JP2018201331A - Maintenance and operation system for apparatus with storage battery - Google Patents

Abstract

To allow a maintenance staff to simply check management information recorded on an apparatus with storage battery when operating and maintaining the apparatus with storage battery.SOLUTION: An apparatus with storage battery 20 includes: a management information storage unit 41 for acquiring and storing a state of a storage battery 23 as management information on the storage battery 23; a management network communication unit 42 for communicating with a management computer 45 of the apparatus with storage battery via a management network 30; and a radio communication unit 44 for communicating with a portable information terminal 50 via a radio communication channel independent of the management network 30. The apparatus with storage battery transmits the management information to the portable information terminal 50 via the radio communication channel.SELECTED DRAWING: Figure 3

Description

  The invention disclosed by this specification is related with a storage battery mounting apparatus and its maintenance operation system.

  An example of the storage battery-equipped device is an uninterruptible power supply, which is designed to function as a backup power supply that supplies AC power from the storage battery to the load device when a power failure occurs in the power system. In recent years, storage battery-equipped devices such as uninterruptible power supply devices are equipped with a large number of high-performance storage batteries such as lithium-ion batteries, and their capacity and functionality have advanced, and operation monitoring via a network has been put to practical use. .

  However, in a battery-equipped device equipped with a high-capacity storage battery, the number of storage battery cells is extremely large, and the amount of management information is enormous. For this reason, when the information is sent to the server via the management network, the amount of traffic on the network increases and various failures are expected.

  Therefore, for example, management information such as time-dependent measurement information of current and voltage for each cell, power failure detection information, storage battery charging information, etc. is stored in the storage device on the uninterruptible power supply side, for example, An e-mail notification system that sends e-mail to an administrator by an e-mail function when the state changes has been put into practical use. The maintenance personnel who received the e-mail access the web server set in the control unit of the uninterruptible power supply from the web browser of the management computer to check the management information of the uninterruptible power supply, or install the uninterruptible power supply I will go to the place and inspect directly.

JP 2013-009531 A

  When maintenance personnel visit the site in response to an abnormality notification email, there are times when it is desired to check detailed management information at the site. For this purpose, it is desirable to browse information from a web server of the uninterruptible power supply by connecting a notebook computer or the like to the network. However, in many cases, it is not easy for the maintenance personnel, who are service personnel of the uninterruptible power supply manufacturer, to connect the notebook computer to the customer company's network because of security problems.

  For this reason, there has been a demand for a mechanism for easily browsing management information without connecting to a network for managing storage battery-equipped devices.

  Therefore, the present specification discloses a technology that allows maintenance personnel to easily check management information recorded in a storage battery-equipped device when operating and maintaining the storage battery-equipped device.

The maintenance operation system for storage battery-equipped devices disclosed in this specification includes a management information storage unit that acquires and stores a storage battery state as management information of the storage battery, and the storage battery via the management network. A management network communication unit that communicates with a management computer of an on-board device; and a wireless communication unit that communicates with an information terminal via a wireless communication line independent of the management network; The management information is transmitted to the information terminal.
The maintenance operation system for storage battery-equipped devices disclosed in this specification includes a management information storage unit that acquires and stores a storage battery state as management information of the storage battery, and the storage battery via the management network. A management network communication unit that communicates with a management computer of the on-board device; and a communication unit that communicates with a portable information terminal via a communication line independent of the management network. Information is transmitted to the portable information terminal.

  When the storage battery-equipped device is controlled by the power management server of the power management system, it is preferable that the portable information terminal has a public line communication unit that communicates with the power management server via a public wireless telephone line.

  According to the technology disclosed in this specification, when operating and maintaining a storage battery mounted device, maintenance personnel can easily check management information recorded in the storage battery mounted device.

Block diagram showing the configuration of the power management system Block diagram showing the configuration of the uninterruptible power supply Block diagram showing configuration of network unit and maintenance operation system

  The embodiment will be described with reference to FIGS. 1 to 3.

