KR100942103B1 - Distributing board - Google Patents

Abstract

DISCLOSURE OF THE INVENTION Provided is a switchgear capable of increasing the insulation barrier effect by the insulating shutter and miniaturizing it.

<Solution> A shutter having a plurality of through-holes arranged in the predetermined direction to penetrate each terminal of the circuit breaker is provided. When the shutter is in the first position, each through-hole is formed in the opening of the bushing. When the opening is opened by opposing, and the shutter is in the second position moved from the first position in the direction orthogonal to the predetermined direction, the portion where the through hole is not formed is opposed to the opening of each bushing. It is configured to shield the opening.

Description

Switchboard {DISTRIBUTING BOARD}

The present invention relates to a switchboard having a shutter for opening and closing an opening of a bushing housed therein.

As is well known, the switchgear comprises a breaker chamber accommodating a breaker, and a bus chamber in which a plurality of busbars (hereinafter simply referred to as busbars) corresponding to phases of the power source are arranged. A plurality of bushings are fixed to a partition that divides the gap. Each bushing has an inner space, which fixes the conductor connected to the corresponding bus bar and exposes the conductor connected to the bus bar in the inner space. The circuit breaker housed in the circuit breaker chamber is electrically connected to the exposed conductor in the inner space of the corresponding bushing by moving in the direction of the bushing in the circuit breaker chamber, and further away from the bushing in the circuit breaker chamber. By pulling out in the direction, the coupling of the respective terminals to the corresponding conductors is released and separated from the conductors connected to the bus bar.

In addition, the switchboard is usually provided with an insulating shutter capable of shielding the opening of the bushing's internal space, and when the breaker is pulled out and the terminal is drawn out from the bushing's internal space, the opening of the bushing is opened by the insulating shutter. Is shielded, and is insulated between the conductor exposed in the internal space and the partition wall fixing the bushing and the like, and prevents an electric shock or the like.

The insulated shutter is configured to move between a position of shielding the opening of the bushing's internal space and a position of releasing the shielding, but the insulated shutter is rotatably supported by a rod and rotated around the rod. In this regard, a configuration (for example, refer to Patent Document 1) and the like for moving the insulating shutter is proposed.

[Patent Document 1] Japanese Patent Application Laid-Open No. 2000-261918

In the case of a switchboard having the conventional shutter structure shown in Patent Literature 1, when the breaker is connected, a constant insulation distance is required between the charging part of the breaker and a ground part such as a partition holding the bushing, thereby lengthening the terminal of the breaker. It is necessary, and the miniaturization of circuit breakers and switchboards has been limited.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems in a conventional switchboard, and an object thereof is to provide a switchboard that can increase the insulation barrier effect by an insulating shutter and can be miniaturized.

The switchgear according to the present invention is connected to the bus bar having a bus bar provided with a bus bar, a breaker room for receiving a breaker movably, an bushing having an inner space fixed to a partition wall dividing the bus room and the breaker room, and having an opening. And a connection conductor exposed in the inner space of the bushing and a shutter of insulating material configured to shield the opening of the bushing, and the breaker is inserted into the inner space by moving to the bushing side. The terminal is detached from the inner space of the bushing by releasing to the half-bushing side, and the connection with the connecting conductor is released, and the shutter is inserted into the inner space of the bushing. Is opened, the terminal of the breaker is connected to the internal hole of the bushing. A switchboard configured to shield the opening when separated from the plurality of switchboards, the bushing being arranged in a plurality of directions in a predetermined direction through a gap, and a plurality of terminals of the breaker are disposed in correspondence with the connecting terminals provided in the respective bushings, respectively. The shutter may include a plurality of through holes arranged in the predetermined direction to penetrate respective terminals of the circuit breaker, and each of the through holes may be formed in the respective openings in the first position. When the openings are opened by opposing each other and the second openings are moved from the first position in the direction orthogonal to the predetermined direction, the portions where the through holes are not formed are placed against the openings of the respective bushings. And to shield the opening toward.

In the switchboard according to the present invention, more specifically, the portion where the shutter shields the opening at the second position is located at a position perpendicular to the predetermined direction from a position where the plurality of through holes are arranged. It consists of sites. Moreover, the said predetermined direction is comprised so that it may become a horizontal direction in the said switchboard provided.

