JP6350936B2 - Internal device for distribution board, communication adapter device, distribution board - Google Patents

Description

The present invention, distribution board for the device, the communication adapter apparatus, a distribution board, and more particularly, distribution board for the device for communicating with devices in the distribution board external communication adapter apparatus, power distribution Regarding the board.

  Conventionally, there has been a distribution board in which a communication unit that performs communication with a power meter having a communication function is housed in a storage box (see, for example, Patent Document 1).

JP 2014-14237 A

  In recent years, distributed power sources such as solar power generation devices and HEMS (Home Energy Management System) that manages the supply and demand of energy within the consumer are becoming popular.

  In the HEMS, the distribution board is equipped with a distribution board internal unit having a communication function, and this distribution board internal unit supplies the data of the amount of power consumed by the branch circuit to the external controller (second external device). And the controller can manage the supply and demand of energy within the customer. When a device related to energy supply and demand such as a distributed power source (first external device) is installed in a consumer, data related to energy supply and demand is input to the controller from the first external device and the controller wants to manage it. There is a request. Therefore, a distribution adapter for inputting data from the first external device is connected to the internal unit for distribution board having a communication function, and the distribution board having a communication function for communicating data from the first external device via the communication adapter It is conceivable to input to the internal unit. Here, since there are various types of first external devices, and the type of communication adapter differs depending on the type of the first external device to be connected, the distribution board internal unit determines the type of the connected communication adapter. There was a need.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a distribution board internal unit, a communication adapter device , and a distribution board that can determine the type of communication adapter.

  An internal device for a distribution board according to the present invention is an internal device for a distribution board that is attached to a distribution board provided in a facility, and includes a first input unit and a determination unit. The first input unit is electrically connected to a communication adapter to which data relating to energy supply and demand is input from a first external device related to energy supply and demand provided in the consumer, and the communication adapter is connected to the communication adapter. Identification information is input. The determination unit determines a type of the communication adapter connected based on the identification information input to the first input unit.

The communication adapter device of the present invention includes the above-mentioned distribution board internal unit and a communication adapter connected to the above distribution board internal unit . The communication adapter, Ru includes a second input and a first output unit. The second input unit receives data related to energy supply and demand from the first external device. The first output unit outputs the identification information and the data input to the second input unit to the distribution board internal unit.

A distribution board according to the present invention includes the communication adapter device described above , and a distribution board cabinet that houses the distribution board inner unit and the communication adapter.

  In the distribution board internal unit of the present invention, the determination unit determines the type of the communication adapter connected to the distribution panel internal unit based on the identification information input from the communication adapter to the first input unit. can do.

According to the communication adapter apparatus of the present invention, since the outputs identification information indicating the type of communications adapters distribution board for the device from the first output unit, distribution board for the device communication adapter is connected Thus, it is possible to determine the type of communication adapter connected to the distribution board internal unit.

  According to the distribution board of the present invention, the determination unit of the distribution board internal unit is connected to the distribution panel internal unit based on the identification information input from the communication adapter to the first input unit. The type of communication adapter can be determined.

It is a block diagram of the electricity distribution panel of this embodiment. It is a front view of the state where the outer lid of the distribution board of this embodiment was removed. It is an external appearance perspective view of the electricity distribution panel of this embodiment. It is a front view of the state where the outer cover and inner cover of the distribution board of this embodiment were removed. It is a front view of the state where the outer cover, inner cover, and communication adapter of the distribution board of this embodiment were removed. It is explanatory drawing which shows the attachment structure of the branch breaker of this embodiment, an electric current measuring device, and a conductive bar. 7A is a front view of the first communication adapter of this embodiment, FIG. 7B is a side view of the first communication adapter of this embodiment, FIG. 7C is a rear view of the first communication adapter of this embodiment, and FIG. 7D is this embodiment. It is a bottom view of the 1st communication adapter of a form. FIG. 8A is a front view of the third communication adapter of the present embodiment, and FIG. 8B is a side view of the third communication adapter of the present embodiment. It is a perspective view of the state where the internal unit for distribution boards was attached to the attachment member of this embodiment. It is a perspective view of the state before attaching the internal unit for distribution boards to the attachment member of this embodiment.

  Hereinafter, embodiments of a distribution board internal unit, a communication adapter, and a distribution board will be described with reference to the drawings. However, the configuration described below is only an example of the present invention, and the present invention is not limited to the following embodiment, and the technical idea according to the present invention is not deviated from this embodiment. Various changes can be made in accordance with the design or the like as long as they are not.

  In addition, although illustrated below about the case where the distribution board 1 of this embodiment is used in a detached house, it is not restricted to this example. That is, the distribution board 1 of this embodiment is provided in a consumer (facility), and may be used, for example, in each dwelling unit, office, store, or the like of an apartment house. In the following description, the top, bottom, left, and right (up, down, left, and right in FIG. 2) when the distribution board 1 is attached to the wall will be referred to as up, down, left, and right, and the direction orthogonal to the wall (the paper surface of FIG. It is not intended to limit the direction in which the distribution board 1 is attached.

  As shown in FIGS. 1 to 5, the distribution board 1 of the present embodiment includes a distribution board cabinet 10, a first communication adapter 7 (distribution panel internal unit), and a third communication adapter 9 (communication). Adapter). Moreover, the distribution board 1 of this embodiment is further provided with the main breaker 2, the several branch breaker 3, the measurement unit 6, and the 2nd communication adapter 8 as an internal device for distribution boards.

  As shown in FIGS. 2 to 5, the distribution board cabinet 10 includes a cabinet body 11, an outer lid 15, and an inner lid 16. As shown in FIG. 2, the cabinet body 11 is formed in a box shape having an open front surface. The cabinet body 11 is used by being attached to a wall of a house. Inside the cabinet body 11, there are a main breaker 2, a plurality of branch breakers 3, conductive bars 41, 42, 43, a current measuring instrument 5, a measuring unit 6, first, second and third communication adapters 7, 8, 9. And a space for accommodating the primary interconnection breaker 110 and the secondary interconnection breaker 100.

  Further, the cabinet body 11 has a window hole 12 penetrating in the front-rear direction, and wiring can be drawn from the back of the wall into the cabinet body 11 through the window hole 12.

