JP2015109029A - Apparatus management system, communication device, and apparatus management method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To effectively perform maintenance of many apparatuses installed on site.SOLUTION: A portable terminal 5 acquires an apparatus ID of a maintenance object apparatus 2 through a communication device 10 and transmits the acquired apparatus ID to a server device 3 through a communication network 4 of a communication carrier. The server device 3 generates a menu screen customized according to the received apparatus ID and transmits the menu screen to the portable terminal 5 through the communication network 4. The portable terminal 5 displays the received menu screen, acquires maintenance information on the maintenance object apparatus 2 through the communication device 10 in response to an instruction input by a maintenance worker, and transmits the acquired maintenance information to the server device 3 through the communication network 4. The server device 3 manages the received maintenance information in association with the apparatus ID.

Description

  The present invention relates to a device management system, a communication device, and a device management method.

  Patent Document 1 states that “the device specific information and the operation state information are received from the mobile phone 11 that has read the device specific information and the operation state information of the maintenance target device 10 through the public network, and the information is analyzed. The optimal maintenance management information of the device is transmitted to the mobile phone 11, the maintenance management information is displayed on the display screen of the mobile phone, and the electronic document or program necessary for maintenance management can be downloaded. " ing.

JP 2010-218410 A

  In recent years, the specifications and configuration of devices have become more complex / diversified, and improvement in the efficiency of maintenance work for devices installed in factories, business offices, customers, and the like has become an issue. In addition, due to repeated firmware and software version upgrades for devices, there is an increasing number of cases that require individual support for each device, even for the same hardware, especially in a wide area. Reducing the burden on maintenance workers who maintain the equipment is a challenge.

  The present invention has been made in view of such a background, and an object of the present invention is to enable efficient maintenance of a large number of devices installed in the field.

  One of the present invention for solving the above-described problems is a device management system for managing a maintenance target device, which includes a communication device, a portable terminal, and a server device, and the communication device includes the maintenance target device. The communication device can communicate with the portable terminal by short-range wireless communication, and the portable terminal can display a display. Means and an input means, the portable terminal is connected to the communication device by the short-range wireless communication, acquires a device ID that is an identifier of the maintenance target device via the communication device, and acquires the acquired device ID Is transmitted to the server device via the communication network of the communication carrier, and the server device displays a menu screen to be displayed on the portable terminal according to the received device ID. The generated menu screen is transmitted to the mobile terminal via the communication network, the mobile terminal displays the received menu screen, and the user of the mobile terminal is performed via the menu screen. In response to an instruction input, maintenance information that is information on the maintenance target device is acquired via the communication device, and the acquired maintenance information is transmitted to the server device via the communication network. The received maintenance information is managed in association with the device ID.

  ADVANTAGE OF THE INVENTION According to this invention, the maintenance of many apparatuses installed in the field can be performed efficiently.

1 is a diagram illustrating a schematic configuration of a device management system 1. FIG. 1 is a configuration example of a communication device 10. 2 is a configuration example of a mobile terminal 5. 2 is a configuration example of a server device 3. It is an example of 1 structure of the maintenance object apparatus 2. FIG. 5 is a flowchart for explaining processing performed in the device management system 1. 5 is a flowchart for explaining processing performed in the device management system 1. It is an example of an authentication screen. It is an example of a work selection screen. It is an example of an apparatus selection screen. It is an example of a menu screen. It is an example of a menu screen. 3 is a configuration example of a management terminal 9. It is an example of the authentication screen which the management terminal 9 displays. It is an example of the apparatus selection screen which the management terminal 9 displays. It is another example of the apparatus management system 1.

  Hereinafter, embodiments will be described with reference to the drawings. In the following description, the same or similar components may be denoted by the same reference numerals and redundant description may be omitted. “Gateway” may be abbreviated as “GW”, and “interface” may be abbreviated as “I / F”.

  FIG. 1 shows a schematic configuration of a device management system 1 described as an embodiment. As shown in the figure, the device management system 1 includes a server device 3 installed at a maintenance base such as a service center operated by a maintenance service provider, and a site where the maintenance target device 2 is installed (for example, a company or an organization). Are installed at the installation site together with the portable terminal 5 and the maintenance target device 2 that are carried by a maintenance worker who goes to the factory, business office, customer, etc.) and can communicate with the server device 3 via the communication network 4. And a management terminal 9 capable of communicating with the server device 3 via the communication network 4. The maintenance target device 2 is, for example, an industrial device (for example, an industrial printer, an industrial compressor, etc.), a consumer device (various electrical devices / mechanical products, etc.), and the like.

  The communication network 4 relays communication between the mobile terminal 5 and the server device 3. The communication network 4 is, for example, a mobile communication network provided by a communication carrier (for example, a cellular network (LTE (Long Term Evolution), 2G (2nd Generation), 3G (3rd Generation), 4G (4th Generation))), the Internet WAN (Wide Area Network) or the like.

