KR930002075Y1 - Circuit breaker - Google Patents

Abstract

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Description

Circuit Breaker Structure

1 is a conventional cross-sectional view.

2 is a cross-sectional view of the present invention.

* Explanation of symbols for main parts of the drawings

1: handle 11: protrusion

12: working spring 2: latch

21: projection 22: groove

3: tripper 32: hole

4: movable contact 5: trip bar

6: bimetal 7: lead wire

8: Terminal 9: Slide Rail

10: adjusting screw 10a: nut

The present invention relates to a circuit breaker structure installed in a distribution board to protect human life and facilities in case of protection of wires and accidents, and in particular, to provide a trip mechanism part and a fastening device that can be operated quickly and accurately during opening and closing of a switch. It is.

Referring to the conventional circuit breaker structure, as shown in FIG. 1, the movable contactor 101 is combined and connected to the handle 100, and the latch 102 is fixed by the latch pin 102 in the case C. The main spring 13 is connected between the movable contactor 101 and the latch 102, and the latch 102 is the groove 201 portion of the armature 200 when the handle 100 is operated "on". A tripping mechanism having a return device 202 for returning the armature 200 to the switch device and the bimetal 300 fixed to the terminal plate 400, the lead wire 500 being welded to the bimetal end, and returning the armature 200. And, the latch 102 is coupled to the amateur groove 201, the adjusting device is composed of an adjusting screw 600 screwed to the terminal plate 400.

Looking at the conventional operating state configured as described above, first, the switch mechanism, as shown in Figure 1, the movable contact 101 is connected to the handle 100, the latch 102 is pin 102 in the case (C) It is fixed to the upper and lower rotational movement and the opening and closing operation load is determined by the tension force of the main spring 103 installed between the latch 102 and the movable contact 101, the connection between the handle 100 and the movable contact 101 As the angle passes the viewpoint ( °> 180 °) The movable contact 101 is operating to open and close the circuit.

In addition, when the over current and the short circuit occurs, the armature 200 is operated to release the end of the latch caught in the armature groove 201 and is operated by the tension force of the main spring 103 installed between the latch 102 and the movable contactor 101. The contact 101 is intended to open the operation circuit.

And, the operation of the trip mechanism portion is bent in the direction of the arrow when the bimetal 300 end is overcurrent and short-circuit current pulls the amateur 200, the latch 102 caught in the amateur is released, the tension force of the spring 103 is movable The contact 101 is operated to interrupt the circuit.

In addition, the adjusting device advances and retreats the adjusting screw 600 screwed to the terminal plate 400 to adjust the gap between the bimetal 300 and the armature 200 connected to the terminal plate 400, and the adjustment amount is adjusted to the terminal plate 400. It is determined by the pitch of the formed thread and the adjustment screw 600 thread.

However, the conventional circuit breaker operates while the angle exceeds the dead point at the connection point of the movable contactor 101 connected to the handle 100 in the operation of the switch mechanism, and operates the armature 200 when an overcurrent and a short circuit occur. The operating force for releasing the latch 102 caught in the amateur groove 201 is largely determined by the main spring 103 connected between the handle 100 and the movable contact 101.

Therefore, there is a disadvantage in that accurate and rapid operation is not possible, and the trip device unit has a large trip load in which the latch 102 restrains the armature 200 so that the bimetal 300 pulls the armature 200 and adjusts in the adjusting device. The range is caused by the elasticity of the terminal plate 400, and when the adjustment screw 600 is adjusted, the adjustment screw can move up, down, left, and right, so that the end of the adjustment screw 600 is incompletely touched, so that accurate adjustment is not possible. There was this.

Therefore, the present invention is designed to obtain a precise and accurate range of adjustment in the switch mechanism and trip mechanism, which has a small operating force and capable of accurate and rapid release of overcurrent and fault current. If described in detail as follows.

