JP5477243B2 - Storage battery management server, storage battery management apparatus, storage battery management system, storage battery management method, storage battery management program, and computer-readable recording medium - Google Patents

Description

  The present invention relates to a storage battery management server, a storage battery management device, a storage battery management system, a storage battery management method, a storage battery management program, and a computer-readable recording medium that control a storage battery via a network.

  In recent years, the range of use of storage batteries has expanded rapidly. For example, in order to efficiently use electric power generated by a generator using natural energy such as a solar battery, a storage battery is actively used. Conventionally, control of these storage batteries is performed automatically or based on a user instruction by a management device installed for each individual storage battery or for each assembled battery including a plurality of storage batteries.

  However, the control of the storage battery has become complicated with the expansion of the use range of the storage battery, and it is difficult to cope with the conventional management device. However, if a management device capable of complex control is provided in each storage battery, the manufacturing cost of the storage battery becomes very high. In addition, in the future, it is conceivable that storage batteries will be widely arranged (for example, one unit is installed in each household). Therefore, it is hoped that a technology capable of controlling these storage batteries in one place will be developed. It is rare.

  This invention is made | formed in view of said problem, The objective is to provide the storage battery management system which can control easily the storage battery arrange | positioned widely.

  The storage battery management server of the present invention is a storage battery management server connected via a network to a storage battery management device that controls the storage battery in order to solve the above-described problem, and a server-side communication unit that communicates with the storage battery management device; The server-side acquisition unit that acquires storage battery information from the storage battery management device via the server-side communication unit, and the management table that is stored in the storage unit and that associates the storage battery information with the control content of the storage battery management device A control determination unit that determines the control content corresponding to the storage battery information acquired by the server side acquisition unit, and a server side control unit that controls the storage battery management device via the server side communication unit based on the determination result of the control determination unit; It is characterized by having.

  The storage battery management device of the present invention is a storage battery management device that controls a storage battery based on an instruction from the storage battery management server, and acquires storage battery information from the storage battery, a device-side communication unit that communicates with the storage battery management server. A device-side acquisition unit that transmits storage battery information to the storage battery management server via the device-side communication unit, and a device-side control unit that controls the storage battery based on instructions from the storage battery management server received via the device-side communication unit It is characterized by comprising.

  Moreover, the storage battery management system of this invention is provided with the management server mentioned above and the storage battery management apparatus mentioned above, It is characterized by the above-mentioned.

  The storage battery management server control method of the present invention is a storage battery management server control method connected via a network to a storage battery management device that controls the storage battery, and includes a server side communication unit that communicates with the storage battery management device. In the storage battery information acquisition step, the storage battery information acquisition step for acquiring storage battery information from the storage battery management device and the management table stored in the storage unit that associates the storage battery information with the control content of the storage battery management device are referred to. A control determination step for determining control content corresponding to the acquired storage battery information, and a storage battery management device control step for controlling the storage battery management device via the server-side communication unit based on a determination result in the control determination step. It is said.

  Moreover, the control method of the storage battery management apparatus of this invention is a control method of the storage battery management apparatus which controls a storage battery based on the instruction | indication from a storage battery management server, Comprising: The storage battery information acquisition process which acquires storage battery information from a storage battery, A storage battery A storage battery is controlled based on a storage battery information transmission step for transmitting storage battery information to the storage battery management server via a device side communication unit that communicates with the management server, and an instruction from the storage battery management server received via the device side communication unit And a storage battery control process.

  The storage battery management server and the storage battery management device may be realized by a computer. In this case, the storage battery management server and the storage battery management device are realized by a computer by causing the computer to operate as each means. An information management program to be recorded and a computer-readable recording medium on which the information management program is recorded also fall within the scope of the present invention.

  The storage battery management system of the present invention can easily control storage batteries arranged widely.

It is a functional block diagram which shows the function of the storage battery management system which concerns on this invention. It is the management table which matched the information of the storage battery, the state of the storage battery, and the control content. It is the identification table which matched identification information and the data of a storage battery. (A)-(C) are the flowcharts for demonstrating operation | movement of a storage battery management system. It is a perspective view which shows the modification of a storage battery.

(Configuration of storage battery management system 1)
The configuration of the storage battery management system 1 according to the present invention will be described with reference to FIG. FIG. 1 is a functional block diagram showing functions of the storage battery management system 1. The storage battery management system 1 includes a storage battery management device 2 and a management server 3. The storage battery management device 2 is connected to at least one storage battery 4. The storage battery management system 1 controls the storage battery 4 optimally by controlling the storage battery management apparatus 2 with the management server 3 via a network. The network may be wired or wireless.

