JP6737375B2 - Power conditioner and computer program - Google Patents

Description

The present invention relates to a power conditioner and a computer program.

Storage elements are widely used in uninterruptible power supplies, DC or AC power supplies included in stabilized power supplies, and the like. In addition, the use of power storage devices and power conditioners in large-scale systems for storing renewable energy or electric power generated by existing power generation systems is expanding.

Maintenance activities are important in a power generation system in which a storage element and a power conditioner are installed. Many technologies have been proposed that enable a user or a person in charge of maintenance of a power storage device to remotely obtain information on the state of charge (SOC) of the power storage device or information on life prediction, via a server device. ..

For example, Patent Document 1 proposes a system that allows an operator to remotely view the predicted value of the deterioration rate of a power storage element via a server device and a network.

In Patent Document 2, in order to reliably execute the replacement of the power storage element in the uninterruptible power supply device, a user and an operator send a mail or the like by notifying the time of battery replacement based on a monitoring program via a service center and a network. A system for exchanging information using is disclosed.

JP, 2005-121520, A JP-A-2002-287857

As disclosed in Patent Documents 1 and 2, a system has been proposed and realized in which a user or a person in charge of maintenance remotely grasps the state of a storage element itself or a device using the storage element. A system for remotely grasping information on the output condition of the power conditioner such as ON or OFF, whether the power is being sold or the power is being purchased has been realized. Regarding output control, the control unit of the power conditioner automatically acquires and executes the schedule that can be acquired from the server of the electric power company via the network. However, a system for remotely presenting more detailed information related to maintenance and remotely setting the cooperative operation with the power server has not been put into practical use.

Storage devices such as lead storage batteries or lithium ion batteries are increasingly applied to industrial applications other than in-vehicle applications (automobile applications, motorcycle applications). For example, a power storage element may be installed in parallel in a solar power generation system. In this case, the power storage element is connected to the power conditioner. In a large-scale photovoltaic power generation system called a mega solar, a large number of power storage elements and power conditioners are installed and used. Even when realizing electric power peak cut in a factory or a large-scale facility, a large number of power storage elements and power conditioners are installed and used. The conventional maintenance support system does not assume a case where such a large number of power storage elements and power supply-related devices are installed in a distributed power supply system or a business entity.

Along with the permeation of IoT (Internet of Things) into society, expectations for the realization of remote monitoring of power storage devices and power supply-related devices and the realization of value-added services are increasing.

The present invention aims to provide a power conditioner and a computer program suitable for remote monitoring and/or remote control.

The power conditioner according to the present disclosure has a storage unit that stores screen data for screen display, and includes a communication device that functions as a Web server. When the communication device receives a connection request from the client device, the communication device creates display information for displaying a Web screen including a screen for accepting an input operation based on the screen data, and the created display information for the client device. And a communication unit for transmitting to the. The power conditioner creates the display information of the screen that receives the output control setting of the self device and the power conditioner connected to the self device by the creating unit, and sends the created display information from the communication unit to the client device. To do.

With the above configuration, the screen provided by the communication device included in the power conditioner functioning as a Web server serves as an interface for remotely receiving the output control settings of the power conditioner equipped with the communication device and the connected power conditioner. Function. This makes it possible for the maintenance person to easily set the operation remotely without going to the site.

On the screen for accepting the output control setting provided by the communication device, it is possible to input a schedule and input connection information for cooperation with the power server. Since it is possible to remotely set the output control schedule and the setting for linking with the power server, it is expected that the maintenance efficiency by the user or maintenance staff will be dramatically improved.

Control information may be created based on the operation received on the screen, and the control information may be transmitted to the control unit that controls the operation of the self-device and the power conditioner connected to the self-device.

On the screen provided by the communication device of the power conditioner by the Web server function, it is possible to perform an operation for transmitting control information to the power conditioner and other power conditioners to be connected.

The display information includes information for displaying an object corresponding to a power conditioner connected to the own device, and the object includes information for displaying information about the own device and a power conditioner connected to the own device. May be included.

