WO2021149398A1

WO2021149398A1 - Information presentation system, power measurement system, information presentation method, and program

Info

Publication number: WO2021149398A1
Application number: PCT/JP2020/046560
Authority: WO
Inventors: 史迅大垣; 憲一村上; 友一朗永野; 裕荻野
Original assignee: パナソニックＩｐマネジメント株式会社
Priority date: 2020-01-23
Filing date: 2020-12-14
Publication date: 2021-07-29
Also published as: JP2021117621A

Abstract

The present invention addresses the problem of providing an information presentation system, a power measurement system, an information presentation method, and a program which can improve the possibility of correct installation of a measuring device. This information presentation system (10) comprises: a first presentation unit (F11) that presents explanation content including the installation sequence of a measuring device; and a second presentation unit (F12) that presents state content including state information pertaining to the installation state of a measuring device (150).

Description

Information presentation system, power measurement system, information presentation method, program

This disclosure generally relates to information presentation systems, power measurement systems, information presentation methods, and programs. The present disclosure relates, in particular, to information presentation systems, power measurement systems, information presentation methods, and programs relating to measuring devices.

Patent Document 1 discloses a power measurement unit (measurement device). The power measurement unit of Patent Document 1 has a function of measuring the power of each circuit in which a sensor unit (sensor) is installed and is installed at a predetermined position in a distribution board. The power measurement unit is connected to the sensor unit using a signal line and an electric wire, and outputs a power measurement value to an external monitoring device such as a personal computer via a communication line.

Japanese Unexamined Patent Publication No. 2014-199209

When using the power measurement unit (measurement device), it is necessary to install it at a predetermined location in the distribution board and perform wiring correctly. Since the construction of such a measuring device is complicated, the construction of the measuring device may not be performed correctly.

The challenge is to provide an information presentation system, a power measurement system, an information presentation method, and a program that can improve the possibility that the installation of the measuring device will be performed correctly.

The information presentation system of one aspect of the present disclosure includes a first presentation unit that presents explanatory content including a procedure for constructing a measuring device, and a second presenting a state content that includes state information regarding the construction state of the measuring device. It has a presentation unit.

The power measurement system of one aspect of the present disclosure includes the information presentation system and the measurement device.

The information presentation method of one aspect of the present disclosure includes a first presentation step of presenting explanatory content indicating a procedure for constructing a measuring device, and a first presenting of state content indicating information on a construction state of the measuring device. Includes 2 presentation steps.

The program of one aspect of the present disclosure is a program for causing one or more processors to execute the information presentation method.

FIG. 1 is a schematic view of a distribution board on which the measuring device of one embodiment is installed. FIG. 2 is an explanatory diagram of the construction of the measuring device. FIG. 3 is a block diagram of an information presentation system used for implementing the measuring device. FIG. 4 is an explanatory diagram of one screen of the explanatory content presented by the information presentation system. FIG. 5 is an explanatory diagram of another screen of the explanatory content presented by the information presentation system. FIG. 6 is an explanatory diagram of another screen of the explanatory content presented by the information presentation system. FIG. 7 is an explanatory diagram of another screen of the explanatory content presented by the information presentation system. FIG. 8 is an explanatory diagram of another screen of the explanatory content presented by the information presentation system. FIG. 9 is an explanatory diagram of another screen of the explanatory content presented by the information presentation system. FIG. 10 is an explanatory diagram of one screen of the state content presented by the information presentation system. FIG. 11 is a flowchart of an information presentation method executed by the information presentation system. FIG. 12 is a flowchart of an information presentation method of a modification executed by the information presentation system.

(1) Embodiment (1-1) Outline This embodiment relates to the construction of a measuring device which is a kind of electrical equipment. In particular, as shown in FIG. 1, the present embodiment relates to the construction of the measuring device 150 on the distribution board 100. Here, the distribution board 100 is used to distribute the electric power from the AC power source 200 which is an external power source. That is, the distribution board 100 is electrically connected to the AC power supply 200. The AC power supply 200 is, for example, a commercial power supply. In FIG. 1, the distribution board 100 includes a main switch (main breaker) 110 and a plurality of branch switches (branch breakers) 120. It is not essential that the distribution board 100 is provided with a plurality of branch switches 120, and it is sufficient that the distribution board 100 has one or more branch switches 120. Further, the distribution board 100 includes a main switch 110 and a cabinet 130 accommodating a plurality of branch switches 120. The cabinet 130 is attached to a building material (eg, a building wall). The construction material is not limited to the wall of the room in the building (detached house, dwelling unit of apartment house, tenant building, etc.), and may be, for example, the ceiling or floor of the room in the building.

The main switch 110 includes a primary side end terminal, a secondary side terminal, and a contact connected to an electric circuit between the primary side terminal and the secondary side terminal. When the main switch 110 detects an abnormal state in which an overcurrent such as an electric leakage current or an overload current flows through the contacts, the main switch 110 opens the contacts and cuts off the electric circuit. Since the main switch 110 may have a conventionally known configuration, detailed description thereof will be omitted.

