RU194211U1 - Circuit Breaker Free Release - Google Patents

Abstract

The utility model relates to electrical engineering, in particular to the mechanisms of free uncoupling of low-voltage circuit breakers, which ensure that the contact system trips and trips when currents exceeding normal for a given switching device occur. A technical problem that can be solved by implementing the utility model is the creation of an automatic uncoupling mechanism circuit breaker providing reliable connection of nodes with relative simplicity of design. Technical result: elimination of mechanical failures in operation and simplification of the design. To achieve a technical result, the free trip mechanism of the circuit breaker contains a trip rail, a cocking mechanism base, a cocking lever located between the side surfaces of the cocking mechanism base, a handle connected to the cocking lever, according to the utility model between the side struts of the cocking lever on the axis is fixed a lever connected to an axis fixed in a holder with movable contacts, and between the side the mounting axis is fixed on the surfaces of the base of the platoon mechanism, on which the engagement lever is fixed, while on the same axis of attachment between the engagement lever and the side surface of the base of the platoon mechanism, a bracket is installed that limits the movement of the engagement lever along this axis of attachment, while the engagement lever is fixed on the axis fastening through two holes provided in its base, and the bracket is also fixed to the axis of fastening through two holes provided in its base. 6 ill.

Description

The utility model relates to electrical engineering, in particular to the mechanisms of free uncoupling of low-voltage circuit breakers, which ensure the release and disconnection of the contact system in the event of currents exceeding normal for a given switching device.

The known mechanism of free uncoupling of a circuit breaker according to the patent for utility model RU 157722 (publ. 10.12.2015). This free trip mechanism comprises a cocking handle, an articulated articulated lever associated with it, power springs, movable contacts, and a reset rail. The mechanism is also equipped with movable and fixed units interconnected by means of a detachable swivel joint and a fixing unit for movable power contacts, an axis of rotation of the power contact mechanism and an engagement lever mounted on the movable axis, while the articulated-articulated arm is rigidly interconnected by a fixed axis plates, and the fixation unit for the movable power contacts contains plates of the articulated-articulated lever fixed from the side of the movable power contact on the axis of rotation of the mechanical isma of power contacts and from the side of the movable unit of the free trip mechanism on the movable axis of the gear lever, the stationary node of the free trip mechanism made with the possibility of placement and fastening in the case of the circuit breaker using threaded connections and equipped with two side racks connected to each other by the fixed axis, fixed on the axis of rotation with the possibility of interaction with the reset rail bracket, the axis of engagement, the gear lever with the axis of rotation of the gear lever I and the axis of the platoon of the gearing lever, as well as the axial protrusions rigidly fixed on the side posts and made of copper-containing material with the catch of the discharge rail, while the movable assembly of the free trip mechanism is made in the form of a two-shouldered U-shaped lever, is equipped with seats for attaching power springs and is installed with the possibility of supporting its rounded recesses on the grooves of the axial protrusions of the fixed unit, and the power springs are made in the form of tensile springs and are fixed on one side to the crankshaft axis the swivel-arm, on the other hand - for a place in a double-arm spring attachment U-shaped lever.

A disadvantage of the known device is the complexity of the design of the mechanism.

The known mechanism of free uncoupling of a circuit breaker according to the patent for utility model RU 159211 (publ. 02/10/2016). This free trip mechanism comprises a trip rail, a handle connected to a lever, side racks connected by an axis and a bracket mounted between them on the axis of rotation. In this case, the axis connecting the side struts is fixed, the bracket is made with jumpers and equipped with an engagement axis installed in it, the axis of rotation is equipped with two spirally wound springs mounted on it, made to hold the brackets in the disconnected position, while one end of each of the springs is made with the possibility of interaction with the jumper of the bracket, and the other end of each of the springs is made with the possibility of interaction with a fixed axis, and the disconnecting rail is made with a ledge with the possibility of Interaction of from bracket axle and engagement adapted to engage with the lever associated with the handle.

This well-known solution is selected by the applicant as a prototype of a utility model.

The disadvantages of the known device are low reliability when the mechanism is triggered, since the supply of the axis of rotation with two springs helically wound on it and made to hold the brackets in the off position increases the likelihood of failure of the mechanism due to possible breakdown of the springs.

