JPH08331711A - Wiring device for distribution board - Google Patents

Abstract

PURPOSE: To enhance productivity of a connection conductor and at the same time to reduce the failure rate. CONSTITUTION: A neutral-phase connection conductor 11 is connected to the neutral-phase load-side terminal of an earth leakage breaker 15. The connection conductor 11 is one in which a master bar 12 and a connection bar 13 are formed in one body and is made straight. Also, a nonneutral-phase connection conductor 18 is connected to the nonneutral-phase load-side terminal of the earth leakage breaker 15. The connection conductor 18 is one in which a master bar 19 and a connection bar 20 are formed in one body and is made straight. Accordingly, since it becomes unnecessary to fasten the master bars 12, 19 and the connection bars 13, 20 with screws, productivity is enhanced and the failure rate is reduced.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a distribution board wiring device for connecting between an earth leakage breaker and a safety breaker.

[0002]

2. Description of the Related Art In a distribution board, when power is supplied from an earth leakage breaker to a safety breaker, both are connected by a plate-shaped connecting conductor. FIG. 7 shows a conventional configuration of a distribution board. 1 is an earth leakage breaker, 2 is a safety breaker, 3S is a neutral phase connecting conductor (S phase connecting conductor), 3R and 3T are non-neutral phase connecting conductors ( R-phase connection conductor,
(T-phase connection conductor).

In the case of this configuration, the connection conductors 3R to 3T
Has an L-shaped connection bar 3a and a straight trunk bar 3b. Then, each connection bar 3a is screwed to the load side terminal of the earth leakage breaker 1, each main bar 3b is screwed to the connection bar 3a, and the power supply side terminal of the safety breaker 2 is connected between the main bar 3b. .

[0004]

However, in the above-mentioned conventional structure, the connection bar 3a and the main bar 3b are screwed to each other, so that the following problems occur. (1) Assembly workability of the connection conductors 3R to 3T is poor, and productivity is low. (2) Since the screws are not tightened sufficiently or the screws are forgotten to be tightened, heat is generated at the screw tightened portions, or the failure occurrence rate of the connection conductors 3R to 3T is high. Become. (3) Since the resistance increases at the connection between the connection bar 3a and the main bar 3b, heat is generated at the connection and the efficiency of power supply by the connection conductors 3R to 3T is reduced.

The present invention has been made in view of the above circumstances, and an object thereof is to improve the productivity, reduce the defect occurrence rate, improve the power supply efficiency of the power source, and prevent heat generation at the same time. It is to provide a device.

[0006]

According to a first aspect of the present invention, there is provided a distribution panel wiring device including a neutral phase connecting bar connected to a neutral phase load side terminal of an earth leakage breaker, and one power source side of a safety breaker. A substantially straight neutral phase connecting conductor integrally formed with a neutral phase main bar to which terminals are connected, and a non-neutral phase connecting bar connected to a non-neutral phase load side terminal of the earth leakage breaker, and A non-neutral phase connecting conductor integrally formed with a non-neutral phase main bar to which the other power supply side terminal of the safety breaker is connected, wherein the non-neutral phase main bar is the non-neutral phase It is characterized in that it extends substantially straight with respect to the connection bar and is separated from the neutral phase main bar by a predetermined insulation distance.

According to a second aspect of the present invention, there is provided a distribution panel wiring device, which is integrally formed with a neutral phase main bar and which is connected to one power source side terminal of a safety breaker, and a non-neutral phase main bar. A non-neutral phase branching bar integrally formed with the bar and connected to the other power supply side terminal of the safety breaker, wherein the neutral phase branching bar and the non-neutral phase branching bar are arranged at substantially the same height. It has a feature where it is.

[0008]

According to the first aspect of the present invention, the main bar for connecting the safety breaker and the connecting bar for connecting the earth leakage breaker are integrally formed. Therefore, it is not necessary to screw the connecting bar and the main bar. Moreover, since the neutral phase connecting conductor and the non-neutral phase connecting conductor have a straight shape, the expanded shape of both is simplified. Therefore, when the main bar and the connecting bar are integrally formed, no production defect (yield deterioration, etc.) can occur. Further, since the non-neutral phase main bar and the neutral phase main bar are separated by a predetermined insulation distance, insulation failure between them is prevented. According to the means described in claim 2, since the non-neutral phase branch bar and the neutral phase branch bar for connecting the safety breaker are located at the same height, the safety breaker can be easily connected to both branch bars.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIGS. First, in FIG. 3, the neutral phase connecting conductor 11 includes a neutral phase main bar 12 and a neutral phase connecting bar 1.
3 is integrally formed, and both bars 12 and 13 have a straight shape. Then, the connecting bar 13 has a through hole 1
3a is formed, and as shown in FIG.
The connection conductor 11 is connected to the neutral phase load side terminal of the earth leakage breaker 15 by tightening the screw 14 inserted in a into the neutral phase load side terminal (S phase) of the earth leakage breaker 15.

