KR100817120B1 - Circuit breaker - Google Patents

Abstract

A circuit breaker is provided to remove interference of a movable contactor due to scattering material of an arc by promptly reflecting the arc to an arc extinguishing chamber. A circuit breaker includes a main body(110), a fixed contactor(130), and a movable contactor(150). The main body has a receiving space to form an arc extinguishing chamber(112). The fixed contactor has a fixed contact(131) and forms a current path inside the main body when applying current. The movable contactor has a movable contact(151) contacted with the fixed contact when applying current and reflects an arc generated in a gap between the fixed contact and the movable contact to the arc extinguishing chamber when interrupting current. The movable contactor has a finger(153) of a plate shape and an arc reflecting plate(200) installed in the finger to reflect the arc to the arc extinguishing chamber.

Description

Circuit breaker {CIRCUIT BREAKER}

1 is a perspective view showing the internal configuration of a conventional circuit breaker,
Figure 2 is a perspective view showing only the main body of Figure 1,
3 is a view showing a part of the side of the circuit breaker according to an embodiment of the present invention,
4 is a perspective view showing the arc reflector of FIG.
5 is a perspective view showing the movable contact of FIG.
6 is a side view illustrating an operating state of a circuit breaker according to an exemplary embodiment of the present invention.
** Description of the symbols for the main parts of the drawings **
110: main body 111: bulkhead
112: SOHO 113: Operation Room
113a: recess 115: arc extinguishing device
130: fixed contact 131: fixed contact
150: movable contact 151: movable contact
153: finger 155: lead wire
157: bracket 200: arc reflector
210: coupling portion 220: reflection portion

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a circuit breaker, and more particularly to a movable contactor of a circuit breaker which enables the arc generated at the contact portion to be quickly reflected to the arc extinguishing chamber with the rotation of the movable contactor.
In general, a circuit breaker is a device that protects the converter by detecting and safely cutting off an abnormality in the converter.
In particular, when blocking a large accident current due to a short circuit accident, etc., it is difficult to safely cut off the generated arc without a separate reducing device, so that an arc extinguishing device is provided to reduce the arc.
In this case, in order to secure a high blocking performance, a technique for guiding the extinguishing device in a short time is required.
Hereinafter, a conventional circuit breaker will be described with reference to the accompanying drawings.
1 is a perspective view showing the internal configuration of a conventional circuit breaker, Figure 2 is a perspective view showing only the main body of FIG.
As shown in the drawing, a conventional circuit breaker has a main body 10 in which an arc extinguishing device 15 is installed in a receiving space therein, and has a fixed contact (not shown) to energize the inside of the main body 10. A plurality of movable contactors (50) having a plurality of fixed contactor 30 for forming a converter and a movable contact (not shown) to be in contact with the fixed contact point so as to be movable relative to the fixed contactor (30). It is configured to include.
The partition wall 11 is formed inside the main body 10 so that the plurality of fixed contactors 30 and the movable contactors 50 are arranged to be in contact with and separated from each other, and the arc formed at the contact portion is extinguished. The plurality of arc-extinguishing chambers 12 are formed to be partitioned.
Each of the extinguishing chambers 12 is formed so that one side is opened along the longitudinal direction so that the arc generated at the contact and separation of the contact can be exhausted, and inside the metal member to induce the arc to cool the arc. The extinguishing device 15 in which a plurality of grids (not shown) formed in layers is arranged in layers along the vertical direction is installed.
In addition, the main body 10 is provided with a plurality of operation chambers 13 in which the movable contactors 50 are accommodated, and the operation chambers 13 are disposed on the extension lines of the respective arc-extinguishing chambers 12, respectively. .
The movable contact 50 is rotated so that the movable contact is spaced apart from the fixed contact of the fixed contact 30 so as to block the electric current when an accident current flows in the converter.
The movable contact 50 includes a plurality of fingers 53 having a movable contact selectively contacting the fixed contact of the fixed contact 30 so as to be connected to a rod-side terminal (not shown) into which current is drawn, and a load side. The terminal is coupled to the plurality of fingers 53 is configured to include a bracket 57 to be constrained by a rotation axis (not shown) to be rotated at a predetermined angle.
The plurality of fingers 53 are plate-like, each movable contact is coupled to a corresponding position to selectively contact the fixed contact of the fixed contact 30, and is constrained by a connecting pin (not shown) to rotate integrally, Lead wires 55 are respectively coupled to one side.
Reference numeral 70, which is not described above, is a lever.
Hereinafter, the operation of the conventional circuit breaker having the above-described configuration will be described.
When a very large accident current such as a short circuit accident occurs, the movable contactor 50 is rotated to separate the fixed contact point and the movable contact point by a signal detected inside the circuit breaker, and an arc is generated when the contact point is separated. Is cooled by being led to the grid of the extinguishing device 15 and cooled through and exhausted through an open area formed at one side.
At this time, the factors that can be quickly moved to the arc extinguishing device 15 has an influence such as the pressure by the arc, the magnetic driving force by the magnetization of the magnetic body of the arc extinguishing device (15).
Among them, the arc pressure most influences the moving speed of the arc.
The conventional circuit breaker includes the movable contactor 50 because the extinguishing chamber 12 in which the extinguishing device 15 is installed and the operating chamber 13 in which the movable contactor 50 is installed are positioned on the same line without space. The arc pressure is lost at the same time as the rotation of) and the speed at which the arc moves to the arc extinguishing chamber 12 is lowered, and there is a problem that a considerable amount is lost into the operation chamber 13.
Accordingly, conductive scattering products generated by the arc are adsorbed to each element of the movable contactor 50, thereby adversely affecting the rotation of the movable contactor 50 and deteriorating insulation performance.