When a plurality of power conditioners are connected and installed, an object for displaying the status of each power conditioner is displayed according to such a connection configuration, which makes it easier to visually grasp the status. ..

The computer program according to the present disclosure causes a computer including a display unit to receive and display information on the power conditioner. The computer program requests the computer to make a communication connection as a client to a Web server of a communication device provided in the power conditioner, based on screen data stored in the communication device from the communication device. Receiving the screen display information based on the screen data including a menu for displaying a screen for receiving the setting of the output control of the power conditioner and the power conditioner connected to the power conditioner created by the above, and the received screen display Based on the information, the step of displaying a screen for accepting the setting of the output control is executed.

With the above configuration, the communication device provided in the power conditioner remotely realizes the setting of the output control for the power conditioner in which the communication device is mounted and the power conditioner connected to the power conditioner by the computer capable of communicating with the communication device. be able to.

It is a figure which shows the outline|summary of the monitoring system which concerns on this embodiment. It is a schematic diagram which shows the mounting example of a communication device. It is a block diagram which shows the structure of a monitoring system. It is a schematic diagram which shows the program structure of the device program memorize|stored in the memory|storage part of a communication device. It is a flow chart which shows an example of the processing procedure in a communication device. It is a figure which shows an example of the display screen provided by the Web server function of a server apparatus. It is a figure which shows an example of the display screen provided by the Web server function of a server apparatus. It is a figure which shows an example of the web screen presented from the communication device connected to the power conditioner. It is a figure which shows another example of the Web screen presented from a communication device. It is a figure which shows another example of the Web screen presented from a communication device.

The present invention will be specifically described with reference to the drawings showing the embodiments.

FIG. 1 is a diagram showing an outline of a monitoring system 100 according to this embodiment. The monitoring system 100 includes a server device 2 (information processing device) that collects information on a system or device to be monitored, and a client device 3 that acquires the collected information. The server device 2 includes a Web server function, and presents information obtained about each device according to access from the client device 3.

The monitoring target of the monitoring system 100 is the power storage system 101 included in each of the mega solar power generation system S and the thermal power generation system F. The power storage system 101 appropriately converts the power obtained by the power generation systems S and F and the power storage module group L that stores the power obtained by the power generation systems S and F, and outputs the power to the power storage module group L or the power supply destination. A conditioner (PCS: Power Conditioning System) P is included. The monitoring system 100 acquires and presents detailed information about the states of the power storage module group L and the power conditioner P included in the power storage system 101. The power storage module group L is housed in a container C in the power generation systems S and F. The container C houses a plurality of racks to which a plurality of power storage modules including a plurality of lithium ion battery cells are attached (see FIG. 2 ).

In the monitoring system 100, the communication device 1 is mounted or connected to each device in order for the server device 2 to collect information or to acquire information directly from the client device 3. FIG. 2 is a schematic diagram showing an example of mounting the communication device 1. The communication device 1 may be a terminal device (measurement monitor) that communicates with a battery management device (BMU: Battery Management Unit) provided in the power storage element to receive information on the power storage element, or as shown in FIG. It may be a network card type device that can be mounted on the power conditioner P or the power storage module group L. The communication device 1 is provided for each group of a plurality of power storage modules in order to obtain information on the power storage module group L in the power storage system 101. A plurality of power conditioners P are connected so that serial communication is possible, and the communication device 1 is connected to a control unit of any one of the representative power conditioners P.

As described above, the monitoring system 100 uses the communication device 1 mounted or connected to each device to provide information such as the SOC of the power storage element in the power storage system 101, the state of SOH (State Of Health), and the detected abnormality to the server. The data collected by the device 2 is presented in a batch. In the monitoring system 100, in addition to the batch presentation, direct communication to each communication device 1 is possible and the latest information in each device can be individually acquired from the client device 3. The individually acquired information is displayed in a different manner depending on the type of the device, even though it includes the common part.

FIG. 3 is a block diagram showing the configuration of the monitoring system 100. The communication device 1 includes a control unit 10, a storage unit 11, a first communication unit 12, and a second communication unit 13. The control unit 10 is a processor that uses a CPU (Central Processing Unit), and uses internal memories such as a ROM (Read Only Memory) and a RAM (Random Access Memory) to control each component to execute processing.