As shown in FIG. 3, a plurality of neutral phase branch bars 16 are integrally formed on both sides of the neutral phase main bar 12. Each of the branch bars 16 extends straight to the side of the main bar 12 and is located at the same height as the main bar 12. The plurality of branch bars 16 are provided with safety breakers 17A and 17B, as indicated by a chain double-dashed line in FIG.
One power supply side terminal is screwed.

The non-neutral phase connecting conductor 18 of FIG. 4 is formed by integrally forming a non-neutral phase main bar 19 and a non-neutral phase connecting bar 20. The main bar 19 has a straight shape and is connected. The bar 20 has a connecting portion 20 extending in the same direction as the main bar 19.
It is composed of a and a height adjusting portion 20b. Therefore,
As shown in FIG. 1, both bars 19 and 20 are straight when viewed from the front.

A through hole 20c is formed in the connecting portion 20a of the connecting bar 20, as shown in FIG. And
As shown in FIG. 1, as the screw 14 inserted into the through hole 20c is tightened into the non-neutral phase load side terminal (R phase) of the earth leakage breaker 15, the connection conductor 18 causes the non-neutral phase of the earth leakage breaker 15 to pass through. It is connected to the load side terminal.

The height adjusting portion 20b of the connecting bar 20 is shown in FIG.
As shown in FIG. 5, the connecting portion 20 a is connected to the main bar 19 and extends upward from the left side surface of the main bar 19. The height of the trunk bar 19 is adjusted by the height adjuster 20b, and as shown in FIG.
It is displaced downward with respect to. As a result, the main bar 19 is separated from the main bar 12 by a predetermined insulation distance.

A plurality of non-neutral phase branch bars 21 are integrally formed on the left side surface of the main bar 19, as shown in FIG. Each of these branch bars 21 is composed of a height adjusting portion 21a extending upward from the main bar 19 and a connecting portion 21b extending leftward from the height adjusting portion 21a. Each connecting portion 21b is formed by the height adjusting portion 21a. The height of the neutral phase branch bar 16 is adjusted to be the same as that of the neutral phase branch bar 16 as shown in FIG. Then, the other power source side terminal of the safety breaker 17B is screwed to the connecting portion 21b of the non-neutral phase branch bar 21, as shown in FIG.

The non-neutral phase connecting conductor 22 of FIG. 5 is formed by integrally forming a non-neutral phase main bar 23 and a non-neutral phase connecting bar 24. The main bar 23 has a straight shape and is connected. The bar 24 has a connecting portion 24 extending in the same direction as the main bar 23.
It is composed of a and a height adjusting portion 24b. Therefore,
As shown in FIG. 1, both bars 23 and 24 are straight when viewed from the front.

A through hole 24c is formed in the connecting portion 24a of the connecting bar 24 as shown in FIG. And
As shown in FIG. 1, as the screw 14 inserted into the through hole 24 c is tightened into the non-neutral phase load side terminal (T phase) of the earth leakage breaker 15, the connecting conductor 22 causes the non-neutral phase of the earth leakage breaker 15 to pass through. It is connected to the load side terminal.

The height adjusting portion 24b of the connecting bar 24 is shown in FIG.
As shown in FIG. 5, the connecting portion 24 a is connected to the main bar 23 and extends upward from the right side surface of the main bar 23. The height of the trunk bar 23 is adjusted by the height adjuster 24b, and as shown in FIG.
It is displaced downward with respect to. As a result, the main bar 23 is separated from the main bar 12 by a predetermined insulation distance. The main bar 23 is arranged at the same height as the main bar 19.

On the right side surface of the main bar 23, a plurality of non-neutral phase branch bars 25 are integrally formed, as shown in FIG. Each of these branch bars 25 is composed of a height adjusting portion 25a extending upward from the main bar 23 and a connecting portion 25b extending rightward from the height adjusting portion 25a,
The height of each connecting portion 25b is adjusted by the height adjusting portion 25a, and as shown in FIG. 2, it is located at the same height as the connecting portion 21b of the neutral phase branch bar 16 and the non-neutral phase branch bar 21. There is. The other power supply side terminal of the safety breaker 17A is connected to the connecting portion 25b of the branch bar 25 as shown in FIG.
It is screwed to.

