WO2022059553A1 - Information terminal device, and processing system - Google Patents

Abstract

This information terminal device includes a control unit 320. The control unit 320 includes an acquiring unit 322. The acquiring unit 322 acquires information from a first storage battery pack 100a by means of direct wireless communication with the first storage battery pack 100a. The control unit 320 executes push notification if the information acquired by the acquiring unit 322 satisfies a push notification condition. Meanwhile, the control unit 320 does not execute push notification if the information acquired by the acquiring unit 322 does not satisfy the push notification condition.

Description

Information terminal equipment, processing system

This disclosure relates to control technology, and particularly to an information terminal device and a processing system for acquiring information from a storage battery.

The storage battery pack to be recalled is generally collected by the manufacturer. At that time, it is required to estimate the location of the storage battery pack to be recalled. Therefore, the charger to which the storage battery pack can be attached and detached is provided with a communication function for communicating with the server device via the base station, and the charger transmits the identification information of the storage battery pack to the server device. The server device identifies whether or not the storage battery pack is subject to recall based on the identification information of the storage battery pack, and based on the identification information of the base station that relays the identification information of the battery pack, the server device of the storage battery pack Estimate the location (see, for example, Patent Document 1).

Japanese Unexamined Patent Publication No. 2019-191833

By using the storage battery pack, it is possible to supply power to various devices. It is required to improve the usability of such a storage battery pack.

This disclosure was made in view of these circumstances, and the purpose is to provide a technology for improving the ease of use of the storage battery pack.

In order to solve the above problems, the information terminal device of a certain aspect of the present disclosure includes an acquisition unit that acquires information from the storage battery pack by direct wireless communication with the storage battery pack, and a push notification condition that the information acquired by the acquisition unit is a push notification condition. It is provided with a control unit that executes push notification when the condition is satisfied. The control unit does not execute push notification when the information acquired by the acquisition unit does not satisfy the push notification condition.

Another aspect of the present disclosure is also an information terminal device. This device has an acquisition unit that acquires information from the storage battery pack by direct wireless communication with the storage battery pack, a storage unit that stores a management code that has already been issued, and a storage battery pack management code for the information acquired by the acquisition unit. In the first state in which the management codes stored in the storage unit match, the control unit is provided to executively control the first process and the second process for the storage battery pack. The control unit controls the second process for the storage battery pack in an executable manner while controlling the first process for the storage battery pack in a second state different from the first state.

Yet another aspect of the present disclosure is a processing system. This processing system includes a storage battery pack and an information terminal device capable of performing direct wireless communication with the storage battery pack. The information terminal device includes an acquisition unit that acquires information from the storage battery pack by direct wireless communication with the storage battery pack, and a control unit that executes push notification when the information acquired by the acquisition unit satisfies the push notification condition. .. The control unit does not execute push notification when the information acquired by the acquisition unit does not satisfy the push notification condition.

Yet another aspect of the present disclosure is also a processing system. This processing system includes a storage battery pack and an information terminal device capable of performing direct wireless communication with the storage battery pack. The information terminal device has an acquisition unit that acquires information from the storage battery pack by direct wireless communication with the storage battery pack, a storage unit that stores a management code that has already been issued, and a storage battery pack management code for the information acquired by the acquisition unit. And a control unit that executively controls the first process and the second process for the storage battery pack in the first state in which the management codes stored in the storage unit match. The control unit controls the second process for the storage battery pack in an executable manner while controlling the first process for the storage battery pack in a second state different from the first state.

It should be noted that any combination of the above components and the conversion of the expression of the present disclosure between methods, devices, systems, recording media, computer programs, etc. are also effective as aspects of the present disclosure.

According to this disclosure, the ease of use of the storage battery pack can be improved.

It is a figure which shows the structure of the charge / discharge system which concerns on Example 1. FIG. It is a figure which shows the structure of the charge / discharge system of FIG. It is a figure which shows the data structure of the table stored in the storage part of FIG. It is a sequence diagram which shows the communication procedure by the charge / discharge system of FIG. 5 (a)-(b) is a diagram showing a screen displayed on the display unit of FIG. 2. 6 (a)-(c) are views showing another screen displayed on the display unit of FIG. 2. 7 (a)-(b) are views showing still another screen displayed on the display unit of FIG. 2. It is a sequence diagram which shows the display procedure by the charge / discharge system of FIG. 9 (a)-(b) are diagrams showing the configuration of the charge / discharge system according to the second embodiment. 9 (a)-(b) is a sequence diagram showing a lighting procedure by the charging / discharging system. 11 (a)-(c) are sequence diagrams showing a communication procedure by the charge / discharge system of the third embodiment. 12 (a)-(b) are views showing a screen displayed on the display unit of the third embodiment. 13 (a)-(c) are sequence diagrams showing another communication procedure by the charge / discharge system of the third embodiment. 14 (a)-(b) are sequence diagrams showing another communication procedure by the charge / discharge system of the third embodiment. It is a figure which shows the data structure of the table stored in the storage part of Example 4.