  A plurality of load devices 11 to 14 are connected to the AC power system 10. Examples of the load devices 11 and 12 include server devices that require power backup in response to a power failure of the power system 10, and examples of the load devices 13 and 14 include general load devices such as air conditioners and lighting devices. . The load devices 11 and 12 are connected to the power system 10 via uninterruptible power supply devices 20 (hereinafter referred to as “UPS 20”) corresponding to storage battery mounted devices for power backup.

  The two UPSs 20 and the load devices 13 and 14 are connected to the EMS controller 31 via the network 30, and their operations are controlled by the EMS controller 31 that receives a signal from the power management server 32 as will be described in detail later. The The power management server 32 has a database of information related to the operation of each of the load devices 11 to 14 and the UPS 20, and based on this, analyzes the optimum operation mode of the load device according to the actual power supply and demand state, Based on the analysis result, the EMS controller 31 outputs an operation command to the UPS 20 and the load devices 13 and 14.

  As shown in FIG. 2, the UPS 20 rectifies alternating current from the power system 10 by a rectifier 21 and charges a storage battery 23 such as a lithium ion battery via a bidirectional converter 22. The electric power stored in the storage battery 23 is given to the inverter 24 via the bidirectional converter 22, converted into alternating current power, and given to the load devices 11 and 12 via the inverter bypass switch 25.

  The rectifier 21, the bidirectional converter 22, the inverter 24, and the inverter bypass switch 25 which are components in the UPS 20 are controlled by the UPS control circuit 26. When the electric power system 10 is normally supplying electric power, the storage battery 23 is charged so as to maintain a predetermined remaining capacity, and AC power from the inverter 24 is supplied to the load devices 11 and 12.

  The remaining capacity of the storage battery 23 is calculated by the UPS control device 26 from information such as the voltage and internal resistance of the storage battery 23, for example. The UPS control device 26 calculates or measures the voltage, SOC (State Of Charge), SOH (State Of Health) and temperature for each cell constituting the storage battery 23 at predetermined time intervals. In addition, the operating state of the UPS 20 and the failure status of the parts constituting the UPS 20 are also acquired and stored in a storage circuit (not shown) provided in the UPS control device 26. Accordingly, the UPS control device 26 functions as a management information recording unit that acquires and stores the state of the storage battery 23 as management information of the storage battery.

  On the other hand, when a power failure of the power system 10 is detected, the UPS control device 26 supplies the DC power charged in the storage battery 23 to the inverter 24 via the bidirectional converter 22 and converts it into AC power. AC power from 24 is supplied to the load devices 11 and 12. Thus, this UPS control device 26 functions as a charge / discharge control device that controls charging / discharging of the storage battery 23 according to a predetermined charging / discharging algorithm. The charge / discharge algorithm is recorded in a memory 41 corresponding to an algorithm memory provided in the memory of the UPS control device 26 and the network unit 40 described later. Note that the inverter bypass switch 25 is switched so that the power of the power system 10 is directly supplied to the load devices 11 and 12 when the inverter 24 is stopped, for example, when the UPS 20 is inspected.

  The UPS 20 is provided with a network unit 40 for connecting the UPS 20 to the network 30. The network unit 40 has the configuration shown in FIG. 3 in detail, and includes the storage unit 41, the wired LAN communication unit 42, the main calculation unit 43, and the wireless LAN communication unit 44.

  The wired LAN communication unit 42 has a connector (not shown) for wired connection to the network 30 to which the EMS controller 31 is connected. As shown in FIG. 3, the network 30 can also be connected to a management computer 45 that monitors the operation of the UPS 20 and functions not only as a network for the power management system but also as a management network for managing the operation of the UPS 20. Also works.