As shown in FIG. 2, a trapezoidal plate-shaped spacer 26 is interposed between the main bars 12, 19, 23. The spacer 26 is made of an insulating material such as synthetic resin, the main bar 12 is screwed to the upper surface of the spacer 26, and the main bars 19 and 23 are the spacer 26.
Are inserted in the notches 26a, 26a. As a result, the main bars 12, 19, 23 are positioned and the three members are held in an insulated state.

As shown in FIG. 1, the spacers 26 are provided at both ends of the main bars 12, 19, 23 and are fixed to a frame (not shown). In addition, each connection conductor 11, 18, 22 is formed of a copper plate having a thickness of 2 mm.

R-phase power source side terminal of the earth leakage breaker 15, S
For the phase power supply side terminal and the T phase power supply side terminal, the power supply bar 27R,
27S and 27T are connected, and the earth leakage breaker 15
Is supplied with a single-phase 200V power source through power source bars 27R to 27T. Therefore, the branch breaker 17 connected to the neutral phase connection conductor 11 and the non-neutral phase connection conductor 18
B, the single phase 100V power supply is supplied to the branch breaker 17A connected to the neutral phase connection conductor 11 and the non-neutral phase connection conductor 22.

Next, a method of manufacturing the connection conductors 11, 18, 22 will be described. For this, the copper plate 28 (plate thickness 2 mm) shown in FIG. 6 is set in the shearing device, and the shearing device is operated. Then, the movable punch (not shown) descends, and the outer shape of the copper plate 28 is removed between the movable punch and the movable die (not shown). These movable punch and movable die are shown in FIG.
Of the main bar 12, 19, 23 and the branch bars 16, 21, 25 by repeating the punching operation while the movable punch and the movable die move in the direction of the arrow X by a predetermined pitch. A part is formed.

When the shearing device forms the main bar 12, 19, 23 part and the branch bar 16, 21, 25 part,
Another movable punch (not shown) and another movable die (not shown) are moved to the connecting bar 13, 20, 24 section.
Then, by lowering the movable punch, the connection bars 13, 20, 24 are cut out. This allows
The connecting conductors 11, 18, 22 are sheared simultaneously.

According to the above embodiment, the main bars 12, 1
9, 23 and the connection bars 13, 20, 24 are integrally formed. For this reason, it is not necessary to screw the two together, and the productivity of the connecting conductors 11, 18, 22 is improved. Moreover, since the screws are not tightened sufficiently and the screws are not forgotten to be tightened, it is possible to prevent heat generation at the screw fastening portions. At the same time, the incidence of defective products is reduced. In addition, the main bars 12, 19,
Since the connecting portion between 23 and the connecting bar 13, 20, 24 is eliminated, the resistance is reduced, and as a result, the connecting conductor 11,
The power supply efficiency of the power sources 18 and 22 is improved. At the same time, it is possible to prevent heat generation at the connection portion.

Further, the neutral phase connecting conductor 11 and the non-neutral connecting conductors 18 and 22 are formed straight. For this reason, the expanded shape of each of the connection conductors 11, 18, and 22 is reduced, so that
As shown in FIG.
It is possible to punch out 8,22. Therefore, the copper plate 2
Since the yield of 8 is improved, the main bars 12, 19, 2
When integrating 3 with the connecting bars 13, 20, 24, production defects are eliminated.

In this embodiment, the insulation distance between the main bar 12 and the main bar 19 and the insulation distance between the main bar 12 and the main bar 23 are minimized within the standard. For this reason, since the length dimension of the height adjusting portions 20b and 24b becomes small,
The expanded shape of the connection conductors 18 and 22 is further reduced.

Further, the neutral phase main bar 12 and the non-neutral phase main bar 19 and the non-neutral phase main bar 12 and the neutral phase main bar 23 are separated by a predetermined insulation distance. did. Therefore, insulation failure is prevented. Further, the connection portion 21b of the non-neutral branch bar 21 and the connection portion 25b of the non-neutral branch bar 25 are arranged at the same height as the neutral phase branch bar 16. Therefore, it becomes easy to connect the safety breakers 17A and 17B to the branch bars 16, 21, and 25.

