JP2017225230A - Power distribution board - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress a length of a power distribution board in a width direction, the power distribution board comprising a first load branch breaker group, a second load branch breaker group, a second load trunk breaker and a changeover switch.SOLUTION: The present invention relates to a power distribution board 101 integrating a first load branch breaker group 3 and a second load branch breaker group 4 in a single housing. The power distribution board comprises: a second load trunk breaker 6 configured to supply power to the second load branch breaker group; and a changeover switch 7 capable of changing over a power source of power to be supplied to a second load. At least either the changeover switch or the second load trunk breaker is integrated in a branch column of either the first load branch breaker group or the second load branch breaker group.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a distribution board.

  Conventionally, a branch breaker for a general load and a branch breaker for a specific load are separately arranged in the distribution board. As described in Patent Document 1, such a distribution board is arranged such that the general load branch breaker group and the specific load branch breaker group are aligned in the width direction of the distribution board. In addition, in the distribution board described in Patent Document 1, a master breaker for a specific load and a switching switch capable of switching the power supplied to the specific load are incorporated. This switching switch is used to switch and supply commercial power and distributed power, and it is described in Patent Document 1 that the main breaker for a specific load is connected to the power. In the distribution board having such a configuration, the switching switch and the main load breaker are arranged in a dedicated space provided between the general load branch breaker group and the specific load branch breaker group. , Were connected by electric wires.

JP 2016-39755 A

  By the way, the structure which provides the space which installs the switch breaker and the trunk breaker for specific loads between each load group has the problem that the wiring space connected to the switch breaker and the trunk breaker for specific loads will become large was there.

  The inventor of the present case tried to solve the problem by diligently examining this point. An object of the present invention is to provide a second load main breaker or a switch in a distribution board including a first load branch breaker group, a second load branch breaker group, a second load main breaker, and a switching switch. It is to reduce the wiring space to the switch.

  In order to solve the above problems, the following means are adopted. The first means is a distribution board in which the first load branch breaker group and the second load branch breaker group are incorporated in a single housing, and supplies power to the second load branch breaker group. A two-load main breaker and a switching switch capable of switching a power supply to be supplied to the second load, and at least one of the switching switch and the second load main breaker is connected to the first load branch The distribution board is incorporated in any branch row of the breaker group or the second load branch breaker group. However, a configuration in which both the switching switch and the second load main breaker are incorporated in the same branch breaker group is excluded.

  In the first means, the second means is configured to incorporate the switching switch into the branch row of the first load branch breaker group and incorporate the second load main breaker into the branch row of the second load branch breaker group. Is preferred.

  In the second means, a third means having a configuration in which the switching switch and the second load main circuit breaker are disposed at opposing positions is preferable.

  In the present invention, in a distribution board comprising a first load branch breaker group, a second load branch breaker group, a second load main breaker and a switching switch, a second load main breaker or a switching switch is provided. Wiring space can be reduced.

It is the figure which showed the inside of the electricity distribution panel of 1st embodiment. It is the perspective view which showed the switching switch mounted in a distribution board. It is the figure which showed the inside of the distribution board of 2nd embodiment. It is the figure which showed the inside of the distribution board of 3rd embodiment. It is the figure which showed the inside of the distribution board of 4th Embodiment.

  The form for implementing this invention is shown below. First, the present invention will be described. The distribution board 101 of the present invention incorporates the first load branch breaker group 3 and the second load branch breaker group 4 in a single casing. In addition, the distribution board 101 of the present embodiment has a second load main breaker 6 that supplies power to the second load branch breaker group 4 and a power supply that is supplied to the second load branch breaker group 4. A switch 7 that can switch the power source is provided. At least one of the switching switch 7 and the second load main breaker 6 is incorporated in a branch row for installing either the first load branch breaker group 3 or the second load branch breaker group 4. It is. Therefore, at least one of the switching switch 7 and the second load main breaker 6 is separate from the branch row of the first load branch breaker group 3 and the branch row of the second load branch breaker group 4. There is no need to provide an installation space. For this reason, it becomes possible to suppress the wiring space around the switching switch 7 or the second load main breaker 6. Accordingly, the length of the distribution board 101 in the width direction can be suppressed. Note that at least a part of the switching switch 7 or the second load main breaker 6 may be arranged in the branch row of the first load branch breaker group 3 or the branch row of the second load branch breaker group 4.

