JP2015091164A - Cabinet of distribution board and distribution board using the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a cabinet of distribution board capable of obtaining a large gain and a desired directivity performance on an antenna without degrading design feature, and a distribution board using the same.SOLUTION: The cabinet of distribution board has a box-like body 20 storing internal devices. The body 20 is capable of storing, as the internal devices, a communication module 61 for communicating with an external device disposed outside of the body 20 and an antenna 60 which is electrically connected to the communication module 61 to transmit and receive a radio signal. The body 20 is provided with plural mounting parts 8 for mounting the antenna 60. Each of the plural mounting parts 8 is arranged to hold the antenna 60.

Description

  The present invention generally relates to a cabinet of a distribution board, and more particularly to a cabinet of a distribution board provided with a communication unit that performs wireless communication with an external device, and a distribution board using the same.

  2. Description of the Related Art Conventionally, a system that collects measurement data such as electric energy in a building such as a building is known, and is disclosed in Patent Document 1, for example. In the data collection system described in Patent Document 1, a distribution board is provided on each floor of a building, and power is supplied to facilities and equipment in the floor on each floor via the distribution board. The distribution board is provided with a wireless watt-hour meter. The wireless watt-hour meter has a wireless watt-hour meter main body provided inside the distribution board and an antenna installed outside the distribution board. The antenna is connected to the wireless energy meter main body via a coaxial cable. Each floor is provided with a wireless communication master device that receives power amount data (measurement data) from a wireless power meter. In this data collection system, measurement data is wirelessly output from the antenna to the wireless communication master unit from the wireless energy meter.

Japanese Patent Laid-Open No. 2002-223481

  However, in the above-described conventional distribution board, since the antenna is provided outside the housing, there is a problem that the appearance of the distribution board is deteriorated and the design is impaired. Further, in the distribution board of the above-described conventional example, when there are metal parts such as electric wires and breakers near the installed antenna, there is a possibility that a large gain of the antenna and desired directivity performance cannot be obtained.

  The present invention has been made in view of the above points, and provides a distribution board cabinet capable of obtaining a large antenna gain and desired directivity performance without deteriorating the design, and a distribution board using the cabinet. For the purpose.

  The cabinet of the distribution board according to the present invention includes a box-shaped main body in which an internal unit is accommodated, and the main body includes a communication module that communicates with an external device provided outside the main body, and the communication An antenna that is electrically connected to the module and that transmits and receives a radio signal can be housed as the inner unit, and the main body includes a plurality of attachment portions to which the antenna is attached, and each of the plurality of attachment portions. Is configured to hold the antenna.

  In this distribution board cabinet, it is preferable that at least two of the plurality of mounting portions are configured so that the antennas are attached in different directions.

  The distribution board cabinet preferably includes a cable for electrically connecting the antenna and the communication module, and the main body has a configuration for winding the cable.

  The distribution board cabinet includes a fixture to which the antenna is attached, and at least one of the plurality of attachment portions is led out of the main body through the fixture. It is preferable that it is comprised.

  In the distribution board cabinet, it is preferable that at least one of the plurality of mounting portions is a branch breaker mounting portion.

  A distribution board according to the present invention includes any one of the above distribution board cabinets, a main breaker, one or more branch breakers, the communication module, and the antenna.

  The distribution board preferably includes a plurality of the communication modules, and the antenna is shared by the plurality of communication modules.

  In this distribution board, it is preferable that the communication module has a connection portion to which the antenna is detachably electrically connected.

  In this distribution board, it is preferable that the communication module includes a display unit that displays a numerical value, and the display unit is configured to change the numerical value according to a reception state of the radio signal of the antenna.

  In this distribution board, the communication module includes an indicator lamp having a light emitting element, and the indicator lamp is configured such that a lighting state of the light emitting element changes according to a reception state of the radio signal of the antenna. Preferably it is.

  In the present invention, a plurality of attachment portions to which the antenna is attached are provided on the main body. For this reason, in this invention, since an antenna is not exposed to the place where a person can see, an appearance does not deteriorate and a design is not spoiled. In the present invention, since the antenna can be attached to an appropriate location, a large gain of the antenna and desired directivity performance can be obtained.