  The communication device 10 is communicably connected to the maintenance target device 2 by wired or wireless communication means 41 and 42, and communicates with the maintenance target device 2 according to a predetermined protocol. The communication means 41 and 42 are, for example, RS-485 (one-to-many communication), RS-232C (one-to-one communication), LAN (Local Area Network), Bluetooth (registered trademark), Wi-Fi (Wireless Fidelity) (registered trademark). IrDA (Infrared Data Association) (registered trademark), ZigBee (registered trademark), and the like. The predetermined protocol is, for example, Modbus (registered trademark) / RTU (Remote Terminal Unit), TCP / IP (Transmission Control Protocol / Internet Protocol), or the like. In the figure, the communication means 41 is drawn assuming one-to-many serial communication performed according to a communication standard such as RS-485, while the communication means 42 is performed according to a communication standard such as RS-232C. It is drawn assuming one-to-one serial communication.

  The communication device 10 communicates with the portable terminal 5 by short-range wireless communication, and provides the information acquired from the maintenance target device 2 to the portable terminal 5 via the communication unit 41 or the communication unit 42. Short-range wireless communication is realized using, for example, Bluetooth (registered trademark), Wi-Fi (registered trademark), IrDA (registered trademark), or ZigBee (registered trademark), and the communication device 10 is provided by a communication carrier. It is possible to communicate with the mobile terminal 5 without going through a communication network (for example, the Internet or a cellular network (LTE, 2G, 3G, 4G)). Further, when the communication device 10 receives a control instruction for the maintenance target device 2 from the portable terminal 5, the communication device 10 transmits the received control instruction to the corresponding maintenance target device 2 via the communication unit 41 or the communication unit 42.

  The monitoring control device 7 is an information processing device (computer) mainly used by a user of the maintenance target device 2, and includes a processor (CPU (Central Processing Unit), MPU (Micro Processing Unit), etc.), storage device (ROM (ROM)). Read only memory (RAM), random access memory (RAM), non-volatile RAM (NVRAM), hard disk drive, solid state drive (SSD), optical storage device, etc.), user interfaces such as input devices and display devices, and communication means 43 A communication circuit such as a NIC (Network Interface Card) for connecting to the network is provided. The user of the maintenance target device 2 can perform operation control and operation monitoring of the maintenance target device 2 via the communication unit 43, the communication device 10, and the communication units 41 and 42 by operating the monitoring control device 7. it can. The monitoring control device 7 is communicably connected to the communication device 10 via the communication means 43. The monitoring control device 7 communicates with the maintenance target device 2 via the communication device 10.

  The communication unit 43 is, for example, a LAN (Local Area Network), a WAN (Wide Area Network), etc., and the communication device 10 and the monitoring control device 7 are connected to a predetermined protocol (TCP / IP or the like) via the communication unit 43. Communicate according to. The communication unit 43 is connected to the communication network 4 via the gateway 8, and can also control the maintenance target device 2 from the communication network 4 side by accessing the monitoring control device 7 via the gateway 8.

  The communication units 41 to 43 are, for example, existing facilities that existed on the site before the communication device 10 was introduced to the site. The communication device 10 is interposed between the communication units 41 to 43 and functions as a protocol conversion device that relays communication performed between them. By providing the communication device 10 in such a form, the independence of each of the communication means 41 to 43 (particularly the independence / separation of the user-side communication means and the maintenance communication means) is ensured, and the communication means. It is possible to prevent the effects of communication performance degradation, communication failure, and the like from propagating between 41-43. In addition, the equipment management system 1 can be constructed by effectively using existing facilities.

  The management terminal 9 is an information processing apparatus installed at a location remote from the maintenance target device 2, and the usage environment of information (maintenance information and the like described later) acquired from the maintenance target device 2 is maintained by the maintenance worker and maintenance management. To users, such as those. The management terminal 9 communicates with the server device 3 via the communication network 4, acquires various information from the server device 3, and provides it to the user.

  The portable terminal 5 communicates with the communication device 10 by short-range wireless communication during maintenance of the maintenance target device 2 and requests the communication device 10 for information for identifying the maintenance target device 2 (hereinafter referred to as device specific information). To do. The device specific information includes, for example, an identifier of the maintenance target device 2 (hereinafter referred to as a device ID), a manufacturing number and a product model number of the maintenance target device 2, and a version of firmware or software installed in the maintenance target device 2. Etc. The communication device 10 acquires device specific information from the maintenance target device 2 and transmits the acquired device specific information to the mobile terminal 5 by short-range wireless communication. When receiving the device specific information from the communication device 10, the mobile terminal 5 notifies the server device 3 of the received device specific information via the communication network 4.

  The server device 3 searches a database 321 described later using the device-specific information sent from the mobile terminal 5 as a keyword, and uses the searched information (menu screen generation information described later) to carry the mobile phone held by the maintenance worker. A menu screen to be displayed on the terminal 5 is generated, and the generated menu screen is transmitted to the mobile terminal 5. The menu screen is described using, for example, HTML (HyperText Markup Language), XHTML (eXtensible HyperText Markup Language), Java (registered trademark) script, or the like.