(Example 1)
An outline of the examples will be described before the examples of the present disclosure are specifically described. This embodiment relates to a charging / discharging system that enables charging / discharging of a storage battery pack by connecting the storage battery pack to a charging / discharging device. When the storage battery pack contains, for example, a lithium ion secondary battery, various states of the lithium ion secondary battery are acquired in the storage battery pack in order to use the storage battery pack safely. The various states are, for example, the remaining amount and the abnormal state. If such various information is transmitted from the storage battery pack to the information terminal device such as a smartphone by wireless communication, the information terminal device can confirm the various information. For wireless communication, for example, a short-range wireless communication system is used.

However, when a plurality of storage battery packs are present in the vicinity of the information terminal device, the ease of use is reduced unless the various states of the plurality of storage battery packs can be immediately confirmed. Therefore, the application program for the storage battery pack (hereinafter referred to as "application") according to this embodiment acquires various information of each of the plurality of storage battery packs by wireless communication and visualizes the various information so that they can be listed. Has a function.

In addition, it is preferable to be able to confirm the abnormal state of the charging / discharging device to which the storage battery pack is connected. However, in order to simplify the configuration of the charging / discharging device, the charging / discharging device is not equipped with a wireless communication function. Therefore, the charging / discharging device according to the present embodiment outputs the information of the abnormal state to the storage battery pack, and the storage battery pack transmits the information of the charging / discharging device to the information terminal device. As a result, the application according to the present embodiment has a function of visualizing information on the charging / discharging device to which the storage battery pack is connected. Here, the present embodiment will be described in the order of (1) basic configuration, (2) state determination, (3) communication by short-range wireless communication system, and (4) information display.

(1) Basic configuration FIG. 1 shows the configuration of the charge / discharge system 1000. The charging / discharging system 1000 includes a first storage battery pack 100a to a third storage battery pack 100c collectively referred to as a storage battery pack 100, a first charging / discharging device 200a to a third charging / discharging device 200c collectively referred to as a charging / discharging device 200, and an information terminal device. Includes 300, network 400, and server device 500. The number of the storage battery pack 100 and the charging / discharging device 200 is not limited to “3”.

The storage battery pack 100 includes a secondary battery such as a lithium ion secondary battery, and manages the state based on various states of the lithium ion secondary battery. The storage battery pack 100 is removable from the charging / discharging device 200, and when the storage battery pack 100 is attached to the charging / discharging device 200, the charging / discharging device 200 executes charging / discharging to the storage battery pack 100 and also charges / discharges the storage battery pack 100. Performs communication with the device 200. The storage battery pack 100 executes communication corresponding to the short-range wireless communication system. The short-range wireless communication system is, for example, Bluetooth (registered trademark) and BLE (Bluetooth Low Energy).

The information terminal device 300 is, for example, a smartphone, a tablet terminal, or a PC. The information terminal device 300 corresponds to the same short-range wireless communication system as the storage battery pack 100, and can execute direct wireless communication with the storage battery pack 100. The information terminal device 300 is connected to the network 400 and can communicate with the server device 500 via the network 400. For the network 400, for example, a wireless communication system such as 5G or 4G is used. Further, the Internet may be combined with the network 400. Generally, the communicable range of the wireless communication system is wider than the communicable range of the short-range wireless communication system. The information terminal device 300 executes an application program (hereinafter, also referred to as “application”) for controlling the storage battery pack 100. The processing by the application will be described later.

The server device 500 is used by the manufacturer or the business operator who manufactured the storage battery pack 100. The server device 500 is connected to the network 400 and executes, for example, a process for providing various information to an application.

