JP2024013197A - Information processing device, computer, information processing system, and program - Google Patents

Abstract

To provide an information processing device capable of suppressing deterioration in appearance when attached to a distribution board for supplying power to a plurality of electric loads.SOLUTION: An information processing device 13 comprises: a current detection device 21 attached to an inner surface 19A of a door 19 of a distribution board 12 including a plurality of breakers 18 in the inside 17A, including a plurality of connecting parts 24 to be connected to the plurality of breakers 18, detecting currents of the plurality of respective breakers 18 and transmitting current detection results; a management device 22 attached to an outer surface 19B of the door 19 and receiving the current detection results transmitted from the current detection device 21; and a connection cable 28 for communicably connecting the current detection device 21 and the management device 22 and being passed between a body 17 of the distribution board 12 and the door 19, with the door 19 closed.SELECTED DRAWING: Figure 2

Description

The present disclosure relates to an information processing device, a computer, an information processing system, and a program that calculate carbon dioxide emissions based on the power consumption of a plurality of electrical loads installed at an installation location, for example, a factory.

An example of an information processing device that calculates the amount of carbon dioxide emissions based on the power consumption of a plurality of electrical loads installed in a factory or the like is described in Patent Document 1. The information processing device described in Patent Document 1 includes an acquisition unit that acquires management information including power information regarding one or more types of power used among multiple types of power using different power generation methods in the manufacturing process of a product or parts. , a calculation section that calculates the amount of carbon dioxide emissions corresponding to the manufacturing of the product or parts based on the power information included in the management information, and an output section that outputs information regarding the amount of carbon dioxide emissions calculated by the calculation section. It is equipped with.

Japanese Patent Application Publication No. 2021-189566

The inventor of the present application recognized that the information processing device described in Patent Document 1 has a problem in that it is difficult to know how to attach it to a switchboard that supplies power to a plurality of electrical loads, resulting in poor appearance.

An object of the present disclosure is to provide an information processing device, a computer, an information processing system, and a program that can suppress deterioration in appearance when attached to a switchboard that supplies power to a plurality of electrical loads.

The information processing device of the present disclosure is attached to the inner surface of a door of a switchboard in which a plurality of electrical components are provided, and has a plurality of connection portions connected to the plurality of electrical components, and has a plurality of connection portions connected to the plurality of electrical components. a current detection device that detects the current of each electrical component and transmits the current detection result; a management device that is attached to the outer surface of the door and receives the current detection result transmitted from the current detection device; A connection cable is provided that connects the current detection device and the management device in a communicable manner and is passed between the main body of the switchboard and the door when the door is closed.

The information processing device of the present disclosure can suppress deterioration in appearance when installed on a power distribution board.

FIG. 1 is a block diagram showing an overview of an information processing system including an information processing device. (A) is a front view of a switchboard that supplies power to an electric load, and (B) is a front view of the switchboard with the door opened. 3 is a flowchart illustrating an example of processing performed in the information processing system.

Embodiments of an information processing device, a computer, and an information processing system of the present disclosure will be described based on the drawings. In all the figures for explaining the information processing device, the same parts are generally given the same reference numerals, and repeated explanations thereof will be omitted.

[Explanation of overall configuration]
FIG. 1 shows an overview of an information processing system 10 including an information processing device. The information processing system 10 includes a plurality of electrical loads 11 , a switchboard 12 , an information processing device 13 , a computer 14 , and a user terminal 15 . The plurality of electrical loads 11 include machines, devices, devices, etc. that are installed in installation locations such as factories, companies, facilities, etc., and that operate and function by being supplied with electric power. The plurality of electrical loads 11 are arranged outside the switchboard 12. The plurality of electrical loads 11 include those with different functions, such as machine tools, air conditioners, lighting devices, and the like. Machine tools include, for example, lathes, milling machines, grinding machines, die cutting machines, and the like. The air conditioner includes a cooling device, a heating device, a blower, and the like. Illumination devices include fluorescent lamps, light emitting diode lamps, and the like. Note that the plurality of electrical loads 11 may be of a single type or may be of a plurality of types.