The branch switch 120 is a circuit breaker for wiring. The branch switch 120 includes a power supply terminal portion (primary side connection portion) and a load connection portion (secondary side connection portion). Further, the branch switch 120 includes a breaking circuit. The break circuit includes a contact device inserted into an electric circuit between the power supply terminal portion and the load connection portion, and a handle for operating the contact device. The power supply terminal is used for connecting to the power supply. The power supply terminal portion is used for electrical connection with the main switch 110. The load connection is used to connect to the load. Examples of the load include wiring equipment for connecting to electrical equipment. Wiring equipment includes outlets, hook ceilings, and the like. The branch switch 120 may have a thermal tripping device. The thermal tripping device includes, for example, a thermal element such as a bimetal or a trimetal, and is configured to open the contact device of the break circuit when the thermal element operates. Further, the branch switch 120 may have an electromagnetic tripping device. The electromagnetic tripping device includes, for example, an electromagnet device, and is configured to instantly open the contact device of the break circuit when the electromagnet device is activated. The branch switch 120 does not have to have a function as a wiring breaker. The branch switch 120 may be used, for example, as a switch, relay or demultiplexer.

The cabinet 130 includes a plurality of mounting members 140. The mounting member 140 is used to secure the branch switch 120 to the cabinet 130. In this embodiment, the mounting member 140 is a DIN rail.

The measuring device 150 is installed on the distribution board 100. The measuring device 150 is fixed to the cabinet 130 by being attached to the mounting member 140. Further, the measuring device 150 is electrically connected to the branch switch 120 of the distribution board 100 and receives the electric power from the AC power supply 200. Further, the measuring device 150 is electrically connected to the sensor 300 and acquires sensing information from the sensor 300.

In the present embodiment, as shown in FIG. 2, the measuring device 150 constitutes the power measuring system 1 together with the information presenting system 10. In the power measurement system 1, the information presentation system 10 can be used when the builder P10 installs the measurement device 150 on the distribution board 100. As shown in FIG. 3, the information presentation system 10 includes a first presenting unit F11 for presenting explanatory content including a procedure for constructing the measuring device 150, and a state content including state information regarding the construction state of the measuring device 150. A second presentation unit F12 for presenting is provided.

As described above, the information presentation system 10 presents the explanatory content including the construction procedure of the measuring device 150 and the state content including the state information regarding the construction state of the measuring device 150. Therefore, the builder P10 can perform the construction of the measuring device 150 according to the explanation contents. Further, the builder P10 can determine the construction state of the measuring device 150 according to the state content. For example, the builder P10 can determine whether or not the construction of the measuring device 150 has been performed correctly. If the construction of the measuring device 150 is performed correctly, the construction of the measuring device 150 may be completed. On the other hand, if the measurement device 150 is not installed correctly, the measurement device 150 may be installed again according to the explanation contents. Therefore, according to the information presentation system 10 of the present embodiment, it is possible to improve the possibility that the measuring device 150 is installed correctly.

(1-2) Details Hereinafter, the measuring device 150 and the information presentation system 10 constituting the power measuring system 1 of the present embodiment will be described in more detail with reference to the drawings.

(1-2-1) Measuring device The measuring device 150 is installed on the distribution board 100 as described above. The measuring device 150 is fixed to the cabinet 130 by being attached to the mounting member 140. In the present embodiment, the mounting member 140 is a DIN rail, and the measuring device 150 is configured to be mountable on the DIN rail. Since the structure that can be attached to the DIN rail may be a conventionally known structure, detailed description thereof will be omitted.

The measuring device 150 generates measurement information regarding a predetermined physical quantity based on, for example, sensing information (for example, measured value) from the sensor 300. In this embodiment, the sensor 300 is a current sensor. The current sensor is used for measuring the power supplied from the AC power source 200, the power supplied from power generation equipment such as a solar cell, a power storage device, and a fuel cell, and the power consumption of a load or the like. In this case, the predetermined physical quantity includes electric power (unit: W). In the case of the present embodiment, the measuring device 150 generates measurement information (power measurement information) related to a predetermined physical quantity (power) based on the sensing information (current value) from the sensor 300. In the present embodiment, as shown in FIG. 2, the measuring device 150 has a sensor connecting portion 151 to which the sensor 300 (current sensor) is electrically connected. The sensor connection portion 151 may include a jack to which a plug of the communication line L2 can be connected. The communication line L2 is a LAN cable in this embodiment.

The measuring device 150 transmits measurement information. In the present embodiment, the measuring device 150 transmits measurement information by wireless communication. As an example, the measuring device 150 is capable of wireless communication with a communication device 400 (see FIG. 2) such as a gateway, and transmits measurement information to the communication device 400. The measurement information transmitted to the communication device 400 is transmitted from the communication device 400 to the preset information presentation system 10 by wireless communication or wired communication. Then, the information presentation system 10 can present the measurement information received from the communication device 400, which enables the user to confirm the measurement information in the information presentation system 10.

In the present embodiment, the measuring device 150 includes an operation unit 152 as shown in FIG. The operation unit 152 is used for setting communication by the measuring device 150. That is, the operation unit 152 is used to connect the measuring device 150 to the communication device 400 so as to be communicable by wireless communication. In the present embodiment, by operating the operation unit 152, the measuring device 150 can register the other party of wireless communication. In this embodiment, the operation unit 152 is a push switch.