FIG. 2 shows the configuration of the charge / discharge system 1000. FIG. 2 shows the configurations of the first storage battery pack 100a to the third storage battery pack 100c, the first charging / discharging device 200a to the third charging / discharging device 200c, and the information terminal device 300 in FIG. The first storage battery pack 100a includes a storage battery 110, a control unit 120, a storage unit 130, a first communication unit 140, a notification unit 150, and an operation unit 180, and the control unit 120 includes a determination unit 160 and a second communication unit 170. .. The first charge / discharge device 200a includes a charge / discharge circuit 210, a control unit 220, a communication unit 230, a power plug 250, a power supply unit 260, a cooling fan 270, and a discharger 280, and the control unit 220 includes a reception unit 240. .. The information terminal device 300 includes a first communication unit 310, a control unit 320, a storage unit 330, a display unit 340, an operation unit 350, and a second communication unit 360, and the control unit 320 includes an acquisition unit 322 and an output unit 324. .. The second storage battery pack 100b and the third storage battery pack 100c have the same configuration as the first storage battery pack 100a, and the second charge / discharge device 200b and the third charge / discharge device 200c have the same configuration as the first charge / discharge device 200a. ..

The storage battery 110 of the storage battery pack 100 is a secondary battery such as a lithium ion secondary battery. The storage battery 110 is connected to the control unit 120 and is controlled by the control unit 120. The control unit 120 controls the overall operation of the storage battery pack 100. An example of the operation is the determination of the state of the storage battery 110 made by the determination unit 160. In order to determine the state, the degree of deterioration of the storage battery 110 may be determined. The storage unit 130 stores a table used by the determination unit 160 to determine the state of the storage battery 110. The storage battery pack 100 is provided with a power supply unit (not shown), and the storage battery 110 may output power from the power supply unit. An example of the power supply unit is a USB (Universal Serial Bus) terminal.

The first communication unit 140 communicates with the information terminal device 300 by executing communication corresponding to the short-range wireless communication system. The notification unit 150 is an interface for notifying the user of various information. The notification unit 150 includes, for example, a plurality of LEDs (Light Emitting Diodes), and changes the lighting pattern of the plurality of LEDs according to the content of the information. The second communication unit 170 can execute serial communication such as RS-485, RS-422, RS-232C, etc., and when the storage battery pack 100 is connected to the charging / discharging device 200, the second communication unit 170 and the charging / discharging device 200 connect. The operation unit 180 is a user-operable interface, for example, a button.

The power plug 250 of the charging / discharging device 200 is detachably connected to an external AC power supply. When the power plug 250 is connected to an AC power source, the AC power source can supply AC power to the charging / discharging device 200, for example, AC power of up to 330 W. If the storage battery pack 100 is connected to the connection portion (not shown) of the charge / discharge device 200 when the power plug 250 is connected to the AC power supply, the charge / discharge circuit 210 of the charge / discharge device 200 is connected to the power plug 250. The AC power from the above is converted into DC power to charge the storage battery 110.

The power supply unit 260 is detachably connected to an external electronic device. When an electronic device is connected to the power supply unit 260, the charging / discharging device 200 can supply AC power to the electronic device. If an electronic device is connected to the power supply unit 260 and the storage battery pack 100 is connected to the connection unit (not shown) of the charge / discharge device 200, the charge / discharge circuit 210 of the charge / discharge device 200 will be the storage battery 110. The DC power from is converted into AC power, and the AC power is output from the power supply unit 260. Even when the AC power supply fails, the charging / discharging circuit 210 converts the DC power from the storage battery 110 into AC power, and the charging / discharging circuit 210 of the charging / discharging device 200 outputs the AC power from the power supply unit 260. At that time, the charge / discharge circuit 210 discharges the storage battery 110 to the first level. The first level is predetermined.

The cooling fan 270 rotates to blow air to the charge / discharge circuit 210. By blowing air, the temperature rise of the charge / discharge circuit 210 is suppressed. Since the cooling fan 270 is not limited to cooling, it may be a fan. The control unit 220 is connected to the charge / discharge circuit 210 and controls the overall operation of the charge / discharge device 200. The communication unit 230 can be connected to the second communication unit 170, and communicates with the storage battery pack 100 by the above-mentioned serial communication. For example, when the control unit 220 detects an abnormal state of the charging / discharging device 200, information for notifying the abnormal state of the charging / discharging device 200 (hereinafter referred to as “charging / discharging device abnormality notification”) is transmitted from the communication unit 230 to the storage battery pack. Send to 100. An example of an abnormal state of the charging / discharging device 200 is that the cooling fan 270 cannot rotate. Since a known technique may be used for detecting an abnormal state in the control unit 220, the description thereof will be omitted here.

