JP6264684B2 - Distribution board and cabinet for distribution board - Google Patents

Description

The present invention relates to a distribution board and a cabinet for a distribution board .

  Conventionally, a distribution board 50 having the configuration shown in FIG. 6 has been proposed (Patent Document 1). The distribution board 50 includes a base 51, a main breaker 52, and a branch breaker 53. A main bar 55 is connected to the terminal portion 54 of the main breaker 52. A branch bar 56 is connected to the end of the main bar 55.

  Patent Document 1 describes that a feed terminal is connected to an end of the branch breaker 53 opposite to the main breaker 52 side. Patent Document 1 describes that a space for attaching a high-functional device is secured in the upper part S1 of the connecting part of the main bar 55 and the lower part S2 of the connecting part of the feed terminal.

JP 2007-295667 A

  In the distribution board 50 described above, a space for attaching a high-functional device is secured in the upper part S1 of the connecting portion of the main bar 55 and the lower part S2 of the connecting portion of the feed terminal. It becomes possible to attach to.

  However, in the distribution board 50, there is a possibility that a high-functional device attached to the space of the upper portion S1 of the connection portion of the main bar 55 may malfunction due to electromagnetic noise or heat from the main breaker 52 and the branch breaker 53. is there. Therefore, in the distribution board 50, the reliability of the distribution board 50 may fall.

This invention is made | formed in view of the said reason, The objective is to provide the distribution board which can reduce that reliability falls, and the cabinet for distribution boards .

The distribution board of the present invention includes a box-shaped distribution board cabinet, and a high-power area in which a main breaker and a plurality of branch breakers are disposed, and the high-power area inside the distribution board cabinet Different weak current areas are formed, and a first mounting space for mounting a first distribution board internal unit is provided in the weak power area, and the main breaker and the plurality of branch breakers are provided in the high power area. Are arranged side by side, and the first mounting space is provided on the opposite side of the plurality of branch breakers with the main breaker as a boundary, and the first mounting space is provided outside the distribution board cabinet. A distribution board internal unit that can communicate with a device is attached as the first distribution board internal unit .

  In this distribution board, between the first mounting space and the main breaker, a second mounting space for mounting a terminal block electrically connected to the primary side of the main breaker, and electric power used by a consumer It is preferable that at least one of the third mounting space for mounting the ampere breaker that cuts off the electric circuit when the power exceeds the contract power is provided.

A distribution board according to another aspect of the present invention includes a box-shaped distribution board cabinet, and inside the distribution board cabinet, a high-power area in which a main breaker and a plurality of branch breakers are disposed, A weak electricity region different from the strong electricity region is formed, and the weak electricity region is provided with a first mounting space for attaching a first distribution board internal unit, and the main breaker is electrically connected to the power system. A connecting portion capable of connecting a connected wiring; the connecting portion is provided on an upper portion of the main breaker; the first attachment space is provided below the main breaker; and the first attachment space is provided. the power measuring adapter for measuring the power, Ru mounted as a unit for the first distribution board.

  In this distribution board, the power measurement adapter is electrically connected to any one of the plurality of branch breakers, and is disposed in the second distribution board disposed in the low power region. It is preferable to be configured to be electrically connected to the container.

  In this distribution board, the power measurement adapter is supplied with power from one of the plurality of branch breakers and flows through a conductive bar electrically connected to the plurality of branch breakers. It is preferable to be configured to be electrically connected to a measuring instrument that measures a value.

  In this distribution board, the main breaker and the plurality of branch breakers are arranged side by side in the high power region, and the weak power region is on the side opposite to the main breaker with the plurality of branch breakers as a boundary. In addition, it is preferable that a fourth mounting space for mounting the third distribution panel inner unit is provided.

A distribution board according to another aspect of the present invention includes a box-shaped distribution board cabinet, and inside the distribution board cabinet, a high-power area in which a main breaker and a plurality of branch breakers are disposed, A weak electricity region different from the strong electricity region is formed, and the weak electricity region is provided with a first attachment space for attaching a first distribution board internal unit, and the first attachment space has a communication function. A first communication adapter capable of communicating with a power meter, a second communication adapter capable of communicating with an external electric device of the distribution board cabinet, and an external device different from the electric device. any one or more distribution board for the unit of communicable third communication adapter, mounting et is as the absorber for the first distribution board, the first mounting space, the first Communication adapter and second communication Adapters and a third communication adapter together is attachable.