  As shown in FIGS. 2 and 3, the inner lid 16 is made of, for example, a synthetic resin and is formed in a rectangular frame shape with substantially the entire rear surface opened, and covers the front end portion of the side wall of the cabinet body 11. And attached to the cabinet body 11. A rectangular window hole 161 is formed on the front surface of the inner lid 16. A plurality of lid plates 162 to 165 are detachably attached to the inner lid 16 so as to close the window holes 161. The four lid plates 162 to 165 are set to have the vertical dimension substantially the same as the opening dimension of the window hole 161 in the vertical direction, and are attached to the inner lid 16 so as to be aligned in the horizontal direction. Thus, by attaching the inner lid 16 in which the window hole 161 is closed with the lid plates 162 to 165 to the front side of the cabinet body 11, the opening 14 of the cabinet body 11 is covered with the inner lid 16. . That is, the inner lid 16 and the lid plates 162 to 165 attached to the inner lid 16 constitute a lid that covers the opening 14 on the front surface of the cabinet body 11. Note that the inner lid 16 and at least one of the lid plates 162 to 165 may be integrally formed.

  The lid plate 162 located at the left end in FIG. 2 is attached to the inner lid 16 so as to cover the front surfaces of the first communication adapter 7, the second communication adapter 8, and the third communication adapter 9. The cover plate 162 is provided with through holes 1621 and 1622 for exposing a part of the first communication adapter 7. In this embodiment, the display unit 771 is exposed from the upper through hole 1621, and the lower side is exposed. The operation button 781 is exposed from the through hole 1622.

  The lid plate 163 located second from the left end in FIG. 2 is attached to the inner lid 16 so as to cover the storage space to which the primary interconnection breaker 110 is attached inside the cabinet body 11.

  A lid plate 164 located third from the left end in FIG. 2 is attached to the inner lid 16 so as to cover the front surface of the main breaker 2. Through the hole 1641 of the cover plate 164, the handle of the main breaker 2 is exposed to the front side.

  The cover plate 165 located at the right end in FIG. 2 is attached to the inner cover 16 so as to cover the front surfaces of the plurality of branch breakers 3. The plurality of branch breakers 3 are arranged in two upper and lower rows in the storage space on the right side of the cabinet body 11. The cover plate 165 is provided with a window hole 1651 that exposes the handle of the branch breaker 3 arranged on the upper side, and a window hole 1652 that exposes the handle of the branch breaker 3 and the secondary interconnection breaker 100 arranged on the lower side. Yes.

  As shown in FIG. 3, the outer lid 15 is made of, for example, a synthetic resin, and is attached to the cabinet body 11 so as to cover the front surface of the inner lid 16 so as to be freely opened and closed. That is, the opening 14 of the cabinet body 11 is covered with the outer lid 15 so as to be freely opened and closed. The outer lid 15 is attached to the cabinet body 11 so as to be openable and closable via a hinge mechanism provided at the upper part of the cabinet body 11.

  The main breaker 2 includes a primary side terminal 21 and a secondary side terminal (not shown). A single-phase three-wire lead-in line (not shown) of a system power supply (commercial power supply) is electrically connected to the primary side terminal 21. Conductive bars 41, 42, and 43 as shown in FIG. 6 are electrically connected to the secondary terminal. The conductive bars 41, 42, and 43 are each formed in a long plate shape that is long in the left-right direction by a conductive member, and are attached to the front surface of the mounting base 44. In the distribution board 1 of this embodiment, since a single-phase three-wire system is assumed as a distribution system, the conductive bar 41 is a first voltage pole (L1 phase) conductive bar, and the conductive bar 42 is a second voltage pole (L2). The conductive bar 43 and the conductive bar 43 are used as neutral (N-phase) conductive bars. A conductive bar 41 of the first voltage electrode and a conductive bar 42 of the second voltage electrode are attached to the front surface of the mounting base 44 side by side. The conductive bars 41 and 42 are attached to the attachment base 44 so that the longitudinal direction thereof is parallel to the left-right direction. A column (not shown) that protrudes forward is provided at the center of the mounting base 44 in the vertical direction, and the neutral electrode conductive bar 43 is provided on the front side of the column in parallel with the conductive bars 41 and 42. Is placed. The mounting base 44 to which these three conductive bars 41, 42, 43 are attached is arranged on the right side of the main breaker 2 so that the longitudinal direction of each conductive bar 41, 42, 43 is parallel to the left-right direction. And fixed to the cabinet body 11.

  Each branch breaker 3 is divided into an upper side and a lower side of the neutral conductive bar 43 inside the cabinet body 11. In the example of FIG. 4, eleven branch breakers 3 are arranged on the upper side of the neutral electrode conductive bar 43 in the left-right direction, and the eleven branch breakers 3 are arranged on the lower side of the neutral electrode conductive bar 43. They are arranged in the left-right direction. Each branch breaker 3 includes a primary side terminal (not shown) and a secondary side terminal (not shown). The branch breaker 3 is available for 100V and 200V. The primary side terminal of the branch breaker 3 for 100V is electrically connected to one of the conductive bar 41 of the first voltage electrode and the conductive bar 42 of the second voltage electrode and the conductive bar 43 of the neutral electrode, respectively. Is done. The primary side terminals included in the 200V branch breaker 3 are electrically connected to the conductive bar 41 of the first voltage electrode and the conductive bar 42 of the second voltage electrode, respectively. A corresponding electric circuit (not shown) is electrically connected to the secondary side terminal of each branch breaker 3. The electric circuit connected to the secondary side terminal of each branch breaker 3 includes, for example, a lighting device, an air conditioner, a television receiver, a hot water supply device, a wiring device such as an outlet or a wall switch as a load. They are connected.

  As shown in FIG. 6, the conductive bar 41 of the first voltage electrode has a plurality of connection terminals 411 that protrude upward and downward at positions corresponding to the plurality of branch breakers 3. The conductive bar 42 of the second voltage electrode has a plurality of connection terminals 421 that protrude upward and downward at positions corresponding to the plurality of branch breakers 3. Each branch breaker 3 has an insertion port 31 into which the conductive bar 41, the connection terminal 411, and the connection terminal 421 are respectively inserted. Three insertion ports 31 are provided in each branch breaker 3 so as to correspond to each of the conductive bar 41 and the connection terminals 411 and 421. The primary side terminals are provided so as to be exposed in two of the three insertion ports 31. In the branch breaker 3 for 100V, primary terminals are respectively provided in the insertion ports 31 at both ends in the front-rear direction, and in the branch breaker 3 for 200V, the difference between the insertion port 31 in the middle of the front-rear direction and the rear side A primary terminal is provided at each of the inlets 31.

  In the distribution board 1 of the present embodiment, as shown in FIG. 6, on the upper side of the conductive bar 43 of the neutral electrode, the neutral electrode, the second voltage electrode, the first voltage electrode from the front side in the front-rear direction (the side opposite to the wall). The conductive bar 43 and the connection terminals 411 and 421 are arranged so as to be arranged in order of one voltage electrode. In addition, below the conductive bar 43 of the neutral electrode, the conductive bar 43 and the connection terminal are arranged in order of the neutral electrode, the first voltage electrode, and the second voltage electrode from the front side in the front-rear direction (the side opposite to the wall). 411 and 421 are arranged.

