KR102535348B1 - Pressure trip apparatus of molded case circuit breaker - Google Patents

Abstract

The present invention relates to an AV trip device for a wiring circuit breaker capable of increasing operation reliability of a circuit breaker by reducing return defects without reducing the speed of an AV trip operation in the event of an accident, which includes a housing having an inlet on one side; a shooter rotatably installed inside the housing and rotated in one direction by a gas flow introduced into the housing; a first elastic member having one end supported by the housing and the other end contacting and elastically supporting one side of the shooter; and a second elastic member having one end fixed to the housing and applying an elastic force when the shooter contacts the housing.

Description

Circuit breaker pressure tripping device {PRESSURE TRIP APPARATUS OF MOLDED CASE CIRCUIT BREAKER}

The present invention relates to an over-trip device for a wiring circuit breaker installed in a wiring circuit breaker and operating a trip bar to operate an opening/closing mechanism of the circuit breaker.

1 shows a wiring circuit breaker according to the prior art, when a fault current occurs, the contacts are separated from each other by the repulsive force between the contacts of the mover and the stator, and at this time, an arc is generated between the opened contacts, and a high pressure A gas flow occurs. The gas flow F having a high pressure generated by the arc is supplied to the inside of the AP trip device 2 through an inlet 12 formed in the housing 11 of the A trip device 2 .

The introduced gas flow (F) momentarily pushes one side of the shooter (13) so that the shooter is rotated around the pin part (14), and the other side of the shooter operates the trip bar (3) to operate the opening and closing mechanism part (4). By doing so, the cutoff of the converter can be made.

The gas flow F introduced into the pressure tripping device 2 has a high temperature and high pressure and contains foreign substances, so it accumulates inside the pressure tripping device and soot is generated. Frictional force between the shooter 13 and the housing 11 increases due to the accumulated foreign substances and soot, causing difficulty in operating the shooter and returning it after the operation.

In particular, for return after operation, the spring 15 connected to the shooter 13 induces return, but when foreign substances and soot accumulate excessively, the shooter operates the trip bar 3 and is fixed (caught) at the same time As the shooter fails to return, the trip bar continues to operate, resulting in a failure to insert the circuit breaker. In order to solve this problem, a spring force may be increased, but in this case, the minimum pressure for operating the shooter may be increased, resulting in failure or delay in the operation of the shooter.

(Patent Document 1) KR 1027780 B1

The main object of the present invention is to provide an AV trip device for a wiring circuit breaker capable of increasing operation reliability of a circuit breaker by reducing return failure without reducing the speed of an AV trip operation in the event of an accident.

An pressure trip device for a circuit breaker according to an embodiment of the present invention includes a housing having an inlet formed on one side; a shooter rotatably installed inside the housing and rotated in one direction by a gas flow introduced into the housing; a first elastic member having one end supported by the housing, the other end contacting and elastically supporting one side of the shooter, and returning the shooter to its original position by rotating the shooter in another direction opposite to the one direction; and a second elastic member having one end fixed to the housing and preventing the shooter from being jammed in a gas passage of the housing by applying an elastic force when the shooter contacts the housing.

According to the present invention, it is possible to apply an elastic restoring force to the shooter by adding a second elastic member in addition to the first elastic member. As a result, it is possible to improve the operation reliability of the circuit breaker by effectively reducing the return defect without reducing the speed of the power-trip operation in case of an accident.

1 is a view showing a circuit breaker according to the prior art.
2 is a perspective view illustrating an A-trip device of a circuit breaker according to an embodiment of the present invention.
FIG. 3 is a perspective view of the pressure trip device shown in FIG. 2 viewed from different angles.
4 is an operating state diagram of an AV trip device of a circuit breaker according to an embodiment of the present invention.
FIG. 5 is an enlarged view of portion A of FIG. 4 .

Hereinafter, the present invention is explained in detail through exemplary drawings. In adding reference numerals to components of each drawing, it should be noted that the same components have the same numerals as much as possible even if they are displayed on different drawings.

FIG. 2 is a perspective view showing an AC trip device of a circuit breaker according to an embodiment of the present invention, and FIG. 3 is a perspective view of the A trip device shown in FIG. 2 viewed from different angles. 4 is an operating state diagram of an AV trip device of a circuit breaker according to an embodiment of the present invention.