A distribution board according to another aspect of the present invention includes a box-shaped distribution board cabinet, and inside the distribution board cabinet, a high-power area in which a main breaker and a plurality of branch breakers are disposed, A weak electricity region different from the strong electricity region is formed, and the weak electricity region is provided with a first attachment space for attaching a first distribution board internal unit, and the first attachment space has a communication function. A first communication adapter capable of communicating with a power meter, a second communication adapter capable of communicating with an external electric device of the distribution board cabinet, and an external device different from the electric device. Any one or a plurality of distribution board internal units of the third communication adapter capable of communication are attached as the first distribution panel internal unit, and the first distribution panel internal unit is 2 Two or more internal units for the distribution board That has been configured to be electrically connected to the stomach.
A distribution board cabinet according to an aspect of the present invention is used in the distribution board, and the high-power area and the low-power area are formed therein.

In the distribution board and distribution board cabinet of the present invention, a high-power area in which a main breaker and a plurality of branch breakers are arranged and a low-power area different from the high-power area are formed inside the distribution board cabinet. Has been. In the distribution board and the distribution board cabinet of the present invention, a first mounting space in which the first distribution panel inner unit is mounted is provided in the low-power area. As a result, in the distribution board and distribution board cabinet of the present invention, the first distribution panel internal unit attached to the first installation space is caused by electromagnetic noise or heat from the main breaker and the plurality of branch breakers. Thus, malfunctions can be reduced. Therefore, in the distribution board and the cabinet for distribution boards of this invention, it becomes possible to reduce that reliability falls.

It is a schematic block diagram of the distribution board of this embodiment. It is explanatory drawing of the state by which the main circuit breaker, the some branch breaker, the internal unit for distribution boards, and the adapter for electric power measurement were attached in the distribution board cabinet regarding the distribution board of this embodiment. It is a schematic block diagram of the internal unit for distribution boards and the adapter for electric power measurement accommodated in the cabinet for distribution boards in the distribution board of this embodiment. It is explanatory drawing which shows the connection relation of a 1st communication adapter, a 2nd communication adapter, and a 3rd communication adapter regarding the internal unit for distribution boards accommodated in the cabinet for distribution boards in the distribution board of this embodiment. . It is another schematic block diagram of the internal unit for distribution boards and the adapter for electric power measurement accommodated in the cabinet for distribution boards in the distribution board of this embodiment. It is a schematic block diagram of the distribution board of a prior art example.

  Hereinafter, the distribution board 11 of this embodiment is demonstrated, referring FIG. 1 and FIG.

  The distribution board 11 includes, for example, a box-shaped distribution board cabinet 14 formed of a synthetic resin, and a plurality of internal devices (hereinafter referred to as “internal devices”) are accommodated in the distribution board cabinet 14. Has been.

  The distribution board cabinet 14 is attached to a box-like box 14a (rectangular box-like in this embodiment) having an open front surface, and an upper front edge of the box 14a so as to be freely rotatable. And a cover (not shown).

  Inside the box 14a, a first distribution board internal unit 33, a main breaker 12, and a plurality of branch breakers 13 are housed as a plurality of internal units.

  Further, in the box 14 a, a high-power area 40 where the main breaker 12 and the plurality of branch breakers 13 are arranged, and a low-power area 38 different from the high-power area 40 are formed. In short, in the distribution board cabinet 14, a high-power area 40 in which the main breaker 12 and the plurality of branch breakers 13 are arranged, and a low-power area 38 different from the high-power area 40 are formed. A plurality of (two in the present embodiment) first mounting spaces 42 for mounting the first distribution board inner unit 33 are provided in the weak power region 38. In the following, for convenience of explanation, one of the two first mounting spaces 42 is referred to as a first space 42a, and the other is referred to as a second space 42b.

  In the distribution board 11 of the present embodiment, a main breaker 12 and a plurality of branch breakers 13 are arranged side by side in the high-power area 40. The first space 42a is provided on the opposite side (left side in FIG. 1) from the plurality of branch breakers 13 with the main breaker 12 as a boundary. In short, the first mounting space 42 is provided on the opposite side of the plurality of branch breakers 13 with the main breaker 12 as a boundary. In the first space 42 a, a distribution board internal unit 6 capable of communicating with devices outside the distribution board cabinet 14 is attached as a first distribution board internal unit 33. In short, in the first mounting space 42, the distribution board internal unit 6 capable of communicating with devices outside the distribution board cabinet 14 is attached as the first distribution board internal unit 33. In the present embodiment, a plurality (three) of distribution board internal unit 6 are attached to the first space 42a. Hereinafter, for convenience of explanation, the plurality of distribution board internal units 6 are referred to as internal units 10.