  The branch breaker 3 for 100 V includes primary side terminals at the front side insertion port 31 and the rear side insertion port 31 among the three insertion ports 31. When the branch breaker 3 for 100V is mounted on the upper side of the conductive bar 43, the primary side terminal of the branch breaker 3 is electrically connected to the conductive bar 41 of the first voltage electrode and the conductive bar 43 of the neutral electrode. The When the branch breaker 3 for 100V is attached to the lower side of the conductive bar 43, the primary terminal of the branch breaker 3 is electrically connected to the conductive bar 42 of the second voltage electrode and the conductive bar 43 of the neutral electrode. Is done. The branch breaker 3 for 200V has primary terminals in the two insertion ports 31 other than the front side, and this branch breaker 3 can be attached to either the upper side or the lower side of the conductive bar 43. The first voltage electrode conductive bar 41 and the second voltage electrode conductive bar 42 are electrically connected.

  The current measuring instrument 5 is configured to individually measure a current (hereinafter referred to as “load current”) flowing in a load (electric circuit) connected to each of the plurality of branch breakers 3. As shown in FIG. 6, the current measuring instrument 5 includes a substrate 51, a plurality of coils 52, a plurality of measurement units (semiconductor devices) 55, and a calculation unit 56.

  The board | substrate 51 is a printed circuit board of the multilayer structure long in the left-right direction. The substrate 51 is provided with a plurality of first holes 53 penetrating in the thickness direction so as to be arranged at regular intervals in the left-right direction (longitudinal direction of the substrate 51). The substrate 51 is provided with a plurality of second holes 54 penetrating in the thickness direction so as to be arranged at regular intervals in the left-right direction. Each of the plurality of second holes 54 is provided on the rear side of the corresponding first hole 53 so as to be aligned with the corresponding first hole 53 in the front-rear direction. The first hole 53 and the second hole 54 are formed in a shape through which any of the connection terminals 411 and 421 can penetrate. The substrate 51 is attached to the mounting base 4 with one of the connection terminals 411 and 421 penetrating through the first hole 53 and the other of the connection terminals 411 and 421 penetrating through the second hole 54. .

  Coils 52 are formed around the plurality of second holes 54 in the substrate 51. Each coil 52 is an air-core coil that does not use a core (coreless), and is a Rogowski coil that generates an output corresponding to a load current passing through the second hole 54 (load current flowing through the connection terminals 411 and 421). is there. In the present embodiment, the hole (second hole 54) in which the coil 52 is formed is a circular hole. However, the hole may be provided so as to penetrate the substrate 51. It may be a U-shaped hole opened to the side edge. In the current measuring instrument 5 of the present embodiment, the coil 52 is formed around the second hole 54, but the coil 52 may be formed around the first hole 53. Moreover, although the current measuring device 5 of the present embodiment includes the Rogowski coil for current measurement, the current may be measured by a method other than the Rogowski coil. For example, the current may be measured using a GMR (Giant Magneto Resistive Effect) sensor or a Hall element.

  The substrate 51 is provided with one coil 52 corresponding to each of the plurality of branch breakers 3, and two adjacent coils 52 are taken as one set, one for each set of coils 52. A measuring unit 55 is provided. The input end of each measurement unit 55 and the output end of the corresponding two coils 52 are electrically connected via a circuit wiring 57 made of a thin film conductor formed on the surface of the substrate 51.

  Although not shown, each measurement unit 55 includes an amplifier circuit, an A / D conversion circuit, an integration circuit, and a signal processing circuit. Each measurement unit 55 alternately acquires analog signals output from the corresponding two coils 52 in a time division manner.

  The amplifier circuit includes an amplifier that amplifies the analog signal output from the coil 52. The A / D conversion circuit is configured to convert an analog signal output from the amplifier circuit into a digital signal. The integration circuit is configured to integrate the digital signal output from the A / D conversion circuit.

  Here, the analog signal output from the coil 52 is a value obtained by differentiating the load current flowing through the connection terminals 411 and 421. For this reason, the integrating circuit integrates the digital signal output from the A / D conversion circuit to generate a digital signal indicating the load current flowing through the connection terminals 411 and 421. In the measurement unit 55 of the present embodiment, an integration circuit is configured by a digital filter.

  The signal processing circuit is configured to generate load current data flowing through the connection terminals 411 and 421 by processing a digital signal output from the integration circuit. The signal processing circuit is configured to output load current data as a current signal to the calculation unit 56.

  Although not shown, the calculation unit 56 includes an A / D conversion circuit and a signal processing circuit. The A / D conversion circuit is configured to convert the voltage signal output from the measurement unit 6 into a digital voltage signal. The signal processing circuit calculates the instantaneous power for each of the plurality of electric paths based on the digital voltage signal output from the A / D conversion circuit and the current signal output from each measurement unit 55, and calculates the instantaneous power Configured to generate data. The signal processing circuit is configured to output instantaneous power data to the first communication adapter 7 as a power signal.

  The measurement unit 6 is electrically connected to the current measuring instrument 5. The measuring unit 6 has a function of measuring a line voltage from an electric circuit connected to the secondary side of the main breaker 2 and outputting line voltage data to the current measuring instrument 5 as a voltage signal. The measurement unit 6 can be connected to a current transformer for measuring current at measurement points other than the electric circuit connected to the branch breaker 3 (for example, measurement points on the secondary side of the main breaker 2). In this case, the measurement unit 6 is configured to calculate the instantaneous power using the current value measured using the current transformer and the line voltage, and to output the instantaneous power data to the first communication adapter 7. .

  The measurement unit 6 is connected to the secondary terminal of any branch breaker 3 and obtains operating power via the branch breaker 3. The measurement unit 6 is electrically connected to the first communication adapter 7 and the third communication adapter 9, and operates from the built-in power supply circuit (not shown) to the first communication adapter 7 and the third communication adapter 9. It also has a function of supplying necessary power. Note that the measurement unit 6 may be configured such that the operating power is directly supplied from the conductive bars 41, 42, and 43 (that is, the secondary side of the main breaker 2).

  By the way, in the distribution board 1 of this embodiment, as shown in FIG. 4, in addition to the plurality of branch breakers 3, the secondary interconnection breaker 100 is electrically connected to the conductive bars 41, 42, and 43. . The secondary interconnection breaker 100 is a breaker having 3P3E (the number of poles is 3 and the number of elements is 3), and the size in the left-right direction is as large as a plurality (three) of the branch breakers 3. The secondary interconnection breaker 100 is electrically connected to the first distributed power source 120 that is not allowed to flow backward to the power system. Examples of this type of first distributed power source 120 include a fuel cell (not shown), a gas power generation device (not shown), a power storage device, and the like.

