KR20080022052A - Circuit breaker - Google Patents

Abstract

A circuit breaker is provided to exactly open and close a fixed contact and a movable contact on a movement axial line of a separator, sufficiently secure a contact pressure, and firmly prevent a contact error. A circuit breaker blocks a main electric line by separating a movable contact(18) from a fixed contact(17) when an error such as electric leakage, overcurrent, and short-circuit occurs on the main electric line. The fixed contact is installed inside a case(4) of the circuit breaker, a separator is movably installed in a predetermined direction, and the movable contact is installed on the separator. When the error occurs, the movable contact is separated from the fixed contact by the movement of the separator.

Description

Circuit breaker {CIRCUIT BREAKER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to circuit breakers provided on the inside of distribution boards and the like, and more particularly, to circuit breakers in which the whole is made thin and compact.

Background Art Conventionally, circuit breakers are known in which a main contact is disconnected from a fixed contact when an abnormality such as a short circuit, overcurrent, short circuit, etc. occurs in the main electrical line. For example, in the circuit breaker of patent document 1, the fixed contact is provided in the fixed electrode, and the movable contact is provided in the movable electrode. The movable electrode is formed of a thin plate-like metal piece having elasticity, a base end of the metal piece is provided in the breaker case, and a movable contact is provided at the tip of the metal piece. Then, the movable electrode is operated by the switch member, and the movable contact is contacted / disconnected at the fixed contact, thereby turning the main electric line ON / OFF.

In the circuit breaker of Patent Literature 2, a spring for biasing the movable contact to the fixed contact side is positioned between the movable electrode and the breaker case, and the biasing force of the spring is used to connect the fixed contact and the movable contact. Contact pressure is secured. In the circuit breaker of Patent Literature 3, a fire extinguishing chamber or a fire extinguishing wall is provided in the breaker case so that arcs generated between the fixed contact point and the movable contact point do not scatter around.

Patent Document 1: Japanese Patent Application Laid-Open No. 2000-3659

Patent Document 2: Japanese Patent Application Laid-Open No. 7-282712

Patent Document 3: Japanese Patent Application Laid-Open No. 2006-228492

However, according to the conventional circuit breaker, since the movable contact provided in the breaker case is operated by a switch member, it was necessary to prepare the operating space of both a movable contact and a switch member in the inside of a breaker case. For this reason, in the case of a circuit breaker in which a plurality of fixed contacts and movable contacts are incorporated, there is a problem that the breaker case is enlarged. In addition, when a spring is attached to the movable contact, or when a fire extinguishing chamber or fire wall with a narrow gap is provided in the circuit breaker case, the thickness of the circuit breaker case is increased and the whole circuit breaker is enlarged.

The present invention has been invented to solve the above problems, and its object is to provide a circuit breaker capable of making the breaker case small and thin by opening and closing the fixed contact and the movable contact in a compact configuration.

MEANS TO SOLVE THE PROBLEM In order to solve the said subject, when this circuit generate | occur | produces abnormality, such as a short circuit, an overcurrent, a short circuit, and the like, in the circuit breaker which isolates a movable contact from a fixed contact and cuts off a main electric line, It is characterized by employ | adopting a structure.

(1) A fixed contact is fixed inside the circuit breaker case, the separator is provided to be movable in a predetermined direction, and a movable contact is provided to the separator. When an abnormality occurs in the main electric line, the separator is moved by movement. A circuit breaker comprising separating a contact from a fixed contact.

(2) The circuit breaker according to the above (1), wherein a contact housing chamber is formed in the separator to accommodate the movable contact and the fixed contact.

(3) In the above (2), a biasing member for providing a movable contact to the movable electrode, moving the movable electrode relative to the separator, and biasing the movable contact to the fixed contact side in the contact accommodation chamber. Circuit breaker characterized in that the installation.