The storage unit 11 uses a non-volatile memory such as a flash memory. The storage unit 11 stores a device program 1P read and executed by the control unit 10. The device program 1P is for communication based on an embedded OS (Operating System) using Linux (registered trademark), a Web server operating on the OS, SSH (Secure Shell), SNMP (Simple Network Management Protocol), and the like. Program included. The device program 1P may include a mailer program, and when an abnormality occurs, an electronic mail may be automatically transmitted to a preset mail address. These programs may be stored in a memory (ROM) built in the control unit 10. The storage unit 11 stores information such as information collected by the processing of the control unit 10 and an event log. The information stored in the storage unit 11 can also be read out via a communication interface such as a USB whose terminals are exposed in the housing of the communication device 1.

The first communication unit 12 is a communication interface that realizes communication with a device (monitoring target device) to which the communication device 1 is connected, and uses a serial communication interface such as RS-232C or RS-485. For example, the power conditioner P includes a control unit having a serial communication function based on RS-485, and the first communication unit 12 communicates with the control unit. In the configuration in which a plurality of power conditioners P are connected, the power conditioner P is connected to the control unit of the representative power conditioner P among the cascade-connected control units and communicates with the plurality of power conditioners P via each control unit. To do.

The second communication unit 13 is an interface that realizes communication via the network N, and uses a communication interface such as Ethernet (registered trademark) or a wireless communication antenna. The control unit 10 can be communicatively connected to the server device 2 or the client device 3 via the second communication unit 13.

In the communication device 1 configured in this way, the control unit 10 acquires, via the first communication unit 12, various kinds of information including state information obtained by the device to which the communication device 1 is connected. The control unit 10 can also read and execute a Web server program to receive a communication connection from the server device 2 or the client device 3 as a Web server and present the information. The control unit 10 can receive a shutdown function remotely by SSH. The control unit 10 functions as an SNMP agent by reading and executing the SNMP program, and can respond to the information request from the server device 2.

The server device 2 uses a server computer and includes a control unit 20, a storage unit 21, and a communication unit 22. In the present embodiment, the server device 2 will be described as one server computer, but the server device 2 may have a configuration in which processing is distributed among a plurality of server computers.

The control unit 20 is a processor that uses a CPU, uses a built-in memory such as a ROM and a RAM, and controls each component to execute processing. The control unit 20 executes information processing based on the server program 2P stored in the storage unit 21. The server program 2P includes a Web server program, and the control unit 20 functions as a Web server that provides a Web page to the client device 3 and accepts login to the Web service. The control unit 20 can also collect information from the communication device 1 as an SNMP server based on the server program 2P.

The storage unit 21 uses, for example, a hard disk or a non-volatile memory such as a flash memory. The storage unit 21 stores the above-described server program 2P and also stores data including the states of the power conditioner P and the power storage module group L of the power storage system 101 to be monitored, which are collected by the processing of the control unit 20. Remember.

The communication unit 22 is a communication device that realizes communication connection and data transmission/reception via the network N. Specifically, the communication unit 22 is a network card compatible with the network N.

The client device 3 is a computer used by an operator such as a manager or a person in charge of maintenance of the power storage system 101 of the power generation systems S and F. The client device 3 may be a desktop or laptop personal computer, or a so-called smartphone or tablet communication terminal. The client device 3 includes a control unit 30, a storage unit 31, a communication unit 32, a display unit 33, and an operation unit 34.

The control unit 30 is a processor that uses a CPU. The control unit 30 causes the display unit 33 to display the Web page provided by the server device 2 or the communication device 1 based on the Web browser program stored in the storage unit 31.

The storage unit 31 uses a non-volatile memory such as a hard disk or a flash memory. The storage unit 31 stores various programs including a Web browser program.

The communication unit 32 includes a communication device such as a network card for wired communication and a base station BS (see FIG. 1).
Wireless communication device for mobile communication, or a wireless communication device compatible with connection to the access point AP. The control unit 30 can perform communication connection or information transmission/reception with the server device 2 or the communication device 1 via the network N by the communication unit 32.