The technical problem, the solution of which is provided by the implementation of the utility model, is the creation of a free trip mechanism for a circuit breaker that provides reliable connection of nodes with a relative simplicity of design.

Effect: elimination of mechanical failures in the work and simplification of the design.

To achieve a technical result, the free-trip mechanism of the circuit breaker comprises a trip rail, a cocking mechanism base located between the side surfaces of the cocking mechanism base, the cocking lever, a handle connected to the cocking lever, while according to a utility model, a lever connected to the axis is connected between the side struts of the cocking lever with an axis fixed in a cage with movable contacts, and between the side surfaces of the base of the platoon mechanism, a fastening axis is fixed on which the engagement lever is fastened, while on the same axis of attachment between the engagement lever and the side surface of the base of the cocking mechanism, a bracket is installed that restricts the movement of the engagement lever along this axis of attachment, while the engagement lever is fixed to the axis of attachment through two holes provided in its base, and the bracket is also fixed to the axis of attachment through two holes provided in its base.

The fastening of the engagement lever on the axis of attachment through two holes provided in its base excludes the mobility of the engagement lever in a plane perpendicular to the axis of attachment. This in turn eliminates mechanical failures, such as premature circuit breaker tripping.

 The exclusion of the displacement of the engagement lever along the axis of attachment due to its restriction on the one hand by the bracket, and on the other side by the side surface of the base of the cocking mechanism, excludes the mobility of the engagement lever along the axis of attachment. This in turn also eliminates mechanical failures, such as premature circuit breaker tripping.

The fastening of the bracket restricting the movement of the engagement lever on the axis of attachment through two holes provided in its base eliminates the displacement of the bracket in a plane perpendicular to the axis of attachment, and, therefore, excludes the displacement of the engagement lever.

The consequence of this design of the platoon mechanism is to reduce the likelihood of mechanical failures and increase the reliability of the apparatus.

The implementation of the base of the gearing lever in a shape close to a U-shaped, increases the rigidity and strength of the gearing lever, increasing the reliability of the mechanism under shock loads.

The essence of the proposed technical solution is illustrated by drawings, which depict:

FIG. 1. General view of the mechanism of free trip;

FIG. 2. The mechanism of free trip with a partial cut;

FIG. 3. The mechanism of free tripping with a partial section;

FIG. 4. gearing lever;

FIG. 5. A bracket restricting the movement of the gear lever.

FIG. 6. The mechanism of free trip. Back view.

The free trip mechanism of the circuit breaker includes a trip rail 1, the base of the cocking mechanism 2, located between the side surfaces 3 of the base 2, the cocking lever 4 (Fig. 1-3).

The base of the platoon mechanism 2 is made of an arched structure, and its flat side surfaces 3 have a profile of complex configuration with recesses enveloping the structural elements of the mechanism, and protrusions for fixing the axes on which the structural elements of the mechanism are mounted.

The cocking lever 4 has a handle associated with it (without a position number in the drawings).

Between the side posts 5 of the cocking lever 4 on the axis 6, a lever 7 is fixed, connected to the axis 8, mounted in a holder 9 with movable contacts 10.

Between the side surfaces 3 of the base of the platoon mechanism 2, a steel axis of attachment 11 is fixed on which the steel gear lever 12 is fixed. On the same axis of the mount 11 between the gear lever 12 and the side surface 3 of the base of the platoon mechanism 2 there is a steel bracket 13 restricting the movement of the gear lever 12 along the axis of the mount 11.

The engagement lever 12 has a locking protrusion, and its base has a shape close to a U-shaped. The engagement lever 12 is fixed to the axis of attachment 11 through two holes 14 provided in its base (Fig. 4).

The shift of the engagement lever 12 along the axis of attachment 11 is limited on one side by the bracket 13, and on the other hand by one of the side surfaces 3 of the base of the cocking mechanism 2. Moreover, the bracket 13 (Fig. 5), restricting the movement of the engagement lever, has a complex shape and is fixed on the axis of the mount 11 through two holes 15 provided in its base.