  Similar to the branch breaker 3, the secondary interconnection breaker 100 includes a primary side terminal (not shown) and a secondary side terminal 101. Conductive bars 41, 42, 43 are electrically connected to the primary side terminal, and the first distributed power source 120 is electrically connected to the secondary side terminal 101. That is, the secondary grid breaker 100 is electrically connected between the secondary side of the main breaker 2 and the first distributed power source 120. For this reason, the secondary grid breaker 100 removes the first distributed power source 120 from the power system when, for example, power supply from the system power source is stopped or when an abnormality occurs in the system power source or the first distributed power source 120. Operates to detach (disconnect). In addition, it is arbitrary whether the electricity distribution panel 1 of this embodiment is provided with the secondary interconnection breaker 100. FIG.

  Moreover, the distribution board 1 of this embodiment has a space in which the primary interconnection breaker 110 is attached to the left side of the main breaker 2 in the cabinet body 11. In the cabinet main body 11 of this embodiment, as shown in FIG. 4, the support stand 13 is attached to this space. The primary interconnection breaker 110 is attached to the support base 13.

  The primary interconnection breaker 110 is a breaker having a size of 3P3E (3 poles, 3 elements) and having a size in the left-right direction corresponding to a plurality of (three) branch breakers 3. The primary interconnection breaker 110 is electrically connected to the second distributed power supply 130 that is allowed to reversely flow into the power system. An example of this type of second distributed power supply 130 is a solar power generation device.

  The primary interconnection breaker 110 includes a primary side terminal (not shown) and a secondary side terminal (not shown). A primary side terminal 21 of the main breaker 2 is electrically connected to the primary side terminal. The second distributed power supply 130 is electrically connected to the secondary side terminal. That is, the primary interconnection breaker 110 is electrically connected between the primary side of the main breaker 2 and the second distributed power supply 130. For this reason, the primary grid breaker 110 disconnects the second distributed power supply 130 from the power system, for example, when power supply from the system power supply is stopped or when an abnormality occurs in the system power supply or the second distributed power supply 130. Operates to (disconnect). Note that whether or not the distribution board 1 of the present embodiment includes the primary interconnection breaker 110 is arbitrary.

  Next, the 1st communication adapter 7, the 2nd communication adapter 8, and the 3rd communication adapter 9 which are the internal devices for the distribution boards which communicate with the apparatus outside the distribution board cabinet 10 are demonstrated.

  As illustrated in FIG. 1, the first communication adapter 7 includes an arithmetic processing unit 700, a communication unit 710, a first input unit 711, and a storage unit 712.

  The communication unit 710 has a function of communicating with the second external device 400 that manages energy supply and demand at a consumer (a detached house in the present embodiment). The second external device 400 is, for example, a controller for HEMS (Home Energy Management System), and is configured to monitor or control a device (not shown) corresponding to HEMS. The device corresponding to HEMS should just be a management object required in order to grasp | ascertain the supply and demand of energy. Examples of such devices include appliances that use energy such as lighting equipment and air conditioners, and electric vehicles such as lighting devices, solar power generation devices, devices that create energy such as fuel cells, power storage devices, and electric vehicles. Including devices that store energy. In addition, the apparatus corresponding to HEMS is not limited to said apparatus. Further, the first communication adapter 7 may have the function of the second external device 400. In this case, the 1st communication adapter 7 which has a controller function manages the supply-and-demand of energy in a consumer, and monitors or controls the apparatus corresponding to HEMS.

  The communication method of the communication unit 710 is, for example, a wireless communication method using radio waves such as a specific low-power wireless station (wireless station that does not require a license) in the 920 MHz band, ZigBee (registered trademark), Bluetooth (registered trademark), or the like. . However, the communication method of the communication unit 710 is not limited to the wireless communication method, and a wired communication method such as a wired LAN (Local Area Network) may be used, or both the wireless communication method and the wired communication method may be used in combination. In addition, as a communication protocol in communication between the communication unit 710 and the second external device 400, for example, a communication protocol such as Ethernet (registered trademark) or ECHONET (registered trademark) Lite may be used.

  The first input unit 711 is a communication interface to which data is input from the third communication adapter 9. Data relating to energy supply and demand is input to the third communication adapter 9 from the first external device 300 relating to energy supply and demand provided in the consumer. This data is input from the third communication adapter 9 to the first input unit. 711 is input. Here, the first external device 300 includes, for example, a device that creates energy and stores energy, such as a solar power generation device, a fuel cell, and a power storage device, and a gas meter and a water meter with a pulse transmission function.

  The type of the third communication adapter 9 differs depending on the type of the first external device 300 connected to the third communication adapter 9 and the contents of monitoring and control of the first external device 300. The third communication adapter 9 outputs identification information indicating the type of the third communication adapter 9 to the first input unit 711. Since the third communication adapter 9 has only a function of converting the signal level of the signal input from the first external device 300 and outputting it to the first communication adapter 7, no microcomputer or the like is mounted. Therefore, the third communication adapter 9 is configured to output a plurality of bits of identification information representing information at high / low voltage levels to the first communication adapter 7. The first input unit 711 outputs the identification information input from the third communication adapter 9 to the arithmetic processing unit 700. Note that, when the third communication adapter 9 is not connected to the first communication adapter 7, identification information in which the voltage levels of all bits are low is input to the first communication adapter 7. Therefore, in the first communication adapter 7, since the identification information whose voltage level of all bits is low is input, it is determined that the third communication adapter 9 is not connected. Here, the identification information is not limited to data of a plurality of bits representing information with high / low voltage levels, and may be data representing the type of the third communication adapter 9 at a plurality of voltage levels.

  The storage unit 712 includes an electrically rewritable memory such as an EEPROM (Electrically Erasable and Programmable Read Only Memory). The storage unit 712 stores software for monitoring or controlling the first external device 300 connected to the third communication adapter 9, for example.

  The arithmetic processing unit 700 is formed of a microcomputer, for example, and realizes a desired function by executing software stored in the storage unit 712. In the present embodiment, a monitoring control unit 701, a determination unit 702, and a software update unit 703 are realized by the calculation function of the calculation processing unit 700.

  The monitoring control unit 701 performs monitoring or control of the first external device 300 connected to, for example, the third communication adapter 9. For example, when a power conversion device of a solar power generation device is connected to the third communication adapter 9 as the first external device 300, the monitoring control unit 701 determines the power conversion device according to a control signal from the second external device 400. The operation may be controlled. When a power storage device is connected to the third communication adapter 9 as the first external device 300, the monitoring control unit 701 monitors the amount of power stored in the power storage device and outputs it to the second external device 400 or the second external device 400. The discharge amount or the charge amount of the power storage device may be controlled in accordance with a control signal from the device 400.