The measuring device 150 generates operating power from the AC power from the AC power supply 200. The operating power can be used for measurement and communication with the measuring device 150. For example, the measuring device 150 generates operating power (DC power) based on the input power (AC power) from the AC power supply 200. In the present embodiment, the measuring device 150 includes a power supply terminal unit 153 (see FIG. 6). The power supply terminal 153 is electrically connected to the power supply line L1 from the external power supply (AC power supply 200). In the present embodiment, the power supply terminal portion 153 is electrically connected to the branch switch 120 of the distribution board 100 by the power supply line L1. As a result, the power supply terminal portion 153 is electrically connected to the AC power supply 200.

(1-2-2) Information Presentation System As shown in FIG. 3, the information presentation system 10 includes an input / output unit 11, a communication unit 12, a storage unit 13, and a processing unit 14. The input / output unit 11, the communication unit 12, the storage unit 13, and the processing unit 14 can be housed in the same housing. The information presentation system 10 is an information terminal, for example, a smartphone. The information presentation system 10 can be realized by a mobile terminal such as a tablet terminal or a wearable terminal, or a personal computer.

The input / output unit 11 includes an input device for operating the information presentation system 10. The input device includes, for example, a touch pad 11a (see FIG. 4 and the like). Also, the input device may have one or more buttons. The input / output unit 11 includes an image display device 11b (see FIG. 4 and the like) for displaying visual information. The image display device 11b is a thin display device such as a liquid crystal display or an organic EL display. A touch panel may be configured by the touch pad 11a of the input / output unit 11 and the image display device 11b.

The communication unit 12 is a communication interface. The communication unit 12 has a function of connecting the information presentation system 10 to the communication device 400 in a communicable manner. The communication unit 12 conforms to a predetermined communication protocol. The predetermined communication protocol can be selected from various well-known wired and wireless communication standards (eg, power line communication protocol, wireless communication protocol, infrared communication protocol, extended HBS protocol, LonTalk® protocol). Further, examples of the wireless communication protocol include a specific low power wireless standard and a wireless LAN (Local Area Network) standard. Examples of the specified low power radio standard include the Wi-SUN (registered trademark) standard and the Wi-SUNHAN (registered trademark). Wi-Fi (registered trademark) is mentioned as a wireless LAN standard.

The storage unit 13 is used to store information necessary for processing by the processing unit 14. The storage unit 13 is a ROM (Read Only Memory), a RAM (Random Access Memory), an EEPROM (Electrically Erasable Programmable Read Only Memory), or the like.

The processing unit 14 is configured to control the entire information presentation system 10, that is, the input / output unit 11, the communication unit 12, and the storage unit 13. The processing unit 14 can be realized by a computer system including one or more processors (microprocessors) and one or more memories. That is, one or more processors execute one or more programs (applications) stored in one or more memories, thereby functioning as the processing unit 14. Although the program is recorded in advance in the memory of the processing unit 14, the program may be provided by being recorded in a non-temporary recording medium such as a memory card or through a telecommunication line such as the Internet.

The processing unit 14 includes a first presentation unit F11 and a second presentation unit F12. The first presentation unit F11 and the second presentation unit F12 do not show a substantive configuration, but show a function realized by the processing unit 14.

The first presentation unit F11 presents explanatory contents including the construction procedure of the measuring device 150. In the present embodiment, the procedure for constructing the measuring device 150 includes a first step, a second step, a third step, a fourth step, and a fifth step. The first step is a step of arranging the measuring device 150 in the cabinet 130 of the distribution board 100 (measuring device arranging step). The second step is a step of fixing the measuring device 150 to the mounting member 140 (measuring device fixing step). The third step is a step of electrically connecting the measuring device 150 to the AC power supply 200 (power supply connection step). The fourth step is a step of electrically connecting the measuring device 150 to the sensor 300 (sensor connection step). The fifth step is a step (wireless connection step) of connecting the measuring device 150 to the communication device 400 in a communicable manner.

In the present embodiment, the presentation of the explanatory content includes the display of at least a part of the explanatory content. More specifically, the first presentation unit F11 displays an explanatory display screen on the image display device 11b as explanatory content. The explanatory display screen displayed on the image display device 11b by the first presentation unit F11 will be described below.

The explanation display screen includes, for example, explanation display screens G10 to G15 (FIGS. 4 to 9). The explanation display screens G10 to G15 are the first step (measuring device arrangement step), the second step (measuring device fixing step), the third step (power connection step), the fourth step (sensor connection step), and the fifth step ( Corresponds to the first wireless connection step) and the sixth step (second wireless connection step), respectively. In addition, in FIGS. 4 to 9, the code and the attachments (indicator line, arrow, etc.) of the code are described for the explanation of the explanatory display screens G10 to G15, and are included in the explanatory display screens G10 to G15 itself. It is not.

When presenting the explanatory content, the first presenting unit F11 first displays the explanatory display screen G10.

