KR200359413Y1 - Bimetal type Trip Apparatus of Excessive Current Curcuit Breaker - Google Patents

Abstract

The present invention relates to a large current trip device of a bimetal circuit breaker, and a large current of a bimetal circuit breaker for quickly and accurately tripping operation operated by a bimetal (thermal) using a magnetic field generated by a large current. It relates to a trip device.

The large current trip device of a bimetal circuit breaker according to the present invention includes a contact point for connecting an input terminal and a load side terminal to a base, an opening / closing mechanism for disconnecting or connecting a contact, and detecting an abnormal current in a core (bobbin). In the known circuit consisting of a circuit board for activating the operation, a trip bar retracted by bimetal (thermal) and operating the opening and closing mechanism, and a magnetic body installed in the trip bar direction adjacent to the bimetal (thermal), the hinge is coupled to the opening and closing mechanism It is installed to be adjacent to the trip bar, the rotation part rotated by the curvature by the joule heat of bimetal (thermal) when the overcurrent occurs, and the linkage interlocked with the rotation part to retract the adjacent trip bar by the rotation of the rotation part It characterized in that it further comprises a rotating piece formed integrally.

Therefore, the large current trip device of the bimetal circuit breaker according to the present invention can perform a quick and accurate trip operation by rotating the rotating piece by Joule heat when an overcurrent occurs, and effectively by the moment of the rotating piece and the magnetic body by the magnetic force when the large current occurs. There is an effect that can cut off the current.

Description

Bimetal type Trip Apparatus of Excessive Current Curcuit Breaker}

The present invention relates to a large current trip device of a bimetal (thermal) circuit breaker, and more particularly, to a large current trip device of a bimetal (thermal) circuit breaker that is operated by the curvature and magnetic field of the bimetal when an overcurrent, a large current occurs.

In general, a breaker is a device that cuts off the current to prevent overload when an overcurrent flows above the allowable current. Most of these breakers use bimetals (household standards).

The bimetal circuit breaker uses bimetals bonded to two metals with different thermal expansion rates. When an overcurrent flows, the bimetal is expanded by the heat generated by the overcurrent, and the bimetal is rotated so that the contact is separated by the tripping operation of the trip device. It will automatically cut off the current.

The trip device of such a conventional bimetal circuit breaker is shown in FIG. 1.

As shown in the drawing, the contact 104 connects the input terminal 102 and the load terminal 103 to the inside of the base 101, and a switch is installed below the handle 105 to block or connect the contact 104. The circuit board 108 for operating the bimetal 107 by detecting the bent portion 106, the abnormal current, and the trip bar 109 and the bimetal 107 which are retracted by the bimetal 107 and operate the opening and closing mechanism 106. It is composed of a magnetic body 110 installed in the direction of the trip bar 109 adjacent to).

The bimetal circuit breaker having the above-described configuration pushes the trip bar 109 as the bimetal 107 is rotated when an overcurrent flows, and the trip bar 109 operates the opening / closing mechanism 106 to contact 104. ) Will be blocked. At this time, the magnetic current is generated when the overcurrent flows, but the magnetic body 110 is installed on the rotating side of the bimetal 107. The magnetic body 110 serves as an assistant to assist the rotation of the bimetal 107 when an overcurrent occurs. The bimetal 107 pushes the trip bar 109 by the rotation by the heating of the bimetal 107 and the auxiliary rotation of the magnetic body 110 to operate the opening and closing mechanism 106. Therefore, the magnetic body 110 shortens the rotation time of the bimetal 107, thereby minimizing the damage of the load and the damage of the power equipment.

The conventional bimetal circuit breaker described above can shorten the time it takes for the bimetal 107 to rotate and operate the trip bar 109, but it takes time for the bimetal 107 to heat up and bend, resulting in overcurrent. When using Joule heat generated when is effective, but when a large current occurs is not effective, there was a problem that can not cut the current quickly.

Therefore, the present invention is devised to solve the problems of the prior art as described above, the object of the present invention is to use the magnetic field generated by a large current to quickly and accurately trip operation by the bimetal by the magnetic force It is to provide a large current trip device of a bimetal circuit breaker which can effectively cut off the current by the moment of the rotating piece.