The switchboard 12 constitutes part of a circuit that supplies power from a power source 16, for example, an AC power source, to the electrical loads 11, respectively. The switchboard 12 is provided inside or outside a building that has the electrical load 11. As shown in FIGS. 2(A) and 2(B), the switchboard 12 includes a metal main body 17 configured in a box shape, a plurality of breakers 18 provided in the interior 17A of the main body 17, and an openable/closeable circuit board 18 on the front surface of the main body 17. and a metal door 19 which can be attached. The power source 16 and each electric load 11 are connected by power cables 20, and a breaker 18 is disposed in the middle of each power cable 20. Each breaker 18 is a device that connects and interrupts the electric circuit between the power source 16 and the electric load 11, respectively.

[Description of information processing device]
The information processing device 13 has a function of determining the power consumption of the electrical load 11 and determining (estimates) the amount of carbon dioxide emissions generated by power generation according to the power supplied to the electrical load 11. The information processing device 13 includes a current detection device 21 attached to the inner surface 19A of the door 19 and a management device 22 attached to the outer surface 19B of the door 19. The current detection device 21 includes a main body 23 made of synthetic resin attached to the inner surface 19A of the door 19, a plurality of connection parts (insertion parts) 24 provided in the main body 23, a power socket 44 provided in the main body 23, has.

A permanent magnet is attached to the main body 23, and the main body 23 can be attached to the door 19 by the attraction force of the permanent magnet, and the main body 23 can be removed from the door 19. A first end of a power cable 25 can be connected to and disconnected from the connection portion 24 . A current detection clamp (sensor) 26 is attached to the second end of the power cable 25. The current detection clamp 26 can be attached and removed so as to sandwich the power cable 20 . A first end of the power cable 27 is connected to the power socket 44 , and a second end of the power cable 27 is connected to the power source 16 . The current detection device 21 operates with power supplied from the power supply 16.

The management device 22 is connected to the current detection device 21 by a connection cable 28. The first end of the connection cable 28 can be connected to and removed from the management device 22 , and the second end of the connection cable 28 can be connected to and removed from the current detection device 21 . The connection cable 28 has a belt shape as a whole. That is, the connection cable 28 has a flat outer peripheral shape in a plane intersecting the longitudinal direction.

The management device 22 includes a main body 29 made of synthetic resin attached to the outer surface 19B of the door 19, a permanent magnet attached to the outside of the main body 29, a control section 30, a storage section 31, and a communication section provided inside the main body 29. It has a section 32. A permanent magnet is fixed to the main body 29, and the main body 29 can be attached to the door 19 by the attraction force of the permanent magnet, and the main body 29 can be removed from the door 19. The control unit 30 has a central processing circuit, a timer, an input port, and an output port. The management device 22 has a function of generating usage information based on the power consumption of the electric load 11. Usage information will be described later.

The storage unit 31 stores applications, programs, information, and data for performing various processes, judgments, and controls in the control unit 30, and also prerequisite information and auxiliary information for the control unit 30 to generate usage information. is memorized. First, the prerequisite information will be explained. The amount of carbon dioxide emitted from the power supplied from the power plant to the power source 16 during power generation differs depending on whether the power generation method at the power plant is hydropower, thermal power, nuclear power, wind power, solar power generation, or green energy. The storage unit 31 stores the location of the installation location where the electric load 11 and the power source 16 are installed. Furthermore, the storage unit 31 stores information that can be used to determine which power generation method is used for the power supplied to the power source 16 at the corresponding location. Furthermore, the storage unit 31 stores information indicating the relationship between power consumption and carbon dioxide emissions. Information showing the relationship between power consumption and carbon dioxide emissions is a map obtained by simulation or experiment, or a map showing the relationship between power consumption and carbon dioxide emissions. Contains information on at least one of the formulas for calculating the relationship.