The display unit 33 uses a display such as a liquid crystal display or an organic EL (Electro Luminescence) display. The display unit 33 displays the image of the Web page provided by the server device 2 by the process based on the Web browser program of the control unit 30. The display unit 33 is preferably a display with a built-in touch panel, but may be a display without a built-in touch panel.

The operation unit 34 is a user interface such as a keyboard and a pointing device capable of inputting/outputting with the control unit 30 or a voice input unit. The operation unit 34 may use the touch panel of the display unit 33 or a physical button provided on the housing. The operation unit 34 notifies the control unit 20 of operation information by the user.

As shown in FIG. 1, the network N includes a public communication network N1 which is a so-called Internet and a carrier network N2 which realizes wireless communication according to a predetermined mobile communication standard. The carrier network N2 includes a base station BS, and the client device 3 enables the base station BS to communicate with the server device 2 via the network N. An access point AP is connected to the public communication network N1, and the client device 3 can also transmit/receive information to/from the server device 2 from the access point AP via the network N.

In the monitoring system 100, the server device 2 acquires various information including the states of the power conditioner P and the power storage module group L periodically or in response to a request from the client device 3 and stores the information in the storage unit 21. The latest data and its history stored in the storage unit 21 are processed by the server device 2 so that the latest data and its history can be acquired from the client device 3 as a Web page or data (download). The information provided by the server device 2 includes connection information (URL: Uniform Resource Locator, IP address, etc.) to the web server provided by the communication device 1 mounted on the power conditioner P and the power storage module group L. Be done. The client device 3 can acquire the information on the power conditioner P and the power storage module group L from the Web page provided from the communication device 1.

FIG. 4 is a schematic diagram showing the program configuration of the device program 1P stored in the storage unit 11 of the communication device 1. The program configuration shown in FIG. 4 shows an example of the device program 1P stored in the storage unit 11 of the communication device 1 connected to the power conditioner P. As described above, the device program 1P includes the embedded OS program 10P using Linux (registered trademark), the Web server program 11P operating on the OS, and the communication program 12P conforming to SSH and SNMP. Including. The device program 1P stored in the communication device 1 of the power conditioner P and the device program 1P stored in the communication device 1 of the power storage module group L include these programs as a common part. The device program 1P for the power conditioner P further includes an individual part. The individual part includes a communication program 13P for a communication protocol unique to the power conditioner P, Web screen data (including design data, material image data, screen transition information) 14P, and a power server cooperation program 15P.

The communication program 13P interprets a protocol (RS-485 or other signal input/output) for the control unit 10 of the communication device 1 itself to communicate with the power conditioner P and a communication signal communicated by the protocol. Including programs (status code, etc.). The protocols may be tabulated and stored in the storage unit 11, and may be readable by the communication program 13P.

The Web screen data 14P is for displaying status information and error information such as whether the power conditioner (PCS) P is charging, discharging, selling or purchasing power, and the like. The screen data for accepting the control operation of the node P and the screen transition information thereof are included.

The power server cooperation program 15P is a client program for cooperating with the power server, and realizes a process of receiving output control (schedule) from the power server.

FIG. 5 is a flowchart showing an example of a processing procedure in the communication device 1. The control unit 10 of the communication device 1 starts the following process each time the second communication unit 13 detects a communication event from the server device 2 or the client device 3.

The control unit 10 determines whether the communication event is a transmission request from the server device 2 (step S101). When it is determined that the request is a transmission request from the server device 2 (S101: YES), the control unit 10 causes the first communication unit 12 to acquire the latest information from the connected device, or acquires the latest information in advance and temporarily. The information stored in memory is read and acquired (step S102). The control unit 10 transmits various kinds of information such as the acquired state from the second communication unit 13 to the server device 2 (step S103, which corresponds to the “first transmission unit”), and ends the process. The control unit 10 transmits the information acquired by the first communication unit 12 according to a preset schedule (10 minutes, 30 minutes, every hour, etc.) without receiving the transmission request in step S101. May be.