The present invention has been made in view of the above problems, and an object thereof is to provide a movable contactor of a circuit breaker that maximizes the arc extinguishing efficiency generated while maintaining the mechanical performance of the movable contactor.

In order to achieve the above object,
The movable contact of the circuit breaker of the present invention comprises: a main body in which an arc extinguishing chamber is formed in an accommodation space therein; A fixed contactor having a fixed contact to make a converter when energized in the main body; A movable contact having a movable contact connected to the fixed contact when energized and reflecting an arc generated in a gap between the fixed contact and the movable contact to the extinguishing chamber when interrupted; It is configured to include.
Hereinafter, the movable contactor of the circuit breaker of the present invention will be described with reference to the drawings.
Figure 3 is a view showing a part of the side of the circuit breaker according to an embodiment of the present invention, Figure 4 is a perspective view of the arc reflector of Figure 3, Figure 5 is a perspective view showing the movable contact of Figure 3, Figure 6 A side view showing an operating state of a circuit breaker according to an embodiment of the present invention.
As shown in the drawings, the circuit breaker according to the present invention has a main body 110 in which an arc extinguishing device 115 is installed in an inner receiving space, and has a fixed contact 131 to energize the inside of the main body 110. A plurality of movable contactor having a plurality of fixed contact 130 for forming a converter, and a movable contact 151 so as to be in contact with the fixed contact 131 is disposed so as to be able to move relative to the fixed contact 130 ( 150).
The partition wall 111 is formed inside the main body 110 to accommodate the plurality of fixed contactors 130 and the movable contactors 150 so as to be in contact with and detachable from each other, and at the two contact portions 131 and 151. A plurality of arcing chambers 112 in which arcs formed are arced are formed to be partitioned.
Each of the extinguishing chambers 112 is formed so that one side is opened along the longitudinal direction so that the arc generated during contact and separation of the contact can be exhausted, and inside the metal member to induce the arc to cool the arc. A plurality of grids (not shown) formed by the extinguishing device 115 is installed in a layered form along the vertical direction.
In addition, the main body 110 is formed with a plurality of operation chambers 113 to accommodate the movable contact 150, the operation chamber 113 is disposed on the extension line of each of the arc chambers 112, respectively. .
At this time, the operation room 113 is formed to have a recess 113a accommodated in the arc reflector 200 to be described later.
The movable contact 150 is rotated so that the movable contact 151 is spaced apart from the fixed contact 131 of the fixed contact 130 so as to block the electric current when an accident current flows in the converter.
The movable contact 150 has a plurality of fingers having a movable contact 151 selectively contacting the fixed contact 131 of the fixed contact 130 so as to be connected to a rod-side terminal (not shown) into which current is drawn. 153, a load-side terminal is coupled and the plurality of fingers 153 is restrained by the rotation axis (A) and the bracket 157 to rotate at a predetermined angle, and the finger 153 is installed in the arc extinguishing chamber when arcing occurs It is configured to include an arc reflector 200 for reflecting to (112).
The plurality of fingers 153 are plate-like, the movable contact 151 is respectively coupled to the corresponding position to selectively contact the fixed contact 131 of the fixed contact 130, the connecting pin (P) to rotate integrally Constrained by, the lead wire 155 is coupled to one side.
The arc reflector 200 has a coupling part 210 coupled to both plate surfaces of the plurality of fingers 153 in a riveting manner, and the movable contact 151 and the bracket 157 at the coupling part 210. ) And a reflector 220 extending in the thickness direction of the movable contact 151.
The coupling part 210 is fixedly installed to surround the plurality of fingers 153 in a 'c' shape so that the arc reflector 200 is integrally rotated with the plurality of fingers 153.
Here, the coupling part 210 may be variously modified without being limited to one embodiment as long as it is a shape that can be stably fixed to the plurality of fingers 153, and in addition to riveting, a snap fastener may be used. ) May be combined.
The reflector 220 is formed to have an optimal width in consideration of the internal space of the operation room 113 and the thicknesses of the plurality of fingers 153 to effectively reflect the arc to the arc chamber 112.
Reference numeral 170, which is not described above, is a lever.
Hereinafter, the operation of the circuit breaker of the present invention having the above-described configuration will be described with reference to FIG. 6.
When a very large accident current such as a short circuit accident occurs, the movable contact 150 is rotated to separate the fixed contact 131 and the movable contact 151 by a signal detected inside the circuit breaker, and an arc occurs when the contact is separated. The arc generated is guided by the grid of the extinguishing device 115 to be cooled and extinguished by exhausting through an open area formed at one side.
At this time, the generated arc can be quickly moved to the extinguishing device 115 by the arc reflector 200 of the movable contact 150.
That is, the arc reflector 200 rotates integrally with the finger 153 and separates the arc extinguishing chamber 112 and the operation chamber 113 from the initial arc generation, and the arc arc as if it were a fan arc extinguishing chamber. Blown into the extinguishing device 115 in the (112).
After a certain period of time by the rotation of the finger 153, the arc chamber 112 and the operation chamber 113 communicate with the arc reflector 200 below, but in general, the arc is generated by the movable contact 151 and the fixed contact. Decreased extinguishing efficiency due to the communication between the extinguishing chamber 112 and the operating chamber 113 is negligible because most of the gaps of the 131 are small when the magnetic resistance is small.
As such, the circuit breaker of the present invention can partition the arc-extinguishing room and the operating room installed in communication with the initial arc generation, and can block the room where the arc generated at the time of contact separation can flow into the operating room.
In particular, the arc reflector can be installed close to the contact portion to increase the arc reflection efficiency, it is possible to maintain the mechanical performance and insulation performance of the movable contact by quickly blowing the arc into the arc chamber using the rapid rotation of the movable contact. The reliability of the device can be improved.