In addition, the switchboard according to the present invention is a bus box provided with a bus bar, a breaker chamber for receiving a breaker movably, a bushing having an internal space fixed to a partition wall dividing the bus chamber and the breaker chamber and having an opening, And a connecting conductor exposed in the bushing's inner space and configured to shield the opening of the bushing, the breaker being moved to the bushing side, so that the terminal is moved into the bushing side. The terminal is detached from the inner space of the bushing by being inserted and connected to the connecting conductor, and the connection with the connecting conductor is released by the movement of the half bushing side, and the shutter terminal is connected to the inner space of the bushing. The opening is opened and the terminal of the circuit breaker is A switchgear configured to shield the opening when separated from the space, wherein a plurality of bushings are arranged in a predetermined direction through a gap, and a plurality of terminals of the breakers correspond to the connection terminals provided in the respective bushings respectively; The shutter is provided with a plurality of through holes arranged in the predetermined direction to penetrate the respective terminals of the circuit breaker, and the respective through holes are formed in the respective openings when the shutters are in the first position. The opening is opened by opposing the opening, and when the opening is in the second position moved from the first position to the predetermined direction, a portion where the through hole is not formed is opposed to the opening of each bushing. It is configured to shield.

In the switchboard according to the present invention, more specifically, the portion in which the shutter shields the opening in the second position is composed of a portion located at least between the plurality of arranged through holes. Moreover, the said predetermined direction is comprised so that it may become a horizontal direction in the said switchboard provided.

According to the switchboard according to the present invention, a plurality of bushings are arranged in a predetermined direction through an interval, and a plurality of terminals of the breakers are respectively arranged corresponding to the connection terminals provided in the respective bushings, and shutters are provided for each of the breakers. A plurality of through holes capable of penetrating the terminals are arranged in the predetermined direction, and when the first position is in the first position, the openings are opened by opposing the respective openings, When in the second position moved from the first position in the direction orthogonal to the predetermined direction, the portion where the through hole is not formed is configured to shield the opening against the opening of the respective bushing, The opening of the opening of the bushing is performed by the through hole of the shutter, and the terminal of the breaker is connected to the connecting conductor. Even when the air opening is carried out by at least the through-hole of the need to pass through the terminals of the breaker. Therefore, the insulation barrier effect by a shutter can be heightened, the distance between the charging part of a circuit breaker and the ground part, such as a partition holding a bushing, can be reduced, and a distribution board can be miniaturized.

Further, according to the switchboard according to the present invention, a plurality of bushings are arranged in a predetermined direction through the intervals, and a plurality of terminals of the breakers are disposed corresponding to the connection terminals provided in the respective bushings, and the shutters of the breakers A plurality of through holes capable of penetrating respective terminals are arranged in the predetermined direction, and the openings are opened when the respective through holes oppose the respective openings when in the first position. And when the second position is moved from the first position to the predetermined direction, a portion where the through hole is not formed is configured to shield the opening against the openings of the respective bushings. Is opened by the through hole of the shutter, so that the opening is open even when the terminal of the breaker is connected to the connection conductor. It is done by the minimum through-hole required to penetrate the terminals of the breaker. Therefore, the insulation barrier effect by a shutter can be heightened, the distance between the charging part of a circuit breaker and the ground part, such as a partition holding a bushing, can be reduced, and a distribution board can be miniaturized.

Preferred Mode for Carrying Out the Invention

Embodiment 1.

The switchboard according to the first embodiment forms a plurality of through holes through the main circuit terminal of the circuit breaker in a shutter made of an insulator (hereinafter referred to as an insulated shutter), and moves the insulated shutter in the vertical direction of the switchboard. It is configured to shield or open the opening. EMBODIMENT OF THE INVENTION Hereinafter, the switchboard which concerns on Embodiment 1 of this invention is demonstrated in detail based on drawing.

BRIEF DESCRIPTION OF THE DRAWINGS It is sectional drawing of the principal part of the switchboard which concerns on Embodiment 1 of this invention, and shows the case where the main circuit terminal of a circuit breaker is electrically connected in connection with a connection terminal in the internal space of a bushing. Fig. 2 is a cross-sectional view of an essential part of a switchgear according to Embodiment 1 of the present invention, in which the main circuit terminal of the breaker is separated from the internal space of the bushing and the coupling with the connection terminal is released. 3 is a plan view of an insulated shutter. 4 is an explanatory diagram for explaining the operation of the insulating shutter.

1 and 2, the circuit breaker 1 is constituted by a draw-out circuit breaker, and is provided in the circuit breaker chamber 2 of the switchboard 100 so as to be movable in the horizontal direction of the switchboard 100. The circuit breaker 1 is equipped with the main circuit terminal 11 of the power supply side, and the main circuit terminal 12 of the load side.