  The storage battery management device 2 includes a device-side communication unit 5, a device-side acquisition unit 6, and a device-side control unit 7. The storage battery management device 2 is connected to the device-side storage unit 8 and the notification unit 9. The storage battery management device 2 acquires storage battery information from the storage battery 4 and transmits it to the management server 3, and controls the storage battery 4 and notifies the user based on the control information received from the management server 3.

  The device storage unit 8 stores a control program for executing various controls of the storage battery 4 and identification information of the storage battery management device 2. The control program is periodically updated to the latest program by the management server 3. The notification unit 9 notifies the user based on an instruction from the management server 3 when the storage battery 4 is abnormal or when the storage battery 4 has a lifetime. In FIG. 1, the device-side storage unit 8 and the notification unit 9 are provided outside the storage battery management device 2, but may be provided inside the storage battery management device 2.

  The device-side communication unit 5 is connected to the management server 3 via a network, and transmits / receives data to / from the management server 3.

  The device-side acquisition unit 6 acquires storage battery information from the storage battery 4. Here, the storage battery information includes current, voltage, temperature, and the like of the storage battery. When the device-side acquisition unit 6 acquires the storage battery information, the device-side acquisition unit 6 associates the storage battery information with the identification information of the storage battery management device 2 stored in the device-side storage unit 8 and transmits the storage battery information to the management server 3 via the device-side communication unit 5. Send.

  When the device-side control unit 7 acquires control information from the management server 3 via the device-side communication unit 5, the device-side control unit 7 controls the storage battery 4 and notifies the user based on the control information and the control program stored in the device-side storage unit 8. I do.

  The management server 3 includes a server side communication unit 10, a server side acquisition unit 11, a control determination unit 12, and a server side control unit 13. The management server 3 is connected to the server-side storage unit 14. The server side storage unit 14 stores a management table, an identification table, and the like. The management table associates storage battery information, storage battery status, and control content. In addition, the identification table associates the identification information of the storage battery management device 2 with the storage battery data of the storage battery 4. When the management server 3 acquires the storage battery information from the storage battery management device 2, the management server 3 refers to the management table and the identification table stored in the server-side storage unit 14 and transmits optimal control information to the storage battery management device 2. In FIG. 1, the server-side storage unit 14 is provided outside the management server 3, but may be provided inside the management server 3.

  The server-side communication unit 10 is connected to the storage battery management device 2 via a network, and transmits and receives data to and from the storage battery management device 2.

  The server-side acquisition unit 11 acquires storage battery information from the storage battery management device 2 via the server-side communication unit 10 and stores it in the identification table of the server-side storage unit 14.

  The control determination unit 12 refers to the management table stored in the server-side storage unit 14 and determines the control content of the storage battery management device 2 based on the storage battery information acquired by the server-side acquisition unit 11.

  Here, the management table stored in the server-side storage unit 14 will be described in detail with reference to FIG. FIG. 2 is a diagram illustrating a management table. Here, the storage battery information is assumed to be current, voltage, and temperature.

  In the management table, storage battery information (current / voltage / temperature), storage battery status, and control contents are associated with each other. The “storage battery state” is the state of the storage battery inferred from the storage battery information. For example, when the current is within the normal value range, the voltage is higher than the normal value, and the temperature is higher than the normal value, the state of the storage battery is estimated to be “overcharged”. Further, when the current is lower than the normal value, the voltage is higher than the normal value, and the temperature is within the range of the normal value, the state of the storage battery is estimated to be “near life”. “Control content” is specific control content for responding to the estimated state of the storage battery. For example, when the state of the storage battery is “overcharge”, the storage battery 4 is “stopped charging”. Further, when the state of the storage battery is “near the end of life”, “notify the user” and prompt the user to replace the storage battery.

  Furthermore, the control determination part 12 creates the control information for controlling the storage battery management apparatus 2 with reference to the identification table memorize | stored in the server side memory | storage part 14 based on the determined control content. Here, the “control information” is data including a specific control instruction created based on the control content determined by the control determination unit 12.

  Here, the identification table stored in the server-side storage unit 14 will be described in detail with reference to FIG. FIG. 3 is a diagram showing an identification table.