It is the schematic which shows the cabinet and distribution board of the distribution board which concern on embodiment of this invention. FIG. 2A is a side view of the first mounting portion in the cabinet of the distribution board according to the embodiment of the present invention, and FIG. 2B is an antenna at the first mounting portion in the cabinet of the distribution board according to the embodiment of the present invention. It is a figure which shows the state which attached. It is a perspective view which shows the 2nd attachment part and antenna in the cabinet of the distribution board which concerns on embodiment of this invention. It is a figure which shows the 3rd attachment part in the cabinet of the distribution board which concerns on embodiment of this invention. In the cabinet of the electricity distribution panel which concerns on embodiment of this invention, it is a figure which shows the state which wound the cable around protrusion. It is a figure which shows the state which attached the antenna to the fixture in the cabinet of the distribution board which concerns on embodiment of this invention. In the distribution board which concerns on embodiment of this invention, it is a figure which shows the state which attached the antenna to the connection part of the branch breaker. FIG. 8A is a perspective view showing a mounting portion of the communication module in the distribution board according to the embodiment of the present invention, and FIG. 8B is a diagram of attaching an antenna to the communication module in the distribution board according to the embodiment of the present invention. FIG. FIG. 9A is a diagram illustrating a display unit included in the communication module in the distribution board according to the embodiment of the present invention, and FIG. 9B illustrates an indicator lamp included in the communication module in the distribution panel according to the embodiment of the present invention. FIG.

  As shown in FIG. 1, the cabinet 2 of the distribution board according to the embodiment of the present invention includes a box-shaped main body 20 in which the internal unit is accommodated. The main body 20 includes a communication module 61 that communicates with an external device (not shown) provided outside the main body 20, and an antenna 60 that is electrically connected to the communication module 61 and transmits and receives radio signals. Can be stored as an internal unit. The main body 20 is provided with a plurality of attachment portions 8 to which the antenna 60 is attached, and each of the plurality of attachment portions 8 is configured to hold the antenna 60.

  Hereinafter, a cabinet 2 of a distribution board according to an embodiment of the present invention and a distribution board 1 using the same will be described with reference to the drawings. In the following description, “distribution panel cabinet 2” is simply referred to as “cabinet 2”. The distribution board 1 of this embodiment is provided with the cabinet 2 and the internal unit accommodated in the cabinet 2, as shown in FIG. In the distribution board 1 of the present embodiment, the internal units are the main breaker 3, the plurality of branch breakers 4, the measurement unit 5, and the communication unit 6. Of course, other internal devices may be stored in the cabinet 2.

  The cabinet 2 is formed of a synthetic resin molded product or the like, and includes a main body 20 and a lid 21. The main body 20 is formed in a box shape with one surface open. The lid 21 is formed in a rectangular shape that covers the opening of the main body 20. One end (upper end in FIG. 1) of the lid 21 is attached to one end (upper end in FIG. 1) of the main body 20 via a hinge. The lid 21 is rotatable between a position where the opening of the main body 20 is closed and a position where the opening of the main body 20 is opened with the hinge as a fulcrum. The cabinet 2 is attached to the wall 100 (see FIG. 6) by fixing the bottom plate 200 of the main body 20 to the wall 100. In addition, holes such as a window hole 202 through which main wiring (not shown) and branch wiring (not shown) are passed are provided on the back surface (bottom plate 200) of the main body 20.

  One end of the main wiring is electrically connected to the primary side (system power supply side) of the main circuit breaker 3. The other end of the main wiring is electrically connected to a system power supply (not shown) provided by an electric power company. The secondary side (load side) of the main breaker 3 is electrically connected to a conductive bar (not shown).

  The primary side of each branch breaker 4 is electrically connected to the secondary side of the main breaker 3 by plug-in connection to the conductive bar. Moreover, one end of the branch wiring wired in the building is electrically connected to the secondary side of each branch breaker 4. For example, an electric device (not shown) such as a television, an audio device, a refrigerator, a dishwasher, an air conditioner, and a lighting device is electrically connected to the other end of the branch wiring.