The main circuit terminals 11 on the power supply side and the main circuit terminals 12 on the load side are provided in correspondence with three phases of three phases, respectively, and are arranged in the vertical direction in FIG. 1, respectively. In addition, the end of the main circuit terminal 11 on the power supply side of the circuit breaker 1 and the main circuit terminal 12 on the load side is connected to the exposed end 31 and the load side of the connection conductor 3 on the power supply side, which will be described later. Coupling portions 111 and 121 are coupled to the exposed end 41 of the conductor 4 and electrically connected to each other.

The side plate 5 of the switchboard 100 is fixed to a frame (not shown) of the switchboard 100. The partition 6 is fixed to the side plate 5 at an end, and divides the breaker chamber 2 and the bus chamber 7 in which three-phase power buses (not shown) are arranged. Three bushings 8 on the power supply side are provided corresponding to each of the three phases, and a base 81 is fixed to the opening 61 of the partition 6 by a plurality of bolts 82. The bushings 8 on the three power supply sides are arranged in a straight state through a predetermined interval in the horizontal direction, which is a predetermined direction of the switchboard 100, but the bushings on the power supply side of one phase in Figs. Only (8) is displayed.

The bushing 8 on the power supply side has an internal space 83, and the connecting conductor 3 on the power supply side and its exposed end 31 fixed to the inside of the top 84 in the internal space 83 are exposed. Placed. The connecting conductor 3 on the power supply side is connected to a power supply busbar accommodated in the busbar chamber 7. The bushing 8 on the power supply side is disposed in the bus chamber 7 of the switchboard 100, and the opening 831 of the internal space 83 is disposed to face the terminal 11 on the power supply side of the breaker 1. have.

Three bushings 9 on the load side are provided corresponding to each of the three phases, and the base 91 is fixed to the opening 62 of the partition 6 by a plurality of bolts 92. The bushing 9 on the load side has an internal space 93, and the connecting conductor 4 on the load side and its exposed end 41 fixed inside the top 94 in the internal space 93 are exposed. It is arranged.

The connecting conductor 4 on the load side is connected to a load side cable (not shown) connected to the load. The bushing 9 on the load side is disposed in the bus chamber 7 of the switchboard 100, and the opening 931 of the internal space 93 is disposed to face the terminal 12 on the load side of the breaker 1. have. The bushings 9 on the three load sides are arranged in a straight state through a predetermined interval in the horizontal direction of the switchboard 100, but only the bushing 9 on the load side for one phase is shown in Figs. .

The insulation shutter 20 on the power supply side made of an insulator is provided in the breaker chamber 2 at a position facing the openings 831 of the three bushings 8 on the power supply side. As shown in FIG. 3, the insulation shutter 20 is formed in the rectangle and is provided with three through-holes 201 arrange | positioned at equal intervals along the long side. This through hole 201 is substantially circular, and is disposed below the center position X in the short side direction of the insulating shutter 20.

Moreover, the space | interval of each center position of this through-hole 201 is set equally to the space | interval of the center position of each opening part 831 of the bushing 8 of each power supply side mentioned above. The portion 202 located above the center position X in the short side direction of the insulating shutter 20 in the vertical direction is used to shield the respective openings 831 of the bushing 8 on the power supply side as described later. .

An insulating shutter 30 on the load side made of an insulator is provided in the breaker chamber 2 at a position facing the opening 931 of the three bushings 9 on the load side. The insulating shutter 30 on the load side is formed in a rectangle, and has three through holes 301 arranged at equal intervals along the long side thereof. In addition, the insulation shutter 30 on the load side is the same as the structure of the insulation shutter 20 on the power supply side shown in FIG.

The insulating shutter 20 on the power supply side and the insulating shutter 30 on the load side are respectively provided on the partition wall 6 and are driven by a driving mechanism (not shown), and the distance between the first position and the second position is described later. It is configured to be able to move in a direction orthogonal to the horizontal direction, that is, a vertical direction of the switchboard 100 in the vertical direction.

In addition, the other structure of the switchboard which concerns on Embodiment 1 of this invention is the same as that of the well-known switchboard, and abbreviate | omits description.

In the switchboard 100 which concerns on Embodiment 1 of this invention comprised as mentioned above, when the circuit breaker 1 is in the connection position connected to the connection conductors 3 and 4, as shown in FIG. The insulating shutter 20 and the insulating shutter 30 on the load side have respective through holes 201, 301 in positions opposite the openings 831, 931 of the bushings 8, 9 on the power supply side and the load side, respectively. These openings 831 and 931 are opened. The position of each insulation shutter 20 and 30 at this time is called a 1st position.