Next, auxiliary information will be explained. The auxiliary information is information acquired from the user terminal 15. The auxiliary information includes the voltage applied to the electric load 11, information for making a proposal to reduce the power consumption of the electric load 11, information for making a proposal for the timing of maintenance of the electric load 11, and information about when to replace the electric load 11. Contains information for making suggestions. For example, when the electrical load 11 is a machine tool, suggestions for reducing the power consumption of the electrical load 11 can include proposing a processing procedure for parts, and proposing the type or material of the processing tool to be used. It is. Further, based on the service life of the electrical load 11 and the period of use of the electrical load 11, it is possible to propose at least one of the timing of maintenance of the electrical load 11 or the timing of replacing the electrical load 11. be.

The control unit 30 can send information to the storage unit 31, and the control unit 30 can read information and data from the storage unit 31. The communication unit 32 has a function of receiving a signal input from the current detection device 21, a function of wirelessly receiving a signal input from the computer 14 via the network 33, and a function of wirelessly receiving a signal input from the computer 14 via the network 33. It has the ability to send. The communication unit 32 has a function as a router. The control unit 30 is connected to a communication unit 32 and a storage unit 31, and the control unit 30 has a function of processing signals received by the communication unit 32, and uses information and data stored in the storage unit 31. It has a function of performing various processes and judgments, and a function of storing the processing and judgment results in the storage unit 31.

The current detected by the current detection device 21 is sent to the management device 22 via the connection cable 28. Further, a power socket 34 is provided in the main body 29 , a first end of a power cable 35 is connected to the power socket 34 , and a second end of the power cable 35 is connected to the power source 16 . The management device 22 operates with power supplied from the power supply 16. Note that at least one of the power cables 27 and 35 may not be provided. In this case, current can flow back and forth between the current detection device 21 and the management device 22 via the connection cable 28.

[Computer description]
Computer 14 is connected to user terminal 15 and management device 22 via network 33 . The computer 14 has a function of processing signals and information sent from the user terminal 15 and the management device 22, a function of sending signals and information to the user terminal 15 and the management device 22, and a function of storing the obtained information. have Computer 14 may be any server, workstation, mainframe, supercomputer, or the like.

The computer 14 includes a control section 36, a storage section 37, and a communication section 38. The communication unit 38 has a function of receiving signals sent from the management device 22 via the network 33, a function of receiving signals sent from the user terminal 15 via the network 33, and a function of receiving signals sent from the management device 22 and the user terminal 15. It has the function of sending. The storage unit 37 stores usage information sent from the management device 22, user information and auxiliary information sent from the user terminal 15. Note that the user information will be described later. Further, the storage unit 37 stores applications, programs, information, data, etc. for processing usage information, user information, and auxiliary information.

The control unit 36 can send information and signals to the storage unit 37, and the control unit 36 can read information and data from the storage unit 37. The control unit 36 is connected to a storage unit 37 and a communication unit 38, and the control unit 36 has a function of processing signals and information received by the communication unit 38, and a function of processing information and data stored in the storage unit 37. It has the following functions: a function of performing various processes and judgments using the controller, a function of storing processing and judgment results in the storage unit 37, and a function of sending signals and information to the management device 22 and the user terminal 15 via the communication unit 38. .

[User terminal description]
The user terminal 15 is used by an internal person at the location where the information processing device 13 is installed and an acquirer who uses the usage information generated by the information processing device 13. Acquirers include not only insiders but also outsiders who are not insiders but conduct environmental research or consulting. The user terminal 15 may be either a fixed terminal or a portable terminal. Fixed terminals include desktop personal computers. Portable terminals include, for example, notebook personal computers, smartphones, and tablet terminals. The user terminal 15 includes a control section 39, a display section 40, an input section 41, a storage section 42, and a communication section 43.

The display unit 40 displays a website, a login screen, a service providing screen, etc. provided by the computer 14 on the network 33. The display section 40 may be either a liquid crystal monitor or an organic electroluminescence monitor. The input unit 41 includes a keyboard, a mouse, a touch pen, a camera, and a barcode reader. The communication unit 43 has a function of receiving signals and information sent from the computer 14 and a function of sending signals and information to the computer 14. The storage unit 42 stores information input from the input unit 41 and information sent from the computer 14. The storage unit 42 also stores applications, programs, information, and data for processing input information and signals.

