JP4453955B2 - Distribution board - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a distribution board suitable for supplying power to an AC load and a DC load.
[0002]
[Prior art]
Since conventional distribution boards are only for branching AC power from commercial power sources to each load, electrical and electronic devices that use DC power have an AC adapter interposed between AC load wiring outlets. It is necessary to change AC power to DC power. Also, when direct current power generation is performed by a direct current power generation unit such as solar power generation or fuel cell power generation, the direct current power obtained from the direct current power generation unit 101 is converted into alternating current by the inverter 102 as shown in FIG. The system is connected to the AC branch circuit unit 103 in the distribution board 100 to supply electricity to the AC load. (For example, Patent Document 1)
[0003]
[Patent Document 1]
JP 9-215206 A
[0004]
[Problems to be solved by the invention]
However, with the recent spread of information devices, the number of devices that use DC power is increasing in general households, and it is highly desired to supply DC power directly to such devices. In addition, even when direct current power generation is performed by a direct current power generation unit, the supply of electric power to electrical and electronic equipment that uses direct current power is converted into alternating current once from the direct current power generation, and the branch circuit unit for alternating current 103, and an AC adapter is interposed between the terminal portion of the load and the device to convert it to DC again, and it is necessary to prepare an AC adapter for each device.
[0005]
[Means for Solving the Problems]
Distribution board of the present invention made to solve the foregoing problems, an AC branch circuit portion formed by connecting a number of branch breakers for ac distribution into AC power conductive bar connected to a commercial power source, the The AC branch circuit unit can be connected to a DC branch circuit unit formed by connecting a number of DC distribution branch breakers to a DC power conductive bar via an AC-DC power converter, and the AC branch circuit unit The invention according to claim 1 is characterized in that the DC branch circuit unit is arranged in a panel that draws in the load wiring. In this invention, the DC branch circuit unit is connected to the DC branch circuit unit and the DC power generation unit is connected. The invention according to claim 2 is provided with surplus power consumption means. Further, an AC branch circuit portion formed by connecting the branch breakers for numerous ac distribution into AC power conductive bar connected to a commercial power source, for a number of DC distribution to the connected to the DC power supply DC power conductive bar The DC branch circuit unit formed by connecting the branch breaker of the above can be connected via an AC-DC power converter and a DC-AC power converter, and the AC branch circuit unit and the DC branch circuit unit are connected with load wiring. An AC branch formed by arranging a plurality of branch breakers for AC distribution to an AC power conductive bar connected to a commercial power supply, and to an AC power conductive bar connected to a commercial power source. DC-AC power is composed of an AC branch circuit unit connected to the circuit unit and a commercial power source, and a DC branch circuit unit comprising a number of DC circuit breakers connected to a DC power conductive bar connected to the DC power source. Strange After which enables connected via a device, in which the invention according to what is characterized in that a direct-current branch circuit unit and the AC branch circuit portion inside the panel to draw the load wire to claim 4.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
A preferred embodiment of the present invention will be described with reference to the drawings.
[First Embodiment]
First, a first embodiment shown in FIG. 1 corresponding to the invention according to claim 1 will be described.
Reference numeral 1 denotes an AC branch circuit section in which a number of AC power distribution branch breakers 13 are connected to an AC power conductive bar 12 connected to a main breaker 11 that receives AC power from a commercial power source. The DC branch circuit unit is connected to a branch breaker 23 for DC distribution, and the AC branch circuit unit 1 and the DC branch circuit unit 2 are arranged in a panel into which load wiring is drawn. The AC branch circuit unit 1 and the DC branch circuit unit 2 arranged in the panel can be connected via an AC-DC power converter 3a made of a converter that converts AC power into DC power. The AC-DC power converter 3a is installed outside the panel in the figure, but may be installed inside the panel. In addition, terminal blocks connected to the conductive bars 12 and 22 and branch breakers 13 and 23 are preferable in terms of wiring at the connection between the AC-DC power converter 3a, the AC branch circuit unit 1 and the DC branch circuit unit 2.
[0007]
In such a configuration, the AC branch circuit unit 1 and the DC branch circuit unit 2 can be connected via the AC-DC power converter 3, so that when using a DC load, the AC branch circuit If the unit 1 and the DC branch circuit unit 2 are connected via the AC-DC power converter 3a, the AC power sent to the power converter 3a through the AC branch circuit unit 1 is converted into DC power, and the DC branch circuit Therefore, AC power and DC power are supplied to the AC load and DC load wirings connected to the branch breakers 13 and 23 of the AC branch circuit unit 1 and the DC branch circuit unit 2, respectively. Is.