As described above, according to the present invention, by rapidly reflecting the arc generated at the contact portion to the arc-out chamber together with the rotation of the movable contactor, it is possible to improve the reliability of the circuit breaker by eliminating the operation interference of the movable contactor due to the arc flyout. .

Claims (7)

A main body in which an arc chamber is formed in the accommodation space therein; A fixed contactor having a fixed contact to make a converter when energized in the main body; A movable contact having a movable contact connected to the fixed contact when energized and reflecting an arc generated in the gap between the fixed contact and the movable contact to the arc-extinguishing chamber, wherein the movable contact is A plate-like finger having a movable contact selectively contacting the fixed contact of the fixed contactor; The movable contact is configured to include an arc reflector for reflecting the arc generated by the finger generated in the arc chamber; Circuit breaker included. delete The method of claim 1, wherein the arc reflector, Coupling parts provided on both plate surfaces of the finger, A circuit breaker extending from the coupling part in a thickness direction of the movable contact, the reflector being formed between the movable contact and the bracket. The method of claim 3, wherein the coupling portion, The circuit breaker, characterized in that fixed to surround the finger is rotated integrally with the finger. The method of claim 3, wherein the reflector, A circuit breaker, characterized in that the width is formed in consideration of the thickness of the operation chamber and the finger is installed the movable contact to effectively reflect the arc generated when the two contacts are separated into the arc chamber. The method of claim 2, wherein the arc reflector is, Circuit breaker, characterized in that installed between the movable contact of the finger and the bracket. A main body in which an arc chamber and an operation chamber are formed in an interior accommodation space; A fixed contactor having a fixed contact to make a converter when energized in the main body; A movable contact having a movable contact so as to be in contact with the fixed contact and accommodated in the operating room so as to be movable relative to the fixed contact; And The arc contact plate is fixed to the movable contactor can be integrally rotated with the movable contactor, and separates the arc-extinguishing chamber and the operating chamber from the beginning of arc generation and reflects the arc generated at the fixed contact point and the movable contact point to the arc-extinguishing chamber. Circuit breaker.

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