The AV trip device 10 of the present invention may be disposed and mounted on one side of the circuit breaker 1 (see FIG. 4). The pressure trip device is arranged to operate the trip bar 30 for operating the opening/closing mechanism unit 4 by using arc and gas pressure generated inside the circuit breaker in case of an accident.

As shown in FIGS. 2 to 4 , the pressure tripping device 10 of a circuit breaker according to an embodiment of the present invention includes a housing 20, a shooter 30, a first elastic member 40 and a second An elastic member 50 may be included.

The housing 20 is a structure having a hollow inside and may be formed of an electrical insulator. For example, the housing may include a body and a cover, or a first half 21 and a second half 22 formed substantially symmetrically with each other. This housing not only protects and supports the components installed therein, but also serves to prevent the flow of gas F from flowing out.

An inlet 23 for the gas flow F may be formed on one side of the main body or the first half 21, and a pin 24 for rotatably installing the shooter 30 may be formed on the other side. . The pin part may be disposed to cross the housing in the thickness direction of the housing 10 .

Correspondingly and optionally, an inlet 23 of the gas flow F may be formed on one side of the cover or the second half 22, and on the other side, a coupling groove 25 coupled to the pin portion 24 or , a corresponding pin aligned with and in contact with the pin portion may be formed.

In addition, the housing 20 may include a gas passage 26 formed to communicate with the inlet 23 and guide the introduced gas flow F toward the shooter 30 . The gas passage may be partitioned by a groove provided in the body of the housing or the first half 21 or the second half 22 .

A part of the shooter 30 may be accommodated downstream of the gas passage 26, and the rotation of the shooter is restricted at the downstream end of the gas passage, that is, the end opposite to the inlet 23, and the shooter is separated from the gas passage. A first hooking end 27 (see FIG. 5) may be formed to prevent this.

In the gas passage 26, when a fault current occurs in the wiring circuit breaker 1, the contacts are separated from each other by the repulsive force between the contacts of the mover and the stator, and the high pressure gas flow F generated with the arc It may be introduced through the inlet (23). Then, the gas flow can instantaneously move along the gas passage to push a part of the shooter 30 accommodated downstream of the gas passage.

The shooter 30 may be rotatably installed around the pin unit 24 inside the housing 20 . To this end, a through hole 31 (see FIG. 4) for inserting the pin unit may be formed in the shooter.

However, the coupling between the shooter 30 and the housing 20 is not limited to the above example, and for example, a hole may be formed in the housing and a pin for rotation may be formed in the shooter.

The shooter 30 may include a gas pressure acting portion 32 extending from the through hole 31 toward the gas passage 26 and at least a part of which is accommodated in the gas passage.

The gas pressure actuating unit 32 is movable in the gas flow path by the high pressure gas flow F introduced into the gas flow path 26 through the inlet 23, and accordingly the shooter 30 has a pin portion ( 24) may be rotated in one direction (for example, clockwise in FIG. 4).

A second engaging end 37 (see FIG. 5 ) engaged with the first engaging end 27 of the gas flow path 26 may be formed at an end of the gas pressure acting portion 32 . When the first engaging end of the gas passage and the second engaging end of the gas pressure acting portion meet and contact each other, rotation of the shooter 30 is prevented and the gas pressure acting portion is prevented from being separated from the gas passage.

In addition, the shooter 30 may include a trip bar operation unit 33 extending from the through hole 31 to the other side and contacting the trip bar 3 .

Here, the trip bar 3 is rotatably provided inside the circuit breaker 1, and when rotated in the other direction (for example, counterclockwise in FIG. 4), the circuit breaker 4 is operated to automatically cut off the circuit. It can be done.

When the shooter 30 is rotationally driven by the high-pressure gas flow F, the trip bar operation unit 33 also rotates in one direction and comes into contact with the trip bar 3, and continues to press the trip bar to move in the other direction. it will be able to rotate.

Optionally, the shooter 30 may further include a stopper 34 extending from the through hole 31 and contacting the sidewall of the gas passage 26 . Accordingly, the rotation of the shooter may be restricted after rotating by a predetermined angle by the stopper.