  The primary side (power supply side) of the main breaker 12 is connected to main wiring (not shown) drawn from the power system into the customer's dwelling unit. The secondary side (load side) of the main breaker 12 is electrically conductive. A plurality of branch breakers 13 are electrically connected by a bar (not shown). The main breaker 12 includes a plurality (three in the present embodiment) of connecting portions 20 that can connect the main wiring electrically connected to the power system. Each connecting portion 20 is provided on the upper portion of the main breaker 12. That is, the main breaker 12 includes a connection unit 20 that can connect a wiring (main trunk wiring) that is electrically connected to the power system. The connecting portion 20 is provided on the upper portion of the main breaker 12. The main breaker 12 is well known in the art and will not be described in detail.

  The primary side (power supply side) of each branch breaker 13 is electrically connected to the main breaker 12 by the conductive bar. A branch wiring (not shown) previously wired in the dwelling unit is connected to the secondary side (load side) of each branch breaker 13, and a first electric device (not shown) is connected to each branch wiring. Connected. As the first electric device, for example, an electric device (for example, an air conditioner) having a communication function can be used. Each branch breaker 13 is well known in the art and will not be described in detail.

  In the distribution board 11 of the present embodiment, a second mounting space for mounting a terminal block 48 (see FIG. 2) electrically connected to the primary side of the main breaker 12 between the first space 42 a and the main breaker 12. 46 is provided. Here, in the present embodiment, the second mounting space 46 for mounting the terminal block 48 is provided between the first space 42a and the main breaker 12, but this is not restrictive. For example, in the present embodiment, the third attachment for attaching an ampere breaker (not shown) that cuts off the electric circuit between the first space 42a and the main breaker 12 when the electric power used by the consumer exceeds the contracted electric power. A space (not shown) may be provided. In the present embodiment, both the second mounting space 46 and the third mounting space may be provided between the first space 42 a and the main breaker 12.

  As shown in FIG. 3, the internal unit 10 includes a first communication adapter 2 that can communicate with a power meter (not shown) having a communication function, and a second controller that controls the operation of the first electric device. And a second communication adapter 3 capable of communicating with an electrical device (not shown). The internal unit 10 includes a third communication adapter 4 that can communicate with an external device different from the first electric device and the second electric device using a first communication line (not shown) as a medium. ing. Each of the first electric device and the second electric device is disposed outside the distribution board cabinet 14. As the second electric device, for example, a HEMS (Home Energy Management System) device or the like can be used. The HEMS device is, for example, an electric device configured to control the operation of the first electric device based on information (for example, a power saving request) from an electric power company. The power saving request means, for example, a request for suppressing the operation of the first electric device at the peak of energy demand. Hereinafter, each of the first communication adapter 2, the second communication adapter 3, and the third communication adapter 4 may be referred to as a distribution board internal unit 6.

  Incidentally, a second space 42b is provided on the lower side of the main breaker 12. In the second space 42b, the power measurement adapter 1 (see FIG. 2) for measuring power is attached as the first distribution board inner unit 33. In short, a first mounting space 42 is provided below the main breaker 12, and the power measuring adapter 1 for measuring power is mounted as a first distribution board inner unit 33 in the first mounting space 42. It is done. Thereby, in the distribution board 11 of this embodiment, the power measurement adapter 1 attached to the second space 42b malfunctions due to electromagnetic noise or heat from the main breaker 12 or the plurality of branch breakers 13. Can be reduced.

  The power measuring adapter 1 is electrically connected to any one of the plurality of branch breakers 13 and is connected to the second distribution panel internal unit (in this embodiment, disposed in the low current region 38). The internal unit 6) for distribution board is configured to be electrically connected. More specifically, the power measuring adapter 1 is electrically connected to one branch breaker 13 via the first connection line 15 (see FIG. 3). As a result, the power measurement adapter 1 can be fed from the branch breaker 13 via the first connection line 15. That is, the power measuring adapter 1 is configured to be fed from any one of the plurality of branch breakers 13.

  The power measurement adapter 1 is electrically connected to the second communication adapter 3 via the second connection line 16 (see FIG. 3). In the present embodiment, one end of the second connection line 16 is electrically connected to the power measurement adapter 1. Moreover, in this embodiment, the 1st connector 17a is provided in the other end of the 2nd connection line 16, and the 1st connector 17a couple | bonds with the 2nd connector 17b previously provided in the 2nd communication adapter 3 so that attachment or detachment is possible. It is configured as follows.