The explanation display screen G10 corresponds to the first step (measurement device placement step). The explanatory display screen G10 includes a first display area R101, a second display area R102, and a button B10. The first display area R101 and the second display area R102 display contents for explaining a method of arranging the measuring device 150 in the cabinet 130 of the distribution board 100. For example, the first display area R101 and the second display area R102 display the insulation distance and the like required when the measuring device 150 is arranged in the cabinet 130. Here, the first display area R101 displays an illustration explaining a method of arranging the measuring device 150 in the cabinet 130 of the distribution board 100. The second display area R102 displays text explaining a method of arranging the measuring device 150 in the cabinet 130 of the distribution board 100. Therefore, the builder P10 can arrange the measuring device 150 in the cabinet 130 of the distribution board 100 with reference to the first display area R101 and the second display area R102. The button B10 is a button for advancing the construction procedure of the measuring device 150 to the second step. Therefore, when the button B10 is selected by the touch pad 11a, the first presenting unit F11 ends the display of the explanation display screen G10 and starts the display of the explanation display screen G11.

The explanation display screen G11 corresponds to the second step (measurement device fixing step). The explanatory display screen G11 includes a first display area R111, a second display area R112, and a button B11. The first display area R111 and the second display area R112 display contents for explaining a method of fixing the measuring device 150 to the mounting member 140. In the present embodiment, the first display area R111 and the second display area R112 also display contents for explaining a method of removing the measuring device 150 from the mounting member 140. Here, the first display area R111 displays an illustration explaining a method of fixing the measuring device 150 to the mounting member 140 and a method of removing the measuring device 150 from the mounting member 140. The second display area R112 displays text explaining a method of fixing the measuring device 150 to the mounting member 140 and a method of removing the measuring device 150 from the mounting member 140. Therefore, the builder P10 can fix the measuring device 150 to the mounting member 140 with reference to the first display area R111 and the second display area R112, and can remove the measuring device 150 from the mounting member 140. The button B11 is a button for advancing the construction procedure of the measuring device 150 to the third step. Therefore, when the button B11 is selected by the touch pad 11a, the first presenting unit F11 ends the display of the explanation display screen G11 and starts the display of the explanation display screen G12.

The explanation display screen G12 corresponds to the third step (power connection step). The explanatory display screen G12 includes a first display area R121, a second display area R122, and a button B12. The first display area R121 and the second display area R122 display contents for explaining a method of electrically connecting the measuring device 150 to the AC power supply 200. For example, this content includes a method of connecting the power supply line L1 to the power supply terminal portion 153 of the measuring device 150. Here, the first display area R121 displays an illustration explaining a method of electrically connecting the measuring device 150 to the AC power supply 200. The second display area R122 displays text explaining a method of electrically connecting the measuring device 150 to the AC power supply 200. Therefore, the builder P10 connects the power supply line L1 to the power supply terminal portion 153 of the measuring device 150 with reference to the first display area R121 and the second display area R122, and electrically connects the measuring device 150 to the AC power supply 200. Can be connected to. The button B12 is a button for advancing the construction procedure of the measuring device 150 to the fourth step. Therefore, when the button B12 is selected by the touch pad 11a, the first presenting unit F11 ends the display of the explanation display screen G12 and starts the display of the explanation display screen G13.

The explanation display screen G13 corresponds to the fourth step (sensor connection step). The explanatory display screen G13 includes a first display area R131, a second display area R132, and a button B13. The first display area R131 and the second display area R132 display contents for explaining a method of electrically connecting the measuring device 150 to the sensor 300. For example, this content includes a method of connecting the communication line L2 to the sensor connection unit 151 of the measuring device 150. Here, the first display area R131 displays an illustration explaining a method of electrically connecting the measuring device 150 to the sensor 300. The second display area R132 displays text explaining how the measuring device 150 is electrically connected to the sensor 300. Therefore, the builder P10 connects the communication line L2 to the sensor connection portion 151 of the measuring device 150 with reference to the first display area R131 and the second display area R132, and electrically connects the measuring device 150 to the sensor 300. You can connect. The button B13 is a button for advancing the construction procedure of the measuring device 150 to the fifth step. Therefore, when the button B13 is selected by the touch pad 11a, the first presenting unit F11 ends the display of the explanation display screen G13 and starts the display of the explanation display screen G14.

The explanation display screen G14 corresponds to the fifth step (first wireless connection step). The explanatory display screen G14 includes a first display area R141, a second display area R142, and a button B14. The first display area R141 and the second display area R142 display contents for explaining a procedure for connecting the measuring device 150 to the communication device 400 in a communicable manner. For example, this content includes a method of setting the communication device 400 to a mode (registration mode) in which the other party of wireless communication can be registered. Here, the first display area R141 displays an illustration of the communication device 400, which is the communication partner of the measurement device 150. The second display area R142 displays a text explaining a method of setting the communication device 400, which is the communication partner of the measuring device 150, to the registration mode. Here, the button B14 is a button for setting the communication device 400 to the registration mode and advancing the construction procedure of the measuring device 150 to the sixth step. Therefore, the builder P10 refers to the first display area R141 and the second display area R142, confirms that the communication partner of the measuring device 150 is the communication device 400, and selects the button B14 with the touch pad 11a. .. When the button B14 is selected by the touch pad 11a, the first presenting unit F11 instructs the communication device 400 via the communication unit 12 to set the communication device 400 in a state capable of wireless communication with the measuring device 150. send. Further, the first presentation unit F11 ends the display of the explanation display screen G13 and starts the display of the explanation display screen G14.