One end 41 of the first elastic member 40 is supported by the housing 20, and the other end 42 contacts one side of the shooter 30, for example, the gas pressure acting portion 32 to elastically support the shooter. can do. When the external force is removed, the first elastic member transmits an elastic restoring force to the gas pressure acting portion to rotate the shooter in the other direction and return the gas pressure acting portion to its original position.

For example, a coil spring may be employed as the first elastic member 40 . In this case, a first support protrusion 28 inserted into one end 41 of the coil spring and supporting the coil spring may be formed on the inner wall of the housing 20, and the gas pressure acting portion 32 of the shooter 30 A second support protrusion 38 inserted into the other end 42 of the coil spring to support the coil spring may be formed.

However, the configuration and arrangement of the first elastic member 40 is not limited to the above example, and for example, the first elastic member may be a torsion spring installed on the pin part 24 for rotation of the shooter 30. . At this time, one end of the torsion spring may be supported by the inner wall of the housing 20 and the other end may be supported by one side of the shooter.

Since the pressure tripping device 10 having such a configuration can trip the circuit breaker 1 more quickly and stably through arc and gas pressure generated by the contact opening, the trip performance of the circuit breaker can be improved.

On the other hand, although the return after operation of the shooter 30 can be induced only with the first elastic member 40, when foreign substances and soot are excessively accumulated, only the spring force of the first elastic member is used to return the shooter to its original position. difficulties arise.

Furthermore, as the shooter 30 moves, foreign substances and soot in the gas passage 26 are collected around the first engaging end 27 of the gas passage or the second engaging end 37 of the gas pressure acting part 32. In this case, A lot of jamming occurs between the shooter 30 and the housing 20, more specifically, between the gas pressure applying unit and the gas flow path, resulting in a failure of the shooter to return.

In addition, if the spring force of the first elastic member 40 is increased in order to solve such a defective return, the minimum pressure for operating the shooter 30 may increase, resulting in failure or delay in the operation of the shooter.

Therefore, the pressure trip device 10 of the circuit breaker according to an embodiment of the present invention prevents the shooter 30 from being caught in the gas flow path 26 of the housing 20 and induces return without reducing the speed of operation. It may include a second elastic member 50 that can be.

The second elastic member 50 may be disposed such that one end 51 is fixed to the housing 20 and an elastic force can be applied when the shooter 30 contacts the housing 20 . The position of the second elastic member can be determined by avoiding a point where a lot of foreign substances and soot are accumulated while the shooter does not interfere with operating the opening/closing mechanism unit 4 by the trip bar 3. For example, the second elastic member may be disposed in the housing so as to contact the opposite side of the second engaging end of the gas pressure applying unit 32 in the shooter.

The second elastic member 50 may include a leaf spring bent at least once. The second elastic member may be made of the same material as the housing 20 and integrally molded, or may be formed of a different material and integrally coupled to the housing by bonding or bolting.

FIG. 5 is an enlarged view of portion A of FIG. 4 . As shown therein, the second elastic member 50 in the form of a leaf spring can be contracted by an instantaneous high pressure, but since it can maintain its original shape, the gas pressure acting portion 32 of the shooter 30 It is effective in avoiding direct contact by moving the second hooking end 37 in the gas passage 26 to the portion where foreign matter and soot are accumulated, for example, mainly to the first hooking end 27 of the gas passage. am.

In addition, one end 51 of the second elastic member 50 is fixed to the housing 20, but the other end 52 is left as a free end so that it can be spaced apart from the gas pressure acting portion 32 of the shooter 30. That is, the second elastic member is arranged so that the elastic force can be applied only when the gas pressure acting part of the shooter moves a certain distance in the gas flow path 26 and then comes into contact with it, so that the spring force of the first elastic member 40 is added to the second elastic member. In spite of adding the spring force of the second elastic member 50, it is possible to improve the return defect without reducing the speed of the shooter's operation.

However, the configuration and arrangement of the second elastic member 40 is not limited to the above example, and a coil spring may be used as the second elastic member, for example. At this time, one end of the coil spring may be fixed to the inner wall of the housing 20 and the other end may be a free end.

Hereinafter, an operation of the AV trip device 10 of a circuit breaker according to an embodiment of the present invention will be schematically described.