  The measurement unit 5 measures the current flowing through each branch line by a current sensor (not shown) provided for each branch line, and calculates the power used to be supplied to the electrical equipment for each branch line. For example, a Rogowski sensor or a current transformer is used as the current sensor. Note that the measurement unit 5 may be configured to provide a current sensor in the main wiring and measure the current flowing through the main wiring to calculate the total power used for each branch wiring. Further, the measurement unit 5 may be configured to measure the current flowing through both the main wiring and each branch wiring to calculate the power used. Further, when the photovoltaic power generation unit is connected to the distribution board 1, the measurement unit 5 may be configured to measure the power generated by the photovoltaic power generation or the power selling power. The measurement result of the used power is transmitted to the communication module 61 via a cable (not shown) connected between the measurement unit 5 and a communication module 61 described later.

  The communication unit 6 communicates with an external device such as a HEMS (Home Energy Management System) controller or a monitor, and transmits a measurement result of the measurement unit 5 by a radio signal. The specification of the radio signal is selected from conventionally known standards such as a specific low power radio (for example, 400 MHz band and 920 MHz band) and a wireless LAN (Local Area Network). The monitor provides consumers with information on the power used for each branch wiring (that is, for each electrical device) in a visible manner. The HEMS controller is a device that manages each electrical device, and controls the operation of each electrical device and manages the power used by each electrical device.

  The communication unit 6 includes an antenna 60 that transmits and receives radio signals, and a communication module 61 that communicates with external devices by transmitting and receiving radio signals using the antenna 60. As shown in FIG. 1, the communication module 61 is housed in the main body 20 so as to be installed on the opposite side of each branch breaker 4 across the main breaker 3. Note that the communication module 61 may be installed not only at the position shown in FIG.

  The antenna 60 is formed in a rectangular plate shape, for example, and is attached to a mounting portion 8 described later. Note that the shape, size, and the like of the antenna 60 illustrated in FIG. 1 are examples, and the present invention is not intended to be limited to this shape, size, and the like. The antenna 60 and the communication module 61 are electrically connected by a cable 7 formed by, for example, a twisted pair wire. Here, one end of the cable 7 is electrically connected to a feeding point 600 provided at an intermediate portion in the longitudinal direction of the antenna 60 by a technique such as soldering. The other end of the cable 7 is connected to a connector 610 (connection portion) provided in the communication module 61. The type of the cable 7 is not limited to a twisted pair wire, and may be configured by a coaxial cable or the like.

  In the distribution board 1 of the present embodiment, the communication module 61 provided with the connector 610 is used. However, the communication module 61 that does not include the connector 610 but is provided with the cable 7 and the antenna 60 in advance may be used. . When such a communication module 61 is used, it is not necessary to electrically connect the antenna 60 and the communication module 61 as described above.

  As shown in FIG. 1, the main body 20 is provided with a plurality of attachment portions 8 to which the antenna 60 is attached. In the cabinet 2 of the present embodiment, the attachment portion 8 includes at least a first attachment portion 80 and a second attachment portion 81. The first attachment portion 80 is composed of a pair of fasteners 800. The fastener 800 is formed in a bowl shape from an elastic material, and one end of the fastener 800 is provided integrally with the bottom plate 200 of the main body 20 as shown in FIG. 2A. A gap smaller than the thickness of the antenna 60 is provided between the other end of the fastener 800 and the bottom plate 200. This gap can be widened by applying a force to the fastener 800 to bend it.

  A method for attaching the antenna 60 to the first attachment portion 80 will be described. First, the gap between the bottom plate 200 and each fastener 800 is widened by applying a force to each fastener 800 and bending it. The antenna 60 is inserted inside each fastener 800 through the widened gap. Thereafter, when the application of force to each fastener 800 is stopped, each fastener 800 returns to its original position by the elastic force of each fastener 800. Then, as shown in FIG. 2B, the antenna 60 is held by being sandwiched between the fasteners 800 and the bottom plate 200, and the antenna 60 is attached to the first attachment portion 80.

  In addition, when the cabinet 2 of this embodiment is provided with a decorative plate (not shown) that covers the inner unit except for the operation unit (for example, the handle of the main breaker 3), the decorative plate is attached to the decorative plate instead of the bottom plate 200. One mounting portion 80 may be provided.

