KR20090055101A - Fixed contact mechanism for circuit breaker - Google Patents

Abstract

A fixed contact mechanism for a circuit breaker is provided to improve a breaking property by increasing separation speed of a fixed arc contact and a movable arc contact through a strength of stability of a spring. The fixed arc contact(309) is connected to a movable arc contact(306) in normal, and it is separated from the movable arc contact in interruption. A guide(311) surrounds the fixed arc contact, and guides the fixed arc contact. An elastic body(313) is stretched in direction of the movable arc contact to accumulate energy in interrupting. If the fixed arc contact is separated from the movable arc contact, the fixed arc contact moves to a reverse direction of the movable arc contact by the energy of the elastic body. The linear motion guide prevents the fixed arc contact moving along the movable arc contact.

Description

Fixed contact mechanism for circuit breaker

The present invention relates to a circuit breaker, and more particularly, the operating force required for extinguishing is increased according to the degree of arc generated between the contacts at the time of interruption. It relates to a fixed arc contact structure for the circuit breaker to increase the.

When a fault occurs in the power system, the fault current must be cut off in order to protect the system and various power devices, and a circuit breaker performs a duty to break the fault current.

1 is a view showing the structure of the breaker of the conventional pure paper extinguishing gas circuit breaker.

Referring to Figure 1, the conventional pure paper arc extinguishing gas breaker of the breaker is the manipulator 101, the connecting rod 102 of the manipulator and the breaker, the piston 103, the cylinder rod 104, the popper cylinder 105, the movable arc It consists of the contact point 106, the 2nd nozzle 107, the 1st nozzle 108, the fixed arc contact 109, and the tank 110. As shown in FIG.

In a conventional circuit breaker having the above configuration, the circuit breaker is closed in the normal state and transmits electricity while passing a rated current (when the stroke is 0). However, once a fault or accident occurs and a fault current reaching about 10 times or more of the normal current flows, the driving coil of the manipulator 101 is excited by the fault current and the electromagnetic force generated in the coil is operated by the manipulator 101. By operating the switch, the manipulator 101 moves the blocking unit as shown in FIG. 2A. When the manipulator pulls the movable part of the breaker (connection rod 102, cylinder rod 104, popper cylinder 105, movable arc contact 106, second nozzle 107 and first nozzle 108) from left to right SF6 gas in the popper cylinder 105 is automatically compressed by the piston 103, as in FIGS. 2B and 2C. Also, as the movable portion moves, as in FIGS. 2B and 2C, the movable arc contact 106 and the fixed arc contact 109 are separated, and an arc 200 is generated between the two arc contacts. The arc 200 is blown with SF6 gas compressed in the popper cylinder 105 to extinguish the fault current, as shown in FIGS. 2D and 2E. This blocking method is called "Paper extinguishing method".

According to the present invention, the operation force required for SOHO is increased according to the degree of arc generated between the contacts at the time of blocking, minimizing the generated arc energy and increasing the operation speed at the time of blocking with the same manipulator that is used. The purpose is to provide.

In order to achieve the above object, the fixed arc contact structure for a circuit breaker according to the present invention is a fixed arc contact is connected to the movable arc contact of the breaker in the normal state and separated from the movable arc contact during the breaking operation; A guide surrounding the fixed arc contact and guiding movement of the fixed arc contact; When the movable arc contact moves in the opposite direction of the fixed arc contact during the breaking operation, the movable arc contact is stretched in the direction of the movable arc contact to accumulate energy, and the accumulated arc contact is separated from the movable arc contact. An elastic body in which the fixed arc contact is accelerated by an energy in a direction opposite to the traveling direction of the movable arc contact; And a linear motion induction part for preventing the fixed arc contact from proceeding further along the movable arc contact when colliding with the guide.

Preferably, the linear motion induction part is connected to the elastic body and when the fixed arc contact is moved to prevent the shaking of the fixed arc contact and performs a function to allow the current to pass through the guide.

Using the present invention can cut the abnormal current with a much smaller operating force than the conventional circuit breaker, and in particular, the amount of arc generation can be significantly reduced, thereby reducing the amount of heat gas that lowers the dielectric strength. Through this effect, an excessively secured insulation distance between the high voltage conductor and the enclosure of the breaker connected to the ground terminal can be reduced, thereby making the breaker small and lightweight. In other words, by reducing the generation time of the arc inevitably generated at the time of interruption, it is possible to reduce the operating force required for arc extinguishing, so that the breaker can be made smaller and lighter. In addition, by using the restoring force by the spring can increase the separation speed of the two contacts without changing the operating force of the manipulator can improve the breaking performance.

3 is a view showing the overall structure of a fixed arc contact structure for a circuit breaker according to an embodiment of the present invention.

The fixed arc contact structure for a circuit breaker according to the embodiment of the present invention includes a fixed arc contact 309, a guide 311, an elastic body 313, and a linear motion induction part 314.