In the circuit breaker 1, when a fault current occurs, the contact points are separated from each other by the repulsive force between the contact points of the mover and the stator, and at this time, an arc is generated between the opened contacts, and a high pressure gas flow (F) is generated. . The high-pressure gas flow generated by the arc is supplied to the inside of the AP trip device 10 through an inlet 23 formed in the housing 20 of the A trip device 10 .

The introduced gas flow F is guided toward the shooter 30 along the gas passage 26, and momentarily pushes the gas pressure acting portion 32 formed on one side of the shooter, so that the shooter moves in one direction around the pin portion 24. (e.g. clockwise in FIG. 4).

Due to the movement of the gas pressure applying unit 32 and the rotation of the shooter 30, the first elastic member 40 is contracted. The second elastic member 50 is contracted when the gas pressure acting part moves a certain distance and then comes into contact with it.

Due to the rotation of the shooter 30, the trip bar operating unit 33 formed on the other side of the shooter operates the trip bar 3 and operates the opening/closing mechanism unit 4, so that the circuit can be blocked.

After the external force is removed, the first elastic member 40 and the second elastic member 50 transmit the elastic restoring force to the gas pressure acting portion 32 to move the shooter 30 in the other direction (for example, counterclockwise in FIG. 4). ) and at the same time return the gas pressure acting part to its original position.

In the pressure tripping device 10 of the circuit breaker according to an embodiment of the present invention, the gas pressure acting portion 32 of the shooter 30 is likely to cause foreign matter and soot to accumulate in the gas flow path 26 to cause jamming. By providing the second elastic member 50 that avoids the part and induces a smooth return by adding an elastic restoring force, it is possible to secure performance stability and operation reliability of the circuit breaker.

As described above, according to the present invention, it is possible to increase the operational reliability of the circuit breaker by effectively reducing the return defect without reducing the speed of the power-trip operation in case of an accident.

The above description is merely an example of the technical idea of the present invention, and various modifications and variations can be made to those skilled in the art without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed according to the claims below, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

1: circuit breaker 3: trip bar
4: opening and closing mechanism 10: pressure trip device
20: housing 23: inlet
24: pin part 26: gas flow path
27: first hooking step 28: first support protrusion
30: shooter 31: through hole
32: gas pressure operation unit 33: trip bar operation unit
37: second hooking step 38: second support protrusion
40: first elastic member 50: second elastic member

Claims (7)

A housing with an inlet formed on one side;
a shooter rotatably installed inside the housing and rotated in one direction by a gas flow introduced into the housing;
a first elastic member having one end supported by the housing, the other end contacting and elastically supporting one side of the shooter, and returning the shooter to its original position by rotating the shooter in another direction opposite to the one direction; and
A second elastic member having one end fixed to the housing and applying an elastic force when the shooter contacts to prevent the shooter from being jammed in the gas passage of the housing
A circuit breaker's pressure trip device comprising a.
According to claim 1,
The housing includes the gas passage formed to communicate with the inlet and guide the flow of the introduced gas toward the shooter,
The shooter includes a gas pressure acting portion extending toward the gas passage on one side and at least partially accommodated in the gas passage and moving in the gas passage by a gas flow.
According to claim 2,
A first hooking end is formed at an end opposite to the inlet of the gas flow path,
The pressure-trip device of the circuit breaker having a second engaging end engaged with the first engaging end formed at an end of the gas pressure acting portion.
According to claim 2,
The first elastic member is a coil spring,
A first support protrusion inserted into one end of the coil spring is formed on an inner wall of the housing,
The pressure tripping device of the circuit breaker is formed in the gas pressure acting part to be inserted into the other end of the coil spring.
According to claim 3,
The second elastic member includes a leaf spring bent at least once,
The other end of the second elastic member is a free end and is spaced apart from the gas pressure acting unit,
The pressure-tripping device of the circuit breaker according to claim 1 , wherein the second elastic member is contracted by contacting the other end of the second elastic member after the gas pressure applying unit moves a predetermined distance in the gas passage.
According to claim 5,
When the second elastic member contracts, the second engaging end of the gas pressure acting portion does not directly contact the first engaging end of the gas flow path.
According to any one of claims 1 to 6,
The shooter includes a trip bar operation unit formed to be in contact with a trip bar of a circuit breaker,
When the shooter is rotated in one direction and the trip bar operation part contacts the trip bar, the trip bar is rotated to operate the opening/closing mechanism of the circuit breaker.

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