1 is a perspective view showing a trip device of a conventional bimetal (thermal) breaker.

Figure 2 is a perspective view showing a trip device of a bimetal (thermal) breaker according to an embodiment of the present invention.

Figure 3 is a cross-sectional view showing an off (off) state as a trip device of a bimetal (thermal) breaker according to an embodiment of the present invention.

Figure 4,5 is a cross-sectional view showing the operating state of the tripping device of the bimetal (thermal) breaker of the present invention.

Figure 6 is a perspective view showing another embodiment of the rotating piece as a tripping device of a bimetal (thermal) breaker of the present invention.

** Description of the symbols for the main parts of the drawings **

1: base 2: input terminal

3: load side terminal 4: movable contact

5: handle 6: opening and closing mechanism

7: Bimetal 8: Circuit Board

9: tripbar 10: magnetic material

11: meeting 11a: meeting unit

11b: linkage portion 12: hinge coupling portion

According to a feature of the present invention for achieving the object as described above, a contact for connecting the input terminal and the load-side terminal in the base, the opening and closing mechanism for blocking or connecting the contact, and to detect the abnormal current to operate the bimetal In the well-known thing which consists of a circuit board, the trip bar which is retracted by a bimetal, and operates an opening / closing mechanism part, and the magnetic body installed in the trip bar direction adjacent to a bimetal, it is hinged by the said switching mechanism part, and is installed so that it may be adjacent to the trip bar, It characterized in that it further comprises a rotating piece formed integrally with the rotating part rotated by the magnetic force of the magnetic body, and the linking portion is interlocked with the rotating part and retracts the trip bar adjacent by the rotating part of the rotating body. .

The rotating part is made of a magnetic material, and the linking part is made of a synthetic resin material.

Hereinafter, an embodiment of a large current trip device of a bimetal circuit breaker according to the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings.

Figure 2 is a perspective view of a tripping device of a bimetal (thermal) breaker according to an embodiment of the present invention, Figure 3 is a tripping device of a bimetal (thermal) breaker according to an embodiment of the present invention (off) A cross-sectional view showing the state is shown.

As shown, the tripping device of the bimetal circuit breaker according to the embodiment of the present invention includes a movable contactor 4 connecting the base 1, the input terminal 2, and the load side terminal 3; The opening and closing mechanism part 6 for blocking or connecting the movable contactor 4, the circuit board 8 for operating the bimetal 7 by detecting an abnormal current, and the bimetal 7 are retracted to open and close the opening and closing mechanism part 6. Trip bar (9) for activating), a magnetic body (10) installed in the direction of the trip bar (9) adjacent to the bimetal (7), and a rotating piece (11) rotated by the magnetic force of the magnetic body (10). have.

One side of the base 1 is provided with an input side terminal 2 connected to an input power source, and the other side is provided with a load side terminal 3 connected with a load side, and the input side terminal 2 and a load side terminal 3 are provided. The movable contactor 4 to be connected is provided. Accordingly, the input power source operates various electric devices connected to the load side via the input terminal 2, the contact 4, and the load side terminal 3 installed on the base 1.

A handle 5 is provided at an upper portion of the base 1 and an opening / closing mechanism 6 for blocking or connecting the movable contactor 4 to the lower portion of the handle 5, and a short circuit at one side of the opening / closing mechanism 6. There is a circuit board 8 for detecting the presence of the circuit board.

The bimetal 7 is heated when the overcurrent occurs and is bent in one direction. The bimetal 7 is provided with the trip bar 9 in a direction in which the bimetal 7 is curved, and the trip bar 9 is retracted to operate the opening / closing mechanism part 6 to open and close the opening / closing mechanism part 6. The contact 4 is blocked by the operation of.

The trip bar 9 is installed in a direction in which the bimetal 7 is curved, and is retracted by the bending of the bimetal 7 to operate the opening and closing mechanism 6.

The magnetic body 10 is installed in the direction of the trip bar 9 adjacent to the bimetal 7. The magnetic body 10 becomes magnetic when a large current is generated to attract the rotating piece 11.