As shown in FIG. 2, the case 11 is inserted into the handle 1 to the protrusion 11 and the operating spring 12 is inserted into and fixed to the protrusion, and the other side is connected to the handle 1. The tripper 3 and the spring 41, which are coupled to the protrusion 21 of the latch 2 and rotate about the pin 31 inserted into the case C, have a groove 22 at the center thereof. The contact mechanism 4 is coupled to the groove 22 inside the latch 2 and trips to a fixed pin 31 of the switch mechanism, which is composed of a tripper 5 fitted in a hole below the tripper 3. A lead wire (3) can be inserted and rotated, and a trip bar (5) is inserted into and connected to the tripper hole (32) to be operated by the curvature of the bimetal (6) and welded to the bimetal (6). 7) are welded and connected to the movable contactor 4 and the terminal 8, respectively, and the slide rail 9 at the end of the bimetal 6 has a tripping mechanism before welding, and Devices (C) within the insert are fixed adjusting screw 10 so that adjustment by the threads of the nut 10 is nahap, and is composed of a gap of the adjustment range of the adjustment device is carried out by a slide rail (9).

In the drawings, reference numeral 42: fixed contact 43: magnet trip rod

Looking at the operating state of the present invention configured as described above, in Figure 2, the handle 1 in the direction of the arrow in the bottom latch 2 is connected to the handle 1 in the opposite direction, and also the case protrusion ( 11) Since the operating spring 12 assembled together with the handle 1 moves in the direction of the handle, the elastic energy is stored, and the tripper 3 and the inclined surface inside the groove 22 of the latch 2 are stored. The movable contactor 4 is in sliding contact so that the movable contactor 4 moves in accordance with the movement of the latch 2 to connect the circuit.

Here, the sliding contact pressure generated on the tripper 3 and the movable contactor 4 on the inclined surface of the latch 2 groove 22 is determined by the elastic force of the operating spring 12.

In addition, when an overcurrent occurs, the bimetal 6 bends in the direction of the arrow to pull the trip bar 5, and the connected tripper 3 rotates around the fixing pin 31 to push the latch 2 upward. The combined movable contactor 4 is released and is moved away from the fixed contactor 42 by the elasticity of the movable contactor spring 41.

When the instantaneous current is generated, the magnet trip rod 43 may push and rotate the tripper to push the latch 2 upward to perform the same operation as the bimetal 6.

When overcurrent and short circuit occur, the bimetal 6 is pulled up in the direction of the arrow and pulls the trip bar 5 so that the tripper 3 connected thereto rotates around the pin 31 fixed to the case C. 2) by pushing upward, the movable contactor 4 hanging on the latch is separated from the fixed contactor 42 by the elasticity of the spring 41.

In addition, the adjustment interval between the trip bar 5 in which the bimetal 6 is bent and operated is adjusted by the adjustment screw 10, and the adjustment is determined by the elasticity of the slide rail 9 on which the bimetal 6 is welded. Therefore, the range of adjustment is large and more accurate adjustment is possible (since the material of the slide rail can be selected that has good elasticity regardless of the conductivity).

This invention, which is constructed and operated as described above, determines the opening and closing force by the elasticity of the operating spring, so that the operation force is small and the tripper and the movable contactor, which are the main parts of the opening and closing mechanism, can be released quickly and accurately against overcurrent and accident current. The sliding contact with the latch slope makes the circuit breaker ideal for protecting wires, lives and installations, and its operation is quick.

In addition, the trip load is small in the trip mechanism and the movable contactor is operated in a short time to prevent accidents, and the adjustment of the adjustment device is sure and the adjustment range is due to the elasticity of the sliding rail. .

Claims (1)

In the circuit breaker installed in the distribution board to protect the wires and protect people and facilities in case of an accident, the handle 1 is inserted into the protrusion 11 and the operating spring 12 is fixed to the protrusion so that the other end is The tripper 3 and the spring 41, which are rotated around the pin 31 with the guide groove 22 at the bottom of the other side of the latch 2, which is installed in the protrusion 21, are installed on the bottom. A switch mechanism in which a contactor 4 is attached, and a trip bar 5 are installed in the hole 32 of the lower end of the tripper 3 of the switch mechanism, and at one end thereof, a bimetal 6 is connected to the lower side thereof. The circuit breaker structure, characterized in that the bent slide rail (9) is fixed and coupled to the bimetal and the slide rail coupling portion consisting of an adjusting device is fastened to the nut (10) fixed in the case.