  The portable terminal 5 displays the menu screen received from the server device 3 and receives an instruction input from the maintenance worker. In response to the received instruction input, the communication device 10 sends a maintenance information acquisition request to be described later by short-range wireless communication. Send to.

  The communication device 10 acquires maintenance information from the maintenance target device 2 and notifies the mobile terminal 5 of the acquired maintenance information by short-range wireless communication. When receiving the maintenance information from the communication device 10, the portable terminal 5 transmits the received maintenance information to the server device 3 via the communication network 4 together with the device ID of the maintenance target device 2 from which the maintenance information is acquired.

  When the server device 3 receives the maintenance information, the server device 3 registers the received maintenance information in the database 321 in association with the device ID of the maintenance target device 2 of the acquisition source that is received accompanying the maintenance information. In the maintenance base, the maintenance work of the maintenance target device 2 can be efficiently performed using the maintenance information collected (uploaded) in the server device 3 as described above.

  FIG. 2 shows the configuration of the communication device 10. As shown in the figure, the communication device 10 is an information processing device (computer), and includes a control circuit 101, a short-range wireless communication I / F 102, a first communication I / F 103, and a second communication I / F 104. .

  Among these, the control circuit 101 includes a processor (CPU, MPU, etc.) and a storage device (ROM, RAM, NVRAM, hard disk drive, SSD, optical storage device, etc.).

  The short-range wireless communication I / F 102 is configured using, for example, a Bluetooth (registered trademark) module, a Wi-Fi (registered trademark) module, an IrDA (registered trademark) module, a ZigBee (registered trademark) module, and the like, and the mobile terminal 5 Short-range wireless communication with

  The first communication I / F 103 is, for example, a module that performs communication conforming to RS-485 or RS-232C, NIC, various wireless communication modules (Bluetooth (registered trademark) module, Wi-Fi (registered trademark) module, IrDA ( (Registered trademark) module, ZigBee (registered trademark) module) or the like, and communicates with the maintenance target device 2 via the communication means 41 and 42.

  The second communication I / F 104 is configured using, for example, a NIC or a Wi-Fi (registered trademark) module, and communicates with the monitoring control device 7 via the communication unit 43.

  As shown in the figure, the control circuit 101 realizes the functions of the protocol conversion unit 110 and the authentication processing unit 111. These functions are realized by hardware included in the control circuit 101, or by a processor of the control circuit 101 reading out and executing a program from the storage device of the control circuit 101.

  Among the above functions, the protocol conversion unit 110 includes short-range wireless communication performed with the mobile terminal 5, communication with the maintenance target device 2 performed through the communication units 41 and 42, and the communication unit 43. Protocol conversions (format conversion, addition / deletion of header information, reorganization of packets and frames, etc.) used in each of the communication with the monitoring control device 7 performed via the network.

  The authentication processing unit 111 stores an algorithm for authentication and verification information, and performs login authentication for the authentication information transmitted from the mobile terminal 5 using the algorithm and the verification information.

  FIG. 3 shows the configuration of the mobile terminal 5. As shown in the figure, the portable terminal 5 is an information processing device (computer), and includes a control circuit 501, an input device 502, a display device 503, a wireless communication I / F 521, and a short-range wireless communication I / F 522. .

  The control circuit 501 includes a processor (CPU, MPU, etc.) and a storage device (ROM, RAM, NVRAM, etc.). The input device 502 is a user interface for inputting information, such as a touch panel, a keypad, a push button, or a jog dial. The display device 503 is a user interface that displays information, and is, for example, a liquid crystal panel or an organic EL panel.

  The wireless communication I / F 521 is configured using, for example, a module for connecting to a cellular network, a Wi-Fi (registered trademark) module, and the like, and performs communication with the server device 3 and the like performed via the communication network 4 I do.

  The short-range wireless communication I / F 522 is configured using, for example, a Bluetooth (registered trademark) module, a Wi-Fi (registered trademark) module, an IrDA (registered trademark) module, a ZigBee (registered trademark) module, or the like. Short-range wireless communication with

  As shown in the figure, the control circuit 501 realizes the functions of an authentication processing unit 510, a device specific information acquisition / transmission unit 511, a menu screen display unit 512, and a maintenance information acquisition / transmission unit 513. These functions are realized by hardware provided in the control circuit 501 or by a processor of the control circuit 501 reading out a program from the storage device of the control circuit 501 and executing it.

  Among the above functions, the authentication processing unit 510 performs login authentication for logging in to the communication device 10.

  The device specific information acquisition / transmission unit 511 performs processing for acquiring device specific information from the communication device 10 by short-range wireless communication and processing for transmitting the acquired device specific information to the server device 3 via the communication network 4.

  The menu screen display unit 512 receives a menu screen sent from the server device 3 and controls display of the received menu screen on the display device 503. The menu screen display unit 512 displays a menu screen on a Web browser that operates on the mobile terminal 5, for example.