The explanation display screen G15 corresponds to the sixth step (second wireless connection step). The explanatory display screen G15 includes a first display area R151, a second display area R152, a third display area R153, and a button B15. The first display area R151, the second display area R152, and the third display area R153 display contents for explaining a procedure for communicably connecting the measuring device 150 to the communication device 400. For example, this content includes a method of setting the measuring device 150 to a mode (registration mode) in which the other party of wireless communication can be registered. In the present embodiment, the content includes an instruction to operate the operation unit 152 of the measuring device 150. Here, the first display area R151 displays an illustration (an illustration instructing to operate the operation unit 152 of the measurement device 150) explaining a method of setting the measurement device 150 to the registration mode. The second display area R152 displays an illustration of the communication device 400, which is the communication partner of the measurement device 150. The third display area R153 displays a text explaining a method of setting the measuring device 150 to the registration mode (a text instructing to operate the operation unit 152 of the measuring device 150). Here, the button B15 is a button for ending the presentation of the explanatory content. Therefore, when the button B15 is selected by the touch pad 11a, the first presenting unit F11 ends the display of the explanation display screen G15.

The second presentation unit F12 presents the state content including the state information regarding the construction state of the measuring device 150. In the present embodiment, the second presenting unit F12 acquires the information used for the state content from the measuring device 150 via the communication unit 12. The information used for the state content is the result of measurement by the measuring device 150. For example, the second presenting unit F12 obtains the voltage value, the current value, and the power factor from the measurement result by the measuring device 150 and includes them in the state content. As described above, in the present embodiment, the state information includes the result of measurement by the measuring device 150.

The presentation of the state content may include the display of at least a part of the state content. In the present embodiment, the second presentation unit F12 displays the state display screen on the image display device 11b as the state content. The state display screen displayed on the image display device 11b by the second presentation unit F12 will be described below.

The status display screen includes, for example, the status display screen G16 (FIG. 10). In addition, in FIG. 10, a code and an accessory (indicator line, arrow, etc.) of the code are described for the purpose of explaining the state display screen G16, and are not included in the state display screen G16 itself.

The second presentation unit F12 presents the state content following the presentation of the explanatory content by the first presentation unit F11. In the present embodiment, the second presentation unit F15 starts displaying the status display screen G16 when the button B15 of the explanation display screen G15 is selected by the touch pad 11a.

The status display screen G16 includes a first display area R161, a second display area R162, a button B161, and a button B162. The first display area R161 displays a text prompting confirmation of the construction state of the measuring device 150. For example, the text may include a text that determines whether or not the measurement device 150 is being constructed correctly, and if the measurement device 150 is not being constructed correctly, prompts the user to perform the construction again. The second display area R162 displays measurement information including the result of measurement by the measuring device 150. For example, the measurement information may include a table showing the voltage value, current value, and power factor of each wire of the electric wire. The builder P10 can confirm the result of the measurement by the measuring device 150 from the table displayed in the second display area R162 and judge whether or not the result is as expected. Then, if the result of the measurement by the measuring device 150 is as expected, it can be determined that the measuring device 150 is installed correctly. On the other hand, if the result of the measurement by the measuring device 150 is different from the expected result, it can be determined that the measuring device 150 is not installed correctly. Button B161 is a button that is operated when it is determined that the measurement device 150 is being installed correctly. Therefore, when the button B161 is selected by the touch pad 11a, the second presenting unit F12 ends the display of the status display screen G16. Button B162 is a button that is operated when it is determined that the measurement device 150 is not installed correctly. Therefore, when the button B162 is selected by the touch pad 11a, the second presentation unit F12 ends the display of the status display screen G16, and the first presentation unit F11 displays the explanation display screen G10 again.

(1-3) Operation of Presenting Explanatory Content and State Content Next, an operation related to the presentation of the explanatory content and the state content by the information presentation system 10 will be briefly described with reference to FIG.

First, when the information presentation system 10 receives the instruction to start the presentation of the explanatory content in the input / output unit 11, the first presentation unit F11 starts the presentation of the explanatory content (S11).

When presenting the explanatory content, the first presenting unit F11 first displays the explanatory display screen G10 (see FIG. 4). The builder P10 arranges the measuring device 150 in the cabinet 130 of the distribution board 100 with reference to the explanation display screen G10. Then, when the installer P10 finishes arranging the measuring device 150 in the cabinet 130 of the distribution board 100, the builder P10 selects the button B10 with the touch pad 11a. As a result, the first presentation unit F11 ends the display of the explanation display screen G10 and starts the display of the explanation display screen G11 (see FIG. 5).

Next, the builder P10 fixes the measuring device 150 to the mounting member 140 with reference to the explanation display screen G11. Then, when the installer P10 finishes fixing the measuring device 150 to the mounting member 140, the builder P10 selects the button B11 with the touch pad 11a. As a result, the first presentation unit F11 ends the display of the explanation display screen G11 and starts the display of the explanation display screen G12 (see FIG. 6).