[0008]
Therefore, since direct current power can be directly supplied to a device that uses direct current power, there is no need to install an AC adapter for each device. Further, since the AC branch circuit unit 1 and the DC branch circuit unit 2 are arranged in the panel, the wiring drawn into the panel is branched by the branch breaker 13 of the AC branch circuit unit 1 or the DC branch circuit unit 2. By connecting to one of the breakers 23, this wiring can be arbitrarily selected for AC power or DC power. Furthermore, it is possible to cope with this by easily changing the number of branch breakers 13 and 23 of the AC branch circuit unit 1 and the DC branch circuit unit 2 according to the number of DC wirings and AC wirings.
[0009]
[Second Embodiment]
Next, a second embodiment shown in FIG. 2 corresponding to claim 2 will be described.
In this embodiment, since the configurations of the AC branch circuit unit 1 and the DC branch circuit unit 2 are the same as those of the first embodiment, the same reference numerals are given and description thereof is incorporated. The AC branch circuit unit 1 and the DC branch circuit unit 2 can be connected via an AC-DC power conversion device 3a including a converter that converts AC power into DC power. However, in this embodiment, a DC power generation unit 4 is connected to the DC branch circuit unit 2 and the DC branch circuit unit 2 is provided with surplus power consuming means 5.
[0010]
In such a configuration, the AC branch circuit unit 1 is supplied with an AC power source as a commercial power source, and the DC branch circuit is supplied with DC power from the DC power source generator unit 4. AC power and DC power are supplied to the AC load and DC load wirings connected to the branch breakers 13 and 23 of the branch circuit section 2.
[0011]
In this embodiment, since the DC power generation unit 4 is connected to the DC branch circuit unit 2 and the DC branch circuit unit 2 is provided with surplus power consuming means 5, the DC power consumed by the load of the DC branch circuit unit 2. If the power is equal to or greater than the power supplied by the DC power generation unit 4, the AC branch circuit unit 1 and the DC branch circuit unit 2 are connected by the AC-DC power converter 3a, and the DC branch circuit unit The power consumption of 2 can be covered with AC power from the commercial power supply unit. If there is surplus power that cannot be consumed by the DC branch circuit unit 2, the surplus power consumption means 5 comprising a storage battery or the like provided in the DC branch circuit unit 2 by cutting off the connection by the AC-DC power converter 3a is surplus. Since it is sufficient to let the power escape, the generated power is not wasted. When the connection between the AC branch circuit unit 1 and the DC branch circuit unit 2 is interrupted in this way, the AC branch circuit unit 1 and the DC branch circuit unit 2 become independent and the DC branch circuit unit 2 is connected to the AC circuit. It is possible to avoid the influence of harmonic components, inrush current (due to a dryer or the like) generated in the branch circuit section.
[0012]
[Third Embodiment]
Next, a third embodiment shown in FIG. 3 corresponding to the invention according to claim 3 will be described.
In this embodiment as well, the configurations of the AC branch circuit unit 1 and the DC branch circuit unit 2 are the same as those in the first embodiment, so the same reference numerals are given and the description thereof is incorporated. In this embodiment, the AC branch circuit unit 1 connected to the commercial power source and the DC branch circuit unit 2 connected to the DC power source unit 4 are connected to the AC-DC power converter 3a and the DC-AC power converter 3b. It can be connected via.
That is, the DC branch circuit unit 2 of this embodiment is connected to a DC power generation unit 4 such as solar power generation or fuel cell power generation. A DC power supply current sensor 6 and a DC load current sensor 7 are provided between the DC branch circuit unit 2 and the DC power generation unit 4 on the DC power generation unit 4 side. An AC-DC power converter 3a comprising a converter for converting the AC power into DC power between the DC power supply current sensor 6 and the DC load current sensor 7 by branching the wiring 8; A DC-AC power converter 3b composed of an inverter that converts DC power into AC power is connected in parallel to connect the DC power generation unit 4 and the AC branch circuit unit 1 together.
