KR101045413B1 - Circuit Breaker - Google Patents

Abstract

The primary current conductor can be easily mounted on the image transformer, and a circuit breaker that can increase the insulation performance of the primary conductor without thickening the circuit breaker case is provided.

Three load side terminal electrodes 14 and a power supply side terminal electrode 13 are arranged in the vertical direction at the front end and the rear end of the circuit breaker case 4. A ring-shaped video current transformer 41 is provided behind the separator 21 so that the through groove 31 faces the left and right directions of the breaker case 4, and when the current transformer 41 detects a short circuit, the separator 21 ) To move the electrical circuit from the closed position to the open position. After passing the three primary conductors through the through groove 31, it is bent and mounted in the image current transformer 41. One end is connected to the power supply side terminal electrode 13 and the other end is electrically connected to the load side terminal electrode 14 in a state where both ends of the primary conductor are joined to both left and right sides of the video current transformer 41.

Circuit Breaker, Thin Film, Current Transformer, Isolation,

Description

Circuit Breaker

The present invention relates to a circuit breaker with a circuit breaker.

2. Description of the Related Art A circuit breaker has been conventionally known in which a video current transformer is provided inside a circuit breaker case, and the electric current is interrupted by operating the circuit breaker when the current transformer detects a short circuit. For example, Patent Document 1 describes a technique of dividing a primary conductor and assembling it into the through groove of the image transformer so that the primary conductor can be easily mounted on the ring-shaped image transformer. Patent Literature 2 describes a technique in which two insulating walls are attached to both sides of an image current transformer, and the insulating walls insulate the power supply side end portion and the load side end portion in the thickness direction of the image current transformer by the insulation wall.

[Patent Document 1] Japanese Patent Application Laid-Open No. 2003-162952

[Patent Document 2] Japanese Patent Laid-Open No. 6-310018

However, according to the prior art of Patent Document 1, since the primary conductor is divided and mounted on the current transformer, there is a problem that the assembly of the circuit breaker takes time. According to the prior art of Patent Document 2, since the insulating walls are provided on both sides of the video current transformer, there is a problem that the video current transformer is thick and the breaker case is enlarged.

Accordingly, an object of the present invention is to provide a circuit breaker that can easily mount the primary conductor to the ring-shaped image transformer and can increase the insulation performance of the primary conductor without thickening the circuit breaker case.

In order to solve the above problems, the present invention provides a power supply terminal electrode, a load terminal electrode, and a video current transformer inside a circuit breaker case, and mounts a plurality of primary conductors to the video current transformer, and shuts down when the current transformer detects a short circuit. The circuit breaker which cuts an electric circuit by operating a mechanism is characterized by employ | adopting the following structures.

(1) The image transformer has a through groove in the center of the annular body, and the primary conductor passes through the through groove, and is then mounted to the image transformer by bending processing, with both ends of the primary conductor bonded to both sides of the image transformer. And a circuit breaker electrically connected to the power supply terminal electrode and the load terminal electrode.

(2) The circuit breaker according to the above (1), wherein an insulating portion for insulating both ends of the primary conductor in the thickness direction of the video current transformer protrudes on an outer circumferential surface of the video current transformer.

(3) The circuit breaker according to the above (1) or (2), wherein the partition wall portion for separating two adjacent primary conductors in the circumferential direction of the video current transformer is protruded on the outer circumferential surface of the video current transformer.

(4) The above (1), (2) or (2) characterized in that the breaker case is provided with a projection inserted into the through groove of the image current transformer, and the middle portion of the primary conductor is separated by the projection in the circumferential direction of the image current transformer. (3) The circuit breaker of description.

(5) In the above (1) to (4), a straight portion is provided at the circumferential edge of the image transformer, and one end of the primary conductor is joined to the circumferential surface of the image transformer by bending at the straight portion. The circuit breaker in any one of them.

(6) The load-side terminal electrode and the power-side terminal electrode are respectively arranged in the vertical direction at the front end portion and the rear end portion of the breaker case, and the video current transformer is installed with the through grooves facing the left and right directions of the breaker case. The circuit breaker of description in any one of said (1)-(5).