Next, the builder P10 electrically connects the measuring device 150 to the AC power supply 200 with reference to the explanation display screen G12. Then, when the installer P10 finishes electrically connecting the measuring device 150 to the AC power supply 200, the builder P10 selects the button B12 with the touch pad 11a. As a result, the first presentation unit F11 ends the display of the explanation display screen G12 and starts the display of the explanation display screen G13 (see FIG. 7).

Next, the builder P10 electrically connects the measuring device 150 to the sensor 300 with reference to the explanation display screen G13. Then, when the installer P10 finishes electrically connecting the measuring device 150 to the sensor 300, the builder P10 selects the button B13 with the touch pad 11a. As a result, the first presentation unit F11 ends the display of the explanation display screen G13 and starts the display of the explanation display screen G14 (see FIG. 8).

Next, the builder P10 refers to the explanation display screen G14, confirms that the communication partner of the measuring device 150 is the communication device 400, and selects the button B14 with the touch pad 11a. As a result, the first presenting unit F11 sends an instruction to the communication device 400 via the communication unit 12 to set the communication device 400 in a state in which wireless communication with the measuring device 150 is possible. Further, the first presentation unit F11 ends the display of the explanation display screen G13 and starts the display of the explanation display screen G14 (see FIG. 9).

Next, the builder P10 sets the measuring device 150 to the registration mode with reference to the explanation display screen G15. Then, the builder P10 selects the button B15 with the touch pad 11a. As a result, the first presenting unit F11 ends the display of the explanation display screen G15, and the second presenting unit F12 starts presenting the state content (S12).

In presenting the state content, the second presenting unit F12 acquires the measurement result by the measuring device 150 from the measuring device 150 via the communication unit 12 (S121). Then, the second presentation unit F12 starts displaying the status display screen G16 (S122).

The builder P10 can determine from the status display screen G16 that the measuring device 150 is correctly constructed. When the builder P10 determines that the measuring device 150 is correctly constructed, the builder P10 may select the button B161 with the touch pad 11a. As a result, the second presentation unit F12 ends the display of the status display screen G16. On the other hand, when the installer P10 determines that the measuring device 150 is not installed correctly, the installer P10 may select the button B162 with the touch pad 11a. As a result, the second presentation unit F12 ends the display of the status display screen G16, and the first presentation unit F11 displays the explanation display screen G10 again. As a result, the builder P10 can confirm the construction state of the measuring device 150 again according to the explanatory contents.

(1-4) Summary The information presentation system 10 of the present embodiment described above can be used when the installer P10 installs the measuring device 150 on the distribution board 100. As shown in FIG. 3, the information presentation system 10 includes a first presenting unit F11 for presenting explanatory content including a procedure for constructing the measuring device 150, and a state content including state information regarding the construction state of the measuring device 150. A second presentation unit F12 for presenting is provided. According to this information presentation system 10, it is possible to improve the possibility that the measuring device 150 is installed correctly.

In other words, it can be said that the information presentation system 10 executes the following method (information presentation method). The information presentation method includes a first presentation step of presenting explanatory content including a procedure for constructing the measuring device 150 and a second presenting step of presenting state content including state information regarding the construction state of the measuring device 150. include. According to this information presentation method, it is possible to improve the possibility that the measuring device 150 is correctly constructed as in the information presentation system 10.

The information presentation method is realized by executing a program (computer program) by one or more processors. This program is a program for causing one or more processors to execute an information presentation method. According to such a program, it is possible to improve the possibility that the measuring device 150 is correctly constructed as in the information presentation method.

(2) Modified Example The embodiment of the present disclosure is not limited to the above embodiment. The above-described embodiment can be changed in various ways depending on the design and the like as long as the object of the present disclosure can be achieved. Examples of modifications of the above embodiment are listed below.

In one modification, the state information may include the result of determining the construction state of the measuring device 150 based on the result of the measurement by the measuring device 150. In this case, it is possible to easily grasp whether or not the measuring device 150 is correctly installed. For example, the second presenting unit F12 may determine the construction state of the measuring device 150 based on the result of the measurement by the measuring device 150, and include the result of the determination in the state content. As an example, the result of determination of the construction state of the measuring device 150 may be included in the table shown by the second display area 162 of the state display screen G16. The construction state of the measuring device 150 can be determined by the current value or the power factor obtained from the measurement result of the measuring device 150. Since the determination of the construction state of the measuring device 150 can be performed by a conventionally known method, the details will not be described.

Next, the operation related to the presentation of the explanatory content and the state content by the information presentation system 10 of the modified example will be briefly described with reference to FIG.

First, when the information presentation system 10 receives the instruction to start the presentation of the explanatory content in the input / output unit 11, the first presentation unit F11 starts the presentation of the explanatory content (S11). When the builder P10 finishes the construction of the measuring device 150 according to the explanation content, the builder P10 selects the button B15 of the explanation display screen G15 with the touch pad 11a. As a result, the first presenting unit F11 ends the display of the explanation display screen G15, and the second presenting unit F12 starts presenting the state content (S13).