  The second attachment portion 81 is configured with an insertion portion 810. As shown in FIG. 3, the insertion portion 810 is formed in a long rectangular tube shape along the thickness direction of the main body 20 (the vertical direction in FIG. 3). Moreover, the hollow part of the insertion part 810 is formed in the dimension in which the antenna 60 can be inserted. In order to attach the antenna 60 to the second attachment portion 81, the antenna 60 may be inserted into the hollow portion of the insertion portion 810 from one end in the longitudinal direction of the antenna 60. Then, the antenna 60 is held in the insertion portion 810 by being fitted into the hollow portion of the insertion portion 810.

  A plurality of first mounting portions 80 are provided along each of the two vertical sides (upper and lower sides in FIG. 1) of the bottom plate 200. A plurality of first mounting portions 80 are provided along each of the two sides of the bottom plate 200 (left and right in FIG. 1). The second attachment portions 81 are provided at the four corners of the main body 20, respectively. In addition, arrangement | positioning of the attaching part 8 shown in FIG. 1 is an example, Comprising: It is not the meaning which limits the arrangement | positioning of the attaching part 8. FIG. Further, the first mounting portion 80 and the second mounting portion 81 are not limited to the configuration in which the antenna 60 is mounted using the fastener 800 as described above, and may be configured to mount the antenna 60 by other methods. Good.

  As described above, in the cabinet 2 of the present embodiment, the main body 20 is provided with a plurality of attachment portions 8. For this reason, in the cabinet 2 of this embodiment, if the antenna 60 is attached to the attachment portion 8, the antenna 60 is not exposed from the cabinet 2 with the lid 21 closed. Therefore, in the cabinet 2 of this embodiment, since the antenna 60 is not exposed to a human-visible place, the appearance does not deteriorate and the design is not impaired.

  In the cabinet 2 of the present embodiment, the antenna 60 can be appropriately attached to any one of the attachment portions 8 or to any one of the plurality of attachment portions 8. For this reason, in the cabinet 2 of this embodiment, the antenna 60 can be attached to an appropriate location according to the installation location of the cabinet 2 or the arrangement of metal parts in the main body 20. Therefore, in the cabinet 2 of the present embodiment, a large gain and desired directivity performance of the antenna 60 can be obtained.

  Note that the communication module 61 may employ diversity technology that transmits and receives wireless signals using a plurality of antennas 60. In this case, a plurality of antennas 60 are attached to each of the plurality of attachment portions 8, and each antenna 60 and the communication module 61 are connected by the cable 7. Normally, it is difficult to improve the gain in all directions with one antenna 60, but with this configuration, the gain in all directions can be improved in a pseudo manner.

  In the cabinet 2 of the present embodiment, as shown in FIG. 1, a plurality of first attachment portions 80 and a plurality of second attachment portions 81 having different directions for attaching the antenna 60 are provided. In other words, in the cabinet 2 of the present embodiment, at least two of the plurality of mounting portions 8 are configured such that the directions in which the antenna 60 is mounted are different from each other. For example, the antenna 60 can be attached to the first attachment portion 80 along the vertical side of the bottom plate 200 such that the longitudinal direction of the antenna 60 is along the vertical direction of the bottom plate 200. Further, the antenna 60 can be attached to the first attachment portion 80 along the horizontal side of the bottom plate 200 such that the longitudinal direction of the antenna 60 is along the horizontal direction of the bottom plate 200. Furthermore, the antenna 60 can be attached to the second attachment portion 81 such that the longitudinal direction of the antenna 60 is along the thickness direction of the main body 20.

  In this configuration, since the antenna 60 can be attached to the attachment portion 8 in various directions, the degree of freedom of arrangement of the antenna 60 is increased, and the antenna 60 can be attached to a more appropriate location. Of course, the attachment portion 8 shown in FIG. 1 is an example, and the main body 20 may be provided with attachment portions 8 corresponding to various directions. For example, as shown in FIG. 4, the main body includes a third attachment portion 82 to which the antenna 60 can be attached so that the longitudinal direction of the antenna 60 is along an oblique direction (a direction intersecting the longitudinal direction and the lateral direction of the body 20). 20 may be provided. Note that the third attachment portion 82 may be configured by a pair of fasteners 800, similarly to the first attachment portion 80.