(4) The circuit breaker according to the above (3), wherein a locking portion for guiding the movable electrode in the biasing direction of the biasing member is provided in the contact accommodation chamber.

(5) In the above (1) to (4), the circuit breaker case is formed in a thin box shape, the separator is installed in the circuit breaker case so as to be movable in the vertical direction, and the load side electrode is placed on the front of the circuit breaker case in the vertical direction. And a plurality of power supply electrodes on the rear surface of the circuit breaker case in the vertical direction, and an operation handle for operating the separator on the upper surface of the circuit breaker case.

(6) In the above (5), the separator is arranged in parallel with the front face of the breaker case, and the load side electrodes are installed in the breaker case in front of the separator in parallel with each other, and a partition wall is provided between the load side electrode and the separator. And a separator bonded to the back surface of the partition wall.

(7) The circuit breaker according to the above (6), wherein the fixing piece provided with the fixed contact of the load side electrode is provided to extend to the separator side, and an insertion hole through which the fixing piece is inserted is formed in the partition wall.

(8) The circuit breaker according to the above (1) to (7), wherein the separator is formed of glass fiber reinforced nylon resin.

According to the circuit breaker of the above (1), the movable contact is provided in the separator, and the movable contact is separated from the fixed contact by the movement of the separator. Thus, the fixed contact and the movable contact are opened and closed in a compact configuration, and the breaker case is made small, There is an excellent effect that can be thinned.

According to the circuit breaker (2) described above, the breaker case can be further miniaturized and thinned by inserting the movable contact and the fixed contact into the contact receiving chamber inside the separator, thereby eliminating the need for the movable contact dedicated to the movable contact.

According to the circuit breaker (3) described above, since a biasing member for biasing the movable contact is provided in the contact accommodation chamber, the movable contact can be accurately opened and closed within the separator.

According to the circuit breaker (4) described above, since the engaging portion of the contact accommodation chamber guides the movable electrode in the bias direction of the biasing member, the movable contact and the fixed contact can be opened and closed accurately on the moving axis of the separator.

According to the circuit breaker of (5), the separator is moved in the same direction as the arrangement direction of the power supply side electrode and the load side electrode, so that the breaker case can be formed into a thin box shape of, for example, about 10 mm in thickness.

According to the circuit breaker (6) described above, since a partition wall is provided between the load side electrode and the separator, the partition wall functions as a fire extinguishing wall and a guide wall of the separator, so that the internal space of the breaker case can be used efficiently.

According to the circuit breaker (7), the fixing piece of the load side electrode is passed through the insertion hole of the partition wall and extended to the separator side. Therefore, the separator can be brought close to the load side electrode, and the length of the circuit breaker case in the front-back direction can be shortened.

According to the circuit breaker of (8), the separator can be easily formed into a required shape as a glass fiber reinforced nylon resin excellent in heat resistance.

EMBODIMENT OF THE INVENTION Hereinafter, one Example which actualized the circuit breaker of this invention is described based on drawing. 1 is a perspective view showing the appearance of a circuit breaker. 2 is a perspective view showing the internal mechanism of the circuit breaker. 3 is a side view showing the internal mechanism of the circuit breaker in the same manner. Fig. 4 is an elevation view showing the internal structure of the separator in the energized state of the main electric line. Fig. 5 is an elevation view showing the internal structure of the separator in the cutoff state of the main electric line. 6 is a perspective view showing in detail the appearance configuration of the separator. 7 is a cross-sectional view showing in detail the internal structure of the separator. 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 of a circuit breaker is made into the right side of FIG. 1, the top surface of a circuit breaker is made into the upper side of FIG. Let it be the lower side of FIG.

As shown in Fig. 1, the circuit breaker 1 of this embodiment is used for a single-phase three-wire electric line. The case 4 of the circuit breaker 1 is provided with the left case 4a and the right case 4b made from synthetic resin. The left case 4a and the right case 4b are integrally mated to constitute a thin box-shaped breaker case 4 having a thickness of about 10 mm, for example. The front face of the breaker case 4 is formed in the inclined shape in which the upper part retreats, and the back surface of the breaker case 4 is formed at right angles with respect to an upper surface and a lower surface.