In presenting the state content, the second presenting unit F12 acquires the result of measurement by the measuring device 150 from the measuring device 150 via the communication unit 12 (S131). Then, the second presenting unit F12 determines the construction state of the measuring device 150 based on the result of the measurement by the measuring device 150 (S132). When it is determined that the measuring device 150 is correctly installed (S132: Yes), the second presenting unit F12 starts displaying the status display screen G16. Here, the second presentation unit F12 includes the content indicating that the construction of the measuring device 150 is normal in the table indicated by the second display area 162 (S133). When it is determined that the measuring device 150 is not installed correctly (S132: No), the second presenting unit F12 starts displaying the status display screen G16. Here, the second presentation unit F12 includes the content indicating that the construction of the measuring device 150 is abnormal in the table indicated by the second display area 162 (S134).

The builder P10 can determine from the status display screen G16 that the measuring device 150 is correctly constructed in consideration of the result of the determination of the construction status of the measuring device 150 by the information presentation system 10. When the builder P10 determines that the measuring device 150 is correctly constructed, the builder P10 may select the button B161 with the touch pad 11a. Further, when the installer P10 determines that the measuring device 150 is not installed correctly, the installer P10 may select the button B162 with the touch pad 11a.

In one modification, the explanatory content or the state content may include an instruction of a condition (precondition) for measurement by the measuring device 150. The precondition may be a condition for making it easy to determine whether or not the measuring device 150 is correctly constructed from the result of the measurement by the measuring device 150. For example, as a precondition, a load condition for connecting to the distribution board 100 can be mentioned. As an example, it is possible to connect only the consumption load of an electric device or the like to the distribution board 100 without connecting the power generation load of a solar cell, a storage battery, a fuel cell or the like. By presenting such a precondition, it can be expected that it becomes easy to judge whether or not the construction of the measuring device 150 is acceptable. Therefore, it is possible to improve the possibility that the measuring device 150 is installed correctly. For example, the third display area R153 of the explanatory display screen G15 shown in FIG. 9 may include an instruction of conditions for measurement by the measuring device 150. Further, the first display area R161 of the state display screen G16 shown in FIG. 10 may include an instruction of conditions for measurement by the measuring device 150. In this case, the status display screen G16 preferably includes a button for starting the measurement by the measuring device 150.

In one modification, the measuring device 150 may be configured to correspond to a sensor other than the current sensor. That is, the sensor 300 is not limited to the current sensor. For example, the sensor 300 can be selected from various sensors such as a temperature sensor, a humidity sensor, a flow rate sensor for a fluid such as gas or liquid, an electromagnetic wave sensor, a human sensor, an image sensor, and an ultrasonic sensor. The processing content of the measuring device 150 can be set according to the sensor 300.

For example, the layout of display screens such as the explanation display screens G10 to G15 and the status display screens G16 (for example, the presence / absence of the first display area R101 and the like, the size and position of the button B10 and the like) is not particularly limited. Further, the images showing the measuring device 150 and the communication device 400 are merely examples, and can be changed as appropriate.

In one modification, the information presentation system 10 may be composed of a plurality of computers. For example, the functions of the information presentation system 10 (particularly, the first presentation unit F11 and the second presentation unit F12) may be distributed to a plurality of devices. Further, at least a part of the functions of the information presentation system 10 may be realized by, for example, the cloud (cloud computing).

The execution subject of the information presentation system 10 described above includes a computer system. A computer system has a processor and memory as hardware. When the processor executes the program recorded in the memory of the computer system, the function as the execution subject of the information presentation system 10 in the present disclosure is realized. The program may be pre-recorded in the memory of the computer system or may be provided through a telecommunication line. The program may also be provided recorded on a non-temporary recording medium such as a memory card, optical disk, or hard disk drive that can be read by a computer system. A processor in a computer system is composed of one or more electronic circuits including a semiconductor integrated circuit (IC) or a large scale integrated circuit (LSI). A field programmable gate array (FPGA), an ASIC (application specific integrated circuit), or a reconfigurable reconfigurable connection relationship inside the LSI or a circuit partition inside the LSI that is programmed after the LSI is manufactured. Logical devices can be used for the same purpose. A plurality of electronic circuits may be integrated on one chip, or may be distributed on a plurality of chips. The plurality of chips may be integrated in one device, or may be distributed in a plurality of devices.

(3) Aspects As is clear from the above embodiments and modifications, the present disclosure includes the following aspects. In the following, reference numerals are given in parentheses only to clearly indicate the correspondence with the embodiments.

The first aspect is the information presentation system (10), in which the first presenting unit (F11) for presenting explanatory contents including the procedure for constructing the measuring device (150) and the measuring device (150) are constructed. It is provided with a second presenting unit (F12) for presenting state contents including state information regarding the state. According to this aspect, it is possible to improve the possibility that the measuring device (150) is installed correctly.

The second aspect is the information presentation system (10) based on the first aspect. In the second aspect, the second presenting unit (F12) presents the state content following the presentation of the explanatory content by the first presenting unit (F11). According to this aspect, it is possible to improve the possibility that the measuring device (150) is installed correctly.

The third aspect is the information presentation system (10) based on the first or second aspect. In the third aspect, the presentation of the explanatory content includes displaying at least a part of the explanatory content. According to this aspect, the builder (P10) can easily grasp the explanatory content.