  In the identification table, the identification information of each storage battery management device 2 is associated with the storage battery data of the storage battery 4 corresponding to each storage battery management device 2. Since a plurality of storage battery management devices 2 are connected to the management server 3, information on the storage batteries 4 connected to each storage battery management device 2 is managed in the identification table. “Identification information” is information assigned to each storage battery management device 2 and is used to identify a large number of storage battery management devices 2 connected to the management server 3. “Storage battery data” is various pieces of information of the storage battery 4 required to execute the control content determined by the control determination unit 12. Here, the storage battery data of the storage battery 4 is the storage battery type, the number of storage batteries, the current capacity of the storage battery, and storage battery information received from the storage battery management device 2 in the past.

  The server-side control unit 13 transmits the control information created by the control determining unit 12 to the storage battery management device 2 via the server-side communication unit 10. Moreover, the server side control part 13 updates the control program memorize | stored in the apparatus side memory | storage part 8 of the storage battery management apparatus 2 regularly based on the past storage battery information memorize | stored in the identification table of the server side memory | storage part 14. Rewrite the program.

(Control of storage battery management system 1)
Next, the control method of the storage battery management system 1 will be described with reference to FIGS. 4A to 4C are flowcharts for explaining a control method of the storage battery management system 1. 4A and 4C show the control in the storage battery management device 2, and FIG. 4B shows the control in the management server 3. Here, a control method when the state of the storage battery 4 is “overcharge” in the management table will be described.

  First, as shown in FIG. 4A, in the storage battery management device 2, the device-side acquisition unit 6 acquires “storage battery information” of the storage battery 4 (S1). In the storage battery information obtained here, the current is a normal value, the voltage is higher than the normal value, and the temperature is higher than the normal value. And the apparatus side acquisition part 6 acquires the identification information of the storage battery management apparatus 2 from the apparatus side memory | storage part 8, and matches with storage battery information (S2). The storage battery side acquisition part 6 transmits the storage battery information which matched identification information to the management server 3 via the storage battery apparatus side communication part 5 (S3).

  Next, as shown in FIG. 4B, in the management server 3, the server-side acquisition unit 11 acquires storage battery information from the storage battery management device 2 via the server-side communication unit 10 (S4). The control determining unit 12 refers to the management table stored in the server side storage unit 14 (S5). As described above, in the storage battery information, since the current is a normal value, the voltage is higher than the normal value, and the temperature is higher than the normal value, the state of the storage battery 4 is “overcharged”. Therefore, the control determination part 12 determines the control content of a storage battery to "charge stop" (S6).

  Next, the control determination unit 12 uses the identification table stored in the server-side storage unit 14 in order to determine which storage battery management device 2 has transmitted the storage battery information acquired by the server-side acquisition unit 11. Refer to (S7). The control determination part 12 compares the identification information of the storage battery management apparatus 2 matched with storage battery information, and the identification information of an identification table, and determines the storage battery management apparatus 2 from which storage battery information was transmitted (S8). Then, the control determination unit 12 refers to the storage battery data of the storage battery 4 connected to the storage battery management device 2 and creates control information including instruction content for executing the determined control content “charge stop” ( S9). The server side control part 13 transmits the control information created by the control determination part 12 to the storage battery management apparatus 2 through the server side communication part 10 (S10).

  Next, as shown in FIG.4 (C), in the storage battery management apparatus 2, the apparatus side control part 7 acquires control information via the apparatus side communication part 5 (S11). And the apparatus side control part 7 performs the control program according to the acquired control information among the control programs memorize | stored in the apparatus side memory | storage part 8, and stops the charge to the storage battery 4 (S12).

  In addition, when the state of the storage battery 4 is “coming soon” in the management table, the device-side control unit 7 notifies the user by the notification unit 9.

(effect)
Below, the effect of the storage battery management system 1 of this invention is demonstrated.

  (1) In the storage battery management system 1, the management server 3 controls the storage battery management apparatus 2 via a network. Thereby, it is possible for the management server 3 to control the storage battery management device 2 and the storage battery 4 wherever the storage battery management device 2 and the storage battery 4 are arranged.