  Here, in the cabinet 2 of the present embodiment, the distance between the antenna 60 and the communication module 61 changes according to the mounting position of the antenna 60. For this reason, it is conceivable to prepare a plurality of cables 7 having different lengths in accordance with the distance between the antenna 60 and the communication module 61. However, it is expensive to prepare a plurality of cables 7 in this way, and it is not easy to manage the plurality of cables 7.

  Therefore, the cabinet 2 of the present embodiment may have a configuration in which the cable 7 is wound around the main body 20. In this configuration, as shown in FIG. 5, an unnecessary portion of the cable 7 can be wound and stored in the main body 20. Therefore, in this configuration, it is sufficient to prepare one cable 7 having a length corresponding to the longest distance between the antenna 60 and the communication module 61. That is, in this configuration, since it is not necessary to prepare a plurality of cables 7 having different lengths according to the distance between the antenna 60 and the communication module 61, the cost can be reduced and the cable 7 can be easily provided. Can be managed. Moreover, in this structure, since the cable 7 can be prevented from being entangled, the influence on the antenna 60 due to the cable 7 being entangled can be reduced.

  In the example shown in FIG. 5, the bottom plate 200 is provided with a pair of rod-like protrusions 201 protruding toward the opening of the main body 20, and unnecessary portions of the cable 7 are wound around the protrusions 201. Of course, the arrangement of the protrusions 201 is not limited to the position shown in FIG. In addition, for example, the main body 20 may be provided with a reel (Reel) capable of freely winding the cable 7. If the cable 7 is a coaxial cable, the allowable bending radius is larger than that of the twisted pair wire, so it is desirable to increase the interval between the protrusions 201 or increase the reel diameter.

  Further, the cabinet 2 according to the present embodiment has a fixture 83 to which the antenna 60 is attached, and at least one of the plurality of attachment portions 8 has the antenna 60 on the outside of the main body 20 via the fixture 83. May be derived. For example, as shown in FIG. 6, a fixture 83 formed in a crank shape is prepared, and an antenna 60 is attached to one end of the fixture 83. One end of the fixture 83 is led out to the back side of the wall 100 through a hole (not shown) provided in the wall 100. Then, the antenna 60 is led out to the back side of the wall 100 by attaching the other end of the fixture 83 to the back surface of the bottom plate 200 by screwing, for example. That is, in this configuration, the part to which the other end of the fixture 83 is attached becomes the attachment part 8. In this configuration, it is possible to connect the antenna 60 and the communication module 61 with the cable 7 by passing the cable 7 through the window hole 202 provided in the bottom plate 200. The window hole 202 is provided so as to penetrate the bottom plate 200 in the thickness direction. In addition, in FIG. 6, illustration of the 1st attaching part 80, the 2nd attaching part 81, and the protrusion 201 is abbreviate | omitted.

  In this configuration, the antenna 60 can be installed on the back side of the wall 100 (that is, outside the main body 20) via the fixture 83. Therefore, in this configuration, the antenna 60 can be installed at a position where a person cannot see, so that the desired gain and directivity performance of the antenna 60 can be obtained without deteriorating the design. Further, in this configuration, when it is not preferable to install the antenna 60 in the main body 20 due to the arrangement of the metal parts in the main body 20, desired gain and directivity can be obtained without deteriorating the design. An antenna 60 can be installed at the position. Note that the shape of the fixture 83 is not limited to a crank shape, and may be any shape that allows the antenna 60 to be led out to the back side of the wall 100 with a part of the fixture 83 attached to the back surface of the bottom plate 200.

  Further, in the cabinet 2 of the present embodiment, at least one attachment portion 8 among the plurality of attachment portions 8 may be an attachment portion of the branch breaker 4. Here, the attachment portion of the branch breaker 4 is a conductive bar to which the branch breaker 4 is plug-in connected. For example, as shown in FIG. 7, a configuration is conceivable in which an antenna 60 is attached to a resin molded product 40 simulating the branch breaker 4 and the resin molded product 40 is plugged in to a conductive bar. In this configuration, since the attachment portion of the existing branch breaker 4 can be used as one of the attachment portions 8, the limited space in the main body 20 can be effectively utilized.