The fourth aspect is the information presentation system (10) based on any one of the first to third aspects. In a fourth aspect, the presentation of the state content includes displaying at least a portion of the state content. According to this aspect, the builder (P10) can easily grasp the state content.

The fifth aspect is the information presentation system (10) based on any one of the first to fourth aspects. In a fifth aspect, the state information includes the result of measurement by the measuring device (150). According to this aspect, it is possible to determine whether or not the measuring device (150) is correctly installed from the result of the measurement by the measuring device (150).

The sixth aspect is the information presentation system (10) based on any one of the first to fifth aspects. In the sixth aspect, the state information includes the result of determining the construction state of the measuring device (150) based on the result of the measurement by the measuring device (150). According to this aspect, it is possible to easily grasp whether or not the measuring device (150) is correctly installed.

The seventh aspect is an information presentation system (10) based on any one of the first to sixth aspects. In the seventh aspect, the measuring device (150) is a power measuring device. The explanatory content or the state content includes an instruction of conditions for measurement by the measuring device (150). According to this aspect, it is possible to improve the possibility that the measuring device (150) is installed correctly.

The eighth aspect is the information presentation system (10) based on any one of the first to seventh aspects. In the eighth aspect, the information presentation system (10) further includes a communication unit (12) that is communicably connected to the measuring device (150) by wireless communication. The second presenting unit (F12) acquires information used for the state content from the measuring device (150) via the communication unit (12). According to this aspect, it is possible to improve the possibility that the measuring device (150) is installed correctly.

The ninth aspect is the information presentation system (10) based on the eighth aspect. In the ninth aspect, the communication unit (12) is communicably connected to the communication device (400) by wireless communication. The communication unit (12) sends an instruction to the communication device (400) to set the communication device (400) to a state capable of wireless communication with the measurement device (150) in response to a user operation. .. The communication unit (12) is connected to the measuring device (150) via the communication device (400) by connecting the communication device (400) to the measuring device (150) by wireless communication. It is connected so that it can communicate by wireless communication. According to this aspect, wireless communication between the measuring device (150) and the communication device (400) can be easily set.

The tenth aspect is an information presentation system (10) based on the ninth aspect. In a tenth aspect, the explanatory content includes a procedure for communicably connecting the communication device (400) to the measuring device (150) by wireless communication. According to this aspect, wireless communication between the measuring device (150) and the communication device (400) can be easily set.

The eleventh aspect is the power measurement system (1), which includes the information presentation system (10) of any one of the first to tenth aspects and the measurement device (150). According to this aspect, it is possible to improve the possibility that the measuring device (150) is installed correctly.

The twelfth aspect is an information presentation method, in which the first presentation step of presenting explanatory content showing a procedure for constructing the measuring device (150) and information on the construction state of the measuring device (150) are provided. Includes a second presentation step of presenting the state content to be shown. According to this aspect, it is possible to improve the possibility that the measuring device (150) is installed correctly.

The thirteenth aspect is a program for causing one or more processors to execute the information presentation method of the twelfth aspect. According to this aspect, it is possible to improve the possibility that the measuring device (150) is installed correctly.

10 Information presentation system 12 Communication unit F11 1st presentation unit F12 2nd presentation unit 150 Measuring device 400 Communication device

Claims

The first presentation section that presents explanatory content including the construction procedure of the measuring device, and
A second presenting unit that presents state contents including state information regarding the construction state of the measuring device, and
To prepare
Information presentation system.
The second presenting unit presents the state content following the presentation of the explanatory content by the first presenting unit.
The information presentation system of claim 1.
The presentation of the explanatory content includes displaying at least a part of the explanatory content.
The information presentation system of claim 1 or 2.
The presentation of the state content includes displaying at least a part of the state content.
An information presentation system according to any one of claims 1 to 3.
The state information includes the result of measurement by the measuring device.
An information presentation system according to any one of claims 1 to 4.
The state information includes a result of determination of a construction state of the measuring device based on the result of measurement by the measuring device.
An information presentation system according to any one of claims 1 to 5.
The measuring device is a power measuring device.
The explanatory content or the state content includes an instruction of conditions for measurement by the measuring device.
An information presentation system according to any one of claims 1 to 6.
The measuring device is further provided with a communication unit that is connectable to the measuring device by wireless communication.
The second presenting unit acquires information used for the state content from the measuring device via the communication unit.
An information presentation system according to any one of claims 1 to 7.
The communication unit is connected to the communication device so as to be able to communicate by wireless communication.
In response to the user's operation, the communication unit sends an instruction to the communication device to set the communication device in a state capable of wireless communication with the measurement device.
The communication unit is connected to the measuring device by wireless communication via the communication device by connecting the communication device to the measuring device by wireless communication.
The information presentation system of claim 8.
The explanatory content includes a procedure for connecting the communication device to the measuring device so as to be communicable by wireless communication.
The information presentation system of claim 9.
The information presentation system according to any one of claims 1 to 10 and
With the measuring device
To prepare
Power measurement system.
The first presentation step of presenting explanatory content showing the procedure for constructing the measuring device, and
A second presentation step of presenting state content indicating information on the construction state of the measuring device, and
including,
Information presentation method.
To cause one or more processors to execute the information presentation method of claim 12.
program.