  The wireless communication unit 44 is an interface for a wireless communication line such as a wireless LAN such as Wi-Fi (registered trademark) or Bluetooth (registered trademark). The wireless communication unit 44 is for connecting, for example, the portable information terminal 50 for maintenance and inspection by wireless communication, and establishes an independent wireless network separated from the network 30. The portable information terminal 50 can also communicate with the base station 51 via a public wireless telephone line such as 3G or 4G. The portable information terminal 50 is installed with a communication program for communicating with the operation server 53 for UPS 20 that records, for example, the operation parameters and operation logs of the UPS 20 group via the network 52 to which the base station 51 is connected. ing.

  The storage unit 41 stores a program for executing various functions of the main calculation unit 43. For example, a program that is transferred to the storage unit 41 before the management information of the storage battery 23 acquired in the UPS control device 26 overflows in the storage unit of the UPS control device 26, a log file program that manages such information, and operation information that is stored in HTTP / A WEB server program for providing as an HTTPS-based user interface, a Simple Network Management Protocol (SNMP) program for remote monitoring, a communication control program for communicating with the portable information terminal 50 via the wireless communication unit 44, UPS 20 A mail transmission program or the like for transmitting mail when an abnormality or a power failure is detected on the side is recorded in the storage unit 41. In addition, the storage unit 41 has an area for storing the above-described charge / discharge algorithm of the UPS control device 26 and an area for storing the management information of the storage battery 23, and also functions as a management information storage unit.

  Next, a maintenance procedure when an abnormality occurs in the UPS 20 in this embodiment will be described. In the UPS 20, for example, when the SOH of the storage battery 23 falls below a set level, when a component failure is detected, or when the temperature of the storage battery 23 rises above the set level, it is transferred to a predetermined address in the network 30. An e-mail for notification is transmitted from the network unit 40. By inputting a predetermined URL in a browser installed on the management computer 45 connected to the network 30, the operation status of the UPS 20 is transmitted from the WEB server set in the network unit 40 to the management computer 45. This can be confirmed with a browser of the local management computer 45.

  As a result, when it is determined that maintenance personnel need to go to the site where the UPS 20 is installed, the maintenance personnel go to the site with a predetermined portable information terminal 50. Upon arrival at the installation site of the UPS 20, if the portable information terminal 50 performs a predetermined authentication operation for wireless LAN connection, the portable information terminal 50 establishes data communication via the wireless LAN communication unit 44 of the network unit 40. . Thus, by launching a predetermined application program of the portable information terminal 50, the log file of the UPS 20 can be read from the storage unit 41 and viewed on the portable information terminal 50.

  In this case, management information with an enormous amount of data is transmitted via a wireless network established by a wireless communication line between the portable information terminal 50 and the network unit 40. The wireless network is used for management. Therefore, the power management system 32 and the monitoring operation of the UPS 20 by the power management server 32 via the network 30 are not affected, and the power management and UPS 20 can be safely and stably performed. Monitoring can be continued. In addition, since it is not possible to enter the network 30 from the portable information terminal 50, no security problem / concern is caused.

  The maintenance staff transfers the management information stored in the UPS control device 26 and the network unit 40 of the UPS 20 to the portable information terminal 50 and displays the management information on the display, or operates a predetermined analysis application on the portable information terminal 50. By doing so, problems occurring in the UPS 20 can be analyzed. Alternatively, the acquired management information may be sent to the operation server 53 via a 3G or 4G public wireless telephone line provided in the portable information terminal 50 and analyzed there. The analysis result is sent back to the portable information terminal 50, and the maintenance staff can take a countermeasure against the abnormality of the UPS 20 by looking at the result.

  When communication is performed between the portable information terminal 50 and the operation server 53, such as when an abnormality occurs or during inspection, update information such as firmware of the UPS 20 is displayed on the portable information terminal 50. Maintenance personnel can also update the firmware of the UPS 20 from the operation server 53 via the portable information terminal 50 by operating the portable information terminal 50.