  Further, the distribution board 1 of the present embodiment may include a plurality of communication modules 61. In this case, a plurality of communication modules 61 may be configured to share one antenna 60. That is, the plurality of communication modules 61 and any one of the antennas 60 may be connected by the cable 7. In this configuration, compared to the case where one antenna 60 is prepared for each communication module 61, the number of necessary antennas 60 can be reduced, and the cost can be reduced. Also, with this configuration, interference between the antennas 60 that can occur when one antenna 60 is prepared for each communication module 61 can be avoided.

  In any of the above-described configurations, the communication module 61 may incorporate an antenna (not shown). By the way, when using the communication module 61 incorporating the antenna as the communication module 61, depending on the installation location of the cabinet 2 and the arrangement of the metal parts in the main body 20, the built-in antenna has a large gain and desired directivity performance. It may not be obtained.

  Therefore, it is desirable to provide the connector 610 also in the communication module 61 incorporating the antenna. In other words, the communication module 61 preferably has a connection portion (connector 610) to which the antenna 60 is detachably electrically connected. In this configuration, since the antenna 60 can be externally attached to the communication module 61 via the cable 7, if the antenna 60 is attached to an appropriate place among the plurality of attachment portions 8, a large gain and desired directivity performance can be obtained. Can be obtained.

  The communication module 61 is preferably configured to automatically switch the antenna to be used from the built-in antenna to the external antenna 60 when the antenna 60 is connected to the connector 610 via the cable 7. As a configuration for detecting whether or not the antenna 60 is connected to the connector 610, for example, a configuration in which the antenna 60 is electrically detected based on the input impedance of the connector 610 can be considered. In addition, when one end of the cable 7 is connected to the connector 610, the communication module 61 automatically switches the antenna to be used from the built-in antenna to the external antenna 60 by mechanically switching contacts (not shown). It may be a configuration.

  In addition, the distribution board 1 of the present embodiment may be provided with the direct attachment portion 611 of the antenna 60 in the communication module 61. The direct attaching part 611 should just be comprised so that the antenna 60 can be attached or detached freely. Here, as shown in FIG. 8A, the direct attachment portion 611 is configured by a pair of fasteners 800 in the same manner as the first attachment portion 80. Even in this configuration, as shown in FIG. 8B, the antenna 60 is externally attached to the communication module 61 to supplement the built-in antenna, and a large gain and desired directivity performance can be obtained. In this configuration, the antenna 60 can be attached to the direct attachment portion 611 even when the communication module 61 that does not incorporate the antenna is used. Therefore, in this configuration, the limited space in the main body 20 can be utilized more effectively than in the case where only the plurality of attachment portions 8 are provided.

  Moreover, in the distribution board 1 of this embodiment, you may provide the display part 612 in one surface of the communication module 61, as shown to FIG. 9A. The display unit 612 is configured by, for example, a 7-segment display, and is configured to display the radio signal reception state of the antenna 60 by a numerical value represented by 7 segments. In addition, a control unit (not shown) that controls display on the display unit 612 is housed inside the communication module 61. The control unit measures a received signal strength indicator (RSSI) of a radio signal received by the antenna 60. Then, the control unit causes the display unit 612 to display the reception state of the radio signal of the antenna 60 according to the measured received signal strength. For example, when the reception state of the radio signal of the antenna 60 is displayed on the display unit 612 in 10 stages from “0” to “9”, the reception state is good if the numerical value is large, and the reception state is bad if the numerical value is small. .

  In this configuration, for example, when the antenna 60 is installed and the communication between the external device and the communication module 61 is tested, the reception state of the radio signal of the antenna 60 can be easily confirmed with the human eye. The control unit may be configured to try communication a plurality of times between the antenna 60 and the external device and calculate a communication success rate. In this case, it is preferable that the display unit 612 is configured to change the display according to the magnitude of the communication success rate. For example, when the numerical value displayed on the display unit 612 is large, the communication success rate is high, and when the numerical value is small, the communication success rate is low.

  Moreover, in the distribution board 1 of this embodiment, you may provide the indicator lamp 613 in one surface of the communication module 61, as shown to FIG. 9B. The indicator lamp 613 includes a light emitting element 614 such as a light emitting diode. The indicator lamp 613 may be composed of one light emitting element 614 or a plurality of light emitting elements 614. The indicator lamp 613 is configured such that the lighting state of the light emitting element 614 changes according to the reception state of the radio signal of the antenna 60.