  The determination unit 702 determines the type of the third communication adapter 9 connected to the first communication adapter 7 based on the identification information input to the first input unit 711. The result determined by the determination unit 702 is transmitted from the communication unit 710 to the second external device 400. Therefore, in the second external device 400, whether or not the third communication adapter 9 is connected to the first communication adapter 7 based on the identification information transmitted from the first communication adapter 7, The type of the third communication adapter 9 can be determined. Then, the second external device 400 changes the service content for managing the supply and demand of energy and the settable function content according to the type of the third communication adapter 9 connected to the first communication adapter 7. For example, when a communication adapter corresponding to V2H (Vehicle to Home) is used as the third communication adapter 9, the second external device 400 uses, for example, a battery of an electric vehicle based on the identification information of the third communication adapter 9. A menu that makes it possible to use the power stored in the house in the house is made available. When the third communication adapter 9 is not connected, the second external device 400 determines that the third communication adapter 9 is not connected based on the identification information, and a menu related to monitoring or control of the first external device 300 Is not available.

  The software update unit 703 determines whether the software stored in the storage unit 712 corresponds to the type of the third communication adapter 9 determined by the determination unit 702. If the software update unit 703 determines that the software does not correspond to the type of the third communication adapter 9, the software update unit 703 requests software corresponding to the type of the third communication adapter 9 from the host device (for example, the server 600). That is, the software update unit 703 transmits a request signal for requesting software corresponding to the type of the third communication adapter 9 from the communication unit 710 to the second external device 400. When the second external device 400 accesses the server 600 based on the request signal received from the first communication adapter 7 and downloads software corresponding to the type of the third communication adapter 9, this software is transferred to the first communication adapter 7. Send. When the communication unit 710 of the first communication adapter 7 receives the update software from the second external device 400 after transmitting the request signal, the software update unit 703 registers the software received by the communication unit 710 in the storage unit 712. .

  Further, the arithmetic processing unit 700 of the first communication adapter 7 has a function of receiving data such as the amount of power used from the second communication adapter 8 communicating with the power meter 500, and is transmitted from the current measuring instrument 5 and the measuring unit 6. A function to receive instantaneous power measurement data is provided. Based on the instantaneous power measurement data received from the current measuring instrument 5 and the measurement unit 6, the first communication adapter 7 integrates the instantaneous power for each measurement location over a predetermined time. The first communication adapter 7 causes the communication unit 710 to transmit the data received from the second communication adapter 8 and the power amount data of each measurement location to the second external device 400. The second external device 400 is configured to monitor or control the device using the power amount measurement data received from the first communication adapter 7. For this reason, the second external device 400 can monitor or control the load device connected to each electric circuit based on the calculation result of the electric energy for each of the plurality of electric circuits.

  As shown in FIGS. 7A to 7D, the first communication adapter 7 includes a rectangular parallelepiped case 70 made of a synthetic resin molded product.

  In the case 70, a concave portion 71 opened on the upper side and the rear side is provided at a corner portion formed by the upper surface and the rear surface. The bottom surface of the recess 71 is provided with a first connector (not shown) to which a second connector (not shown) provided at the lower part of the second communication adapter 8 is detachably connected. When the lower part of the second communication adapter 8 is fitted into the recess 71 and the first connector of the first communication adapter 7 and the second connector of the second communication adapter 8 are connected, the first communication adapter 7 and the second communication adapter 8 Are electrically and mechanically connected.

  Further, in the case 70, a corner 72 formed by the lower surface and the rear surface is provided with a recessed portion 72 that is open to the lower side and the rear side. The bottom surface of the recess 72 is provided with a first connector 73 to which a second connector 93 (see FIG. 8A) provided on the upper portion of the third communication adapter 9 is detachably connected. When the upper part of the third communication adapter 9 is fitted into the recess 72 and the first connector 73 of the first communication adapter 7 and the second connector 93 of the third communication adapter 9 are connected, the first communication adapter 7 and the third communication adapter are connected. 9 is electrically and mechanically connected.

  7C shows only the first connector 73 to which the second connector 93 of the third communication adapter 9 is connected, and the first connector to which the second connector of the second communication adapter 8 is connected is the first connector. Since it has the same configuration as the connector 73, the illustration is omitted. Moreover, since the 2nd connector with which the 2nd communication adapter 8 is provided has the structure similar to the 2nd connector 93 with which the 3rd communication adapter 9 is provided, illustration is abbreviate | omitted.

  On the left and right side surfaces of the case 70, a horizontal groove 741 opened to the rear side and a vertical groove 742 extending upward from the front side of the horizontal groove 741 are provided at the same position in the vertical direction. On the rear side of the vertical groove 742, a rail-shaped protrusion 75 that protrudes outward in the left-right direction is provided. An inclined surface 751 is provided below the protrusion 75 so as to increase the width of the vertical groove 742 as it approaches the lower side.

  A boss 76 that holds the fixing screw 761 in a rotatable state is provided integrally with the case 70 on the right side surface of the case 70.

  On the front surface of the case 70, a display unit 771 composed of a 7-segment display for displaying the operation state and setting contents, and a plurality of display units (for example, four in this embodiment) for displaying operation using light emitting diodes as a light source, for example. The light emitting display portion 772 is provided. In addition, operation buttons 781 and 782 for performing various operations are provided on the front surface of the case 70.

  On the front side of the lower portion of the case 70, receptacle connectors 791 and 792 are provided with the cable connection direction facing downward. A plug connector (not shown) connected to a cable (not shown) from the measurement unit 6 is detachably connected to the receptacle connector 791. A plug connector (not shown) connected to a cable (not shown) for supplying operating power from the measurement unit 6 to the third communication adapter 9 is detachably connected to the receptacle connector 792. The receptacle connector 792 is for temporarily holding a plug connector of a cable wired from the measurement unit 6 to the third communication adapter 9 when the distribution board 1 does not include the third communication adapter 9. 1 The communication adapter 7 is not electrically connected to the internal circuit. Further, in the first communication adapter 7 of the present embodiment, the communication unit 710 communicates with the second external device 400 by the wireless communication method, but the communication unit 710 is wired with the second external device 400. Wired communication such as a LAN (Local Area Network) may be performed. When the communication unit 710 of the first communication adapter 7 performs wired communication with the second external device, a communication cable for wired communication is connected to the lower surface of the prismatic protrusion 793 on the left side of the receptacle connector 792 A connector (not shown) may be provided.