  The power measuring adapter 1 is configured integrally with a power adapter 5 that supplies power to each of the power measuring adapter 1, the first communication adapter 2, the second communication adapter 3, and the third communication adapter 4. Thereby, in the distribution board 11 of this embodiment, the connection member which connects the adapter 1 for electric power measurement and the power adapter 5 becomes unnecessary, and it becomes possible to save the effort of construction.

  The power adapter 5 includes a first AC-DC conversion circuit (not shown) that converts an AC voltage (for example, 100 [V]) from the branch breaker 13 into a predetermined first DC voltage. The power adapter 5 outputs the predetermined first DC voltage converted by the first AC-DC conversion circuit to the second communication adapter 3 via the second connection line 16. In the present embodiment, the predetermined first DC voltage is set to 4.2 [V], for example.

  The power adapter 5 also includes a second AC-DC conversion circuit (not shown) that converts the AC voltage from the branch breaker 13 into a predetermined second DC voltage. The power adapter 5 outputs the predetermined second DC voltage converted by the second AC-DC conversion circuit to the third communication adapter 4 via a third connection line (not shown). In the present embodiment, the predetermined second DC voltage is set to 5 [V], for example. In the present embodiment, one end of the third connection line is electrically connected to the power adapter 5. In the present embodiment, the first connection part (not shown) is provided at the other end of the third connection line, and the first connection part is provided in the third communication adapter 4 in advance. 35 is detachably joined.

  Further, the power measurement adapter 1 includes a plurality (two in FIG. 3) of first current sensors 18 that acquire the current flowing through the main wiring. The power measurement adapter 1 includes a plurality (three in FIG. 3) of second current sensors 19 that acquire the current flowing through the branch wiring. As the first current sensor 18 and the second current sensor 19, for example, a current transformer or the like can be used. The first current sensor 18 and the second current sensor 19 are well known in the art and will not be described in detail.

  The power measurement adapter 1 is configured to acquire the current flowing through the main wiring by the first current sensor 18 and measure the power (power consumption) of the main wiring. Further, the power measuring adapter 1 is configured to acquire the current flowing through the branch wiring by the second current sensor 19 and measure the power (power consumption) of the branch wiring.

  In the distribution board 11 of this embodiment, the measuring instrument 49 (refer FIG. 2) which measures the electric current value which flows into the said electrically conductive bar electrically connected with the some branch breaker 13 inside the cabinet 14 for distribution boards. Are stored (two in this embodiment). As the measuring instrument 49, for example, a measuring instrument provided with a Rogowski coil can be used.

  The power measurement adapter 1 is electrically connected to the measuring instrument 49 via a fourth connection line (not shown). In short, the power measuring adapter 1 is configured to be electrically connected to a measuring instrument 49 that measures the current value flowing through the conductive bar electrically connected to the plurality of branch breakers 13. In the present embodiment, one end of the fourth connection line is electrically connected to the measuring instrument 49. Moreover, in this embodiment, the 3rd connection part (not shown) is provided in the other end of the said 4th connection line, and the said 3rd connection part is the 4th connection part previously provided in the adapter 1 for electric power measurement. 34 is configured to be detachably coupled. Thereby, the adapter 1 for power measurement can acquire the current value measured by the measuring instrument 49 by the fourth connection line.

  The first communication adapter 2 is configured to be capable of both wireless communication using radio waves as a medium and power line carrier communication using a power line (not shown) as a medium with the power meter. The first communication adapter 2 is configured to perform wireless communication using, for example, specific low power wireless communication in the 920 MHz band. Further, the first communication adapter 2 is electrically connected to the primary side of the main breaker 12 by the power line, and carries the power line with the power meter via the main wiring connected to the primary side of the main breaker 12. It is configured to communicate. In the present embodiment, the first communication adapter 2 is connected to the primary side of the main breaker 12, but may be connected to the secondary side of the main breaker 12. Moreover, although the 1st communication adapter 2 is comprised so that communication of both wireless communication and power line carrier communication is possible, you may be comprised so that one communication of wireless communication and power line carrier communication is possible.

  The second communication adapter 3 is configured to be able to communicate with the second electric device. More specifically, the second communication adapter 3 communicates with the second electric device both wireless communication using radio waves as a medium and wired communication using a second communication line (not shown) as a medium. Communication is possible. For example, the second communication adapter 3 is configured to perform wireless communication using wireless LAN communication. The second communication adapter 3 is configured to perform wired communication using a second communication line (for example, a LAN cable). In the present embodiment, the second communication adapter 3 is configured to be capable of both wireless communication and wired communication, but may be configured to be capable of one communication of wireless communication and wired communication. Good.