As a maintenance procedure using the operation server 53, the following can be exemplified.
For example, the operation server 53 records a desirable power failure detection level for each region where the UPS 20 is installed as a database. The power failure detection level is a standard that, for example, when the voltage of the power system 10 falls below 80% of the rated voltage, the power failure is regarded as a power failure and the operation proceeds to the backup operation. When the management information is transmitted from the portable information terminal 50 to the operation server 53 and the log is analyzed in the operation server 53, when the power failure detection frequency is extremely high, the UPS 20 is based on GPS data acquired from the portable information terminal 50, for example. The standard power failure detection level at the installation location is compared with the actually set power failure detection level from the database. If they are different, the standard power failure detection level is transmitted to the information terminal 50, and the maintenance staff is instructed to reset the power failure detection level of the UPS 20 to the standard value.

  When a maintenance person performs a power failure detection level setting operation on the portable information terminal 50, the information is transmitted to the network unit 40 via the wireless network, and is set in the UPS control device 26 by a signal from the main calculation unit 43. The power failure detection level is set to a new value. At the same time, the fact that the power failure detection level has been updated to a new value in the UPS 20 is stored in the database of the operation server 53 from the portable information terminal 50 through the public radio telephone line. Thereby, the UPS 20 can be operated at an appropriate power failure detection level.

  The operation server 53 stores not only the desired power failure detection level for each region but also setting information such as the UP wired LAN communication unit 42 and the wireless communication unit 44. In doing so, the setting information can be set in the network unit 40 via the portable information terminal 50.

  In the operation server 53, when the UPS 20 is newly or updated, individual information of the UPS 20 (for example, serial number, hardware and firmware version, installation location, etc.) and settings input from the portable information terminal 50 Information is stored in the database of the operation server 53 together with the power failure detection level. When the network unit 40 breaks down, the setting information stored in the operation server 53 and the setting information such as the power failure detection level are stored. Is transferred to the new network unit after the replacement, so that the efficiency of the recovery work can be improved.

  That is, in the case where a trouble (for example, LAN port failure or communication abnormality) that cannot be communicated in the wired LAN communication unit 42 occurs in the network unit 40, the setting information stored in the operation server 53 after the network unit 40 is replaced. By transferring, restoration work can be performed efficiently.

  Further, by using the operation server 53, the following maintenance procedure can be performed. For example, when the management computer 45 becomes unable to access the network unit 40 using a browser due to forgetting the access password corresponding to the communication setting information, the maintenance staff first stores it in advance in the operation server 53 on the wireless network side. The obtained security code is acquired by the portable information terminal 50. And the temporary password with a use frequency and a use time limit is acquired by accessing the network unit 40 from the portable information terminal 50 using the acquired security code.

  Next, the temporary password acquired by the maintenance staff is received, and the access password is reset by accessing the network unit 40 using the temporary password from the browser of the management computer 45 of the management network 30. In other words, the wireless network and the management network 30 are independently constructed, and the temporary password issuance by the security code authentication and the access password resetting by the temporary password are performed in different networks. The password can be reset while strengthening it.

<Other embodiments>
(1) In the above embodiment, the uninterruptible power supply device is exemplified as the storage battery-equipped device. However, the present invention is not limited to this. It may be a storage battery mounted device or a storage battery mounted device for a solar battery that is charged by solar cell output during the day and discharged at night.

  (2) In the said embodiment, although the storage battery showed the example which consists of a lithium ion battery, it is needless to say that not only this but various secondary batteries, such as a lead storage battery and a nickel metal hydride battery, can be utilized.

  (3) In the above embodiment, the configuration in which the power management system manages the four load devices 11 to 14 is illustrated for the sake of simplification. However, the power management system is not limited to this, and the power load of the entire factory is not limited thereto. FEMS (Factory Energy Management System) for managing power, HEMS (Home Energy Management System) for managing power equipment in the home, CEMS (Community Energy Management System) for managing power equipment in towns and regions, building and commercial facilities Of course, it can be applied to BEMS (Building Energy Management System) that manages electric power equipment.