  The maintenance information acquisition / transmission unit 513 receives maintenance information from the communication device 10 by short-range wireless communication, and transmits the received maintenance information to the server device 3 via the communication network 4.

  FIG. 4 shows the configuration of the server device 3. As shown in the figure, the server device 3 is an information processing device (computer), and includes a control circuit 301 and a communication I / F 302.

  The control circuit 301 includes a processor (CPU, MPU, etc.) and a storage device (ROM, RAM, NVRAM, hard disk drive, SSD, optical storage device, etc.). The communication I / F 302 is an interface that realizes communication with the mobile terminal 5 via the communication network 4, and uses, for example, a NIC, a gateway, a router, a Wi-Fi (registered trademark) module, or the like. Composed.

  As shown in the figure, the control circuit 301 realizes the functions of the device specific information receiving unit 311, the menu screen generating / transmitting unit 312, and the maintenance information receiving unit 313. These functions are realized by hardware provided in the control circuit 301 or by a processor of the control circuit 301 reading and executing a program from the storage device of the control circuit 301. As shown in the figure, the control circuit 301 realizes the function of the database 321.

  Among the functions described above, the device specific information receiving unit 311 receives device specific information transmitted from the mobile terminal 5 via the communication network 4.

  The menu screen generation / transmission unit 312 searches the database 321 using the device-specific information received from the mobile terminal 5 as a keyword, acquires menu screen generation information described later, and uses the acquired menu screen generation information to receive the received device-specific information A menu screen to be displayed on the portable terminal 5 possessed by the maintenance worker who maintains the maintenance target device 2 identified from the information is generated, and the generated menu screen is transmitted to the portable terminal 5 that has transmitted the device specific information.

  The maintenance information receiving unit 313 receives the maintenance information sent from the portable terminal 5 via the communication network 4, and the received maintenance information is attached to the maintenance information of the acquisition-target maintenance target device 2 It is registered in the database 321 in association with the device ID.

  The database 321 has a function as a DBMS (Data Base Management System). Registered in the database 321 in association with information used for generating a menu screen (hereinafter referred to as menu screen generation information) registered as a keyword with device-specific information and the device ID of the maintenance target device 2. Maintenance information is stored. The menu screen generation information is, for example, information indicating the content of maintenance of the maintenance target device 2, the maintenance method and procedure of the maintenance target device 2, the portion of the maintenance target device 2 to be maintained, and the like.

  FIG. 5 shows the configuration of the maintenance target device 2. As shown in the figure, the maintenance target device 2 includes a control circuit 201, a circuit / mechanical device 202, and a communication I / F 203.

  The control circuit 201 includes a processor (CPU, MPU, etc.) and a storage device (ROM, RAM, NVRAM, hard disk drive, SSD, optical storage device, etc.). The circuit / mechanical device 202 is a circuit device group or a mechanical device group constituting the maintenance target device 2. The communication I / F 203 includes, for example, a module that performs communication compliant with RS-485 and RS-232C, various wireless communication modules (Bluetooth (registered trademark) module, Wi-Fi (registered trademark) module, IrDA (registered trademark) module). , ZigBee (registered trademark) module) and the like, and communication with the communication device 10 performed via the communication means 41 and 42 and monitoring control device performed via the communication device 10 and the communication means 43 7 is realized.

  As shown in the figure, the control circuit 201 implements the functions of the device specific information transmission unit 211, the maintenance information transmission unit 212, and the device information 221. These functions are realized by hardware included in the control circuit 201 or by a processor of the control circuit 201 reading out and executing a program from the storage device of the control circuit 201.

  The device specific information transmission unit 211 transmits the device specific information 221 to the communication device 10 in response to a request from the communication device 10. The maintenance information transmission unit 212 transmits maintenance information 222 to the communication device 10 in response to a request from the communication device 10. The maintenance information 222 includes, for example, a control history of the maintenance target device 2, an operation history of the maintenance target device 2 (total operation time, power on / off count, etc.), a history of operations performed on the maintenance target device 2, and a maintenance target device. Measured values measured by a measuring instrument included in the second circuit / mechanical device 202 (for example, the temperature of each part of the circuit / mechanical device 202 acquired by the temperature sensor, the rotational speed of the motor acquired by the rotational speed sensor, and the rotational speed) , Angular velocity, etc.).

  Next, processing performed in the device management system 1 will be described.

  6 and 7 are flowcharts for explaining processing performed in the device management system 1 when the maintenance worker goes to the site and performs maintenance of the maintenance target device 2.

  The maintenance worker performs an operation for connecting to the communication device 10 with respect to the portable terminal 5 brought to the site where the maintenance target device 2 is installed. This operation is performed, for example, by accessing a predetermined Web page provided by the communication device 10 using a Web browser or an application operating on the mobile terminal 5.