When it is determined in step S101 that the communication event is not the transmission request (step S101: NO), the communication event is the connection request from the client device 3, and the control unit 10 is connected by the first communication unit 12. The latest information including the status information is acquired from the device (step S104). The control unit 10 creates a Web page including the latest information acquired (updates the data included in the Web page) (step S105), and sends the created Web page data to the client device 3 that is the request source. 13 is transmitted (step S106, which corresponds to the "second transmitting unit").

The control unit 10 acquires and receives an operation on the Web page displayed on the display unit 33 of the client device 3 by communication (step S107). In step S107, it is determined whether the operation content is control for the connected device (step S108). When it is determined that the control is for the device (S108: YES), the control unit 10 creates control information according to the operation (step S109), and transmits the control information to the connected device as the first control information. It transmits from the communication part 12 (step S110. It corresponds to a "3rd transmission part"), and updates a web page according to operation (step S111). When it is determined that the control is not for the device (S108: NO), the control unit 10 updates the Web page according to the operation (S111) and advances the process to step S112.

The control unit 10 determines whether or not the logout or the end operation of the Web browser is performed by the operation on the operation unit 34 of the client device 3 (step S112), and when it is determined that the logout or the end operation is performed ( S112: YES), and the process ends. When it is determined that the logout or the ending operation is not performed (S112: NO), the control unit 10 returns the process to step S107 and continues to accept the operation.

The web page provided from the communication device 1 is displayed by selecting the icon associated with the connection information (URI) included in the display screen provided by the web server function of the server device 2. 6 and 7 are diagrams showing an example of a display screen provided by the Web server function of the server device 2. FIG. 6 shows an example of a screen displayed after logging in to the monitoring system 100, and FIG. 7 shows an example of a screen displayed after one system is selected.

In response to the login request from the client device 3, the control unit 20 of the server device 2 transmits the login page information to the client device 3. The client device 3 displays a login page on the display unit 33, accepts login information based on an operation on the operation unit 34, and transmits the login information to the server device 2. As a result, the server device 2 extracts a system or device that can be browsed by the login information, and transmits the information of the Web screen 330 including the name to the client device 3. FIG. 6 is an example of the Web screen 330 at this time. In the example of FIG. 6, the name “XY city mega solar system” of the mega solar power generation system S and the name “WZ power plant system” of the thermal power generation system F shown in FIG. 1 are displayed as links with identification information, respectively. There is. On the web screen of the list, icons for outputting the current status (normal/abnormal) of each system, a graph of measurement parameters in each system, and a life prediction of a power storage module used in the system are grasped or information is present. Included for analysis.

As shown in FIG. 6, on the Web screen 330 displayed based on the Web page provided from the server device 2, a menu 331 such as “system search”, “life prediction”, “download”, “report”, logout, and the like. Alternatively, a button 332 for ending operation is included.

FIG. 7 shows an example of a screen in which information of each device is collectively included for each system. FIG. 7 shows an example displayed on the display unit 33 when “XY city mega solar system” is selected on the Web screen 330 shown in FIG. In the screen example of FIG. 7, in accordance with the system configuration of the electricity storage system 101 used by the “XY city mega solar system”, four power conditioners P and an electricity storage module group L configured in a plurality of banks are respectively provided. A name (identification information such as a number) is shown. An object 334 for displaying detailed information (information collected by the server device 2) and an icon 335 for displaying detailed information (real time) are arranged on the object indicating each name. The icon 335 is an icon for connecting to the Web server operating on the communication device 1, and is arranged together with the identification information of the communication device 1. For the power storage module group L, a “+” icon 333 for expanding the hierarchical structure (domain, bank, module, cell) is arranged.

When the web page provided from the communication device 1 of the power conditioner P is selected by the icon 335 associated with the power conditioner (PCS) P on the web screen 330 of the display unit 33 shown in FIG. 7. At the same time, another window stands up and is displayed on the display unit 33 of the client device 3.

