of the rail of the adjacent module (with multi-module design) in case of current overload in at least one module. The device operates as follows.

When the handle 1 is turned into position, the spring-loaded rod 2 presses on the end of the release lever 4, which, in turn, is pressed by the spring assembly 3, presses on the contact lever 5, the contact surface of which is pressed against the fixed contact 7. An electric circuit passing from one input output through an electromagnetic release 8, closed movable and fixed contacts, thermal release 11 - to another input terminal, closes. When the handle 1 is turned to the off position, the release lever 4, under the action of the spring assembly 3, presses on the contact lever 5, which opens the electric circuit. The device can also break the electric circuit regardless of the position of the handle 1. This occurs when the electromagnetic release 8 (for short-circuit currents) or the thermal release 11 (for overload currents) operating the trip rail 10 is activated. Rail 10

It is installed in such a way that when this or that release is exposed to it, it moves around its axis 9 and its end, on which there is a protrusion, disengages the link 2 and the release lever 4, thereby deflecting the movable contact lever 5 from the fixed contact 7 and unlocking. current path circuit. The electromagnetic release 8 is configured for a certain value of the trip current, upon reaching which its pusher acts on the trip rail 10, opening the contact system. The thermal release 11 is a bimetallic plate, also configured for a certain value of the operating current, upon reaching which the plate, bending, presses on the bracket 12, which, moving, pulls the rail 10, opening the contact system. The arcing chamber is used to extinguish an electric arc at a short-circuit current higher than 100 A. In a multi-pole design with an N-number of poles, identical modules are combined into one unit, and the disconnecting rails are connected to each other using additional axes. Each of the additional axes mounted in the rails 10 is passed through the technological grooves in the covers and housings and installed in the existing recesses of the rails of adjacent modules, due to which, when one of the rails is triggered (at overload or short circuit currents), the rails of the remaining modules synchronously operate and therefore, the opening of all circuits.

This device, due to the simplicity of design and the execution of contact surfaces in the form of individual plates of an alloy containing silver, is characterized by a high level of current rated breaking capacity and increased reliability, which is especially important when used in various electrical installations.

Compiler of the description: Ershova T. V. Sources of information taken into account when compiling the description:

SU 1753510, H 01 H 73/48, 1992. RU 2115975, H 01 H73 / 48, 1998.

Claims (3)

1. A circuit breaker comprising at least one module, the housing and the cover of which is made of insulating material, a spring-loaded rotary handle mounted pivotally connected to a spring-loaded rod, a spring-loaded spring assembly with a trip lever mounted to engage one of its ends on a movable contact lever mounted on an axis, the contact surface of which serves to close the stationary contact placed on the electronic system with the contact surface a magnetic release configured to act on the trip rail when it is triggered, while the trip rail mounted on its axis is connected to the thermal release and is configured to provide an action on the movable contact arm towards its opening with a fixed contact when triggered or thermal release or electromagnetic release, arcing chamber, input terminals, characterized in that the release lever is installed with the ability to engage in the WTO With its spring-loaded end, the indicated connection of the trip rail to the thermal release is made using a bracket, one end attached to the trip rail, and the other end placed in two guides made on the inner surface of the housing, while the thermal release is installed with the ability to move the bracket when its operation, and the contact surfaces of the movable contact lever and the fixed contact are made in the form of separate plates of conductive material, while in the disconnecting eyke space for installing additional axis serving for connection to other rails when disconnecting multimodule performance, and penetration, which serves to move the axis of the tripping rack additional tripping rack adjacent module when multimodule performance.  2. The circuit breaker according to claim 1, characterized in that said plates are made of an alloy containing silver. 3. A circuit breaker according to any one of claims 1 to 3, characterized in that N-1 is additionally introduced, where N is the number of switched poles, identical modules with the formation of a single unit, while the trip rails of all modules are connected to each other by additional axes passing through the technological grooves made in the covers and cases, and the rotary handles of all modules are fixed on one common.