  (2) In the storage battery management system 1, in the storage battery management device 2, the device-side acquisition unit 6 transmits data that associates the storage battery information of the storage battery 4 with the identification information of the storage battery management device 2 to the management server 3. In the management server 3, the control determination unit 12 determines the control content with reference to the management table based on the acquired storage battery information, and transmits the storage battery information with reference to the identification table based on the determined control content. The control information according to the storage battery management apparatus 2 which has done is created. The storage battery management device 2 is connected to storage batteries 4 of different types, numbers, current capacities and the like. Therefore, in the management server 3, after determining the control content according to storage battery information by the control determination part 12, in order to implement | achieve the control content, it is necessary to create the control information according to each storage battery management apparatus 2. FIG. With the configuration described above, the management server 3 can identify the storage battery management device 2 that has transmitted the storage battery information, and obtain storage battery data of the storage battery 4 connected to the storage battery management device 2, so that the storage battery management device 2 It is possible to create control information according to the conditions. That is, even when a large number of storage battery management devices 2 are connected to the management server 3, the management server 3 can create appropriate control information according to each storage battery management device 2.

  (3) The server-side control unit 13 periodically updates the control program of the device-side storage unit 8 of the storage battery management device 2 to the latest program based on the past storage battery information stored in the identification table of the server-side storage unit 14. rewrite. When the storage battery 4 is used, its properties and capacity change. Therefore, the control program stored in the device-side storage unit 8 that executes control of the storage battery 4 also needs to be updated periodically according to the current state of the storage battery 4. As described above, the server-side control unit 13 can easily create the latest control program without collecting new data by using past storage battery information stored in the identification table. is there.

  As mentioned above, although the structure of the storage battery management system 1 was demonstrated, the storage battery management system of this invention is not limited to the structure mentioned above, A various change is possible in the range shown to the claim.

(Modification)
Below, the modification of a storage battery management system and its effect are demonstrated.

  (1) The storage battery management device 2 is connected to at least one storage battery 4. For example, as shown in FIG. 5, the storage battery management device 2 may be connected to an assembled battery in which a plurality of storage batteries 4 are series-parallel. In this case, the device-side acquisition unit 6 of the storage battery management device 2 acquires storage battery information from each storage battery 4 and transmits the storage battery information in association with the identification information of the storage battery management device 2 to the management server 3. In the management server 3, the server side acquisition unit 11 stores the storage battery information of each storage battery 4 in the identification data of the server side storage unit 14. Thereby, in the storage battery management system 1, the present condition of each storage battery 4 can be grasped | ascertained and it can control appropriately.

  (2) The control determination unit 12 of the management server 3 determines the control content of the storage battery management device 2 with reference to the management table based on the storage battery information acquired by the server side acquisition unit 11, and controls with reference to the identification table. Although the specific control information of the storage battery management apparatus 2 is created from the contents, the present invention is not limited to this. Instead of the management table and the identification table, the control information of the storage battery management device 2 is created based on the storage battery information acquired by the server-side acquisition unit 11 with reference to data in which the storage battery information is associated with a predetermined mathematical expression. Also good.

  (3) The storage battery 4 may be configured to supply power to devices such as an air conditioner, a kitchen device, a showcase, and a large factory air conditioning system device. When the storage battery 4 supplies electric power to these devices, the storage battery management system 1 can efficiently use electric power by performing charge / discharge control of the storage battery 4 according to each device.

  (4) In the storage battery management system 1, the storage battery management device 2 controls the storage battery 4 based on an instruction from the management server 3, but for predetermined control, the storage battery 4 is controlled based on the judgment of only the storage battery management device 2. It may be configured to.

  In this case, the device-side storage unit 8 stores a second management table in which storage battery information of the storage battery 4 is associated with predetermined control. The device-side storage unit 8 stores the predetermined control and a control program corresponding to the predetermined control.

  When the device-side acquisition unit 6 acquires the storage battery information of the storage battery 4, the device-side control unit 7 refers to the second management table and determines whether the acquired storage battery information corresponds to a predetermined control. When the device-side control unit 7 determines that the acquired storage battery information does not correspond to the predetermined control, the device-side control unit 7 associates the storage battery information with the identification information of the storage battery management device 2 and manages it through the device-side communication unit 5. Send to server 3.

  When it is determined that the acquired storage battery information corresponds to the predetermined control, the device-side control unit 7 executes a control program corresponding to the determined predetermined control among the control programs stored in the device-side storage unit 8. To do. Since the control program is periodically updated to the latest state by the management server 3, optimal control according to the current state of the storage battery 4 can be performed without depending on an instruction from the management server 3.