  The third communication adapter 4 is electrically connected to a gas meter (not shown) with a pulse transmitter and a pulse transmission type flow meter (not shown) via the first communication line. The gas meter transmits a pulse to the third communication adapter 4 via the first communication line every time a predetermined gas usage amount is measured. The flow meter transmits a pulse to the third communication adapter 4 via the first communication line every time a predetermined amount of water usage is measured. Therefore, the third communication adapter 4 can receive pulses from the gas meter and the flow meter. The gas meter and the flow meter are well known in the art and will not be described in detail.

  The third communication adapter 4 is electrically connected to a power generation device (not shown), a power storage device (not shown), and an electric vehicle (not shown) via the first communication line. As the power generation device, for example, solar power generation can be used. As the power storage device, for example, a lithium ion battery can be used. Here, the power generation device and the power storage device may be electrically connected to a power conversion device (not shown) such as a power conditioner, for example. In this case, the power converter may be electrically connected to the third communication adapter 4 via the first communication line. In the present embodiment, each of the gas meter, the flow meter, the power generation device, the power storage device, the electric vehicle, and the power conversion device corresponds to the external device.

  The third communication adapter 4 is configured to be able to communicate with the external device. If demonstrating it concretely, the 3rd communication adapter 4 is comprised so that it may have a function which receives the pulse transmitted from the said gas meter or the said flow meter. Further, the third communication adapter 4 is configured to have a function of performing serial communication with the power conversion device and the electric vehicle. That is, the third communication adapter 4 is configured to have both a function of receiving a pulse transmitted from the external device and a function of performing serial communication with the external device. In the present embodiment, for example, the RS-485 standard is used as a communication standard between the power conversion device or the electric vehicle and the third communication adapter 4. The third communication adapter 4 is configured to have both a function of receiving a pulse transmitted from the external device and a function of performing serial communication with the external device. Not limited to this. For example, the third communication adapter 4 may be configured to have one of a function of receiving a pulse transmitted from the external device and a function of performing serial communication with the external device. .

  The internal unit 10 is configured such that the first communication adapter 2, the second communication adapter 3, and the third communication adapter 4 are detachably coupled to each other.

  As shown in FIG. 4, the first communication adapter 2 includes a third connector 7 that detachably couples the second communication adapter 3. The third connector 7 is mounted on a first circuit board (not shown) of the first communication adapter 2 and is exposed from the case 2 a of the first communication adapter 2. Moreover, the 1st communication adapter 2 is provided with the 1st connection part 28 which can connect the said power line electrically. The first connection portion 28 is mounted on the first circuit board and is exposed from the case 2 a of the first communication adapter 2.

  The second communication adapter 3 includes a fourth connector (not shown) that is detachably coupled to the third connector 7 of the first communication adapter 2. The fourth connector is mounted on a second circuit board (not shown) of the second communication adapter 3 and is exposed from the case 3 a of the second communication adapter 3. Thereby, the 2nd communication adapter 3 becomes possible [connecting the 1st communication adapter 2 removably]. Here, the second connector 17 b is mounted on the second circuit board and exposed from the case 3 a of the second communication adapter 3.

  As shown in FIG. 4, the third communication adapter 4 includes a fifth connector 8 that detachably couples the second communication adapter 3. The fifth connector 8 is mounted on a third circuit board (not shown) of the third communication adapter 4 and is exposed from the case 4 a of the third communication adapter 4. The third communication adapter 4 includes a second connection unit 29 that can electrically connect the first communication line connected to the external device. The second connection portion 29 is mounted on the third circuit board and is exposed from the case 4 a of the third communication adapter 4. In the present embodiment, the third communication adapter 4 includes a plurality (two in FIG. 4) of the second connection portions 29, but may include only one.

  The second communication adapter 3 includes a sixth connector (not shown) that is detachably coupled to the fifth connector 8 of the third communication adapter 4. The sixth connector is mounted on the second circuit board of the second communication adapter 3 and is exposed from the case 3 a of the second communication adapter 3. Thereby, the second communication adapter 3 can detachably connect the third communication adapter 4.

  Moreover, the 2nd communication adapter 3 is provided with the 3rd connection part 30 which can electrically connect the 2nd communication line connected to the said 2nd electric equipment. The third connection unit 30 is mounted on the second circuit board of the second communication adapter 3 and is exposed from the case 3 a of the second communication adapter 3.