The fixed arc contact 309 is connected to the movable arc contact 306 in the normal state and separated from the movable arc contact 306 in the breaking operation. Guide 311 surrounds the fixed arc contact and guides the movement of the fixed arc contact.

The elastic body 313 is stretched in the direction of the movable arc contact and accumulates energy as the movable arc contact 306 moves in the opposite direction of the fixed arc contact during the blocking operation. The elastic body 313 accelerates the fixed arc contact 306 in a direction opposite to the moving direction of the movable arc contact by the accumulated energy when the fixed arc contact 309 is separated from the movable arc contact 306. do. The elastic body 313 includes a spring.

The linear motion induction part 312 is connected to the elastic body 313 and prevents the shaking of the fixed arc contact 309 when the fixed arc contact moves, and allows a current to flow through the guide 311. Perform. The linear motion induction part 312 also prevents the fixed arc contact 309 from further traveling along the movable arc contact upon collision with the guide 311.

The present invention is different from the conventional PAPER SOHO blocking unit has a guide 311 surrounding the fixed arc contact, there is installed a linear motion induction unit 312 that prevents the shaking of the fixed arc contact 309 therein And an elastic body 313 connected together with the fixed arc contact 309 and the linear motion induction part 312.

Figure 4a is a partial detailed view showing the structure before the start of the breaker operation. When the blocking is started, the movable parts 306, 307, and 308 move in the opposite directions to the fixed arc contact 309 as shown in FIG. 4B. At this time, physical and electrical forces act between the movable arc contact 306 and the fixed arc contact 309. Some force is needed to separate them. Since the elastic body 313 such as a spring has a weaker force to maintain its original shape than the required force, the elastic body 313 is tensioned along the movable part in the direction of the movable part, and the fixed arc contact 309 and the linear motion inducing part 312 are provided. Also moves with the moving part. During this process, energy is accumulated in the elastic body 313 as much as the moving distance, and the two contacts are closely contacted to each other so that the arc does not occur as much as that time. This movement occurs until just before the linear motion induction part 312 collides with the guide 311 as shown in FIG. 4C. After the collision occurs, the fixed arc contact 309 is separated from the movable arc contact 306 as shown in FIG. 4D. By the restoring force of the elastic body 313, the fixed arc contact 309 and the linear motion induction part 312 moves in the direction opposite to the moving direction of the movable part, thereby increasing the relative motion between the two contacts.

The present invention is to block the occurrence of a fault current in the gas blocking unit having a fixed arc contact, a movable arc contact, a gas compression cylinder,

When operating the manipulator for blocking, the fixed arc contact moves a certain distance without separation from the movable arc contact, and the energy is stored in the spring, which is an elastic body connected to the arc contact, and operated by the separating device after a certain distance. When the arc contact and the fixed arc contact is separated, the moving speed of the fixed arc contact is increased by the energy stored in the spring.

Through this process, it is possible to reduce the generation time of the arc inevitably generated at the time of blocking, thereby reducing the operating force required for gas compression to extinguish the arc. In addition, by increasing the moving speed of the fixed arc contact by the stored spring can increase the dielectric strength because the relative moving speed is separated between the contact at the required time with a small operating force.

The fixed arc contact structure for the breaker according to the invention can be applied to a breaker.

1 is a view showing the structure of the breaker of the conventional pure paper extinguishing gas circuit breaker.

2A to 2E are views sequentially showing a fault current blocking operation at a breaker of the pure paper extinguishing gas circuit breaker of FIG. 1.

3 is a view showing the overall structure of a fixed arc contact structure for a circuit breaker according to the present invention.

4A to 4E are diagrams sequentially illustrating a fault current blocking operation at a breaker of the gas circuit breaker according to the present invention.

<Description of the symbols for the main parts of the drawings>

306: movable arc contact

309: fixed arc contact

311: Guide

313: elastomer

314: linear motion guide

Claims (2)

A steady arc contact connected to the movable arc contact of the breaker and separated from the movable arc contact during the breaking operation; A guide surrounding the fixed arc contact and guiding movement of the fixed arc contact; When the movable arc contact moves in the opposite direction of the fixed arc contact during the breaking operation, the movable arc contact is stretched in the direction of the movable arc contact to accumulate energy, and the accumulated arc contact is separated from the movable arc contact. An elastic body in which the fixed arc contact is accelerated by an energy in a direction opposite to the traveling direction of the movable arc contact; And Fixed arc contact structure for a circuit breaker comprising a linear motion induction portion to prevent the fixed arc contact further travels along the movable arc contact when colliding with the guide. The fixed arc of the circuit breaker of claim 1, wherein the linear motion induction part is connected to the elastic body and prevents shaking of the fixed arc contact and conducts current through the guide when the fixed arc contact moves. Contact structure.

Images