KR20100041570A - Thermal adjustable trip device - Google Patents

Abstract

PURPOSE: The thermal adjustable trip device structure of a circuit breaker is provided to improve the adjustment accuracy of a trip by limiting the adjustment range of the trip. CONSTITUTION: Trip shafts(200) are formed on both side of a circuit breaker to an axial direction. The trip shafts include an assembly ball with an elongate groove along an axial direction. A driving trip shaft(300) moves to the left and right directions of the rear side of the trip shaft. A connection axis, which corresponds to the assembly ball, is formed on the front side of the driving trip shaft. A plurality of inclined parts(320) is formed along the longitudinal direction of the rear side of the driving drip shaft. A heating unit(400) includes a trip adjustment bolt(410) and a bimetal(420) which fixes the trip adjustment bolt. A control knob(500) moves the driving trip shaft.

Description

Thermal Adjustable Trip Device Structure of Circuit Breaker

The present invention relates to a circuit breaker, and more particularly, to simplify the structure of a device for adjusting a trip current by adjusting a distance between a trip shaft and a trip control bolt, thereby reducing the number of parts and improving the assemblability and operability. The present invention relates to an adjustable trip device structure.

In general, a molded case circuit breaker (MCCB) refers to a mechanism that automatically cuts off a current when a current exceeding a specified value such as a load current and a fault current flows through an electromagnet or a bimetal in a transmission / distribution system or an electric circuit. .

As shown in FIG. 1, the conventional circuit breaker 1 has various structures due to different sizes, poles, operating methods, etc., but includes a case 10, a contactor, a trip device 20, The switchgear, extinguishing device and terminal are constituted as basic elements.

In order to adjust the trip time in such a circuit breaker 1, it is called a thermal adjustment device (trip apparatus). In the case of using a bimetal trip device, a method of adjusting the trip time by moving the movable trip shaft to adjust the interval with the bimetal to adjust the trip time is most widely used.

As shown in FIG. 3, the conventional thermally adjustable adjusting device rotates the adjustment knob 21 to move the movable trip shaft 22 to the left and right, so that the distance between the trip adjustment bolt 23 and the movable trip shaft 22 is increased. It is adjusted to adjust the trip time.

In the thermal provisional adjustment device 20 configured as described above, the trip adjustment bolt 23 rotates the movable trip shaft 22 due to the curvature of the bimetal 24, and the rotated movable trip shaft 22 again trips the trip shaft 24. It is composed of double structure to open the circuit by tripping the mechanism part by rotating).

However, such a conventional thermal adjustable device has a problem that the accuracy of the trip operation is lowered due to the dual operation in which the movable trip shaft 22 and the trip shaft 25 are rotated.

In addition, since the movable trip shaft 22 and the trip shaft 24 must have a double structure, there is a problem in that manufacturing is difficult and malfunction may occur at the same time.

Accordingly, the present invention is to solve the conventional problems as described above, by improving the structure of the thermodynamic temperature adjusting device to improve the assembly and manufacturability, as well as to reduce the operation step for the wiring can be improved The purpose is to provide a thermally adjustable tripping device structure of a circuit breaker.

In order to achieve the above object, the present invention provides a circuit breaker comprising: a trip shaft provided on both sides in an axial direction and forming an assembly hole having a long groove shape along an axial direction; A movable trip shaft having a coupling shaft fastened to the assembly hole in a forward direction so as to be movable from side to side in the rear of the trip shaft, and having a plurality of inclined portions along the rear longitudinal direction; A heating member provided with a trip adjustment bolt disposed at a corresponding position with the inclined portion of the movable trip shaft, and a bimetal to which the power is supplied while fixing the trip adjustment bolt; And a moving knob to move the movable trip shaft left and right by horizontal rotation to adjust the distance between the inclined portion and the trip adjustment bolt by moving the movable trip shaft, and the maximum rotation angle is displayed to limit the rotation angle. ; Characterized in that it comprises a.

As described above, the present invention reduces the inefficiency of the operation resulting from the dual operation structure, improves the advantages of providing accuracy of operation, and improves the trip current adjusting device structure of the circuit breaker, thereby simplifying the structure to ensure ease of manufacture. It has the advantage of being.

In addition, there is an advantage that the accuracy of the trip control by limiting the trip control range.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 4 is a side view according to Figure 3, Figure 5 is a perspective view of the upper part of the thermally adjustable tripping device structure of the circuit breaker of the present invention in a disassembled state, Figure 6 is a perspective view of the structure of the thermally adjustable tripping device according to FIG. 7 is a side view according to FIG. 6, and FIG. 8 is an exploded perspective view illustrating the rear surfaces of the trip shaft and the movable trip shaft according to FIG. 5.

As shown, the thermally adjustable trip device structure of the circuit breaker of the present invention, in the circuit breaker 100, the trip shaft 200, the movable trip shaft 300, the heating member 400 and the adjustment knob 500 ).