According to the circuit breaker of the present invention, since the primary conductor is bent and mounted on the image current transformer, both ends thereof can be easily brought into close contact with both sides of the image current transformer without dividing the primary conductor. For this reason, it is possible to promote the thinning and miniaturization of the circuit breaker case by thinly constructing the assembled product of the image transformer and the primary conductor. In addition, since the insulating part for insulating both ends of the primary conductor and the partition wall for insulating the adjacent primary conductor are respectively protruded on the outer circumferential surface of the video current transformer, the insulation performance of the primary conductor can be increased without thickening the circuit breaker case. There is also an effect.

EMBODIMENT OF THE INVENTION Hereinafter, one Example which actualized this invention to the circuit breaker for single-phase three-wire electric circuits is demonstrated based on drawing. Fig. 1 shows the external appearance of the circuit breaker, Fig. 2 shows the internal mechanism with half of the breaker case removed, and Fig. 3 shows the internal mechanism when the electric circuit is interrupted. 4 shows the current transformer installation portion of the breaker case in the state where the video current transformer is taken out, FIG. 5 shows the video current transformer in a state in which the primary conductor is assembled, and FIG. Indicates. Fig. 7A shows the configuration of the bottom side of the video current transformer, and Fig. 7B shows the configuration of the back side of the video current transformer. 8, 9, and 10 show a procedure of mounting the primary conductor in the image current transformer. In addition, in the following description, the front surface of a circuit breaker is made into the left side of FIG. 1, the back surface is made into the right side, the right side is made into the surface, and the left side is made into the back surface.

As shown in FIG. 1, the circuit breaker 1 of this embodiment is equipped with the breaker case 4 of the rectangular box type of thickness about 10 mm. The circuit breaker case 4 is comprised by combining a pair of left and right cases made of synthetic resin, and is formed in the inclined shape in which the rear surface is vertical and the front surface retreats to the upper side. On the back and front of the breaker case 4, three power supply terminals 2 (P1, P2, P3) and load side terminals 3 (L1, L2, L3) are arranged in a straight line in the vertical direction. On the surface of the breaker case 4, an operation handle 5 for manually opening and closing an electric circuit between the power supply terminal 2 and the load terminal 3 is rotatably provided in the front-rear direction.

As shown in FIGS. 1 and 2, the three power supply terminals 2 are arranged in the vertical direction in parallel with the rear surface of the circuit breaker case 4, and the upper terminal P1 is the neutral terminal and the center terminal ( P2) and the lower terminal P3 are used as the voltage terminals. Each terminal has a C-shaped power supply side terminal electrode 13 inside the rear end of the circuit breaker case 4, and is configured in a plug-in system which can be easily connected by simply inserting a conductor bar in the distribution panel. The load side terminals 3 are arranged in the vertical direction inclined parallel to the front surface of the breaker case 4 so that the center terminal L2 is used as the neutral terminal and the upper and lower terminals L1 and L3 are used as the voltage terminal. Each terminal has a load side terminal electrode 14 inside the front end of the circuit breaker case 4, and is comprised of the fastening type which can be connected simply by inserting a load wiring from the terminal groove 12. As shown in FIG.

In addition, of the three load-side terminals 3, unused terminals (for example, the neutral terminal L2) are plugged by the sliding terminal cover 16 in order to connect them incorrectly or to prevent dust from entering. A release lever 17 for releasing the restraint of the load wiring by the load side terminal electrode 14 is provided at the front end of the breaker case 4.

2 and 3, in the vicinity of the rear side of the load-side terminal electrode 14, the separator 21 is installed in the breaker case 4 so as to be movable in an inclined vertical direction so that the coil spring 38 can be moved. Is urged upwards by The separator 21 is made of synthetic resin and is formed in a long cylindrical shape in the arrangement direction of the load-side terminal electrodes 14, and has an open / close contact 9 built in three places in the long direction. The open / close contact 9 is composed of a fixed contact 11 fixed to the tip portion 14a of the load side terminal electrode 14 and a movable contact 10 electrically connected to the power supply terminal electrode 13. The movable contact 10 is integrally movable to the separator 21 so that the separator 21 opens and closes the closing position (falling position shown in FIG. 2) and the opening and closing contact 9 to close the opening and closing contact 9. It raises and lowers to a position (rise position shown in FIG. 3).