FIG. 8 is a diagram showing an example of a Web screen 341 presented from the communication device 1 connected to the power conditioner P. The information displayed on the web screen 341 is output based on the web screen data 14P individually stored for the power conditioner (PCS) P. Login is also required to display the Web screen 341. The login information at this time is common to the login to the Web server provided by the server device 2, and thus, the login information is automatically logged in and displayed without performing the operation of inputting the login information again.

In the example illustrated in FIG. 8, the communication device 1 provides the client device 3 with information obtained from the control units of the power conditioners P (four in the example of FIG. 7) that are serially connected. As shown in FIG. 8, on the Web screen 341 for displaying the information of the power conditioner P, “generated power” indicating the real-time generated power in the power generation system connected to the power conditioner P, the power conditioner The item of “PCS state” indicating the state of the entire P group is included. On the Web screen 341, further, the size of the total AC power (positive) and the total AC power (negative) of the power conditioner P (PCS, which is the parent machine among the plurality of connected PCs) and the size of the AC power (negative/current) The item of “AC power” is shown. On the Web screen 341, the installation location (or system name included) of the power conditioner P is displayed, and information such as output control ratio and temperature is displayed as character information. The charge state of the connected power storage module group L may be displayed in the Web screen 341 together with the design.

As shown in FIG. 8, the Web screen 341 for displaying the information of the power conditioner P includes a plurality of menu icons 342. Each of the plurality of menu icons 342 includes, for example, a menu for displaying various information including abnormality information obtained via the communication device 1. The menu icon 342 is a menu for setting the time of the communication device 1, notification email address, etc., network settings, settings for SNMP, settings for control via serial communication, or restart (shutdown) of the communication device 1. including. The content of the Web screen 341 differs depending on the login information. The menu icon 342 of the Web screen 341 displayed on the client device 3 by the login information having the authority of the maintenance staff includes the output control setting of the inverter P, the output control schedule setting, the contract capacity confirmation, and the surplus purchase. Or a password setting menu is included.

Also on the Web screen 341 related to the power conditioner P, the screen transitions according to the selection operation of the menu icon 342 by the operation unit 34 of the client device 3. On the Web screen 341 for the power conditioner P, a detailed information display screen, a setting input screen, and the like are displayed according to the selection of the menu.

FIG. 9 is a diagram showing another example of the Web screen presented from the communication device 1. FIG. 9 is an example of a screen displayed when a menu for showing detailed information, that is, detailed information about each of the plurality of power conditioners P, among the menu icons 342 of FIG. 8 is selected by the operation unit 34. .. When the web screen 341 is changed to another content, an icon 343 for returning to the web screen 341 in FIG. 8 is displayed. When the menu icon 342 shown in FIG. 9 is selected, an icon 344 corresponding to each of the power conditioners P serially connected to the communication device 1 is displayed on the Web screen 341. Identification information such as a number for identifying the power conditioner P is attached to each icon 344, and the display mode varies depending on the state of each power conditioner P. In FIG. 9, for example, the icon corresponding to the operating power conditioner P (#1 to #4) is displayed with a solid line and a solid color. The icon 344 corresponding to the power conditioner P that is not in operation is displayed in a solid line and a gray color (indicated by hatching in the drawing). In the warning state and the state in which the abnormality is detected, it is preferable to change the plain color such as yellow or red so as to be easily visually recognized. Where a maximum of 20 power conditioners P can be serially connected, the icons 344 corresponding to the unconnected power conditioners P are displayed in broken lines. It is preferable that the mode is changed according to the state, such as a question mark is attached when serial communication is connected but communication is not actually possible. Each icon 344 is provided with a link to a screen showing detailed information (corresponding to an abnormality code in the warning state or the abnormality detection state) of the corresponding power conditioner P, and when selected, in the screen 341. The display is switched to the detailed information of the power conditioner P.

FIG. 10 is a diagram showing another example of the Web screen presented by the communication device 1. FIG. 10 is an example of a screen displayed when the menu for setting the output control of the power conditioner P is selected with the menu icon 342 of FIG. 8. A screen 345 is displayed on the display unit 33 of the client device 3 so as to be superimposed on the Web screen 341 of FIG. It may be switched within the Web screen 341. In the example illustrated in FIG. 10, the screen 345 includes columns for selecting a schedule input method and inputting the connection information (URL and port) of the power server of the cooperation destination. It is also possible to accept setting inputs such as the power station ID and the installation location. The setting of the output change time is also accepted.