The pivoting piece 11 is hinged to the opening and closing mechanism 6 and is installed to be adjacent to the trip bar 9. The rotating piece 11 is formed integrally with the rotating part 11a and the linking part 11b. The rotating part 11a is made of a magnetic material, and is mostly made of a metal material, and is rotated by the magnetic force of the magnetic body 10 when an overcurrent occurs. The linking portion 11b is interlocked with the pivoting portion 11a and retracts the adjacent trip bar 9 by the pivoting of the pivoting portion 11a. In addition, the pivoting piece 11 is rotated in the direction of the magnetic body 10 by attracting the magnetic body 10 when a large current is generated to retreat the trip bar 9 and the opening / closing mechanism part 6 by retreating the trip bar. To act as a function of eventually blocking the movable contactor (4). At this time, the pivoting piece 11 is hinged to the opening / closing mechanism part 6 and the magnetic body 10 is separated from the hinge coupling part 12 by a distance L, that is, the moment is large, so that even the relatively small magnetic rotation The piece 11 exerts a great force so that the interlocking part 11b of the rotating piece 11 retracts the trip bar 9 quickly and accurately, thereby interrupting the movable contact contact 4. In addition, the interlocking portion 11b of the rotating piece 11 is made of synthetic resin to reduce the moment of inertia of the rotating piece 11 so that the rotating piece 11 can be smoothly rotated even by the relatively small magnetic force of the magnetic body 10. It is desirable to be able to.

4, 5 shows the operating state of the tripping device of the bimetal (thermal) breaker of the present invention.

4 shows a state in which the trip device is operated by the rotation of the rotating piece 11, the magnetic body 10 pulls the rotating part 11a of the rotating piece 11 by a relatively large magnetic force generated by a large current. As a result, the interlocking portion 11b retracts the trip bar 9 to operate the opening and closing mechanism 6. As such, when a large current is generated, it takes time for the bimetal 7 to be bent, so that the contact 4 can be quickly cut off by the rotation of the rotating piece 11 by the magnetic force of the magnetic body 10.

FIG. 5 shows a state in which the trip device is operated by the bending of the bimetal 7, and when the overcurrent occurs, the bending of the bimetal 7 occurs to retreat the trip bar 9, and by the magnetic force of the magnetic body 10. The rotating part 11a of the rotating piece 11 is pulled, and the interlocking part 11b retreats the trip bar 9, and shows the state which operates the opening-closing mechanism part 6. As shown in FIG. In this way, the operation of the bimetal 7 and the rotational operation of the pivoting piece 11 are simultaneously performed so that the movable contactor 4 can be cut off quickly.

Therefore, by operating by the rotating piece 11 and the bimetal 7, it is possible to make the trip operation for a large current quick and accurate.

6 shows another embodiment of the rotating piece as a trip device of a bimetal (thermal) breaker of the present invention.

As shown, the rotating part 11a of the rotating piece 11 has a smaller volume than the rotating part 11a shown in Figs. 2 to 5, thereby reducing the moment of inertia of the rotating part 11a so that the rotating action is smooth. I can do it.

As described above, according to the present invention, the rotating piece is rotated by the magnetic force generated when a large current is generated, thereby enabling a quick and accurate trip operation, and the current can be effectively cut off by the moment of the rotating piece caused by the magnetic force.

Claims (2)

A movable contactor 4 for connecting the input terminal 2 and the load-side terminal 3 to the inside of the base 1, an opening / closing mechanism 6 for disconnecting or connecting the movable contactor 4, and an abnormal current. The circuit board 8 which detects and operates by a short circuit, a trip bar 9 which is retracted by the bimetal 7 and operates the opening and closing mechanism 6, and a trip bar 9 adjacent to the bimetal 7. In the well-known thing which consists of the magnetic body 10 provided in the direction, A rotating part 11a hinged to the opening / closing mechanism part 6 and installed to be adjacent to the trip bar 9, and rotated by the magnetic force of the magnetic body 10 when a large current is generated; And a rotating piece 11 which is integrally formed with an interlocking portion 11b interlocked with the pivoting portion 11a and configured to retract the adjacent trip bar 9 by the pivoting of the pivoting portion 11a. A large current trip device of a bimetal (thermal) breaker, characterized in that. The method of claim 1, The rotating part (11a) is a magnetic material, the interlocking portion (11b) a large current trip device of a bimetal (thermal) breaker, characterized in that the synthetic resin material.