  When the connection to the communication device 10 is successful, an authentication screen 800 shown in FIG. 8 is displayed on the display device 503 of the mobile terminal 5. When the maintenance worker inputs authentication information (user ID 81, password 82) on the authentication screen 800 and performs a predetermined operation (S611), the authentication information is transmitted from the portable terminal 5 to the communication device 10 (S612).

  When receiving the authentication information from the portable terminal 5, the communication device 10 performs an authentication process on the received authentication information (S613), and transmits the result to the portable terminal 5 (S614). The portable terminal 5 will determine the content, if an authentication result is received from the communication apparatus 10 (S615). If the authentication is successful (S615: Y), the process proceeds to S616. If the authentication fails (S615: N), the process returns to S611.

  In S616, the mobile terminal 5 requests device specific information from the communication device 10 by short-range wireless communication. The request for device specific information may be made for a single maintenance target device 2 by one communication, or the device specific information of a plurality of maintenance target devices 2 may be requested by one communication. Further, for example, the device specific information of all the maintenance target devices 2 that are currently connected (or in operation) to the communication unit 41 or the communication unit 42 may be requested by a single communication. Upon receiving the request (S617), the communication device 10 requests device specific information from the maintenance target device 2 designated by the portable terminal 5 via the communication unit 41 or the communication unit 42 (S618).

  When receiving the request (S619), the maintenance target device 2 transmits the stored device specific information 211 to the communication device 10 via the communication unit 41 or the communication unit 42 (S620). When receiving the device specific information from the maintenance target device 2 (S621), the communication device 10 transmits the received device specific information to the portable terminal 5 by short-range wireless communication (S622).

  When receiving the device specific information from the communication device 10 (S623), the portable terminal 5 transmits the received device specific information to the server device 3 via the communication network 4 (S624, S625).

  When the mobile terminal 5 receives and accumulates device-specific information of a plurality of maintenance target devices 2 from the communication device 10, the device specific information of the plurality of maintenance target devices 2 is collected from the mobile terminal 5 to the server device 3. May be transmitted.

  Upon receiving the device specific information from the mobile terminal 5 (S625), the server device 3 searches the database 321 using the received device specific information as a keyword, and acquires menu screen generation information (S626). Subsequently, the server device 3 generates a menu screen based on the acquired menu screen generation information (S627), and transmits (downloads) the generated menu screen to the mobile terminal 5 via the communication network 4 (S628). The provision of the menu screen from the server device 3 to the portable terminal 5 is not necessarily performed at this timing. For example, after the maintenance target device 2 is selected on the device selection screen 1000 described later, the selected maintenance is performed. You may make it request | require the server apparatus 3 from the portable terminal 5 for the menu screen of the object apparatus 2. FIG.

  When receiving the menu screen (S629), the portable terminal 5 displays the work selection screen 900 shown in FIG. 9 (S630 in FIG. 7). As shown in the figure, the work selection screen 900 displays three buttons: device maintenance 91, communication device setting 92, and logout 93. The maintenance worker selects device maintenance 91 when performing work related to maintenance of the maintenance target device 2, selects communication device setting 92 when setting the communication device 10, and selects logout 93 when logging out. The work selection screen 900 may be a screen that the communication device 10 provides to the mobile terminal 5 via short-range wireless communication.

  FIG. 10 shows the device selection screen 1000 displayed on the mobile terminal 5 when the maintenance worker selects the device maintenance 91 on the work selection screen 900 (S631). The device selection screen 1000 may be a screen that the communication device 10 provides to the mobile terminal 5 via short-range wireless communication. As shown in the figure, the device selection screen 1000 displays a button for selecting the maintenance target device 2. When the maintenance worker selects the maintenance target device 2 from the device selection screen 1000, the portable terminal 5 subsequently displays the menu screen received from the server device 3 in S629 (S632). A specific example of the menu screen will be described later.

  When the maintenance worker selects an operation to be performed on the maintenance target device 2 from the menu screen, the portable terminal 5 starts processing according to the selected operation. For example, when the selected work is to acquire maintenance information from the maintenance target device 2 and transmit (upload) it to the server device 3, the mobile terminal 5 starts the next series of processes.

  That is, first, the mobile terminal 5 requests maintenance information on the maintenance target device 2 from the communication device 10 via short-range wireless communication (S634). Upon receiving the request (S635), the communication device 10 requests maintenance information from the maintenance target device 2 via the communication unit 41 or the communication unit 42 (S636). When receiving the request (S637), the maintenance target device 2 transmits maintenance information to the communication device 10 via the communication unit 41 or the communication unit 42 (S638). When receiving the maintenance information (S639), the communication device 10 transmits the received maintenance information to the portable terminal 5 by short-range wireless communication (S640). When receiving the maintenance information from the communication device 10 (S641), the portable terminal 5 transmits (uploads) the received maintenance information to the server device 3 via the communication network 4 (S642).

  When receiving the maintenance information from the mobile terminal 5 (S643), the server device 3 registers the received maintenance information in the database 321 in association with the device ID attached to the received maintenance information (S644).