  The internal unit 10 is configured such that the first communication adapter 2, the second communication adapter 3, and the third communication adapter 4 are detachably coupled by connectors. The 1st communication adapter 2, the 2nd communication adapter 3, and the 3rd communication adapter 4 are couple | bonded by what is called BtoB (Board to Board). In the internal unit 10, the internal unit 10 is compared with the case where the first communication adapter 2, the second communication adapter 3, and the third communication adapter 4 are coupled using a fifth connection line (not shown). It becomes possible to improve the workability of mounting in the distribution board cabinet 14. Moreover, in the internal unit 10, compared with the case where the 1st communication adapter 2, the 2nd communication adapter 3, and the 3rd communication adapter 4 are couple | bonded using the said 5th connection line, the cabinet 14 for distribution boards is provided. It is possible to reduce the size. Therefore, in the internal unit 10, it is possible to save the space of the distribution board 11.

  The power measurement adapter 1 is configured to be able to communicate with the second communication adapter 3 via the second connection line 16. In the present embodiment, for example, serial communication is used as a communication standard between the power measurement adapter 1 and the second communication adapter 3. Therefore, the power measurement adapter 1 can transmit the result of measuring the power (power consumption) of each of the main wiring and each branch wiring to the second communication adapter 3 via the second connection line 16. Become. Further, the power measuring adapter 1 can transmit the value of the current flowing through the conductive bar acquired from the measuring instrument 49 to the second communication adapter 3 via the second connection line 16.

  Moreover, in the internal unit 10, the 1st communication adapter 2, the 2nd communication adapter 3, and the 3rd communication adapter 4 are each comprised so that communication is possible.

  The first communication adapter 2 is configured to be able to communicate with the second communication adapter 3 via the third connector 7 and the fourth connector. More specifically, a communication line (not shown) of the first circuit board of the first communication adapter 2 is connected to the second communication adapter 3 via the third connector 7 and the fourth connector. It is connected to a communication line (not shown) of the circuit board. Thereby, in the internal unit 10, the first communication adapter 2 and the second communication adapter 3 can communicate with each other. The first communication adapter 2 and the second communication adapter 3 can communicate with each other using the communication lines and the connectors of the circuit boards, but the present invention is not limited to this. For example, the first communication adapter 2 and the second communication adapter 3 may be communicable using, for example, radio waves.

  The second communication adapter 3 is configured to transmit the input information to the second electrical device when the information from the power meter is input via the first communication adapter 2. . Thereby, the second electric device can control power supply from the distribution board 11 to the first electric device based on the information from the power meter. In the present embodiment, the second communication adapter 3 is configured to transmit the input information to the second electrical device when the information from the power meter is input via the first communication adapter 2. However, it is not limited to this. For example, in the present embodiment, when the information from the power meter is input via the first communication adapter 2, the second communication adapter 3 controls the operation of the first electrical device based on the information. You may comprise as follows.

  The third communication adapter 4 is configured to be able to communicate with the second communication adapter 3 via the fifth connector 8 and the sixth connector. Specifically, the communication line (not shown) of the third circuit board of the third communication adapter 4 is connected to the second communication adapter 3 via the fifth connector 8 and the sixth connector. It is connected to the communication line on the circuit board. Thereby, in the internal unit 10, the 3rd communication adapter 4 and the 2nd communication adapter 3 can communicate. Therefore, the third communication adapter 4 can transmit the received pulse to the second communication adapter 3 after receiving the pulse transmitted from the gas meter or the flow meter, for example. Thus, the second communication adapter 3 can measure the amount of gas and water used based on the pulses transmitted from the gas meter and the flow meter. The third communication adapter 4 and the second communication adapter 3 can communicate with each other using the communication lines and the connectors of the circuit boards. However, the present invention is not limited to this. For example, the third communication adapter 4 and the second communication adapter 3 may be communicable using, for example, radio waves.

  By the way, as shown in FIG. 2, a weak current region 38 is also formed inside the distribution board cabinet 14 on the opposite side of the main breaker 12 with the plurality of branch breakers 13 as boundaries. The weak electricity region 38 is provided with a fourth attachment space 39 for attaching a third distribution panel internal unit (not shown). In short, in the low current area 38, a fourth mounting space 39 for mounting the third distribution panel inner unit is provided on the side opposite to the main breaker 12 with the plurality of branch breakers 13 as a boundary. For example, the second communication adapter 3 or the third communication adapter 4 can be used as the third distribution board internal unit. In addition, it is desirable that the third distribution panel internal unit is configured to be electrically connectable to the conductive bar. Thereby, in the distribution board 11 of this embodiment, it becomes possible to attach the said 3rd distribution board internal unit in the 4th installation space 39, and it becomes possible to improve the function of the distribution board 11. FIG. 1 and 2 show a state in which the branch breakers 13 for three circuits are attached to the fourth attachment space 39 instead of the third distribution panel internal unit.