  The second communication adapter 8 has a function of communicating with the power meter 500. The electric power meter 500 is a so-called smart meter, which measures the amount of electric power used by consumers and communicates with a concentrator (not shown) connected to a distribution line to enable remote meter reading. It is configured to be Further, the power meter 500 can transmit a measured value (amount of power used), request information, and the like to the second communication adapter 8 by communicating with the second communication adapter 8. The request information is a request for suppressing consumption of power transmitted from a server operated by a power supply company or the like to a consumer. Note that the communication method between the second communication adapter 8 and the power meter 500 may be wireless communication such as a specific low-power wireless station (radio station that does not require a license) in the 920 MHz band, for example, or wired LAN or power line carrier communication. Wired communication such as may be used.

  The second communication adapter 8 is preferably configured to transmit the measured value received from the power meter 500 to the first communication adapter 7. In this case, the second external device 400 that communicates with the first communication adapter 7 may be configured to monitor or control the device based on the measurement value. In this configuration, the second external device 400 can monitor or control the device based on the measured value transmitted from the power meter 500.

  As shown in FIGS. 4, 9, and 10, the second communication adapter 8 includes a case 80 made of a synthetic resin molded product. A projecting portion (not shown) that is fitted into the concave portion 71 of the case 70 from the rear side is provided at the lower portion of the case 80. A plug connector (not shown) that is detachably connected to a receptacle connector provided in the recess 71 is provided on the front surface of the protruding portion. When the case 70 is placed on the case 80 so that the protruding portion of the case 80 is fitted into the recess 71 of the case 70, the case 70 side receptacle connector and the case 80 side plug connector are connected to each other. Thereby, the 1st communication adapter 7 and the 2nd communication adapter 8 are connected electrically and mechanically. In the present embodiment, the first communication adapter 7 and the second communication adapter 8 are connected by a board-to-board connection with a part of each of the first communication adapter 7 and the second communication adapter 8 overlapping in the front-rear direction.

  Further, a lateral groove 811 opened to the rear side and a longitudinal groove 812 extending upward from the front side of the lateral groove 811 are provided on the left and right side surfaces of the case 80 at the same position in the vertical direction. On the rear side of the vertical groove 812, a rail-shaped protrusion 82 that protrudes outward in the left-right direction is provided. An inclined surface 821 is provided at the lower portion of the protrusion 82 so as to increase the width of the vertical groove 812 as approaching the lower side.

  The third communication adapter 9 is connected to a first external device 300 related to energy supply and demand provided in a consumer. The first external device 300 includes a solar power generation device (not shown), a power storage device (not shown), a power conversion device (not shown) electrically connected to an electric vehicle, and a gas meter having a pulse transmission function. (Not shown) or at least one of a water meter (not shown). In addition to power conversion for performing unidirectional charging from the distribution board 1 side to the electric vehicle, the power conversion device performs bidirectional power conversion for both charging and discharging of the storage battery of the electric vehicle. The structure used may be sufficient. Further, the gas meter and the water meter output a pulse signal every time the usage amount increases by a certain amount (constant volume). The third communication adapter 9 receives a pulse signal from a gas meter or a water meter, and converts it into a usage amount of gas or tap water using a predetermined conversion value (conversion rate) of the usage amount per pulse. .

  The third communication adapter 9 receives the second input unit 901 to which data related to energy supply / demand from the first external device 300 is input, the data input to the second input unit 901 and the identification information of the third communication adapter 9. The 1st output part 902 output to 1 communication adapter 7 is provided.

  The communication method between the first external device 300 that creates and stores energy, such as a solar power generation device, a power storage device, and a power conversion device, and the second input unit 901 is wired communication such as RS-485, for example. And In addition, the 2nd input part 901 of the 3rd communication adapter 9 may be communicable with the 1st external apparatus 300 like the hot water storage type hot-water supply apparatus using a heat pump technique, for example. In addition, the communication method in which the second input unit 901 of the third communication adapter 9 communicates with the first external device 300 such as a gas meter or a water meter is wired communication. However, the communication method in which the second input unit 901 communicates with the gas meter or the water meter is not limited to wired communication, and may be wireless communication.

  As shown in FIGS. 8A and 8B, the third communication adapter 9 includes a case 90 made of a synthetic resin molded product. A terminal block 91 having a quick connection structure to which a core wire of an electric wire is connected is provided at a lower portion of the case 90. On the upper part of the case 90, a protruding portion 92 that is fitted into the concave portion 72 of the case 70 from the rear side is provided. A second connector 93 that is detachably connected to a first connector 73 provided in the recess 72 is provided on the front surface of the protruding portion 92. When the case 70 is put on the case 90 so that the protruding portion 92 of the case 90 is fitted into the recess 72 of the case 70, the first connector 73 on the case 70 side and the second connector 93 on the case 90 side are connected to each other. The Thereby, the 1st communication adapter 7 and the 3rd communication adapter 9 are connected electrically and mechanically. In this embodiment, the 1st communication adapter 7 and the 3rd communication adapter 9 are connected by the board-to-board (board to board) connection in the state in which each part overlapped in the front-back direction.

  On the left and right side surfaces of the case 90, a horizontal groove 941 opened to the rear side and a vertical groove 942 extending upward from the front side of the horizontal groove 941 are provided at the same position in the vertical direction. On the rear side of the vertical groove 942, a rail-like protrusion 95 that protrudes outward in the left-right direction is provided. An inclined surface 951 is provided below the protrusion 95 so as to increase the width of the vertical groove 942 as approaching the lower side.

  A receptacle connector 96 is provided on the front surface of the case 90. A plug connector (not shown) connected to a cable (not shown) for supplying operating power from the measurement unit 6 to the third communication adapter 9 is detachably connected to the receptacle connector 96.

  In addition, a plurality of (for example, four in this embodiment) light emitting display portions 97 are attached to the upper portion of the front surface of the case 90 side by side in the left-right direction. The plurality of light emitting display units 97 are used, for example, to display communication states with corresponding devices using light emitting diodes as light sources. These light emitting display portions 97 are disposed on the right side of the front surface of the case 90 except for the region below the projecting portion 793 and the region below the projecting portion 793. Accordingly, when the first communication adapter 7 performs wired communication with the second external device 400, even if the connector to which the communication cable is connected is provided on the lower surface of the protruding portion 793, the first communication adapter 7 is connected to this connector. The communication cable is less likely to be connected to the front side of the light emitting display unit 97. Therefore, when visually recognizing the display by the light emitting display unit 97, the communication cable connected to the connector provided in the protruding portion 793 is not easily obstructed, and the display of the light emitting display unit 97 can be easily confirmed. In addition, on the lower left of the front surface of the case 90, for example, a light-emitting display unit 98 for energization display is provided.