At the rear of the separator 21, a video current transformer 41 for detecting an electrical short circuit of an electric circuit is provided below the circuit breaker case 4, and a printed circuit board 20 is disposed above the circuit breaker case 4. . On the lower side of the printed board 20, an electronic external device 8 that operates when a short circuit occurs is installed sideways, and an electric circuit (not shown) is formed on the printed board 20 to operate the electronic external device 8. It is. The electrical circuit includes a ground fault detection circuit for detecting a ground fault based on the output of the image current transformer 41 and a test circuit for passing a pseudo ground current to the ground fault detection circuit, and the test circuit includes a test button on the upper surface of the circuit breaker case 4. (6) is turned on / off via the test switch 51. At the lower side of the electronic external device 8, two movable electromagnetic parts 43 sensitive to a short circuit current flowing in an electric circuit and two bimetallic pieces 42 sensitive to overcurrent are arranged side by side in the vertical direction of the circuit breaker case 4. It is installed.

The opening / closing mechanism part 23 is built in the upper end of the separator 21, and the outer member 39 is provided in the lower part of the latch 24 so that a movement to an up-down direction is possible. The outer material 39 is elongated in the arrangement direction (up and down direction) of the power supply side terminal electrode 13 and is urged downward by the coil spring 40. On the back of the outer member 39, the movable ends of the electronic outer device 8, the bimetal piece 42 and the movable electromagnetic piece 43 are fitted, and when an electric leakage, short-circuit current or overcurrent occurs in the electric circuit, The actuators 8, 42, 43 move the outer member 39 upwards so that the upper end of the outer member 39 leaves the latch 24 of the opening / closing mechanism 23 to open the separator 21 from the closed position. It is supposed to be raised to position. In this embodiment, the separator 21, the opening and closing mechanism 23, the outer member 39, the electronic outer device 8, the bimetal piece 42, the movable electromagnetic piece 43, and the like are used to cut off the electric circuit. Blocking mechanism is configured.

As shown in FIG. 4, the separator 21 and the outer member 39 are arranged before and after the breaker case 4 in the state which opposes each other, and the reverse V-shaped space 30 is formed in both sides. The inverted V-shaped space 30 is formed to open back and forth as much as the lower side of the breaker case 4, and the image current transformer 41 at the lower portion of the space 30 passes through the groove 31 at the center of the breaker case 4. It is installed in the state facing left and right of (refer FIG. 2). Then, protrusions 35 inserted into the through grooves 31 are formed on the inner surface of the left and right case pieces (only the case 4a on the left side in FIG. 4), and the protrusions 35 are assembled in the state in which the breaker case 4 is assembled. The video current transformer 41 can be assembled at a predetermined position in the inverted V-shaped space 30 by this.

As shown in Figs. 5 and 6, the video current transformer 41 has an annular body (insulation case) 41a formed in a ring shape with synthetic resin, and a secondary coil (not shown) is built in the annular body 41a. An exposed end (not shown) of the secondary coil is electrically connected to the ground fault detection circuit on the printed board 20. The through grooves 31 are formed in the center of the annular body 41a to penetrate three primary conductors 45, 46 and 47 which form part of the single-phase three-wire electric circuit inside the through grooves 31, It is attached to the video current transformer 41 by the bending process after penetrating. The primary conductors 45, 46, and 47 are formed by bending a metal band-shaped plate, and the power supply side ends 45a, 46a, and 47a pass through the flexible conductor 27 (see Fig. 3) to the power supply terminal electrode ( 13 is electrically connected to the conductor plate 13a, and the load side end portions 45c, 46c, and 47c are electrically connected to the load side terminal electrode 14 via the flexible conductor 28 and the opening / closing contact 9, respectively. have.