DESCRIPTION OF SYMBOLS 1 Storage battery management system 2 Storage battery management apparatus 3 Management server 4 Storage battery 5 Apparatus side communication part 6 Apparatus side acquisition part 7 Apparatus side control part 8 Apparatus side memory | storage part 9 Notification part 10 Server side communication part 11 Server side acquisition part 12 Control determination part 13 Server side control unit 14 Server side storage unit

Claims (8)

A storage battery monitoring method in a storage battery monitoring system comprising a plurality of storage battery management devices that control one or more storage batteries, and a storage battery monitoring server connected to the plurality of storage battery management devices via a communication network,
Receiving storage battery information including parameters for determining the state of the storage battery connected to each storage battery management device via the communication network,
The control content corresponding to the received storage battery information is determined with reference to a management table in which the storage battery information is associated with the control content of the storage battery,
Generate a control signal for performing the determined control content, transmit to each corresponding storage battery management device, control the storage battery connected to each storage battery management device,
The management table includes control details for stopping the operation of the storage battery when the parameter of the storage battery information deviates from a predetermined allowable value.
When storage battery information corresponding to a storage battery connected to one storage battery management apparatus among the plurality of storage battery management apparatuses is outside the predetermined allowable value, a control signal for stopping the operation of the storage battery is generated,
Transmitting the control signal to the one storage battery management device to stop the operation of the storage battery;
Storage battery monitoring method. The storage battery information includes at least storage battery temperature information,
When the temperature information included in the received storage battery information deviates from the first allowable value in the storage battery information of the management table, control is performed to stop the operation of the storage battery.
The storage battery monitoring method according to claim 1. The management table further includes control details for notifying that the storage battery is near the end of its life when the parameter of the storage battery information deviates from the second allowable value.
When storage battery information corresponding to a storage battery connected to one storage battery management apparatus among the plurality of storage battery management apparatuses is out of the second allowable value, a control signal for notifying that the storage battery is nearing the end of its life Generate
Transmitting the control signal to the one storage battery management device to notify the predetermined notification means that the storage battery is nearing the end of its life,
The storage battery monitoring method according to claim 1 or 2. The storage battery information received from each storage battery management device is associated with identification information for identifying the storage battery management device that has transmitted the storage battery information,
With reference to the identification table in which the identification information of each storage battery management device is associated with the storage battery data related to the storage battery connected to each storage battery management device,
A storage battery connected to the storage battery management device by identifying the storage battery management device to which the storage battery information has been transmitted by collating the identification information associated with the storage battery information with the identification information of the identification table With reference to the storage battery data
Based on the storage battery data, the control signal corresponding to the storage battery connected to each storage battery management device is generated.
The storage battery monitoring method according to claim 1. A plurality of storage batteries are connected to the storage battery management device,
The identification table stores storage battery data related to each of the plurality of storage batteries in association with the identification information of the storage battery management device,
Generating the control signal corresponding to each storage battery management device based on the storage battery data of the plurality of storage batteries;
The storage battery monitoring method according to claim 4. The storage battery management device includes a storage unit that associates storage battery information of a storage battery with predetermined control,
Obtaining the storage battery information relating to the storage battery connected to each storage battery management device;
When it is determined that the acquired storage battery information does not correspond to the predetermined control, the acquired storage battery information is transmitted, and the storage battery is controlled based on the received control signal without performing the predetermined control, When it is determined that the acquired storage battery information corresponds to a predetermined control, the predetermined control is executed regardless of whether or not the control signal is received.
The storage battery monitoring method according to any one of claims 1 to 5. A storage battery monitoring system comprising a plurality of storage battery management devices that control one or more storage batteries, and a storage battery monitoring server connected to the plurality of storage battery management devices via a communication network,
The storage battery monitoring server is
Receiving storage battery information including parameters for determining the state of the storage battery connected to each storage battery management device via the communication network,
The control content corresponding to the received storage battery information is determined with reference to a management table in which the storage battery information is associated with the control content of the storage battery,
Generate a control signal for performing the determined control content, and transmit to each corresponding storage battery management device,
Each storage battery management device controls the storage battery based on the received control signal,
The management table includes control details for stopping the operation of the storage battery when the parameter of the storage battery information deviates from a predetermined allowable value.
The storage battery monitoring server is
When storage battery information corresponding to a storage battery connected to one storage battery management apparatus among the plurality of storage battery management apparatuses is outside the predetermined allowable value, a control signal for stopping the operation of the storage battery is generated, Sending a control signal to the one storage battery management device;
The one storage battery management device is:
When the control signal for stopping the operation of the storage battery is received, the operation of the storage battery connected to the one storage battery management device is stopped,
Storage battery management system.   A storage battery management device connected to the storage battery monitoring system according to claim 7.

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