The main circuit terminals 11 and 12 on the power supply side and the load side of the circuit breaker 1 pass through respective insulation and through-holes 201 and 301 of the shutters 20 and 30 in the first position, respectively. Coupling portions 111 and 121 which are inserted into the internal spaces 83 and 93 of 8 and 9, and are provided at the ends thereof, are exposed ends 31 and 41 of connection conductors 3 and 4 on the power supply side and the load side. Are electrically connected to each other.

FIG. 4A shows a state in which the insulation shutter 20 on the power supply side is in the first position, and the straight line A connecting the center of the three through holes 201 is an opening of the three bushings 8 on the power supply side. The opening 831 coincides with the straight line B passing through the center of the 831, and each opening 831 of the bushing 8 on the power source side is opened by each through hole 201 of the insulating shutter 20.

The insulation shutter 30 on the load side in the first position is also in the same state as the insulation shutter 20 on the power supply side shown in Fig. 4A. When each insulation shutter 20, 30 is in a 1st position, it is shielded by the insulation shutter 20, 30 except the vicinity of the peripheral part of the main circuit terminals 11, 12 of the circuit breaker 1. As shown in FIG.

Next, the circuit breaker 1 is pulled out from the connection position shown in FIG. 1, and each main circuit terminal 11, 12 of the circuit breaker 1 is disconnected from the connection conductors 3, 4 so that each bushing ( Moving to the position drawn out from the internal spaces 83 and 93 of 8 and 9, that is, to the disconnection position shown in FIG. 2, each of the insulation shutters 20 and 30 moves from the first position shown in FIG. It moves downward in the vertical direction of 100 and stops at the position which shields the openings 831 and 931 of the respective bushings 8 and 9. The position of each insulation shutter 20 and 30 at this time is called a 2nd position.

FIG. 4B shows a state in which the insulation shutter 20 on the power supply side is in the second position, and moves downward by a distance L1 downward in the vertical direction from the first position shown in FIG. The straight line A connecting the center of the through hole 201 becomes a position separated by a distance L1 from the straight line B connecting the center of the opening portion 831 of the three bushings 8 on the power source side. In this state, each opening portion 831 of the bushing 8 on the power source side is shielded by a portion 202 in which the through hole of the insulating shutter 20 is not formed. The insulation shutter 30 on the load side in the second position is also in the same state as the insulation shutter 20 on the power supply side shown in Fig. 4B.

It is also easy to configure each of the insulating shutters 20 and 30 to automatically move between the first position and the second position, for example, in conjunction with the position of the breaker 1. That is, it detects that the circuit breaker 1 is pulled out from the position shown in FIG. 1, and has reached | attained the position of FIG. 2 or its vicinity, and shows the insulation shutters 20 and 30 from the 1st position shown in FIG. At the start of the operation of moving the openings 831 and 931 of the bushings 8 and 9 to the second position to move the breaker 1 from the position in FIG. 2 to the bushings 8 and 9 or the like. The predetermined position in the middle of the movement is detected, and the insulating shutters 20 and 30 are moved from the second position shown in FIG. 2 to the first position shown in FIG. 1, and the bushing 8, The openings 831 and 931 of 9 can be opened.

As described above, according to the switchboard according to the first embodiment of the present invention, the insulation shutters 20 and 30 only have a range that can pass through the main circuit terminals 11 and 12 even when the breaker 1 is in the connecting position. Since it is opened by the through-holes 201 and 301 of the (), the ground part of the partition 6 etc. which hold | maintain the bushings 8 and 9 by the insulating shutters 20 and 30, and the charging part of the circuit breaker 1 is carried out. And the insulating shutters 20 and 30 between the ground and the ground portion exist as an insulating barrier, thereby making it possible to shorten the insulating distance. Therefore, the length of the main circuit terminals 11 and 12 of the circuit breaker 1 can be shortened, and the main body of the circuit breaker 1 can be miniaturized. In addition, the distance between the connection position of the circuit breaker 1 and the disconnection position can also be shortened, and the switchboard 100 can be miniaturized. In addition, since only a slight distance needs to be moved in the vertical direction of the switchboard, the installation spaces of the insulating shutters 20 and 30 can be reduced.

Embodiment 2.