On the outer circumferential surface of the projection 35 of the breaker case 4, three projection pieces 35a are formed radially, forming an equiangular angle (see FIG. 4), and the primary conductors 45, 46, 47 by each projection piece 35a. The middle portions 45b, 46b, and 47b) are isolated in the circumferential direction of the image current transformer 41, and the circumference of the image current transformer 41 is positioned in three directions (see Fig. 3). In addition, the protrusion pieces 35a are formed to have a length in which the tip contacts the inner circumferential surface of the through groove 31 so that the image current transformer 41 and the primary conductors 45, 46, and 47 cannot flow when the left and right case pieces are assembled. It is supposed to be positioned at a predetermined position in the breaker case (4).

5, 6, and 7, the first insulating portion 32a having the ribs 32b is integrally formed so as to protrude outward in the radial direction on the outer circumferential surface of the image current transformer 41, and thus, the first insulation is formed. The power supply side end 45a and the load side end 45c of the upper primary conductor 45 are separated in the thickness direction (left and right directions of the breaker case 4) of the image current transformer 41 by the portion 32a. In the range extending from the upper portion of the outer circumferential surface of the image current transformer 41 to the rear portion, the second insulating portion 33 having a flange shape protrudes integrally to extend the left side of the image current transformer 41 to the outside, so that the second insulating portion ( 33), the power supply side end 47a and the load side end 47c of the rear primary conductor 47 are separated in the thickness direction of the video current transformer 41. As shown in FIG.

The lower portion of the image current transformer 41 is integrally installed so that the L-shaped member 34 extends back and forth along the bottom surface of the circuit breaker case 4, and is horizontal to the third insulator 34a perpendicular to the member 34. Phosphorous partition 34b is formed. The front end of the third insulator 34a protrudes radially outward from the outer circumferential surface of the video current transformer 41, so that the power supply side end 46a and the load side end 46c of the lower primary conductor 46 are transferred to the video current transformer 41. I isolate it in the thickness direction of). The partition wall portion 34b protrudes rearward from the outer circumferential surface in the same width as the thickness of the annular body 41a, and moves the power supply side ends 46a and 47a of two adjacent primary conductors 46 and 47 to the image current transformer 41. It is isolated in the circumferential direction of.

On the right side of the video current transformer 41, straight portions 41b and 41c are formed at two circumferential edges thereof. In the lower straight portion 41b, the power supply end 46a of the primary conductor 46 is bent at a right angle and joined to the lower circumferential surface of the video current transformer 41. In the rear straight portion 41c, the power supply side end 47a of the primary conductor 47 is bent and joined to the rear circumferential surface of the image current transformer 41. The intermediate portions 45b, 46b, 47b of the primary conductors 45, 46, 47 and their periphery are covered with an insulating film made of synthetic resin.

Each primary conductor 45, 46, 47 is mounted to the image current transformer 41 in the order shown in Figs. As shown in Fig. 8, the upper primary conductor 45 passes through the load side end portion 45c through the through hole 31, and joins the power supply side end portion 45a to the right side of the image transformer 41, and the load side end portion. 45c is bent upward and joined to the left side of the image transformer 41. As shown in FIG. 9, the front primary conductor 46 passes the load side end 46c through the through groove 31, and joins the power supply end 46a to the lower and right sides of the image current transformer 41. The load side end portion 46c is bent forward and joined to the left side of the image transformer 41. As shown in Fig. 10, the rear primary conductor 47 passes the power supply side end 47a through the through groove 31, and joins the load side end 47c to the left side of the image transformer 41, and the power supply side. The end portion 47a is bent backward to be joined to the right side of the image transformer 41 and further bent leftward to be joined to the circumferential surface of the image transformer 41.

Hereinafter, the operation of the circuit breaker 1 configured as described above will be described. When the electric circuit is in the energized state (see FIG. 2), the separator 21 is held in the closed position (falling position) by the opening / closing mechanism part 23 so that the opening / closing contact 9 is closed so that the operation handle 5 is a breaker. It falls to the horizontal position joined with the upper surface of the case 4. When a short circuit occurs in the electric circuit in the energized state, the short circuit detecting circuit on the printed circuit board 20 detects a short circuit according to the output of the image current transformer 41, and the electronic outdoor device 8 raises the outer member 39. By doing so, the outer member 39 leaves the latch 24 of the opening and closing mechanism 23. Accordingly, the separator 21 rises to the open position due to the negative force of the coil spring 38 and the opening / closing contact 9 opens so that the operation handle 5 stands up from the upper surface of the breaker case 4 (see FIG. 3). ).