The power supply side terminal 2 is provided on the back of the breaker case 4. The power supply side terminal 2 includes three terminal portions P1, P2, and P3 of the plug-in type, and each terminal portion is arranged in a row in the vertical direction. The upper terminal portion P1 is a neutral electrode terminal, and the center and lower terminal portions P2 and P3 are voltage electrode terminals. Each terminal portion P1, P2, P3 is formed in a shape in which the circuit breaker case 4 is cut off in the left and right direction, and the terminal bar P1 is a conductor bar or branch bar (not shown), which is a power line introduced into the distribution panel. , P2, P3).

A load side terminal 3 is provided on the front of the breaker case 4. The load-side terminal 3 includes three terminal portions L1, L2, and L3 made of fastening terminals, and each terminal portion is arranged in a line in the vertical direction. The center terminal portion L2 is a neutral electrode terminal, and the upper and lower terminal portions L1 and L3 are voltage pole terminals. When a load wiring (not shown) is connected to the upper terminal portion L1 and the center terminal portion L2, or the center terminal portion L2 and the lower terminal portion L3, a voltage of 100 V can be output. When the load wiring is connected to the upper terminal portion L1 and the lower terminal portion L3, a voltage of 200V can be output. When the neutral electrode terminal is not used, the center terminal portion L2 can be closed by the sliding closure plate 10 (see Fig. 2).

As shown in FIG. 2, FIG. 3, inside the breaker case 4, the power supply side electrode 13 and the load side electrode 11 are arrange | positioned. The power supply side electrode 13 is arranged in three stages up and down at positions corresponding to the terminal portions P1, P2, and P3 of the power supply side terminal 2. The load side electrodes 11 are arranged in up and down three stages at positions corresponding to the terminal portions L1, L2, L3 of the load side terminal 3. In the front of the circuit breaker case 4, three upper and lower terminal holes 12 are formed to pin the load wiring to the load side electrode 11.

As shown in FIG. 4, FIG. 7, the load side electrode 11 is provided with the latch 16 for fastening the wire part of a load wiring in the back side of the terminal hole 12. As shown in FIG. At the uppermost front end of the circuit breaker case 4, a release lever 15 for releasing the load wiring from the latching opening 16 is supported by the shaft 9 so as to be rotatable. The fixed piece 14 is integrally formed in the rear part of the load side electrode 11 so that it may extend to the inside of the separator 21. As shown in FIG. At the distal end of the stationary piece 14, a stationary contact 17 is held among two contacts for opening and closing the main electric line. The fixed contact 17 is fixed to the breaker case 4 together with the load side electrode 11.

As shown to FIG. 3, FIG. 4, the separator 21 is arrange | positioned in parallel with the front surface of the case 4 in the inside of the breaker case 4. As shown in FIG. The load side electrode 11 is provided in parallel with the upper and lower three stages in the breaker case 4 in front of the separator 21. In the circuit breaker case 4, a partition wall 38 is provided between the load side electrode 11 and the separator 21, and an insertion hole through which the fixing piece 14 of the load side electrode 11 is inserted through the partition wall 38 is provided. 39 is formed. Then, the separator 21 slides in the vertical direction inclined so as to be parallel to the front surface of the breaker case 4 in a state in which the separator 21 is joined to the rear surface of the partition wall 38.

On the upper surface of the breaker case 4, an operation handle 5 for manually operating the separator 21 is provided so as to be rotatable in the front-rear direction. As shown in Fig. 5, when the operation handle 5 stands up on the upper surface of the breaker case 4, the separator 21 rises, and the main electric line is cut off from the energized state. It changes to state. As shown in Fig. 4, when the operation handle 5 is knocked down to a position parallel to the upper surface of the breaker case 4, the separator 21 descends and the main electric line is cut off. To ON state. On the upper surface of the breaker case 4, a pair of left and right protective walls 7 for storing the fallen operation handles 5 are formed long in the front-rear direction (see Fig. 1).