[0013]
In such a configuration, the AC branch circuit unit 1 is supplied with AC power from a commercial power source, and the DC branch circuit unit 2 is supplied with DC power from the DC power source generator unit 4. AC power and DC power are supplied to the wiring of the AC load and DC load connected to the branch breakers 13 and 23 of the DC branch circuit section 2, respectively.
[0014]
Therefore, since the DC power generated by the DC power generation unit 4 can be supplied as it is to a device using DC power, there is no energy loss, and there is no need to install an AC adapter for each device. is there. Further, since the AC branch circuit unit 1 and the DC branch circuit unit 2 are arranged in the panel, the wiring drawn into the panel is branched by the branch breaker 13 of the AC branch circuit unit 1 or the DC branch circuit unit 2. By connecting to one of the breakers 23, this wiring can be arbitrarily selected for AC power or DC power. Further, according to the first embodiment, the number of branch breakers 13 and 23 of the AC branch circuit unit 1 and the DC branch circuit unit 2 can be easily changed according to the number of DC wirings and AC wirings. It is the same as the form.
[0015]
The feature of this embodiment is that a DC power supply current sensor 6 and a DC load current sensor 7 are provided between the DC branch circuit unit 2 and the DC power generation unit 4 on the DC power generation unit 4 side. An AC-DC power conversion device 3a comprising a converter for converting the AC power into DC power between the power supply current sensor 6 and the DC load current sensor 7 and branching wiring 8 between the branch wiring 8, and DC power A DC-AC power conversion device 3b composed of an inverter that converts AC power is connected in parallel to connect the DC power generation unit 4 and the AC branch circuit unit 1. As a result, the amount of power generated by the DC power generation unit 4 is measured by the DC power source current sensor 6, and the amount of power consumed by the DC load is measured by the DC load current sensor 7, and the comparison of the measured values is converted into power. When the amount of power consumed by the DC load is less than the amount of power measured by the DC power supply current sensor 6, the excess DC power is converted to DC-AC power of the branch wiring 8 by the microcomputer built in the devices 3 a and 3 b. Since it is converted into AC power by the device 3b and supplied to the AC branch circuit unit 2, it is not necessary to consume the commercial power, and if there is a surplus even when used for an AC load, the AC branch circuit unit 1 Since the power can be sold to the commercial power supplier through the power supply, the power charge can be saved.
[0016]
Further, when the amount of power consumed by the DC load is larger than the amount of power measured by the DC power source current sensor 6 and insufficient power is generated, the insufficient power is transferred from the AC branch circuit unit 1 to the AC power of the branch wiring 8. This can be compensated by supplying the AC-DC power converter 3a to the DC branch circuit unit 1 after converting it to DC power.
[0017]
[Fourth Embodiment]
Next, a fourth embodiment shown in FIG. 4 corresponding to the invention according to claim 4 will be described.
In this embodiment as well, the configurations of the AC branch circuit unit 1 and the DC branch circuit unit 2 are the same as those in the first embodiment, so the same reference numerals are given and the description thereof is incorporated. In this embodiment, the AC branch circuit unit 1 connected to the commercial power source and the DC branch circuit unit 2 connected to the DC power generation unit 4 are connected via the DC-AC power converter 3b. It is possible.
[0018]
That is, the DC branch circuit unit 2 is connected to a DC power generation unit 4 such as solar power generation or fuel cell power generation. A DC power supply current sensor 6 and a DC load current sensor 7 are provided between the DC branch circuit unit 2 and the DC power generation unit 4 on the DC power generation unit 4 side. A DC-AC power conversion device 3b comprising an inverter that converts a DC power into AC power is provided between the DC power supply current sensor 6 and the DC load current sensor 7 and a branch wiring 8 is interposed between the DC power current sensor 6 and the DC load current sensor 7. In addition, the DC power generation unit 4 and the AC branch circuit unit 1 are connected.
[0019]
In such a configuration, the AC branch circuit unit 1 is supplied with AC power from a commercial power source, and the DC branch circuit unit 2 is supplied with DC power from the DC power source generator unit 4. AC power and DC power are supplied to the wiring of the AC load and DC load connected to the branch breakers 13 and 23 of the DC branch circuit section 2, respectively.