The trip shaft 200 is formed in each of the assembly holes 210 on both sides in the axial direction, the assembly hole 210 has a long groove shape along the axial direction. Here, it is preferable that a part of the assembly hole 210 has a shaft insertion hole 210a having a wider diameter corresponding to the head portion 310a to be described later.

That is, the head portion 310a of the coupling shaft 310 to be described later through the shaft insertion hole 210a is to be inserted in the same or smaller diameter.

A portion of the shaft insertion hole 210a formed in the one side assembly hole 210 is formed to be cut out to be opened to the outside, and the cut portion of the one side coupling shaft 310 to be described later corresponding to the cut shaft insertion hole 210a is cut out. It can be inserted into the shaft insertion opening (210a) through.

This is to allow the coupling shaft 310 of the movable trip shaft 300 to be fastened more easily through the cutout of the shaft insertion hole 210a.

The above-described movable trip shaft 300 is integrally coupled to the rear of the trip shaft 200 and is operated by a predetermined distance in the lateral direction.

The movable trip shaft 300 forms coupling shafts 310 corresponding to the assembly holes 210 of the trip shaft 200 on both front sides thereof. That is, in the state in which the coupling shaft 310 is inserted into the assembly hole 210 of the trip shaft 200, the movable trip shaft 300 can move from the rear of the trip shaft 200 to the left and right.

In addition, a plurality of inclined portions 320 are formed at the rear of the movable trip shaft 300 along the axial direction. The inclined portion 320 is formed to adjust the trip by adjusting the gap with the trip adjustment bolt 410 which will be described later.

In addition, a support bar 330 connected to the rear side of the movable trip shaft 300 to connect the movable trip shaft 300 to the left and right by the adjustment knob 500 to be described later may be extended.

The support bar 330 is formed to project each projection to have a predetermined distance, the eccentric rod 530 of the adjustment knob 500 to be described later between the support bar 330 constituting the respective projection is Is inserted. That is, as the support bar 330 moves by the eccentric rotation of the eccentric rod 530, the movable trip shaft 300 can move from side to side.

As described above, the front end of the coupling shaft 310 may be provided with a head portion 310a having a larger diameter to be detachable.

The head portion 310a may be inserted through the shaft insertion hole 210a formed in the assembly hole 210 of the trip shaft 200 described above. At this time, after the head portion 310a is inserted through the shaft insertion hole 210a, the coupling shaft 310 may move to the left and right a predetermined distance along the long groove forming portion of the assembly hole 210.

Accordingly, the movable trip shaft 300 may have a structure in which the movable trip shaft 300 may be movable by a predetermined distance from side to side while being integrally fastened to the rear of the trip shaft 200.

On the other hand, the inclined portion 320 of the movable trip shaft 300 may be formed in a step shape, such a stepped structure, the front and inclined portion 320 of the trip adjustment bolt 410 of the heating member 400 to be described later. ), The horizontal plane can be adjusted to achieve more precise trip control.

Heating member 400 is provided with a trip adjustment bolt 410 is arranged to have a gap at a corresponding position with the inclined portion 320 of the movable trip shaft 300, and fixed to the trip adjustment bolt 410 horizontally A bimetal 420 having a crystal length vertically is provided to be able to do so.

In addition, a support part 430 may be formed at the bottom to support the bimetal 420, and a power connection part 440 to which power is connected may be formed at the rear of the support part 430.

Adjustment knob 500 is to adjust the distance between the trip adjustment bolt 410 and the inclined portion 320 by linearly moving the movable crepe shaft 300 in the horizontal direction, the adjustment knob 500 is the movable It is connected to the rear of the trip shaft 300 in an eccentric rotation method, the maximum rotation angle of the movable trip shaft 300 is displayed to limit the rotation angle.

Here, the adjustment knob 500 is rotated horizontally by vertically coupled to the knob support 510 located in the rear of the movable trip shaft 300, the upper portion of the knob support 510, the direction is displayed on the top The adjusting member 520 is provided.

In addition, an eccentrically rotated eccentric rod 530 that is axially connected to the lower portion of the adjustment member 520 and connected to the rear of the movable trip shaft 300 and formed on the upper surface of the knob support 510 is the adjustment member. And a stopper 540 for indicating that the direction of 520 coincides with the maximum rotation angle.

The adjustment member 520 is formed to be inserted into the upper hole so as to be rotated by a driver or the like, an arrow-shaped rotation angle display unit 521 for displaying the direction in the direction perpendicular to the insertion hole is formed.

That is, when the rotation angle display unit 521 of the adjustment member 520 is rotated to the position of the stopper 540 formed on the upper portion of the knob support 510, it is rotated to the limit rotation angle of the adjustment member 520. By the user's knowledge, it is possible to prevent further rotation.