As shown in FIG. 2 and FIG. 3, the printed circuit board 20 is disposed above the breaker case 4 at the rear side of the separator 21, and a zero phase current transformer is located below the breaker case 4. 41 is provided. On the lower side of the printed board 20, a trip coil 8 that cuts off when a short circuit occurs, a bimetal piece 42 that cuts off when an overcurrent occurs, and a movable electromagnetic piece that cuts off when a short circuit occurs. 43) is installed. Above the printed circuit board 20, a test circuit (not shown) for testing the operation of the trip coil 8 and the like, and a ground fault detection circuit (not shown) for detecting a short circuit in the main electric line based on the output of the video current transformer 41. ) And the like.

Around the upper end of the separator 21, a test switch 44 for turning on / off a test circuit and a test button 6 for operating the test switch 44 are provided. The test switch 44 is formed by folding a pin-shaped elastic member in a horizontal U-shape so that the base end is fixed to the printed board 20, the intermediate bent portion is supported on the shaft 9, and the free end is The contact rods 19 on the printed circuit board 20 are provided so as to be foldable. The test button 6 is provided in the vicinity of the operation handle 5, turns the test switch 44 ON when pressed, and turns off the test switch 44 when the pressed button is released. Operate.

Next, the structure of the separator 21 is demonstrated in detail by FIG. 6, FIG. The separator 21 is formed in the shape of a long rectangular cylinder or columnar shape made of glass fiber reinforced nylon resin. Inside the separator 21, three upper and lower contact housing chambers 46 are formed at heights corresponding to the load-side electrodes 11. The insertion hole 22 is provided in the front surface of the contact accommodation chamber 46, and the fixed piece 14 of the load side electrode 11 is inserted into the insertion hole 22, and the fixed contact 17 on the fixed piece 14 is provided. ) Is housed in the contact room 46. The insertion hole 22 and the contact accommodation chamber 46 are formed longer than the lifting stroke of the separator 21.

The mounting hole 24 for attaching the movable electrode 23 is formed in the back surface of the contact accommodation chamber 46. The movable electrode 23 is formed by folding a metal plate into an L-shaped side, and includes a horizontal portion 23a inserted into the contact receiving chamber 46 and a vertical portion 23b in contact with the rear surface of the separator 21. Doing. The movable contact 18 is provided in the horizontal part 23a among the two contacts which open and close a main electric line, and the protrusion 27 is formed to the left and right of the movable contact 18. As shown in FIG. The movable contact 18 is housed in the contact receiving chamber 46 so as to face upwardly with respect to the fixed contact 17. The vertical part 23b is formed so that it may become wider than the installation hole 24, and functions as a stopper for restricting the movement forward of the movable contact 18. As shown in FIG.

On the inner wall surface of the contact accommodation chamber 46, a pair of left and right recessed grooves 25 are formed in a crank shape having a high rear side, and the movable electrodes 23 are inserted by inserting the recessed grooves 25 and the protrusions 27. ), The horizontal portion 23a is inserted inside the contact accommodation chamber 46 (see Figs. 4 and 5). At the intermediate position in the front-rear direction of the concave groove 25, a locking portion 26 which keeps the projection 27 on the hook is formed. The locking portion 26 is formed to extend in the width direction and the longitudinal direction of the separator 21, and the movable electrode 23 is moved to the separator 21 by engaging the locking portion 26 with the protrusions 27. It is provided to be movable, and is guided along the movement axis of the separator 21. The locking portion 26 also functions as a stopper for restricting the movement of the movable contact 18 to the rear.