The control unit 39 can send information and signals to the storage unit 42, and the control unit 39 can read information and data from the storage unit 42. The control unit 39 is connected to the communication unit 43 and the storage unit 42, and the control unit 39 has a function of processing signals and information received by the communication unit 43, and a function of processing the information and data stored in the storage unit 42. It has a function of performing various processes and judgments using the computer, a function of storing processing and judgment results in the storage section 42, and a function of sending signals and information to the computer 14 via the communication section 43.

[Processing example]
FIG. 3 shows an example of processing performed by the information processing system 10. An insider can operate the user terminal 15 and access the website in step S10. By operating the user terminal 15, an internal person can register user information and input auxiliary information from the input unit 41. The user information is information for logging into the service providing screen provided by the computer 14 when the user terminal 15 accesses the website. The user information includes an e-mail address, a registrant number of the user terminal 15, a password, and the like.

The auxiliary information is information that is input on the service providing screen displayed on the user terminal 15. The auxiliary information includes information on the electrical load 11 at the installation location and the location of the installation location. The information on the electrical loads 11 includes the service life of each electrical load 11, the start time of each electrical load 11, the voltage supplied to the electrical loads 11, the number of electrical loads 11, the type of electrical loads 11, and the photo of the electrical loads 11. , the identification number (model number) of the electrical load 11, etc. The number of electrical loads 11 is the number of electrical loads 11. The type of electrical load 11 means identification of a machine tool, an air conditioner, a lighting device, etc. The photograph of the electrical load 11 is an image of at least a portion of the electrical load 11. The location of the installation location is the prefecture, city, town, village, block, address, etc. The user terminal 15 transmits the input auxiliary information to the computer 14 in step S10. The operations and inputs performed in step S10 are performed by internal parties.

The computer 14 receives and processes the auxiliary information transmitted from the user terminal 15 in step S11, and transmits the received auxiliary information to the management device 22. Note that the computer 14 can also store at least part of the received auxiliary information in the storage unit 37. The management device 22 processes the auxiliary information received from the computer 14 in step S12, and stores it in the storage unit 31.

On the other hand, the current detection device 21 measures the current (current value) supplied to each electrical load 11 by processing the signal transmitted from the current detection clamp 26 via the power cable 25 in step S13. . Further, the current detection device 21 transmits the measurement results of the current supplied to each electric load 11 to the management device 22 in step S13. The current detection device 21 repeats the process of step S13 at predetermined time intervals. Note that one or more current detection devices 21 may be installed at the same installation location or the same company, or the current detection devices 21 may be installed at different installation locations or at different companies. .

The management device 22 receives the current measurement result transmitted from the current detection device 21 in step S14, and processes the received current detection result. The management device 22 uses auxiliary information stored in the storage unit 31 when processing the current detection results. The management device 22 determines the power consumption of each electric load 11 within a predetermined time in step S15. The power consumption of each electrical load 11 can be determined from the current measured by the current detection device 21 and the voltage stored in the storage unit 31. Moreover, the management device 22 determines the amount of carbon dioxide (CO2) emissions according to the power consumption of each electric load 11 and the electricity rate according to the power consumption of each electric load 11 in step S15. The storage unit 31 stores information for determining the amount of carbon dioxide emissions according to the power consumption of each electric load 11 based on the power generation method and the power consumption of the electric load. Further, the storage unit 31 stores information for calculating electricity charges according to the power consumption of each electric load 11.

For example, based on the location of the installation location included in the auxiliary information, it is possible to determine which power generation method the electric power of the power source 16 used at the installation location is obtained from. Power generation methods include thermal power generation, hydroelectric power generation, nuclear power generation, wind power generation, solar power generation, biomass power generation, etc. As an example, carbon dioxide emissions from thermal power generation or biomass power generation are greater than those from hydroelectric power generation, nuclear power generation, wind power generation, and solar power generation, respectively.