When an overcurrent or short-circuit current flows through the electric circuit, the bimetal piece 42 or the movable electromagnetic piece 43 operates in the same manner as the electronic external device 8 to raise the separator 21 to the open position to open / close the contact point 9. Open When returning the electric circuit to the energized state in the interrupted state, the operating handle 5 is flipped from the standing position to the horizontal position, and the separator 21 is lowered to the closed position to close the opening and closing contact 9. On the other hand, in the operation test of the electronic external device 8, when the test button 6 is pressed down, the tip 51a of the test switch 51 contacts the contact rod 19 on the printed circuit board 20 so as to test the test circuit. The pseudo leakage current flows in the ground fault detection circuit when turned on. When the test button 6 is released, the tip 51a is separated from the contact bar 19 by the elastic restoring force of the test switch 51 to turn off the test circuit. In addition, when the separator 21 rises to the open position in the ON state of the test circuit, the protrusion 52 on the separator 21 separates the tip 51a of the test switch 51 from the contact bar 19 to test it. Force the circuit off.

According to the circuit breaker 1 of the present embodiment, the following effects can be obtained.

(a) Since the three primary conductors 45, 46, 47 are mounted to the image transformer 41 by bending after passing through the through groove 31, the power supply side end portion and the load side end portion are mounted on the image current transformer 41. It can be in close contact with both left and right sides.

(b) Since the primary conductors 45, 46 and 47 are in close contact with each other, the parts of the image transformer 41 and the primary conductors 45, 46 and 47 are removed by eliminating the portions protruding to the left and right sides of the image transformer 41. It can be made compact and can be installed compactly in the circuit breaker case 4 of thin shape about 10 mm in thickness.

(c) In particular, since the video current transformer 41 is provided so that the through groove 31 faces the left and right sides of the breaker case 4, the three load side terminal electrodes 14 at the front end of the thin circuit breaker case 4 are provided. In the rear end, three power supply terminal electrodes 13 are arranged in a straight line in the vertical direction, respectively, so that the entire circuit breaker 1 can be made thin and compact.

(d) Since the first insulating portion 32a provided to protrude upward of the image current transformer 41 separates the power supply side end 45a and the load side end 45c of the upper primary conductor 45 from side to side, 1 Insulation between both ends of the vehicle conductor 45 can be ensured.

(e) Since the third insulating portion 34a provided to protrude downward from the image current transformer 41 separates the power supply side end 46a and the load side end 46c of the lower primary conductor 46 from side to side, Insulation between both ends of the primary conductor 46 can be ensured.

(f) Since the second insulator 33 provided to protrude to the rear of the image current transformer 41 separates the power supply side end 47a and the load side end 47c of the rear primary conductor 47 from side to side, 1 Insulation between both ends of the conductor 47 can be ensured.

(g) Since three insulators 32a, 34a, 33 are provided to protrude on the outer circumferential surface of the image current transformer 41, the primary conductors 45, 46, 47 of the primary conductor 45, 46, 47 are not thickened. Insulation performance can be improved.

(h) Two primary conductors 46 and 47 connected to the terminal electrodes 13 of the two power supply terminals P2 and P3, which are voltage electrodes, are arranged in the circumferential direction of the image current transformer 41 by the partition 34b. Since it is isolated, the contact of voltage electrodes can be prevented reliably and the reliability of the circuit breaker 1 can be improved.

(i) Since the straight portions 41b and 41c are formed at the circumferential edges of the current transformer 41, the power supply side ends 46a and 47a of the two primary conductors 46 and 47 can be easily bent in the correct direction. have.