Inside the contact chamber 46, a press spring 28 is interposed between the separator 21 and the movable electrode 23, and the movable contact is moved by the biasing force of the press spring 28. 18 is biased toward the stationary contact 17 side. Then, in the state where the projection 27 is fixed to the locking portion 26 by the force of the pressing spring 28, the locking portion 26 causes the movable electrode 23 to press the spring 28. It is to guide in the direction of the tax. On the other hand, the stone piece 30 is formed in the back surface of the separator 21, and the separator 21 between the spring piece 30 and the spring receiver 29 (refer FIG. 4) of the breaker case 4 is carried out. There is a blocking spring 32 for biasing upwards.

As shown in FIG. 4, 5, the opening / closing mechanism part 31 which opens and closes the separator 21 is provided inside the upper end part of the separator 21. As shown in FIG. The opening and closing mechanism 31 is provided with a first cam member 33 and a second cam member 34. The first cam member 33 is operatively connected to the trip coil 8, the bimetal piece 42, and the movable electromagnetic piece 43 with the movable member 35 therebetween (see FIG. 3). The second cam member 34 is operatively connected to the operation handle 5 with the link member 36 therebetween. The first cam member 33 and the second cam member 34 are biased in the direction in which they are engaged with each other by a torsion spring (not shown).

Next, the operation of the circuit breaker 1 will be described. In the circuit breaker 1 of this embodiment, the circuit breaker case 4 is accommodated in the distribution panel, the conductor bar is electrically connected to the movable contact 18 with the power supply side electrode 13 and the internal wiring interposed therebetween, and the load wiring It is electrically connected to the fixed contact 17 with the load side electrode 11 interposed therebetween. When the main electric line is in the energized state, as shown in FIG. 4, the second cam member 34 of the opening / closing mechanism part 31 pushes the link member 36 onto the upper surface of the separator 21 and the separator. 21 is held in the lowered position against the negative force of the interruption spring 32, and the movable contact 18 is in contact with the fixed contact 17. As shown in FIG.

When an abnormality such as a short circuit, overcurrent or short circuit occurs in the main electric line, the trip coil 8 or the bimetal piece 42 or the movable electromagnetic piece 43 pushes up the movable member 35 and the movable member 35 The first cam member 33 is removed from the second cam member 34 to free the link member 36. Thereby, as shown in FIG. 5, the separator 21 raises by the negative force of the interruption spring 32, isolate | separates the movable contact 18 from the stationary contact 17, and interrupts a main electric line. At the same time, the operating lever 5 stands up with the link member 36 interposed by the separator 21. When the separator 21 reaches the ascending end position, the second cam member 34 is reversely rotated by the separator 21, and the first cam member 33 is second by the force of the torsion spring. It is caught by the cam member 34.

According to the circuit breaker 1 of this embodiment, the movable contact 18 is attached to the separator 21, and the movable contact 18 is opened and closed at the fixed contact 17 by raising and lowering the separator 21. In comparison, the compact configuration can change the energization / disconnection of the main electric line. In particular, since the fixed contact 17 and the movable contact 18 are put together in the contact receiving chamber 46, the operating space for the contact is not necessary in the breaker case 4, and the movable electrode 23 is separated from the separator 21. The periphery of the periphery) is eliminated, and the energization / disconnection of the main electric line can be reliably changed in a compact configuration.

In addition, since the movable electrode 23 is guided by the locking portion 26 and the movable contact 18 is biased by the pressing spring 28 to the fixed contact 17 side, both the contacts 17 and 18 are connected. The separator 21 can be opened and closed accurately on the moving axis line, and sufficient contact pressure can be ensured, and contact failure can be reliably prevented. Accompanying the opening and closing of the contacts 17 and 18, an arc occurs in the contact receiving chamber 46, but since the front surface of the separator 21 is covered by the partition 38, the arc is scattered outside the separator 21. There is no concern. Moreover, since the separator 21 itself is also formed from glass fiber reinforced nylon resin which is excellent in heat resistance, thermal damage by the arc of the separator 21 and its peripheral member can be reliably prevented. In addition, there is an advantage in that the partition wall 38 functions as a guide wall and the separator 21 can be moved smoothly.