Furthermore, the storage unit 31 stores calculation information for calculating the carbon dioxide emissions from the power consumption of the electric load 11 for each of the various power generation methods, as information for calculating the carbon dioxide emissions from the power consumption of the electric load 11. Information and data on at least one of a formula, a map set by simulation, and a map set by experiment are stored. The management device 22 also calculates the usage period from the time when the use of each electrical load 11 is started based on the auxiliary information stored in the storage unit 31 and the measurement results of the current value of each electrical load 11. Can be done.

In step S16, the management device 22 provides usage information including the power consumption of each electric load 11, the amount of carbon dioxide emissions according to the power consumption of each electric load 11, and the electricity rate according to the power consumption of each electric load 11. create. This usage information includes the power consumption of each electric load 11, the power consumption of all electric loads 11, the amount of carbon dioxide emissions according to the power consumption of each electric load 11, and the amount of carbon dioxide emitted according to the power consumption of all electric loads 11. Contains at least one of a graph or a table showing carbon emissions at intervals such as time of day, day, week, month, six months, year, etc. .

Furthermore, if the current detection devices 21 are installed in a factory of the same company, the usage information includes the power consumption and carbon dioxide emissions of the electrical load 11 installed in the company. On the other hand, if the current detection devices 21 are installed in factories of different companies, the usage information includes the power consumption and carbon dioxide emissions of the electric load 11 for each different company. Furthermore, the required electricity rate includes at least one of a graph or a table displayed at intervals such as daily, weekly, monthly, six-monthly, and annual.

Further, the usage information includes a proposal for reducing the power consumption of the electric load 11, a proposal for when to perform maintenance on the electric load 11, and a proposal for when to replace the electric load 11. For example, when the electrical load 11 is a machine tool, suggestions for reducing the power consumption of the electrical load 11 can include proposing a processing procedure for parts, and proposing the type or material of the processing tool to be used. It is. Further, based on the service life of the electrical load 11 and the period of use of the electrical load 11, it is possible to propose at least one of the timing of maintenance of the electrical load 11 or the timing of replacing the electrical load 11. be.

Further, when the electrical load 11 is a machine tool, the usage information is information indicating the power consumption and carbon dioxide emissions of the machine tool for each different company, for machine tools that process and manufacture the same parts. including. Furthermore, the usage information includes information comparing the power consumption and carbon dioxide emissions of the electrical loads 11 between factories of the same industry or factories of the same size. The usage information includes information on proposals regarding how to reduce the power consumption of the electric load 11 and how to reduce carbon dioxide emissions. Further, the usage information includes information that proposes a carbon offset method according to the amount of carbon dioxide emissions.

The management device 22 transmits the created usage information to the computer 14 in step S17. The computer 14 receives the usage information sent from the management device 22 in step S18, processes the usage information, and stores it in the storage unit 37 in step S19. Note that if the usage information is already stored in the storage unit 37, the stored usage information can also be updated.

Then, by operating the user terminal 15, the acquirer performs an operation to log in to the service providing screen and performs an operation to acquire usage information in step S20. If the acquirer is an internal person and the state of having performed the login operation in step S10 is maintained, the operation to acquire usage information may be performed in step S20. Further, the operation in step S20 can also be performed by an outsider. An outsider can log in to the service provision screen by inputting the same user information as described above.

When an operation for acquiring usage information is performed on the user terminal 15, the computer 14 provides, that is, transmits, the usage information to the user terminal 15 in step S21. Then, the user terminal 15 can acquire the usage information transmitted from the computer 14 in step S22.