  The first load of the present invention is a load to which electric power is supplied from the commercial power supply 91, and is called a general load. In addition, the second load of the present embodiment is normally supplied with power from the commercial power supply 91 via the general load conductive portion, but when the commercial power supply 91 is powered down, the power is supplied by the distributed power supply. Load. The distributed power source is a power source that can supply power even during a power failure of the commercial power source 91, such as a storage battery, sunlight, or an emergency power source. Thus, the second load is a load that requires power supply even during a power failure, and corresponds to specific lighting, a refrigerator, or the like. Such a load is sometimes referred to as an important load.

  Next, details of the first embodiment will be described with reference to FIG. As shown in FIG. 1, the distribution board 101 of the present embodiment is connected to a commercial power source 91. The commercial power supply 91 can supply power to each branch breaker via the main breaker 11 provided in the distribution board 101. The main breaker 11 of the present embodiment is connected to the first bus bar 12 which is a plate-like member by an electric wire. The first load branch breaker 15 is connected by being inserted into the first bus bar 12. The aggregate of the first load branch breakers 15 is the first load branch breaker group 3. In the present embodiment, the branch rows of the first load branch breaker group 3 are configured in two rows vertically.

  The distribution board 101 of the present embodiment includes a plate-like second bus bar 13 separately from the first bus bar 12. The first bus bar 12 and the second bus bar 13 are arranged in the width direction of the distribution board 101, and a second load branch breaker 16 is connected to the second bus bar 13. . The second load branch breaker 16 is connected by being inserted into the second bus bar 13. The aggregate of the second load branch breakers 16 is the second load branch breaker group 4. In the present embodiment, the branch rows of the second load branch breaker group 4 are configured in two rows vertically.

  In the present embodiment, the switching switch 7 is arranged in the branch row of the first load branch breaker group 3. As shown in FIG. 2, the switching switch 7 of the present embodiment includes a plug terminal type terminal portion 72 having an insertion port, and is connected to the first bus bar 12 via the terminal portion 72. Is done. Although not shown, the switching switch 7 of the present embodiment is provided with a terminal to which an electric wire can be connected, and the storage battery 92 and the switching switch 7 are connected via the electric wire. Further, the switching switch 7 of the present embodiment also includes a terminal connected to the second load main breaker 6. The switching switch 7 of the present embodiment is used for switching between the commercial power supply 91 and the distributed power supply. Further, the switching switch 7 does not need to be of a type including a plug terminal having an insertion port, and a terminal to which an electric wire can be connected may be connected to the commercial power supply 91 side.

  In the present embodiment, the second load main breaker 6 is arranged in the branch row of the second load branch breaker group 4. The second load main breaker 6 connected to the switching switch 7 includes a plug terminal having an insertion port, and is connected to the second bus bar 13 through the plug terminal.

  In the present embodiment, the switching switch 7 is incorporated in the branch row of the first load branch breaker group 3, and the second load main breaker 6 is incorporated in the branch row of the second load branch breaker group 4. is there. Therefore, it is not necessary to provide a space for installing the switching switch 7 and the second load main breaker 6 between the first load branch breaker group 3 and the second load branch breaker group 4. The width of the panel 101 can be suppressed. Also, by connecting the switching switch 7 to the first bus bar 12 via the terminal portion 72, and connecting the second load main breaker 6 to the second bus bar 13 via the plug terminal, Wiring space required for the distribution board 101 can be suppressed.

  Moreover, in this Embodiment, the switching switch 7 and the 2nd main trunk breaker 6 are arrange | positioned in the position which opposes. For this reason, it becomes possible to shorten the wiring which connects the switching switch 7 and the main load breaker 6. Therefore, the wiring space required for the distribution board 101 can be suppressed. In addition, said opposing position is an edge part of the 2nd load branch breaker group 4 opposed to the edge part of the 1st load branch breaker group 3. As shown in FIG.

  Next, a second embodiment will be described. FIG. 3 shows a second embodiment. Since the main difference from the first embodiment is the position of the switching switch 7, the description will focus on that point. In the present embodiment, the switching switch 7 is provided between the first load branch breaker group 3 and the second load branch breaker group 4. The switching switch 7 is connected to the first bus bar 12 by an electric wire. In the present embodiment, the second load main breaker 6 is incorporated in the branch row of the second load branch breaker group 4. Therefore, it is not necessary to provide a space for installing the second load main breaker 6 between the first load branch breaker group 3 and the second load branch breaker group 4, and the width of the distribution board 201 is suppressed. It becomes possible to do.