In this way, by using the communication device 1 that can also be installed in the power conditioner P for general purposes, it becomes possible to access the web page that individually presents the information of the power conditioner P based on the server device 2. The information presented on this Web page enables not only the output state and the abnormal state of the entire power conditioner P, but also the detailed information of each of the plurality of connected power conditioners P to be displayed. Further, since this Web page functions as an interface for receiving control information exchange, setting for cooperation with an external power server, and control instruction operation by the operation unit 34 of the client device 3, maintenance work by the user or maintenance staff is performed. You can expect dramatic efficiency improvement.

The example in which the power storage module and the power storage module group L are composed of a plurality of lithium ion battery cells has been described. Alternatively, the power storage module and the power storage module group L (or part of them) may be composed of a plurality of lead storage batteries or capacitors.

As another embodiment, the following configuration can be realized. A computer program for causing a computer having a display unit to receive and display information of a power supply related apparatus, the step of requesting the computer to perform communication connection to a communication device connected to the power supply related apparatus, the communication device From the step of receiving screen display information including a menu for displaying the state of the power-related device and a menu for displaying a screen for accepting an operation for the power-related device, and the power-related device based on the received screen display information. And a step of displaying a screen including status information of the computer program.

The power-related device may be any one or more of a power conditioner, an uninterruptible power supply, a rectifier such as converting alternating current into direct current or alternating current with different characteristics. The power supply related device is preferably electrically connected to the power storage element.

In addition to the communication device 1, the power supply related device is equipped with a power storage device (lithium ion battery or lead storage battery) and a battery management device, and displays display information for collectively displaying the power supply related device information and the power storage device information. You may send it. The power supply-related device may remotely receive an instruction for controlling the mounted power storage element through the battery management device.

It should be noted that the above-described embodiment is an example in all respects, and is not restrictive. The scope of the present invention is defined by the claims, and is intended to include meanings equivalent to the claims and all modifications within the scope.

DESCRIPTION OF SYMBOLS 1 communication device 10 control part 12 1st communication part 13 2nd communication part 2 server device 20 control part 21 storage part 22 communication part 3 client device 30 control part 32 communication part 33 display part

Claims (5)

A power conditioner that communicates with a server device that collects information of a plurality of systems or devices to be monitored and that includes a communication device that communicates with a client device, and that can be connected to another power conditioner,
The communication device is
A storage unit that stores screen data for screen display,
When receiving a connection request from said client device, and a creation unit that creates, based display information for displaying the Web screen including a screen for accepting an input operation on the screen data,
A communication unit for transmitting the created display information to the client device,
A power conditioner that creates the display information of the screen that receives the output control settings of the own device and other power conditioners connected to the own device by the creating unit, and sends the created display information from the communication unit to the client device. Na. The power conditioner according to claim 1, wherein the screen includes a field for accepting input of a schedule and a field for accepting input of connection information with the power server. The communication device creates control information based on an operation received on the screen, and transmits the control information to a control unit that controls the own device and another power conditioner connected to the own device. Power conditioner. The display information includes information for displaying an object corresponding to another power conditioner connected to the own device,
The power conditioner according to any one of claims 1 to 3, wherein the object includes information for displaying a state of the own device and information of another power conditioner connected to the own device. Communicates with a server device that collects information of a plurality of monitored systems or devices, and receives and displays information of a power conditioner that includes a communication device that communicates with a client device on a computer that includes a display unit and a communication unit. A computer program that causes
On the computer,
To the Web server before Symbol Communication device, requesting a communication connection as a client from the communication unit,
From the communication device to display a screen for receiving the setting of the output control of another power conditioner connected to the power conditioner and power conditioner created on the basis of the screen data that is stored in the communication device step receiving a including screen display information menus, and on the basis of the received screen display information, a computer program for executing the step of displaying a screen for receiving a setting of the output control.

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