  Here, in the distribution board 11 of the present embodiment, the power measurement adapter 1 is configured integrally with the power adapter 5, but is not limited thereto. For example, as shown in FIG. 5, the power adapter 5 may be configured separately from the power measurement adapter 1, the first communication adapter 2, the second communication adapter 3, and the third communication adapter 4. In this case, the power supply adapter 5 and the power supply line 31 which electrically connects each of the power measurement adapter 1, the first communication adapter 2, the second communication adapter 3, and the third communication adapter 4 are necessary. In this case, the signal line 32 that electrically connects the power adapter 5 and the power measurement adapter 1 is required. In addition, the arrow in FIG. 5 represents that each of the adapter 1 for power measurement, the 1st communication adapter 2, the 2nd communication adapter 3, and the 3rd communication adapter 4 can communicate.

  The distribution board 11 of this embodiment described above includes a box-shaped distribution board cabinet 14. Inside the distribution board cabinet 14, a high-power area 40 where the main breaker 12 and the plurality of branch breakers 13 are arranged, and a low-power area 38 different from the high-power area 40 are formed. A first mounting space 42 in which the first distribution board inner unit 33 is mounted is provided in the weak power region 38. Thereby, in the distribution board 11 of this embodiment, it becomes possible to attach the 1st distribution board inner device 33 to the 1st attachment space 42 provided in the weak electricity area | region 38. FIG. Therefore, in the distribution board 11, the first distribution board internal unit 33 attached to the first installation space 42 malfunctions due to electromagnetic noise or heat from the main breaker 12 and the plurality of branch breakers 13. Can be reduced. Therefore, in the distribution board 11, it becomes possible to reduce that the reliability of the distribution board 11 falls.

  In the distribution board 11 of the present embodiment, the main breaker 12 and the plurality of branch breakers 13 are arranged side by side in the high-power area 40. The first mounting space 42 (first space 42 a) is provided on the opposite side of the plurality of branch breakers 13 with the main breaker 12 as a boundary. In the first mounting space 42 (first space 42a), the distribution board inner unit 6 capable of communicating with devices outside the distribution board cabinet 14 is provided. Attached as. Thereby, in the distribution board 11 of this embodiment, the 1st distribution board internal unit 33 (distribution panel internal unit 6) attached to the 1st attachment space 42 is the main breaker 12 and several branch. It is possible to further reduce malfunction due to electromagnetic noise or heat from the breaker 13. Therefore, in the distribution board 11, it becomes possible to reduce further that the reliability of the distribution board 11 falls. Further, in the distribution board 11, it is possible to attach the distribution board internal unit 6 that can communicate with devices outside the distribution board cabinet 14 in the first installation space 42. The function of the electrical board 11 can be enhanced.

  Moreover, in the distribution board 11 of this embodiment, the 2nd attachment space 46 which attaches the terminal block 48 electrically connected with the primary side of the master breaker 12 between the 1st attachment space 42 and the master breaker 12; At least one of the third mounting space for mounting an ampere breaker that cuts off the electric circuit when the power used by the consumer exceeds the contracted power is provided. Thereby, in the distribution board 11 of this embodiment, the internal device 33 for 1st distribution boards attached to the 1st installation space 42 originates in the electromagnetic noise or heat from the main breaker 12 and the several branch breaker 13 As a result, malfunctions can be further reduced. Therefore, in the distribution board 11, it becomes possible to reduce further that the reliability of the distribution board 11 falls.

  Moreover, in the distribution board 11 of this embodiment, the 1st communication adapter 2 which can communicate between the 1st installation space 42 and the wattmeter which has a communication function, and the electric equipment outside the cabinet 14 for distribution boards Any one or a plurality of distribution board internal units 6 among the second communication adapter 3 capable of communicating with each other and the third communication adapter 4 capable of communicating with an external device different from the electric device, It is attached as an inner device 33 for the first distribution board. Thereby, in the distribution board 11 of this embodiment, since it becomes possible to attach various types of internal units 6 for distribution boards to the 1st attachment space 42, the function of the distribution board 11 is improved. Is possible.