[0020]
Therefore, since the DC power generated by the DC power generation unit 4 can be supplied as it is to a device using DC power, there is no energy loss, and there is no need to install an AC adapter for each device. is there. Further, since the AC branch circuit unit 1 and the DC branch circuit unit 2 are arranged in the panel, the wiring drawn into the panel is branched by the branch breaker 13 of the AC branch circuit unit 1 or the DC branch circuit unit 2. By connecting to one of the breakers 23, this wiring can be arbitrarily selected for AC power or DC power. Further, according to the first embodiment, the number of branch breakers 13 and 23 of the AC branch circuit unit 1 and the DC branch circuit unit 2 can be easily changed according to the number of DC wirings and AC wirings. It is the same as the form.
[0021]
The feature of this embodiment is that a DC power supply current sensor 6 and a DC load current sensor 7 are provided between the DC branch circuit unit 2 and the DC power generation unit 4 on the DC power generation unit 4 side. A branch wiring 8 is provided between the power supply current sensor 6 and the DC load current sensor 7, and a DC-AC power conversion device 3b comprising an inverter for converting DC power into AC power is interposed between the branch wiring 8 The DC power generation unit 4 and the AC branch circuit unit 1 are connected. As a result, the amount of power generated by the DC power generation unit 4 is measured by the DC power source current sensor 6, and the amount of power consumed by the DC load is measured by the DC load current sensor 7, and the comparison of the measured values is converted into power. When the amount of power consumed by the DC load is less than the amount of power measured by the DC power supply current sensor 6, the surplus DC power is converted to the DC-AC power conversion device 3 b of the branch wiring 8. The AC power is converted into AC power and supplied to the AC branch circuit unit 2, so that it is not necessary to consume the commercial power, and if there is a surplus even when used for an AC load, the AC branch circuit unit 1 is used. In addition, it is possible to sell electricity to a commercial power supply provider, so that the electricity charge can be saved.
[0022]
【The invention's effect】
As described above, the distribution board according to the present invention has an AC branch circuit unit and a DC branch circuit unit arranged in the panel, and thus supplies DC power directly to a device that uses DC power. Therefore, it is not necessary to install an AC adapter for each device. Further, the number of branch breakers installed in the AC branch circuit unit and the DC branch circuit unit can be changed according to the number of DC wirings and AC wirings.
Furthermore, since the direct-current power generated by the direct-current power generation unit may be directly supplied to the direct-current branch circuit unit, energy loss can be reduced by AC / DC conversion.
Therefore, the present invention eliminates the problems of the conventional distribution board, and is a significant benefit for the industry.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a first embodiment of the present invention.
FIG. 2 is a block diagram showing a second embodiment of the present invention.
FIG. 3 is a block diagram showing a third embodiment of the present invention.
FIG. 4 is a block diagram showing a fourth embodiment of the present invention.
FIG. 5 is a block diagram showing a conventional example.
[Explanation of symbols]
1 AC branch circuit 2 DC branch circuit
3a AC-DC power converter
3b DC-AC power converter 4 DC power generator 5 Surplus power consumption means

Claims (4)

An AC branch circuit unit in which a large number of AC power distribution branch breakers are connected to an AC power conductive bar connected to a commercial power source, and a DC power conductive unit connected to the AC branch circuit unit via an AC-DC power converter. It is possible to connect to a DC branch circuit part formed by connecting a number of branch breakers for DC distribution to a bar, and the AC branch circuit part and the DC branch circuit part are arranged in a panel that draws in load wiring. Distribution board to do.   2. The distribution board according to claim 1, wherein a DC power generation unit is connected to the DC branch circuit unit and surplus power consuming means is provided in the DC branch circuit unit. AC branch circuit unit consisting of many AC distribution branch breakers connected to AC power conductive bar connected to commercial power supply, and many DC power distribution branches connected to DC power conductive bar connected to DC power supply A board that draws load wiring into the AC branch circuit part and the DC branch circuit part that can be connected to the DC branch circuit part formed by connecting the breaker via the AC-DC power converter and the DC-AC power converter. A distribution board characterized by being placed inside. An AC branch circuit portion formed by connecting the branch breakers for numerous ac distribution into AC power conductive bar connected to a commercial power source, the branch for multiple DC distribution to the connected to the DC power supply DC power conductive bar It is possible to connect a DC branch circuit unit formed by connecting a breaker via a DC-AC power converter, and the AC branch circuit unit and the DC branch circuit unit are arranged in a panel for drawing in load wiring. Distribution board.

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