Further, the connection conductors 11, 18 and 22 are formed by moving the movable punch and the movable die. Therefore, the connecting conductors 11, 18 and 22 having different numbers of the branch bars 16, 21 and 25 can be easily formed by the same shearing device. Therefore, the branch bars 16, 21, 2
Since it is not necessary to use a dedicated shearing device corresponding to the number of 5, the setup work can be simplified and the shearing work man-hour can be reduced, and as a result, the productivity can be further improved.

In the above embodiment, a single-phase 200V power source may be supplied to the safety breaker by connecting the safety breaker between the non-neutral phase connecting conductors 18 and 22. In this case, holes are formed in the main bar 19 of the connecting conductor 18 and the main bar 23 of the connecting conductor 22, and as the screws are tightened in these holes, the main bars 19 and 23 are connected by an auxiliary bar. Then, a safety breaker will be connected to this auxiliary bar.

In the above embodiment, the connecting conductor 1
Although 1, 18 and 22 are formed in a linear shape, the present invention is not limited to this and may be slightly bent. In short, it is sufficient that the connecting conductors 11, 18, and 22 are straight (substantially straight) so that the connecting conductors 11, 18, and 22 can be punched from a single copper plate.

Further, in the above embodiment, the connection portion 21b between the neutral phase branch bar 16 and the non-neutral phase branch bar 21 and the connection portion 25b between the neutral phase branch bar 16 and the non-neutral phase branch bar 25.
Were placed at the same height. However, the present invention is not limited to this, and the point is that the height relationship (substantially the same height) is sufficient to connect the power supply side terminals of the safety breakers 17A and 17B without any trouble.

[0032]

As is apparent from the above description, the distribution board wiring device of the present invention has the following effects. According to the means of claim 1, the main bar for connecting the safety breaker and the connecting bar for connecting the earth leakage breaker are integrally formed. Therefore, the productivity is improved, the failure rate is reduced, the power supply efficiency is improved, and heat generation is prevented. Further, the neutral phase connecting conductor and the non-neutral phase connecting conductor were formed in a straight shape. Therefore, the developed shapes of the both are simplified, and the yield is improved. In addition, the non-neutral phase main bar and the neutral phase main bar were separated by a predetermined insulation distance. Therefore, insulation failure between them is prevented. According to the second aspect, the non-neutral phase branch bar and the neutral phase branch bar for connecting the safety breaker are arranged at the same height. Therefore, the workability of connecting the safety breaker to both branch bars is improved.

[Brief description of drawings]

FIG. 1 is a front view of a distribution board showing an embodiment of the present invention.

FIG. 2 is a cross-sectional view showing the height relationship of connection conductors.

FIG. 3 is a perspective view of a main bar.

FIG. 4 is a perspective view of a main bar.

FIG. 5 is a perspective view of the main bar.

FIG. 6 is a view for explaining a shearing method of the main bar.

FIG. 7 is a view corresponding to FIG. 1 showing a conventional example.

[Explanation of symbols]

11 is a neutral phase connection conductor, 12 is a neutral phase main bar, 13 is a neutral phase connection bar, 15 is an earth leakage breaker, 16 is a neutral phase branch bar, 17A and 17B are safety breakers, 18 and 22 are non-neutral Conductive phase connecting conductors, 19 and 23 are non-neutral phase main bars, 2
Reference numerals 0 and 24 denote non-neutral phase connecting bars, and 21 and 25 denote non-neutral phase branching bars.

Claims (2)

[Claims] 1. A neutral phase connection bar connected to a neutral phase load side terminal of an earth leakage breaker, and a neutral phase main bar connected to one power source side terminal of a safety breaker. A direct neutral phase connecting conductor, a non-neutral phase connecting bar connected to the non-neutral phase load side terminal of the earth leakage breaker, and a non-neutral connecting the other power source side terminal of the safety breaker A non-neutral phase connecting conductor formed by integrally forming a phase main bar, the non-neutral phase main bar extends substantially straight with respect to the non-neutral phase connecting bar, and,
A distribution board wiring device, characterized in that it is separated from the neutral phase main bar by a predetermined insulation distance. 2. A neutral phase branch bar integrally formed with the neutral phase main bar and connected to one power supply side terminal of the safety breaker, and a non-neutral phase main bar integrally formed with the other of the safety breakers. A non-neutral phase branching bar to which a power supply side terminal is connected, wherein the neutral phase branching bar and the non-neutral phase branching bar are arranged at substantially the same height. Distribution board wiring device described.