The switchboard according to the second embodiment is formed by forming a plurality of through holes through the main circuit terminal of the circuit breaker in a shutter made of an insulating material (hereinafter referred to as an insulating shutter), and moving the insulating shutter in the horizontal direction of the switchboard. It is configured to shield or open the opening. EMBODIMENT OF THE INVENTION Hereinafter, the switchboard which concerns on Embodiment 2 of this invention is demonstrated in detail based on drawing. Moreover, it is the same as that of the structure of Embodiment 1 except the structure of an insulation shutter and the structure of the drive mechanism.

FIG. 5 is a plan view of an insulated shutter of a switchboard according to Embodiment 2 of the present invention, and FIG. 6 is an explanatory diagram showing an operation of the insulated shutter. In Fig. 5, the insulating shutter 2000 on the power supply side made of an insulator is formed in a rectangular shape, and three through holes 2001 having a center in a substantially central portion of the short side are formed through the gaps. These through holes 2001 correspond to the openings of the three bushings on the power supply side, respectively.

Moreover, the space | interval of these through-holes 2001 mutually is formed substantially equal to the diameter of the opening part of a bushing. Moreover, the space | interval between the leftmost end of the through hole 2001 located in the leftmost end of the figure, and the leftmost end of the insulation shutter 2000 is set slightly larger than the diameter of the opening part of a bushing. A portion 2002 located between the through holes 2001 of the insulating shutter 2000 and between the leftmost through hole 2001 and the leftmost end of the insulating shutter 2000 shields the opening of the bushing as will be described later. It is provided with a function. In addition, the insulation shutter of the load side which is not shown in figure is the same structure as the insulation shutter 2000 of the power supply side.

As shown in FIG. 1, when the circuit breaker 1 is in a connection position, the insulation shutter 2000 is in the position shown in FIG. 6 (a), and the position of the insulation shutter 2000 at this time is called a 1st position. . When the insulating shutter 2000 is in the first position, the respective through holes 2001 open these openings 831, 931 opposite the openings 831, 931 of the bushings 8 and 9. .

At this time, each of the main circuit terminals 11 and 12 of the circuit breaker 1 is inserted into the internal spaces 83 and 93 of the bushings 8 and 9 through the through hole 2001 of the insulating shutter 2000. The engaging portions 111 and 121 are electrically connected to the exposed end portions 31 and 41 of the respective connecting conductors 3 and 4.

Next, as shown in FIG. 2, when the breaker 1 moves from the connection position to the disconnection position, the insulation shutter 2000 is moved from the first position shown in FIG. 6A to the horizontal direction which is a predetermined direction of the switchboard. It moves by distance L2 and stops at the position shown to FIG. 6 (b). The position of the insulation shutter 2000 at this time is called a second position. When the insulating shutter 2000 is in the second position, each of the through holes 2001 deviates from the openings 831 and 931 of the bushings 8 and 9, and through each other and through the leftmost end of the through holes 2001. The openings 831 and 931 of the bushings 8 and 9 are shielded by a portion 2002 positioned between the hole 2001 and the leftmost end of the insulating shutter 2000.

In addition, it is easy to configure the insulating shutter 2000 to automatically move between the first position and the second position, for example, in conjunction with the position of the breaker 1. That is, it is detected that the breaker 1 is withdrawn from the connection position shown in FIG. 1 and reaches the disconnection position in or near the FIG. 2, and the insulation shutter 2000 is removed from the first position shown in FIG. It moves to the 2nd position shown to FIG. 6 (b), and shields the opening part 831, 931 of the bushings 8 and 9, and breaks the bushing 1 from the disconnection position shown in FIG. The predetermined position in the middle of the movement or the movement of the movement to the side) is detected, and the insulating shutter 2000 is moved from the second position shown in FIG. 6B to the first position shown in FIG. By moving, the openings 831 and 931 of the bushings 8 and 9 can be opened by the through holes 2001.

As described above, according to the switchboard according to the second embodiment of the present invention, even when the circuit breaker 1 is in the connecting position, only the range that can pass through the main circuit terminals 11 and 12 is provided. Since it is opened by the through-hole 2001 of, the ground part of the partition 6 etc. which hold | maintain the bushings 8 and 9 by the insulating shutter 2000 is covered, and insulation between the charging part and the ground part of the circuit breaker 1 is carried out. The shutter 2000 is in a state where it exists as an insulation barrier, and it becomes possible to shorten an insulation distance. Therefore, the length of the main circuit terminals 11 and 12 of the circuit breaker 1 can be shortened, and the main body of the circuit breaker 1 can be miniaturized. In addition, the distance between the connection position of the circuit breaker 1 and the disconnection position can also be shortened, and the switchboard 100 can be miniaturized. In addition, since only a slight distance of the insulation shutter 2000 needs to be moved in the horizontal direction of the switchboard 100, the installation space of the insulation shutter 2000 can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS It is sectional drawing of the principal part of the switchboard which concerns on Embodiment 1 of this invention, and shows a state where a breaker is in a connection position.