  (4) In the above embodiment, the configuration example in which the power management server 32 is provided separately from the EMS controller 31 is shown. However, the present invention is not limited to this, and the EMS controller 31 is provided with the data processing function of the power management server 32 to It is good also as an integrated structure. Alternatively, a plurality of EMS controllers may be applied to a large-scale power management system connected to a power management server via a network.

  (5) In the above embodiment, the management network 30 is an example of a wired network. However, the present invention is not limited to this, and at least a part may be replaced by a wireless LAN.

(6) In the above embodiment, the portable information terminal 50 is installed with a dedicated application for confirming and setting various information by connecting to the network unit 40 or the operation 53 of the UPS 20. Of course, information may be exchanged with the network unit 40 or the operation server using the WEB browser function of the portable information terminal 50.
(7) In the above-described embodiment, the UPS control device 26 has acquired the management information such as the voltage, SOC, SOH, and temperature for each cell constituting the storage battery 23. For example, the battery voltage for each battery module Management information such as SOC, SOH, current, and temperature may be acquired.

10: Power systems 11-14: Load device 20: UPS (storage battery mounted device)
26: UPS control device (charge / discharge control device)
30: Management network 31: EMS controller 32: Power management server 40: Network unit 41: Storage unit (management information storage unit)
42: Communication unit for wired LAN (communication unit for management network)
44: Wireless LAN communication unit (communication unit, wireless communication unit)
45: Management computer 53: Operation server

Claims (9)

A storage battery-equipped maintenance operation system comprising a storage battery and a charge / discharge control device for controlling charge / discharge of the storage battery,
The storage battery-equipped device has a management information storage unit that acquires and stores the storage battery status as management information of the storage battery, and a communication for management network that communicates with a management computer of the storage battery-equipped device via a management network A wireless communication unit that communicates with the information terminal via a wireless communication line independent of the management network,
A maintenance and operation system for a storage battery-equipped device that transmits the management information to the information terminal via the wireless communication line. A storage battery-equipped maintenance operation system comprising a storage battery and a charge / discharge control device for controlling charge / discharge of the storage battery,
The storage battery-equipped device has a management information storage unit that acquires and stores the storage battery status as management information of the storage battery, and a communication for management network that communicates with a management computer of the storage battery-equipped device via a management network And a communication unit for communicating with the portable information terminal via a communication line independent of the management network,
A maintenance and operation system for a storage battery-equipped device that transmits the management information to the portable information terminal via the communication line. The maintenance operation system according to claim 2, wherein setting information for managing the storage battery is set from the portable information terminal to the storage battery mounted device. The maintenance operation system according to claim 2 or 3, wherein the portable information terminal has an analysis application that analyzes and displays the management information acquired from the management information storage unit. 5. The maintenance operation system according to claim 2, wherein the portable information terminal is connected to an operation server having a database in which the management information of the storage battery-equipped device is recorded and a public wireless telephone line. Maintenance and operation system for storage battery-equipped devices that have communication applications to communicate. 6. The maintenance operation system according to claim 5, wherein the operation server sets setting information for managing the storage battery from the operation server to the storage battery mounted device via the portable information terminal, or the storage battery mounted A maintenance and operation system for a storage battery-equipped device that acquires and stores the setting information set in the device via the portable information terminal. 7. The maintenance operation system according to claim 5, wherein when the communication from the management network to the management network communication unit becomes impossible, the mobile phone is authenticated by authentication of a security code preset in the operation server. A maintenance and operation system for storage battery-equipped devices that sets communication setting information of the management network communication unit from an information terminal via the communication line. The maintenance operation system according to any one of claims 5 to 7, wherein the portable information terminal includes an analysis application that analyzes and displays the management information acquired from the management information storage unit. Maintenance operation system. 9. The maintenance operation system according to claim 8, wherein the analysis application displays the management information acquired and analyzed by the operation server from the management information storage unit.

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