A lever 7 and a current-insulating clip 9 made of rectoplast are fixed on the axis 8. The lever 7 covers the middle movable contact 10, and the axis 8 is placed under the middle movable contact 10. The movable contacts 10 are fixed in a cage on the axis. The platoon lever 4 is equipped with two tension tension springs 16 fixed on one side to the axis 6, and on the other hand, to the holes 17 made in the platoon lever 4.

Plates 18 are also fixed on the axis 6, between which a gearing lever 12 is placed.

In the holes made in the side posts 5 of the cocking lever 4, the axis 19 is fixedly fixed, serving as a stop for the base of the gearing lever 12 in the “on” position.

In the holes made in the protrusion of the side surfaces 3 of the base of the platoon mechanism 2, an axis 20 is fixedly mounted on which a trip bracket 21 with a lever 22 is mounted, which interacts with the protrusion 23 of the trip rail 1 (Fig. 6).

In the holes made in another protrusion of the side surfaces 3 of the base of the platoon mechanism 2, the axis 24 is fixedly fixed on which the engagement bracket 25 is mounted, made with an opening for receiving the locking protrusion of the engagement lever 12 therein.

The mechanism of free trip works as follows.

The circuit breaker is turned on manually by transferring the handle fixed to the cocking lever 4. During the cocking, the power springs 16 are stretched, while the engagement lever 12 is rotated, and its locking protrusion engages with the hole of the engagement bracket 25. In this case, the power springs 16 transmit their forces on the axis 6, causing the rotation of the lever 7 fixed on the axis 6, which drives the movable contacts 10.

The movable contacts 10 due to rotation on the axis are closed with the fixed contacts (not shown in the drawing).

With automatic shutdown, in the event of short circuits, overloads, shutdown is performed by acting on the trip rail 1 of the adjusting screws of the bimetal plate of the thermal release 26 (Fig. 6).

When the circuit breaker is automatically turned off, the locking protrusion of the engagement lever 12 is released, the power springs 16 return the cocking lever 4 to its original position. In this case, the lever 7, mounted on the axis 6, rotates, entraining the movable contacts 10. The movable contacts 10 open with the stationary ones, and the device turns off.

Thus, the free trip mechanism is a system of levers, axles and springs through which the moment applied to the cocking lever handle is transmitted to the axis of the contact holders of the movable contacts. The design of the mechanism is relatively simple and reliable.

The engagement lever is fixed to the axis of attachment through two holes provided in its base. This eliminates the mobility of the engagement lever in a plane perpendicular to the axis of attachment.

The displacement of the engagement lever along the axis of attachment is limited by a bracket mounted on the same axis of attachment between the engagement lever and the side surface of the base of the cocking mechanism.

The consequence of this design of the platoon mechanism is to increase the reliability of the connection of the nodes of the mechanism, reduce the likelihood of mechanical failures and increase the reliability of the apparatus.

The presence in the design of the mechanism of the clutch clutch interacting with the locking protrusion of the clutch lever prevents wear of the trip rail, reducing the likelihood of mechanical failures and increasing the reliability of the mechanism.

The implementation of the base of the gearing lever in a shape close to a U-shaped increases the rigidity and strength of the gearing lever, increasing the reliability of the mechanism under shock loads.

The implementation of the base of the platoon mechanism of the arch structure, and the platoon lever with a U-shape increases the strength and rigidity of the structure, reducing the likelihood of mechanical failures and increasing the reliability of the mechanism.

Thus, the problem of creating a mechanism for the free trip of the circuit breaker, providing a reliable connection of nodes and the elimination of mechanical failures in operation with the relative simplicity of the design is solved.

Claims (1)

A free trip mechanism of a circuit breaker comprising a trip rail, a cocking mechanism base located between the side surfaces of the cocking mechanism base of the cocking lever, a handle associated with the cocking lever arm, characterized in that a lever connected to an axis fixed to the axis a cage with movable contacts, and between the side surfaces of the base of the platoon mechanism, a fastening axis is fixed on which the engagement lever is fixed, and on the same axis between the engagement lever and the side surface of the base of the platoon mechanism, a bracket is installed restricting the movement of the engagement lever along this axis of attachment, while the engagement lever is fixed to the axis of attachment through two holes provided at its base, and the bracket is also fixed to the axis of attachment through two holes, provided for in its basis.

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