Fig. 2 is a sectional view of an essential part of a switchboard according to Embodiment 1 of the present invention, showing a state where the breaker is in the disconnection position.

3 is a plan view of an insulated shutter of a switchgear according to Embodiment 1 of the present invention.

4 is an explanatory diagram showing the operation of the insulation shutter of the switchboard according to the first embodiment of the present invention.

5 is a plan view of an insulated shutter of a switchgear according to Embodiment 2 of the present invention.

6 is an explanatory diagram showing the operation of the insulation shutter of the switchboard according to the second embodiment of the present invention.

<Description of the code>

100 switchboard

1 breaker

11, 12 main circuit terminals

111, 121 coupling

2 breaker room

3, 4 connection conductor

31, 41 exposed ends

5 side panels

6 bulkhead

61 bulkhead openings

7 Mothership

8, 9 bushing

81, 91 Donation of bushings

83, 93 internal space of the bushing

831, 931 opening in bushing

84, 94 Top of bushing

82, 92 volts

20, 30, 2000 Insulation Shutters

201, 2001 Through Hole of Insulation Shutter

202, 2002 The part of the insulating shutter

Claims (6)

A busing chamber provided with a bus bar, a breaker chamber for movably receiving the breaker, a bushing having an inner space having an opening and fixed to a partition separating the bus chamber and the breaker room, and connected to the bus bar And a connection conductor exposed in the inner space of the bushing, and a shutter of insulating property configured to shield the opening of the bushing, wherein the breaker is moved to the bushing side, so that the terminal is closed. The terminal is detached from the inner space of the bushing by being inserted into the inner space, connected to the connecting conductor, and moved to the anti-bushing side to release the connection with the connecting conductor, and the shutter is configured to When the terminal is inserted into the inner space of the bushing, the opening is opened, and the terminal of the breaker is inside the bushing. A switchgear configured to shield the opening when separated from the space, wherein a plurality of bushings are arranged in a predetermined direction through a gap, and terminals of the breakers respectively correspond to the connecting terminals provided in the respective bushings. A plurality of shutters are arranged in the predetermined direction to allow the respective terminals of the circuit breaker to pass through the shutters. When the opening is opened by being opposed to each opening and the second opening is moved from the first position to the direction orthogonal to the predetermined direction, the portion where the through hole is not formed is the respective bushing. The switchgear, characterized in that configured to shield the opening facing the opening of the. The method according to claim 1, And the portion at which the shutter shields the opening at the second position is a portion at a position in a direction orthogonal to the predetermined direction from a position where the plurality of through holes are arranged. The method according to claim 1, And the predetermined direction is a horizontal direction of the switchboard. A bushing having a bus bar provided with a bus bar, a breaker room for movably accommodating a breaker, an inner space fixed to a partition that divides the bus bar room and the breaker room and having an opening, and an inner space of the bushing connected to the bus bar And a connection conductor exposed inside, and a shutter of insulating property configured to shield the opening of the bushing, wherein the breaker is moved to the bushing side so that the terminal is inserted into the internal space and connected to the connection conductor. And the terminal is displaced from the inner space of the bushing by releasing to the half bushing side to release the connection with the connecting conductor, and the shutter is opened when the terminal of the breaker is inserted into the inner space of the bushing. , The terminal of the breaker is deviating from the inner space of the bushing. Is a switchgear configured to shield the opening, wherein the bushing is arranged in plural in a predetermined direction through an interval, and a plurality of terminals of the circuit breaker are disposed in correspondence to the connection terminals formed in the respective bushings, and the shutter Is provided with a plurality of through holes capable of penetrating respective terminals of the circuit breaker in the predetermined direction, and the respective through holes are opposed to the respective openings when they are in the first position. When the opening is opened and the second opening is moved from the first position to the predetermined direction, a portion where the through hole is not formed is shielded against the opening of each bushing. Switchboard. The method according to claim 4, And the portion at which the shutter shields the opening at the second position is a portion located at least between the arranged plurality of through holes. The method according to claim 4, And the predetermined direction is a horizontal direction of the switchboard.

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