  FIG. 11 is an example of a menu screen displayed on the mobile terminal 5 in S632. The menu screen 1100 is generated using menu screen generation information searched using the device-specific information of “device A” in the maintenance target device 2 as a keyword. As shown in the figure, on the menu screen 1100, one of operation status acquisition 1111, operation log acquisition 1112, and device setting 1113 can be selected as an operation for “device A”. .

  When the maintenance worker selects, for example, driving status acquisition 1111, a request for acquiring the driving status of “device A” is transmitted from the mobile terminal 5 to the communication device 10. Upon receiving the acquisition request, the communication device 10 requests the “device A” to provide the driving status. When the communication device 10 acquires the operation status from “device A”, the communication device 10 transmits the acquired operation status as maintenance information to the mobile terminal 5, and the mobile terminal 5 transmits (uploads) the received maintenance information to the server device 3.

  For example, when the maintenance worker selects the operation log acquisition 1112, an operation log acquisition request for “device A” is transmitted from the mobile terminal 5 to the communication device 10. Upon receiving the acquisition request, the communication device 10 requests the “apparatus A” to provide an operation log. When the communication device 10 acquires the operation log from “device A”, the communication device 10 transmits the acquired operation log as maintenance information to the mobile terminal 5, and the mobile terminal 5 transmits (uploads) the received maintenance information to the server device 3.

  When the device setting 1113 is selected, the mobile terminal 5 displays a screen for setting the maintenance target device 2 on the mobile terminal 5, and the maintenance worker uses the displayed menu screen to perform the maintenance target device. 2. Make various settings.

  FIG. 12 shows another example of the menu screen displayed on the mobile terminal 5 in S632. The menu screen 1200 is generated using menu screen generation information searched using the device-specific information of “device B” among the maintenance target devices 2 as a keyword. As shown in the figure, in this menu screen 1200, any of the operation history acquisition 1211, firmware update 1212, and device setting 1213 can be selected as the operation for “device B”. ing.

  When the maintenance worker selects, for example, operation history acquisition 1211, an operation history acquisition request for “device B” is transmitted from the mobile terminal 5 to the communication device 10. Upon receiving the acquisition request, the communication device 10 requests the “device B” to provide an operation history. When the communication device 10 acquires the operation history from “device B”, the communication device 10 transmits the acquired operation history as maintenance information to the mobile terminal 5, and the mobile terminal 5 transmits (uploads) the received maintenance information to the server device 3.

  Also, for example, when the firmware update 1212 is selected, a request for performing a firmware update for “device B” is transmitted from the mobile terminal 5 to the communication device 10, and the communication device 10 performs a firmware update for “device B”. To do. Note that new firmware to be replaced with existing firmware may be transmitted (downloaded) from the server device 3 to the portable terminal 5. Further, the firmware transmission (download) in this case may be performed at the timing of S628 in FIG. 6 (timing for transmitting the menu screen from the server device 3 to the portable terminal 5) or at other timings, for example. May be. Further, the fact that the firmware update has been performed and the version information after the update are transmitted (uploaded) from the portable terminal 5 to the server device 3 as maintenance information together with the device ID of the corresponding maintenance target device 2. You may make it manage as the information of the apparatus 2. FIG.

  When the device setting 1213 is selected on the menu screen 1200 of FIG. 12, a menu screen for setting the maintenance target device 2 is displayed on the display device 503 of the portable terminal 5, and the maintenance operator displays the menu screen displayed. Various settings of the maintenance target device 2 are performed via

  Note that the menu screen is not limited to that illustrated in FIG. 11 or 12, and the menu screen can be customized in various ways according to the maintenance target device 2. For example, in order to improve the convenience of the maintenance worker, information on past maintenance information (for example, failure history, part replacement history, etc.) of the maintenance target device 2 may be displayed on the menu screen.

  The maintenance information collected in the database 321 of the server device 3 as described above is a management terminal installed at a location remote from the maintenance target device 2 (for example, a contractor for a management operation of the maintenance target device 2). 9 can be referred to at any time via the communication network 4. Further, the maintenance target device 2 can be remotely controlled from the management terminal 9 by accessing the monitoring control device 7 from the management terminal 9 through the communication network 4 and the gateway 8.

  FIG. 13 shows the configuration of the management terminal 9. As shown in the figure, the management terminal 9 includes a control circuit 901, an input device 902, a display device 903, and a wireless communication I / F 904.

  The control circuit 901 includes a processor (CPU, MPU, etc.) and a storage device (ROM, RAM, NVRAM, hard disk drive, SSD, optical storage device, etc.). The input device 902 is a user interface for inputting information, such as a keyboard and a mouse. The display device 903 is a user interface that displays information, and is, for example, a liquid crystal panel or an organic EL panel. The wireless communication I / F 904 is configured using, for example, a NIC, a gateway, a router, a Wi-Fi (registered trademark) module, and the like, and communicates with the server device 3 via the communication network 4.