  When the indicator lamp 613 includes a single light emitting element 614, the radio signal reception state of the antenna 60 may be displayed in accordance with a change in the color of light. For example, if the light emitting element 614 of the indicator lamp 613 is green, the reception state is the best, and if it is red, the reception state is the worst. Further, in the case where the indicator lamp 613 includes a single light emitting element 614, the wireless signal reception state of the antenna 60 may be displayed according to the intensity of light (visible light) emitted from the light emitting element 614. For example, if the light emitted from the light emitting element 614 is strong, the reception state is good, and if the light is weak, the reception state is bad.

  The indicator lamp 613 may be configured to display the radio signal reception state of the antenna 60 in accordance with the blinking cycle of light emitted from the light emitting element 614. For example, the shorter the blinking cycle of light emitted from the light emitting element 614, the better the reception state, and the longer the light emission period, the worse the reception state. In other examples, when the light emitting element 614 is lit without blinking, the reception state is good, and when it is lit while blinking, the reception state is bad.

  In the case where the indicator lamp 613 includes a plurality of light emitting elements 614, the radio signal reception state of the antenna 60 may be displayed in accordance with the number of light emitting elements 614 to be lit. For example, as shown in FIG. 9B, when the indicator lamp 613 is configured by five light emitting elements 614, the reception state is the best when all the light emitting elements 614 are lit, and the reception state is the worst when none of them is lit. It shows that.

  In this configuration, for example, when the antenna 60 is installed and the communication between the external device and the communication module 61 is tested, the reception state of the radio signal of the antenna 60 can be easily confirmed with the human eye. The control unit may be configured to try communication a plurality of times between the antenna 60 and the external device and calculate a communication success rate. In this case, it is desirable that the indicator lamp 613 is configured to change the display according to the communication success rate. For example, the communication success rate is the highest when all the light emitting elements 614 of the indicator lamps 613 are lit, and the communication success rate is the lowest when none of them is lit.

1 Distribution board 2 Cabinet 20 Main body 6 Communication unit 60 Antenna 61 Communication module 8 Mounting portion 80 First mounting portion 81 Second mounting portion 82 Third mounting portion

Claims (10)

It has a box-shaped main body to store the internal unit,
In the main body, a communication module that communicates with an external device provided outside the main body and an antenna that is electrically connected to the communication module and transmits / receives a radio signal can be stored as the internal unit. Yes,
A distribution board cabinet, wherein the main body is provided with a plurality of attachment portions to which the antenna is attached, and each of the plurality of attachment portions is configured to hold the antenna.   2. The distribution board cabinet according to claim 1, wherein at least two of the plurality of attachment portions are configured such that directions in which the antenna is attached are different from each other. A cable for electrically connecting the antenna and the communication module;
The distribution board cabinet according to claim 1 or 2, wherein the main body has a configuration in which the cable is wound. Having a fixture to which the antenna is attached;
4. The device according to claim 1, wherein at least one of the plurality of mounting portions is configured such that the antenna is led out of the main body through the fixture. 5. The cabinet of the electricity distribution panel of item 1.   5. The distribution board cabinet according to claim 1, wherein at least one of the plurality of attachment portions is an attachment portion of a branch breaker. 6.   A distribution board comprising the cabinet of the distribution board according to any one of claims 1 to 5, a main breaker, one or more branch breakers, the communication module, and the antenna. Board. A plurality of the communication modules;
The distribution board according to claim 6, wherein the antenna is shared by a plurality of the communication modules.   The distribution board according to claim 6 or 7, wherein the communication module has a connection portion to which the antenna is electrically connected in a detachable manner. The communication module includes a display unit for displaying numerical values,
The distribution board according to any one of claims 6 to 8, wherein the display unit is configured to change a numerical value according to a reception state of the radio signal of the antenna. The communication module includes an indicator lamp having a light emitting element,
The said indicator lamp is comprised so that the lighting state of the said light emitting element may change according to the reception state of the said radio signal of the said antenna, The component of any one of Claim 6 thru | or 8 characterized by the above-mentioned. Electric board.

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