The eccentric rod 530 is located between the protrusions of the support bar 330 formed at the rear of the above-described movable trip shaft 300, and after inserting the driver through the insertion hole of the adjustment member 520, adjustment When the member 520 is rotated, the eccentric rod 530 pushes one side protrusion in one direction between each protrusion of the support bar 330.

At this time, the movable trip shaft 300 is moved in one direction by the distance pushed in one direction, so that the inclined surface formed at the rear of the movable trip shaft 300 and the front of the trip control bolt 410 are far from each other, and the control member in the reverse order. Rotating 520 has an operation method in which the distance between the front and the inclined surface of the trip adjustment bolt 410 is closer.

Therefore, when the direction of the rotation angle display portion 521 formed on the upper portion of the adjusting member 520 indicates the position of the stopper 540 formed on the upper portion of the knob support 510, the rotation of the adjusting member 520 is stopped. The inclined surface of the trip shaft 300 and the corresponding range of the trip adjustment bolt 410 can be prevented from departing.

As a result, the present invention reduces the inefficiency of the operation coming from the dual operation structure and improves the trip current adjusting device structure of the circuit breaker 100 and the structure of the circuit breaker 100 to simplify the structure to ensure ease of manufacture It has the advantage of being. In addition, there is an advantage that the accuracy of the trip control by limiting the trip control range.

In the above description, the technical idea of the thermally adjustable tripping device structure of the circuit breaker of the present invention has been described with the accompanying drawings, but this is by way of example and not by way of limitation.

Accordingly, it is a matter of course that various modifications and variations of the present invention are possible without departing from the scope of the present invention. And are included in the technical scope of the present invention.

1 is a perspective view of a state in which a circuit breaker local part of a conventional fixed trip device structure is disassembled.

2 is a perspective view of an exploded state of the upper portion according to FIG.

Figure 3 is a perspective view of a conventional thermal adjustable trip device structure.

4 is a side view according to FIG. 3;

Figure 5 is a perspective view of the upper portion of the thermal adjustable adjustable trip device structure of the circuit breaker of the present invention in an exploded state.

FIG. 6 is a perspective view of a thermal adjustable trip device according to FIG. 5; FIG.

7 is a side view according to FIG. 6;

Figure 8 is an exploded perspective view showing the back of the trip shaft and the movable trip shaft according to FIG.

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

100: wiring breaker 200: trip shaft

210: assembly hole 210a: shaft insertion opening

300: movable trip shaft 310: coupling shaft

310a: head portion 320: inclined portion

330: support bar 400: heating member

410: trip adjustment bolt 420: bimetal

430: support 440: power connection

500: adjusting knob 510: knob support

520: adjustment member 521: rotation angle display unit

530: eccentric rod 540: stopper

Claims (6)

In the circuit breaker for wiring, Trip shafts each provided on both sides of an axial direction and forming assembly holes having a long groove shape along an axial direction; A movable trip shaft having a coupling shaft fastened to the assembly hole in a forward direction so as to be movable from side to side in the rear of the trip shaft, and having a plurality of inclined portions along the rear longitudinal direction; A heating member provided with a trip adjustment bolt disposed at a corresponding position with the inclined portion of the movable trip shaft, and a bimetal to which the power is supplied while fixing the trip adjustment bolt; And An adjustment knob for moving the movable trip shaft to move the movable trip shaft left and right by horizontal rotation to adjust the distance between the inclined portion and the trip adjustment bolt, the maximum rotation angle being displayed to limit the rotation angle; Thermal adjustable type trip device structure of a circuit breaker comprising a. The method of claim 1, One side assembly hole of the trip shaft is a thermally adjustable tripping device structure of a circuit breaker, characterized in that the one side is opened to the outside in the axial direction. The method of claim 1, The knob is a knob support located behind the movable trip shaft; A control member which is axially fastened vertically to an upper portion of the knob support and is horizontally rotated and has a directional display portion formed thereon; An eccentrically rotated eccentric rod axially connected to the lower portion of the adjustment member and connected to the rear of the movable trip shaft; And And a stopper formed on an upper surface of the knob support for displaying a maximum rotation angle when the directional display of the adjustment member coincides with the directional display of the knob support. The method of claim 1, The front end of the coupling shaft is provided with a head of a larger diameter that is screwed to be separated, One side of the both sides of the assembling hole thermally adjustable tripping device structure of the circuit breaker, characterized in that a wider shaft insertion opening of a corresponding diameter is formed so that the head portion can be inserted. The method of claim 4, wherein The one side of the shaft insertion hole formed in the one side assembly hole is formed so as to open to the outside, and the one side coupling shaft corresponding to the cut shaft insertion hole is inserted into the shaft insertion hole through the cut portion of the wiring breaker, characterized in that Thermal adjustable trip device structure. The method of claim 1, And the inclined portion of the movable trip shaft is formed to form a staircase along an inclined surface.

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