  In the present embodiment, the internal device for the distribution board that communicates with devices outside the distribution board 1 is the three communication adapters of the first communication adapter 7, the second communication adapter 8, and the third communication adapter 9. Although it is configured, it is sufficient that at least the first communication adapter 7 is provided. It is optional whether the second communication adapter 8 and the third communication adapter 9 are provided as an internal unit for a distribution board having a communication function with the outside, and may be used by connecting to the first communication adapter 7 as necessary. . Moreover, although the 1st communication adapter 7, the 2nd communication adapter 8, and the 3rd communication adapter 9 are formed in the different body, the function of the 2nd communication adapter 8 or the 3rd communication adapter 9 is added to the 1st communication adapter 7. You may give it.

  The first communication adapter 7, the second communication adapter 8, and the third communication adapter 9 as described above are attached to the cabinet body 11 using an attachment member 200 as shown in FIGS. 5, 9, and 10.

  The mounting member 200 is made of a synthetic resin molded product, and includes a fixing portion 201 fixed to the cabinet body 11, and mounting portions 204 to which the first communication adapter 7, the second communication adapter 8, and the third communication adapter 9 are respectively attached. 205, 206.

  The fixing portion 201 is formed to have a rectangular plate shape elongated in the vertical direction when the attachment member 200 is attached to the cabinet body 11 when viewed from the front. The fixing portion 201 is provided with through holes 210 for passing the screws 220 at two locations, upper and lower. The fixing portion 201 (that is, the attachment member 200) is fixed to the cabinet body 11 by screwing the screw 220 passed through the through hole 210 into the screw portion provided on the bottom wall of the cabinet body 11. Further, the fixed portion 201 is provided with a mountain-shaped protruding portion 211 that protrudes forward from the central portion in the left-right direction.

  From the left and right side edges (left and right long side portions) of the fixed portion 201, walls 202 are provided that protrude forward. Each wall 202 is formed in a trapezoidal shape such that the rear side and the front side are parallel to each other, and the length of the front side is longer than that of the rear side. Here, a space between the left and right walls 202 and the protruding portion 211 is a wiring storage space 212.

  From the leading edge of each wall 202, a flange 203 is provided that protrudes outward in the left-right direction (opposite the opposite wall 202). In each of the left and right flange portions 203, an attachment portion 204 for attaching the first communication adapter 7, an attachment portion 205 for attaching the second communication adapter 8, and an attachment portion 206 for attaching the third communication adapter 9. And are provided.

  The attachment portion 204 is formed with a groove 2041 into which a protrusion 75 provided on the side surface of the first communication adapter 7 is inserted from above.

  The attachment portion 205 is formed with a groove 2051 into which the protrusion 82 provided on the side surface of the second communication adapter 8 is inserted from above.

  The mounting portion 206 is formed with a groove 2061 into which a protrusion 95 provided on the side surface of the third communication adapter 9 is inserted from above.

  Further, the right flange 203 is provided with a protrusion 207 so as to protrude outward from the outer edge of the flange 203. The protruding portion 207 is provided at a position corresponding to the boss 76 of the first communication adapter 7, and the protruding portion 207 is provided with a screw portion 208 to which a fixing screw 761 held by the boss 76 is screwed. .

  Here, a method of attaching the first communication adapter 7, the second communication adapter 8, and the third communication adapter 9 to the attachment member 200 will be described.

  First, by fitting the lower part of the second communication adapter 8 into the recess 71 of the first communication adapter 7 from the rear side and connecting the connectors of the first communication adapter 7 and the second communication adapter 8 together, the second communication adapter 8 is It is attached to the first communication adapter 7. In addition, by fitting the upper part of the third communication adapter 9 into the recess 72 of the first communication adapter 7 from the rear side and connecting the connectors of the first communication adapter 7 and the third communication adapter 9 together, the third communication adapter 9 is It is attached to the first communication adapter 7.

  In this way, the first communication adapter 7, the second communication adapter 8, and the third communication adapter 9 are attached while the second communication adapter 8 and the third communication adapter 9 are attached to the first communication adapter 7. A method of attaching to the member 200 will be described.

  The first communication adapter 7, the second communication adapter 8, and the third communication adapter 9 that are integrally connected are brought close to the flange portion 203 of the attachment member 200 from the front side, the attachment portion 204 is placed in the lateral groove 741, and the attachment portion 205 is attached. The attaching portions 206 are inserted into the horizontal grooves 941 in the horizontal grooves 811, respectively. Here, in a state where the back surfaces of the cases 70, 80, 90 are moved to a position where they contact the front surface of the flange portion 203, the mounting portions 204, 205, 206 correspond to the corresponding first communication adapter 7, second communication adapter. 8. The third communication adapter 9 is not held, and this position is the first position. In this first position, the protrusion 75 has moved to a position where it can be inserted into the groove 2041, the protrusion 82 has moved to a position where it can be inserted into the groove 2051, and the protrusion 95 has moved to a position where it can be inserted into the groove 2061. . Then, when the first communication adapter 7, the second communication adapter 8, and the third communication adapter 9 that are integrally connected are slid downward from the first position, the protrusion 75 enters the groove 2041 of the attachment portion 204. Is inserted. Further, the protrusion 82 is inserted into the groove 2051 of the attachment portion 205, and the protrusion 95 is inserted into the groove 2061 of the attachment portion 206. As a result, the attachment portions 204, 205, and 206 hold the corresponding first communication adapter 7, second communication adapter 8, and third communication adapter 9, and this position is referred to as a second position. Here, an inclined surface 751 is formed at the lower corner of the projection 75, an inclined surface 821 is formed at the lower corner of the projection 82, and an inclined surface 951 is formed at the lower corner of the projection 95. ing. Therefore, when the protrusion 75 is inserted into the groove 2041 from the upper side, the inclined surface 751 hits the end surface of the groove 2041 so that the back surface of the case 70 is pressed against the flange portion 203 side. It becomes difficult to make a gap. Similarly, when the projection 82 is inserted into the groove 2051 from the upper side, the inclined surface 821 hits the end surface of the groove 2051 so that the back surface of the case 80 is pressed against the flange portion 203 side. It becomes difficult to create a gap between them. Further, when the protrusion 95 is inserted into the groove 2061 from above, the inclined surface 951 hits the end surface of the groove 2061, so that the back surface of the case 90 is pressed against the flange portion 203 side, and between the case 90 and the flange portion 203. It becomes difficult to make a gap. Therefore, when the first communication adapter 7, the second communication adapter 8, and the third communication adapter 9 are attached to the attachment member 200, it is difficult to form a gap between the cases 70, 80, 90 and the flange portion 203. The rattling of the cases 70, 80, 90 is reduced.