  As shown in the figure, the control circuit 901 implements the functions of an authentication processing unit 951, a maintenance information acquisition unit 952, and a remote control unit 953. These functions are realized by hardware provided in the control circuit 901 or by a processor of the control circuit 901 reading a program from the storage device of the control circuit 901 and executing it.

  The authentication processing unit 951 stores an authentication algorithm and verification information, and performs login authentication using the above algorithm and verification information for authentication information received from a user via the authentication screen 1400 shown in FIG. 14, for example.

  The maintenance information acquisition unit 952 requests the maintenance information of the maintenance target device 2 specified by the user via the device selection screen 1500 shown in FIG. 15, for example, from the server device 3 via the communication network 4, and receives the maintenance information received from the server device 3. Is displayed.

  The remote control unit 953 transmits a control command to the monitoring control device 7 via the communication network 4 and the gateway 8, and controls the maintenance target device 2 via the monitoring control device 7.

  As described above, according to the device management system 1 of this embodiment, the maintenance worker automatically applies to the mobile terminal 5 (for example, a smartphone or a tablet) brought into the site where the maintenance target device 2 is installed. The necessary maintenance information is acquired from the maintenance target device 2 and transmitted to the server device 3 simply by inputting an instruction to the menu screen customized for each maintenance target device 2 in the server device 3 ( Upload). For this reason, the maintenance worker manages maintenance information to be acquired for each of the various maintenance target devices 2 installed in a wide area, and records the maintenance information on a recording medium such as a USB memory at the site. Maintenance information can be acquired efficiently without being forced to carry out complicated work such as taking it back to the maintenance base, and the maintenance work of the maintenance target device 2 can be performed efficiently.

  In addition, since the menu screen generation of each maintenance target device 2 is concentrated in the server device 3, the latest information (repair information, failure information, repair information, version information, etc.) about each maintenance target device 2 is always obtained. Based on this, a menu screen can be generated, and the maintenance worker can perform maintenance work appropriately and efficiently. In addition, although it is conceivable to manage the menu screen in the maintenance target device 2 or the communication device 10, in that case, it is necessary to frequently update the menu screen of the maintenance target device 2 or the communication device 10, and the communication amount increases. Management becomes complicated and inefficient.

  Further, according to the device management system 1 of the present embodiment, maintenance work for a plurality of maintenance target devices 2 can be performed with one mobile terminal 5. In addition, maintenance information can be acquired from a plurality of maintenance target devices 2 by one communication device 10. Furthermore, the function of the portable terminal 5 can be easily realized by simply installing an application on the existing portable terminal 5 (smartphone, tablet, etc.), for example. For this reason, the efficiency of maintenance work can be improved, and the equipment required for maintenance can be simplified and the investment in equipment can be suppressed.

  In addition, this invention is not limited to an above-described Example, Various modifications are included. For example, the above-described embodiments have been described in detail for easy understanding of the present invention, and are not necessarily limited to those having all the configurations described. Further, a part of the configuration of one embodiment can be replaced with the configuration of another embodiment, and the configuration of another embodiment can be added to the configuration of one embodiment. Further, it is possible to add, delete, and replace other configurations for a part of the configuration of each embodiment.

  Each of the above-described configurations, functions, processing units, processing means, and the like may be realized by hardware by designing a part or all of them with, for example, an integrated circuit. Further, each of the above-described configurations, functions, and the like may be realized by software by interpreting and executing a program that realizes each function by the processor. Information such as programs, tables, and files for realizing each function can be stored in a recording device such as a memory, a hard disk, and an SSD, or a recording medium such as an IC card, an SD card, and a DVD.

  In addition, control lines and information lines indicate what is considered necessary for the explanation, and not all control lines and information lines are necessarily shown on the product. Actually, it may be considered that almost all the components are connected to each other.

  In FIG. 1, the communication device 10 is depicted as one independent configuration. For example, as shown in FIG. 16, the communication device 10 is configured integrally with the maintenance target device 2 (the same housing as the maintenance target device 2). It may be housed in the body or incorporated as a component in the maintenance target device 2). By doing so, it is possible to simplify the device configuration, for example, by making the power supply circuit common. In addition, since the communication device 10 can be carried into the site together with the maintenance target device 2, it is possible to facilitate the carrying-in work and to effectively use the installation space.

DESCRIPTION OF SYMBOLS 1 Device management system, 2 Maintenance object device, 211 Device specific information transmission part, 212 Maintenance information transmission part, 202 Circuit / mechanical device, 203 Communication I / F, 3 Server apparatus, 302 Communication I / F, 311 Device specific information reception Unit, 312 menu screen generation transmission unit, 313 maintenance information reception unit, 321 database, 4 communication network, 5 portable terminal, 502 input device, 503 display device, 522 short-range wireless communication I / F, 521 wireless communication I / F, 510 Authentication processing unit, 511 Device specific information acquisition / transmission unit, 512 Menu screen display unit, 513 Maintenance information acquisition / transmission unit, 7 Monitoring control device, 8 Gateway, 9 Management terminal, 10 Communication device, 102 Short-range wireless communication I / F , 103 1st communication I / F, 104 2nd communication I / F, 110 Protocol conversion part, 11 Authentication processing unit, 41 to 43 communication means, 1100 and 1200 menu screen