  Next, a third embodiment will be described. FIG. 4 shows a third embodiment. Since the main difference from the first embodiment is the position of the second load master breaker 6, this point will be mainly described. In the present embodiment, the second load main breaker 6 is provided between the first load branch breaker group 3 and the second load branch breaker group 4. The second load main breaker 6 is connected to the second bus bar 13 by an electric wire. In the present embodiment, the switching switch 7 is incorporated in the branch row of the first load branch breaker group 3. Therefore, it is not necessary to provide a space for installing the switching switch 7 between the first load branch breaker group 3 and the second load branch breaker group 4, and the width of the distribution board 301 can be suppressed. It becomes possible.

  Next, a fourth embodiment will be described. FIG. 5 shows a fourth embodiment. Since the main difference from the first embodiment is the position of the second load main breaker 6 in the distribution board 401, this point will be mainly described. Similar to the first to third embodiments, branch rows of the first load branch breaker group 3 are provided above and below the first bus bar 12. In addition, a branch row of the second load branch breaker group 4 is provided above and below the second bus bar 13.

  In the present embodiment, the switching switch 7 and the second load main breaker 6 are incorporated in different rows above and below different branch breaker groups. Specifically, in the first load branch breaker group 3, the switching switch 7 is incorporated in the lower branch row, and in the second load branch breaker group 4, the second load master is placed in the upper branch row. A breaker 6 is incorporated. The switching switch 7 is incorporated in the upper branch row of the first load branch breaker group 3, and the second load main breaker 6 is incorporated in the lower branch row of the second load branch breaker group 4. good.

  By the way, when the branch breaker arranged in the upper branch row and the branch breaker arranged in the lower branch row are connected to different poles, each branch breaker outputs the same power to the load. In this case, when the deviation of the number of the upper and lower branch breakers is increased, the total current value flowing through the upper and lower branch breakers is likely to be biased, and the phase balance is deteriorated. If the phase balance is deteriorated, the possibility that the allowable current value is exceeded in some phases in the main breaker 11 is increased, and a problem that a trip is likely to occur may occur. However, with the configuration as in the fourth embodiment, the width of the switching switch 7 and the second load main breaker 6 are substantially the same, so the position of the switching switch 7 facing in the vertical direction, Even if a branch breaker is incorporated at a position facing the vertical direction of the main trunk breaker 6 for the second load, it is possible to suppress the deviation of the phase balance in the main breaker 11.

  Although several embodiments have been described above, the present invention is not limited to the above-described embodiments, and various aspects can be made. For example, the first load and the second load can be different from those in the embodiment.

  The switching switch may not be used to switch between the commercial power source and the distributed power application. For example, it is possible to employ a configuration in which a switching switch is used to switch between different distributed power sources.

  There is no need to be limited to a configuration in which the branch breaker is incorporated at a position facing the switching switch in the vertical direction or a position facing the vertical direction of the second load main breaker. It is possible to adopt a configuration in which the branch breaker is not incorporated at the position. Moreover, it is also possible to make it the structure which incorporates a seismic relay and a lightning arrester in the said position. In addition, since the use electric current value of a seismic relay and a lightning arrester is small, even if these are incorporated, the influence on a phase balance is limited.

3 First load branch breaker group 4 Second load branch breaker group 6 Second load main breaker 7 Switching switch 11 Main breaker 12 First bus bar 13 Second bus bar 15 First load branch breaker 16 Branch breaker for second load 101 Distribution board 201 Distribution board 301 Distribution board 401 Distribution board

Claims (3)

A distribution board in which a branch breaker group for the first load and a branch breaker group for the second load are incorporated in a single housing,
A second load main breaker for supplying power to the second load branch breaker group;
A switching switch capable of switching the power supply to be supplied to the second load branch breaker group;
With
A distribution board in which at least one of the switching switch and the second load main breaker is incorporated in any branch row of the first load branch breaker group or the second load branch breaker group.   The distribution board according to claim 1, wherein the switching switch is incorporated in the branch row of the first load branch breaker group, and the second load main breaker is incorporated in the branch row of the second load branch breaker group.   The distribution board according to claim 2, wherein the switching switch and the second load main breaker are arranged to face each other.

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