(j) In particular, in the rear primary conductor 47, the power source end portion 47a is bent at the straight portion 41c to be in close contact with the rear circumferential surface of the image transformer 41 to close the image transformer 41 and the outer member ( The flexible conductor 27 on the power supply side can be easily connected to a narrow space with the 39.

This invention is not limited to the said Example, It is also possible to change suitably the shape and structure of each part, and implement it in the range which does not deviate from the meaning of invention as demonstrated below.

(1) The front surface of the breaker case 4 is formed vertically, and the load side terminal electrode 14 and the separator 21 are provided in parallel with the front surface, and the separator 21 and the outer member 39 are parallel to each other. A video current transformer 41 is provided between two sides facing each other.

(2) The projection 35 inserted into the through groove 31 of the image current transformer 41 is formed in the shape of a polygonal column of a triangular prism or a square prism, and the primary conductor is isolated or positioned by the angle of the projection 35. To decide.

(3) The present invention is applied to circuit breakers for single-phase two-wire electric circuits or three-phase electric circuits, and the number of primary conductors is increased or decreased depending on the type of electric circuit.

(4) Apply the present invention to a circuit breaker without a short circuit current interruption function or a circuit breaker without an overcurrent interruption function.

1 is an external perspective view of a circuit breaker showing an embodiment of the present invention.

Figure 2 is a perspective view showing an internal mechanism with half of the breaker case removed.

3 is a right side view showing an internal mechanism when the electric circuit is cut off;

Figure 4 is a perspective view showing the video current transformer installation portion of the breaker case.

5 is an explanatory view of the assembly of the image transformer and the primary conductor.

6 is an exploded perspective view of the image transformer and the primary conductor.

7 is a perspective view of an image transformer unit.

8 is a perspective view illustrating a procedure of attaching an upper primary conductor to an image transformer.

9 is a perspective view showing a procedure of attaching a front primary conductor to an image transformer.

10 is a perspective view showing a procedure of mounting a rear primary conductor in an image transformer.

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

1-circuit breaker, 2-power terminal,

3-load side terminals, 4-breaker case,

5-control handle, 13-power terminal electrode,

14-load side terminal electrode, 21-separator,

23-opening and closing mechanism, 31-through groove,

32a-first insulation, 33-second insulation,

34a-third insulator, 34b-bulkhead,

35-protrusions, 39-external members,

41-image transformer, 41a-toroid,

41b, 41c-straight, 42-bimetallic,

43-moving electronics, 45,46,47-primary conductor,

Claims (6)

A circuit that cuts off the electric circuit by installing a power terminal terminal, a load terminal terminal, and a video current transformer inside the circuit breaker case, installing a plurality of primary conductors in the video current transformer, and operating a circuit breaker when the video current transformer detects a short circuit. In the circuit breaker, the image current transformer is provided with a through groove in the center of the annular body, the primary conductor passes through the through groove, and is then mounted to the image current transformer by bending the radially outward direction of the annular body, and both ends of the primary conductor. Is electrically connected to the power supply terminal electrode and the load terminal electrode in a state of being bonded to both sides of the image current transformer, and an insulation portion for electrically insulating both ends of the primary conductor in the thickness direction of the image current transformer is protruded from the outer peripheral surface of the image current transformer. Circuit breaker, characterized in that is installed. delete 2. The circuit breaker according to claim 1, wherein a partition wall portion for separating two adjacent primary conductors in the circumferential direction of the image current transformer is protruded on an outer circumferential surface of the image current transformer. 4. The circuit according to claim 1 or 3, wherein the breaker case is provided with a projection inserted into the through groove of the image current transformer, and the intermediate portion of the primary conductor is separated in the circumferential direction of the image current transformer by the projection. breaker. The circuit according to claim 1 or 3, wherein a straight portion is provided at the circumferential edge of the image transformer, and one end of the primary conductor is joined to the circumferential surface of the image transformer by bending at the straight portion. breaker. According to claim 1 or claim 3, wherein the load-side terminal electrode and the power-side terminal electrode are arranged in a plurality of vertically in the front and rear ends of the circuit breaker case, respectively, the image current transformer is a state in which the through grooves to the left and right directions of the circuit breaker case Circuit breaker, characterized in that the installation.

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