Claims (13)

A device management system for managing maintenance target devices,
Including a communication device, a portable terminal, and a server device,
The communication device is configured integrally with the maintenance target device, or configured to be able to communicate with the maintenance target device by a communication unit,
The communication device can communicate with the mobile terminal by short-range wireless communication,
The portable terminal includes display means and input means,
The portable terminal is connected to the communication device by the short-range wireless communication, acquires a device ID that is an identifier of the maintenance target device via the communication device, and acquires the acquired device ID as a communication network of a communication carrier. To the server device via
The server device generates a menu screen to be displayed on the mobile terminal according to the received device ID, transmits the generated menu screen to the mobile terminal via the communication network,
The portable terminal displays the received menu screen, and in response to an instruction input by the user of the portable terminal performed via the menu screen, maintenance information that is information on the maintenance target device is transmitted via the communication device. Acquiring, and transmitting the acquired maintenance information to the server device via the communication network,
The server device manages the received maintenance information in association with the device ID. The device management system according to claim 1,
The portable terminal is capable of communicating with a plurality of the communication devices via the short-range wireless communication, acquires the maintenance information of the plurality of maintenance target devices from the plurality of communication devices, and acquired the Maintenance information is transmitted to the server device via the communication network. The device management system according to claim 2,
The communication apparatus is capable of communicating with a plurality of maintenance target devices via the communication unit, receives the maintenance information from the plurality of maintenance target devices, and receives the received maintenance information as the maintenance information. A device management system that transmits to the mobile terminal via short-range wireless communication. A device management system according to any one of claims 1 to 3,
The menu screen is for instructing at least one of acquisition of an operation status of the maintenance target device, acquisition of an operation history of the maintenance target device, acquisition of an operation history for the maintenance target device, and firmware update. A device management system including an instruction input unit. A device management system according to any one of claims 1 to 3,
The device management system, wherein the maintenance information is at least one of a control history of the maintenance target device, an operation history of the maintenance target device, and a measured value measured for the maintenance target device. The communication device in the device management system according to any one of claims 1 to 3,
The maintenance target device is connected to be communicable by communication means,
It is possible to communicate with the mobile terminal by near field communication,
Sending the device ID to the mobile terminal;
A communication device that transmits the maintenance information to the mobile terminal in response to a request received from the mobile terminal. The communication device according to claim 6,
The maintenance target device can communicate with a monitoring control device that monitors and controls the maintenance target device.
A communication device that functions as a protocol conversion device that relays communication performed between the portable terminal, the maintenance target device, and the monitoring control device. The communication device according to claim 6,
A communication apparatus comprising an authentication function for controlling whether to provide a function for transmitting the device ID or the maintenance information to the portable terminal based on authentication information sent from the portable terminal. A device management method including a communication device, a mobile terminal, and a server device, and a device management system that manages a maintenance target device.
The communication device is configured integrally with the maintenance target device, or configured to be able to communicate with the maintenance target device by a communication unit,
The communication device can communicate with the mobile terminal by short-range wireless communication,
The portable terminal includes display means and input means,
The portable terminal is connected to the communication device by the short-range wireless communication, acquires a device ID that is an identifier of the maintenance target device via the communication device, and acquires the acquired device ID as a communication network of a communication carrier. Transmitting to the server device via
The server device generates a menu screen to be displayed on the mobile terminal according to the received device ID, and transmits the generated menu screen to the mobile terminal via the communication network;
The portable terminal displays the received menu screen, and in response to an instruction input by the user of the portable terminal performed via the menu screen, maintenance information that is information on the maintenance target device is transmitted via the communication device. Acquiring the acquired maintenance information to the server device via the communication network;
The server device includes a step of managing the received maintenance information in association with the device ID. The device management method according to claim 9,
The portable terminal is capable of communicating with a plurality of the communication devices via the short-range wireless communication, acquires the maintenance information of the plurality of maintenance target devices from the plurality of communication devices, and acquired the Maintenance information is transmitted to the server device via the communication network. A device management method, comprising: The device management method according to claim 10,
The communication device is capable of communicating with a plurality of maintenance target devices via the communication unit, receives the maintenance information from the plurality of maintenance target devices, and receives the received maintenance information as the maintenance information. A device management method comprising: transmitting to the mobile terminal via short-range wireless communication. The device management method according to any one of claims 9 to 11,
The menu screen is for instructing at least one of acquisition of an operation status of the maintenance target device, acquisition of an operation history of the maintenance target device, acquisition of an operation history for the maintenance target device, and firmware update. A device management method characterized by including an instruction input unit. A device management method according to any one of claims 1 to 3,
The maintenance information is at least one of a control history of the maintenance target device, an operation history of the maintenance target device, and a measured value measured for the maintenance target device.

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