If the person acquiring the usage information is an internal person, the internal person can grasp the power consumption and carbon dioxide emissions at the company's factory. Based on the acquired usage information, the insider can save on electricity costs within the company, review the operating status of the electrical load 11, etc. Furthermore, if the person acquiring the usage information is an internal party, the company can disclose its own carbon dioxide emissions in response to a request from a parent company or local government, or on its own homepage. Furthermore, if the person acquiring the usage information is an internal person and the user terminal 15 is a portable terminal, the internal person carries the user terminal 15 around while observing the site and monitors the operating status of the electrical load 11, etc. and can be adjusted. Furthermore, if the person acquiring the usage information is a local government official or a person providing consulting, it is possible to check the cost effectiveness of companies to which energy saving subsidies have been granted.

[Effects of information processing equipment]
In the information processing device 13 of the present disclosure, the management device 22 is attached to the outer surface 19B of the metal door 19 of the switchboard 12, and the current detection device 21 is attached to the inner surface 19A of the door 19. Further, with the door 19 closing the opening of the main body 17, the power cable 25 is arranged inside the interior 17A. In other words, the number of parts attached to the outer surface 19B of the door 19 can be reduced. Therefore, when the door 19 is closed, the appearance of the switchboard 12 can be prevented from deteriorating in appearance.

Further, the management device 22 is attached to the outer surface 19B of the metal door 19 of the switchboard 12. Therefore, when the door 19 is closed, the radio waves output from the communication unit 32 and the radio waves input to the communication unit 32 can be prevented from being inhibited, and the deterioration of the communication function of the communication unit 32 can be suppressed. . Furthermore, the connection cable 28 has a flat outer peripheral shape in a plane intersecting the longitudinal direction. Therefore, when the door 19 is closed, a portion of the connection cable 28 in the longitudinal direction is located between the main body 17 of the switchboard 12 and the door 19. Therefore, when opening and closing the door 19, the connection cable 28 can be prevented from becoming an obstacle.

[supplementary explanation]
An example of the technical meaning of the matters described in this embodiment is as follows. Power cable 25 and breaker 18 are examples of electrical components. The power distribution board 12 is an example of a power distribution board. Door 19 is an example of a door. The connecting portion 24 is an example of a connecting portion. The current detection device 21 is an example of a current detection device. The management device 22 is an example of a management device. Connection cable 28 is an example of a connection cable. The control unit 30 is an example of a control unit. The communication unit 32 is an example of a communication unit. The control unit 36 and the communication unit 38 are examples of an information providing unit.

This embodiment is not limited to what is disclosed using the drawings, and can be modified in various ways without departing from the gist thereof. For example, in this embodiment, the number and type of electrical loads 11 are not limited. Furthermore, the number of power cables 25 increases or decreases depending on the number of electrical loads 11, and the number of breakers 18 increases or decreases. Furthermore, since the current detection device 21 and the management device 22 are attached to the door 19 using permanent magnets, the positions where the current detection device 21 and the management device 22 are attached to the door 19 can be changed arbitrarily. Further, the connection cable 28 may be arranged so as to contact the upper edge of the door 19. In this way, the connection cable 28 can be prevented from hanging down due to its own weight.

This embodiment can be used as an information processing device, computer, system, and program installed in a power distribution board.

12...Switching board, 18...Breaker, 19...Door, 21...Current detection device, 22...Management device, 24...Connection part, 25...Power cable, 28...Connection cable, 30, 36...Control unit, 32, 38...Communication Department

Claims (7)