The circuit breaker of this invention is not limited to the said embodiment, As can illustrate below, it can implement by changing the structure and shape of each part suitably in the range which does not deviate from the meaning of invention.

(1) The present invention is applied to a circuit breaker for use in single-phase two-wire or three-phase electric lines.

(2) The front face of the breaker case 4 is made into the vertical plane parallel to the back surface, and the separator 21 is provided in the inside of the breaker case 4 so that the separator 21 is movable in a vertical direction.

(3) A structure in which the movable contact 18 is separated from the fixed contact 17 by the lowering of the separator 21.

(4) Either one or both of the bimetal piece 42 for overcurrent interruption and the movable electromagnetic piece 43 for short circuit interruption are performed.

(5) The movable electrode 23 is provided so as to be movable with respect to the separator 21 by an installation component different from the separator 21.

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

2 is a perspective view showing the internal mechanism of the circuit breaker.

3 is a side view illustrating an internal mechanism of the circuit breaker.

Fig. 4 is an elevation view showing the internal structure of the separator in the energized state of the main electric line.

Fig. 5 is an elevation view showing the internal structure of the separator in the cutoff state of the main electric line.

6 is a perspective view showing the appearance configuration of the separator in detail.

7 is a cross-sectional view showing in detail the internal structure of the separator.

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

1: circuit breaker 2: power supply terminal

3: load side terminal 4: breaker case

5: operation handle 8: trip coil

11 load side electrode 14 fixed piece

17: fixed contact 18: movable contact

20: printed board 21: separator

23: movable electrode 26: engaging portion

28: press spring 38: bulkhead

39: insertion hole 46: contact accommodation room.

Claims (8)

When an abnormality such as a short circuit, overcurrent, short circuit, etc. occurs in the main electric line, the circuit breaker which disconnects the movable contact from the fixed contact and cuts off the main electric line, provides the fixed contact inside the breaker case, A circuit breaker characterized in that the movable contact is provided in the separator while the separator is movable in a predetermined direction, and when the abnormality occurs, the movable contact is separated from the fixed contact by movement of the separator. The circuit breaker according to claim 1, wherein a contact accommodation chamber is provided in the separator to accommodate a movable contact and a fixed contact. The movable contact is provided in the movable electrode, the movable electrode is movable in relation to the separator, and a biasing member for biasing the movable contact to the fixed contact side is provided in the contact accommodation chamber. Circuit breaker, characterized in that. 4. The circuit breaker according to claim 3, wherein a locking portion for guiding a movable electrode in the biasing direction of the biasing member is provided in the contact accommodation chamber. The circuit board according to any one of claims 1 to 4, wherein the circuit breaker case is formed in a thin box shape, the separator is installed in the circuit breaker case so as to be movable in the vertical direction, and the load side electrode is provided on the front of the circuit breaker case. A circuit breaker characterized by arranging a plurality of electrodes in a vertical direction, and arranging a plurality of power supply side electrodes in a vertical direction on a rear surface of the circuit breaker case and operating a separator on the upper surface of the circuit breaker case. 6. The separator according to claim 5, wherein the separator is disposed in parallel with the front face of the breaker case, and the load side electrodes are installed in the breaker case in front of the separator in parallel with each other, and a partition wall is provided between the load side electrode and the separator. A circuit breaker characterized by bonding a separator to the back side. 7. The circuit breaker according to claim 6, wherein a fixing piece provided with a fixed contact is provided on the load side electrode so as to extend toward the separator side, and an insertion hole through which the fixing piece is inserted is formed in the partition wall. The circuit breaker according to any one of claims 1 to 7, wherein the separator is formed of glass fiber reinforced nylon resin.

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