  Further, in the distribution board 11 of the present embodiment, the first distribution board internal unit 33 is configured by two or more distribution panel internal unit 6 being electrically connected to each other. Thereby, in the distribution board 11 of this embodiment, since the two or more internal units 6 for distribution boards are electrically connected mutually, the function of the distribution board 11 can be improved more.

DESCRIPTION OF SYMBOLS 1 Adapter for electric power measurement 2 1st communication adapter 3 2nd communication adapter 4 3rd communication adapter 6 Internal unit for distribution board 11 Distribution board 12 Master breaker 13 Branch breaker 14 Distribution board cabinet 20 Connection part 33 1st Internal device for distribution board 38 Low power area 39 Fourth mounting space 40 High power area 42 First mounting space 46 Second mounting space 48 Terminal block 49 Measuring instrument

Claims (9)

It has a box-shaped cabinet for distribution boards,
Inside the cabinet for the distribution board, a high-power area where a main breaker and a plurality of branch breakers are arranged, and a low-power area different from the high-power area are formed,
A first mounting space for mounting the first distribution panel inner unit is provided in the weak power region ,
In the high power region, the main breaker and the plurality of branch breakers are arranged side by side,
The first mounting space is provided on the opposite side of the plurality of branch breakers with the main breaker as a boundary, and the first mounting space communicates with devices outside the distribution board cabinet. A possible distribution board internal unit is attached as the first distribution board internal unit .   Between the first mounting space and the main breaker, the second mounting space for mounting a terminal block electrically connected to the primary side of the main breaker, and the power used by consumers exceeded the contract power The distribution board according to claim 1, wherein at least one of a third mounting space for mounting an ampere breaker that sometimes interrupts the electric circuit is provided.   It has a box-shaped cabinet for distribution boards,
  Inside the cabinet for the distribution board, a high-power area where a main breaker and a plurality of branch breakers are arranged, and a low-power area different from the high-power area are formed,
  A first mounting space for mounting the first distribution panel inner unit is provided in the weak power region,
  The main breaker includes a connection portion capable of connecting a wiring electrically connected to an electric power system, and the connection portion is provided in an upper portion of the main breaker, and the first breaker is disposed below the main breaker. Installation space is provided,
  In the first mounting space, a power distribution adapter for measuring power is mounted as the first distribution panel internal unit.   The power measurement adapter is electrically connected to any one of the plurality of branch breakers, and is electrically connected to a second distribution panel internal unit disposed in the low-power area. The distribution board according to claim 3, wherein the distribution board is configured as described above.   The power measuring adapter is a measuring instrument that measures a current value that is supplied from any one of the plurality of branch breakers and that flows through a conductive bar that is electrically connected to the plurality of branch breakers. The distribution board according to claim 3, wherein the distribution board is configured to be electrically connected to the distribution board.   In the high power region, the main breaker and the plurality of branch breakers are arranged side by side,
  4. The fourth electrical installation space for attaching an internal device for a third distribution board is provided in the light electrical area on the side opposite to the main circuit breaker across the plurality of branch breakers. The distribution board according to any one of claims 1 to 5.   It has a box-shaped cabinet for distribution boards,
  Inside the cabinet for the distribution board, a high-power area where a main breaker and a plurality of branch breakers are arranged, and a low-power area different from the high-power area are formed,
  A first mounting space for mounting the first distribution panel inner unit is provided in the weak power region,
  In the first mounting space, a first communication adapter capable of communicating with a power meter having a communication function, a second communication adapter capable of communicating with an electric device outside the distribution board cabinet, Any one or a plurality of internal units for the distribution panel among the third communication adapters capable of communicating with an external device different from the electrical device are attached as the first internal unit for the distribution panel,
  The distribution board, wherein the first communication adapter, the second communication adapter, and the third communication adapter can be attached together in the first mounting space. It has a box-shaped cabinet for distribution boards,
Inside the cabinet for the distribution board, a high-power area where a main breaker and a plurality of branch breakers are arranged, and a low-power area different from the high-power area are formed,
A first mounting space for mounting the first distribution panel inner unit is provided in the weak power region,
In the first mounting space, a first communication adapter capable of communicating with a power meter having a communication function, a second communication adapter capable of communicating with an electric device outside the distribution board cabinet, any one or more distribution board for the unit of the third communication adapter capable of communicating with an external device different from the electrical equipment, mounting et is as the absorber for the first distribution board,
The first distribution board internal unit is constituted by two or more distribution panel internal units electrically connected to each other.   It is used for the distribution board according to any one of claims 1 to 8,
  A cabinet for a distribution board in which the high-power area and the low-power area are formed.

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