A plurality of electrical components are attached to the inner surface of a door of a switchboard provided inside, and have a plurality of connection parts connected to the plurality of electrical components, and detect the current of each of the plurality of electrical components. a current detection device that transmits current detection results;
a management device that is attached to the outer surface of the door and receives a current detection result transmitted from the current detection device;
a connection cable that communicably connects the current detection device and the management device and is passed between the main body of the switchboard and the door when the door is closed;
An information processing device having: The information processing device according to claim 1,
The plurality of electrical components are
a plurality of power cables each supplying current to a plurality of electrical loads provided outside the switchboard;
a plurality of breakers respectively provided on the plurality of power cables;
including;
The current detection device is an information processing device that detects the current flowing through each of the plurality of power cables. The information processing device according to claim 2,
The management device includes:
a control unit that generates usage information by processing the power consumption of the plurality of electric loads and the amount of carbon dioxide generated by the generation of electric power corresponding to the power consumption of the plurality of electric loads;
a communication unit that wirelessly transmits the usage information to a network;
An information processing device having: In a computer that is communicably connected to an information processing device and a user terminal via a network, and has an information providing unit that acquires information from the information processing device and provides the acquired information to the user terminal. ,
The information processing device includes:
A plurality of electrical components are attached to the inner surface of a door of a switchboard provided inside, and have a plurality of connection parts connected to the plurality of electrical components, and detect the current of each of the plurality of electrical components. a current detection device that transmits current detection results;
a management device that is attached to the outer surface of the door and receives a current detection result transmitted from the current detection device;
a connection cable that communicably connects the current detection device and the management device and is passed between the main body of the switchboard and the door when the door is closed;
has
The plurality of electrical components are
a plurality of power cables each supplying current to a plurality of electrical loads provided outside the switchboard;
a plurality of breakers respectively provided on the plurality of power cables;
including;
The current detection device detects the current flowing through each of the plurality of power cables,
The management device includes:
a control unit that generates usage information by processing the power consumption of the plurality of electric loads and the amount of carbon dioxide generated by the generation of electric power corresponding to the power consumption of the plurality of electric loads;
has
The information providing unit is a computer that acquires the usage information from the information processing device and provides the acquired usage information to the user terminal. an information processing device that detects current supplied to an electrical load; a computer that generates usage information by processing information received from the information processing device via a network; and a computer that generates usage information from the computer via the network. In an information processing system having a user terminal that receives information,
The information processing device is attached to the inner surface of a door of a switchboard in which a plurality of electrical components are provided, and has a plurality of connection parts connected to the plurality of electrical components, and the plurality of electrical components a current detection device that detects the current of each of the devices and transmits the current detection result; a management device that is attached to the outer surface of the door and receives the current detection result transmitted from the current detection device; An information processing system, comprising: a connection cable that communicably connects a detection device and the management device, and that is passed between a main body of the switchboard and the door when the door is closed. A plurality of electrical components are attached to the inner surface of a door of a switchboard provided inside, and have a plurality of connection parts connected to the plurality of electrical components, and detect the current of each of the plurality of electrical components. a current detection device that transmits current detection results;
a management device that is attached to the outer surface of the door and receives a current detection result transmitted from the current detection device;
a connection cable that communicably connects the current detection device and the management device and is passed between the main body of the switchboard and the door when the door is closed;
has
The plurality of electrical components are
a plurality of power cables each supplying current to a plurality of electrical loads provided outside the switchboard;
a plurality of breakers respectively provided on the plurality of power cables;
including;
The management device,
Means for generating usage information by processing the power consumption of the plurality of electrical loads transmitted from the current detection device and the amount of carbon dioxide emissions generated by power generation corresponding to the power consumption of the plurality of electrical loads. ,
A program that functions as In a computer program having an information providing unit that obtains information from an information processing device and provides the obtained information to a user terminal,
The information processing device includes:
A plurality of electrical components are attached to the inner surface of a door of a switchboard provided inside, and have a plurality of connection parts connected to the plurality of electrical components, and detect the current of each of the plurality of electrical components. a current detection device that transmits current detection results;
a management device that is attached to the outer surface of the door and receives a current detection result transmitted from the current detection device;
a connection cable that communicably connects the current detection device and the management device and is passed between the main body of the switchboard and the door when the door is closed;
has
The plurality of electrical components are
a plurality of power cables each supplying current to a plurality of electrical loads provided outside the switchboard;
a plurality of breakers respectively provided on the plurality of power cables;
including;
The current detection device detects the current flowing through each of the plurality of power cables,
The management device includes:
a control unit that generates usage information by processing the power consumption of the plurality of electric loads and the amount of carbon dioxide generated by the generation of electric power corresponding to the power consumption of the plurality of electric loads;
has
means for the information providing unit to acquire the usage information from the information processing device and provide the acquired usage information to the user terminal;
A program that functions as