  When the first communication adapter 7, the second communication adapter 8, and the third communication adapter 9 that are integrally connected are slid from the first position to the second position, the fixing held by the boss 76 The screw 761 moves to a position where it can be screwed into the screw portion 208 of the protruding portion 207. In this state, when the fixing screw 761 is screwed into the screw portion 208, sliding movement of the first communication adapter 7, the second communication adapter 8, and the third communication adapter 9 that are integrally connected is restricted. Therefore, the first communication adapter 7, the second communication adapter 8, and the third communication adapter 9 are held in a state where they are attached to the attachment member 200.

  By the way, when the protrusion part 207 is not provided to the position where the front-end | tip of the fixing screw 761 hits in the state where the 1st communication adapter 7 exists in the 1st position, the 1st communication adapter 7 is in the middle of moving to the 2nd position. There is a possibility that the tip of the fixing screw 761 is caught on the edge of the protrusion 207. On the other hand, in the present embodiment, when the first communication adapter 7 slides between the first position and the second position, the fixing screw 761 held by the boss 76 moves over the entire range. A projecting portion 207 is provided across. Therefore, when the first communication adapter 7 is slid from the first position to the second position, the tip of the fixing screw 761 is not easily caught by the edge of the protruding portion 207, and the first communication adapter 7 is moved to the second position. Can slide smoothly.

  As described above, the internal device for the distribution board (first communication adapter 7) of the present embodiment is an internal device for the distribution board that is attached to the distribution board 1 provided in the consumer. A unit 711 and a determination unit 702. The first input unit 711 is electrically connected to a communication adapter (third communication adapter 9) to which data related to energy supply and demand is input from a first external device 300 related to energy supply and demand provided in a consumer. Identification information of the communication adapter is input from the adapter. The determination unit 702 determines the type of communication adapter connected based on the identification information input to the first input unit 711. The determination unit 702 can determine the type of the communication adapter connected to the distribution board internal unit based on the identification information input to the first input unit 711 from the communication adapter. This makes it possible to prepare multiple types of communication adapters that have the function of the minimum required source, and connect the desired communication adapter to the distribution board internal unit. It will be possible to provide the corresponding function. That is, each communication adapter does not need to have all the functions, and only needs the function of the minimum necessary source, so it becomes smaller than the case of having all the functions, and it becomes a distribution board with a smaller storage space. Can be stored.

  The distribution board internal unit (first communication adapter 7) may include a communication unit 710 that performs communication with the second external device 400 that manages the supply and demand of energy at the consumer. The communication unit 710 transmits the type of the communication adapter determined by the determination unit 702 to the second external device 400. Therefore, in the second external device 400, the service content for managing the supply and demand of energy at the consumer can be changed according to the type of the communication adapter. In addition, when setting the operation of the distribution board internal unit (first communication adapter 7) from the second external device 400, the function that can be set depends on the type of communication adapter connected to the distribution panel internal unit. You can change the contents. For example, when there are items that cannot be set by the type of the connected communication adapter, the second external device 400 can also prevent the items that cannot be set from being displayed on the setting screen, which facilitates the setting operation.

  The distribution board internal unit (first communication adapter 7) preferably further includes a storage unit 712, a monitoring control unit 701, and a software update unit 703. The storage unit 712 stores software for monitoring or controlling the first external device 300 connected to the communication adapter (third communication adapter 9). The monitoring control unit 701 performs monitoring or control of the first external device 300 by executing software stored in the storage unit 712. If the software does not correspond to the type of communication adapter determined by the determination unit 702, the software update unit 703 obtains software corresponding to the type of communication adapter from the host device (server 600) outside the distribution board. It is acquired and stored in the storage unit 712. Thus, even when an unsupported communication adapter is connected to the distribution board internal unit, the communication adapter can be used by acquiring software corresponding to the communication adapter from the host device.

  A communication adapter (third communication adapter 9) of the present embodiment is a communication adapter connected to the above-described internal device for distribution board (first communication adapter 7), and includes a second input unit 901 and a first output. And a unit 902. The second input unit 901 receives data related to energy supply and demand from the first external device 300. The first output unit 902 outputs the identification information and the data input to the second input unit 901 to the distribution board internal unit. Thereby, the internal device for distribution boards can discriminate | determine the kind of communication adapter based on the identification information input from a communication adapter.

  The distribution board 1 of the present embodiment includes the above distribution board internal unit (first communication adapter 7), the above communication adapter (third communication adapter 9), the distribution panel internal unit and the communication adapter. It is characterized by comprising a distribution board cabinet 10 to be housed. Thereby, even when there are a plurality of types of communication adapters connected to the distribution board internal unit, the distribution board internal unit can determine the type of the connected communication adapter.

  In addition, in the distribution board 1 of this embodiment, the 3rd communication adapter 9 is equipped with both the communication function with a solar power generation device, an electrical storage apparatus, and a power converter device, and a communication function with a gas meter and a water meter. However, you may be comprised with two adapters which have each communication function separately.

1 Distribution board 7 First communication adapter (internal device for distribution board)
9 Third communication adapter 300 First external device 400 Second external device 600 Server (host device)
700 arithmetic processing unit 701 monitoring control unit 702 determination unit 703 software update unit 710 communication unit 711 first input unit 712 storage unit

Claims (5)

An internal device for a distribution board that is attached to a distribution board installed at a consumer,
A communication adapter to which data relating to energy supply / demand is input from a first external device relating to energy supply / demand provided in the consumer is electrically connected, and identification information of the communication adapter is input from the communication adapter. 1 input unit,
An internal device for a distribution board, comprising: a discrimination unit that discriminates a type of the communication adapter connected based on the identification information input to the first input unit. A communication unit that communicates with a second external device that manages energy supply and demand at the consumer;
The distribution board internal unit according to claim 1, wherein the communication unit is configured to transmit the type of the communication adapter determined by the determination unit to the second external device. A storage unit for storing software for monitoring or controlling the first external device connected to the communication adapter;
A monitoring control unit that monitors or controls the first external device by executing the software stored in the storage unit;
When the software does not correspond to the type of the communication adapter determined by the determination unit, the storage unit acquires software corresponding to the type of the communication adapter from a host device outside the distribution board. The distribution board internal unit according to any one of claims 1 and 2, further comprising a software update unit that stores the software update unit. A distribution board internal unit according to any one of claims 1 to 3, and a communication adapter connected to the distribution panel internal unit ,
The communication adapter is
A second input unit to which data relating to energy supply and demand is input from the first external device;
A communication adapter apparatus comprising: a first output unit that outputs the identification information and the data input to the second input unit to the distribution board internal unit . A distribution board comprising: the communication adapter device according to claim 4; and a distribution board cabinet that houses the communication communication adapter.

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