The first communication unit 310 of the information terminal device 300 communicates with the storage battery pack 100 by executing communication corresponding to the short-range wireless communication system. The control unit 320 is connected to the first communication unit 310 and controls the overall operation of the information terminal device 300. The control unit 320 executes the process provided by the application by, for example, executing the application stored in the storage unit 330. The display unit 340 is a display for displaying information, and the operation unit 350 is an interface for receiving instructions from the user. The display unit 340 and the operation unit 350 may be integrated as a touch panel. The second communication unit 360 communicates with the server device 500 via the network 400 of FIG. 1 by executing communication corresponding to the wireless communication system.

(2) Status determination The determination unit 160 of the control unit 120 measures various states of the storage battery 110, that is, the storage battery pack 100. The various states are, for example, the remaining battery level, SOH (State Of Health), the average temperature of the storage battery, the internal resistance value of the storage battery, the elapsed period since the storage battery pack 100 was manufactured, the total charge amount, the total discharge amount, and the like. be. Here, the remaining battery level is the remaining amount of the storage battery 110. SOH indicates the ratio of the current full charge capacity to the initial full charge capacity of the storage battery 110, and corresponds to, for example, the learning capacity. The elapsed period from the manufacture of the storage battery pack 100 is measured by the difference between the current date acquired by the clock function provided in the determination unit 160 and the manufacture date of the storage battery pack 100 stored in the storage unit 130. To. Since known techniques may be used for these measurements, the description thereof will be omitted here.

The determination unit 160 determines the state of the storage battery pack 100 based on various measured states while referring to the table stored in the storage unit 130. An example of the state is the degree of deterioration, and the degree of deterioration is a value indicating the degree of deterioration of the storage battery pack 100 from the initial state, and is shown in, for example, five stages. FIG. 3 shows the data structure of the table stored in the storage unit 130. Here, the degree of deterioration increases in the order of degree A, degree B, degree C, degree D, and degree E. Deterioration A is a state in which SOH is 90% or more, deterioration B is a state in which SOH is lower than 89% and 90% or more, and deterioration degree C is a state in which SOH is lower than 79% and 70% or more. The degree of deterioration D is a state in which SOH is lower than 69% and 60% or more, and the degree of deterioration E is a state in which SOH is lower than 59%. That is, the degree of deterioration A is the lowest degree of deterioration and indicates a state close to the initial state. On the other hand, the degree of deterioration E is the highest degree of deterioration, indicating a state in which deterioration is most advanced. Such a degree of deterioration A indicates a state close to a new product, a degree of deterioration B indicates a state of being slightly deteriorated, a degree of deterioration C indicates a state of being considerably deteriorated, a degree of deterioration D indicates a state before the life, and a degree of deterioration E. Can be said to indicate the state of life. Here, the degree of deterioration D or E corresponds to a state in which an abnormality has occurred in the storage battery pack 100, and the notification of the degree of deterioration D or E is information for notifying the abnormal state of the storage battery pack 100 (hereinafter, “battery pack abnormality”). It corresponds to "notification"). The storage battery pack abnormality notification can also be called a notification of recommendation for disposal.

Here, the number of discharges is one when the discharge is 10 wh or more. The number of times of charging is one when the battery is charged for 50 wh or more. The average number of charges and discharges is the average number of monthly averages. Awh> Dwh, Bwh> Ewh, C time> F time, and the conditions are such that the transition is easy (the degree of deterioration is high) depending on the frequency of use. Return to FIG.

(3) Communication by Short-range Wireless Communication System As described above, communication by the short-range wireless communication system is executed between the first communication unit 140 of the storage battery pack 100 and the first communication unit 310 of the information terminal device 300. To. Here, an outline of BLE will be described with reference to FIG. 4 as an example of a short-range wireless communication system. FIG. 4 is a sequence diagram showing a communication procedure by the charging / discharging system 1000. The storage battery pack 100 periodically transmits advertisements (S10, S12). Upon receiving the advertisement, the information terminal device 300 executes a scan (S14).

The information terminal device 300 transmits a connection request to the storage battery pack 100 (S16). The storage battery pack 100 transmits a connection response (S18). As a result, the connection between the storage battery pack 100 and the information terminal device 300 is established (S20). The information terminal device 300 transmits the read to the storage battery pack 100 (S22). The read is a request for transmitting information to the storage battery pack 100. The storage battery pack 100 transmits a read response to the information terminal device 300 (S24). The read response is information corresponding to the transmission request. The information terminal device 300 transmits a disconnection request to the storage battery pack 100 (S26). The storage battery pack 100 transmits a disconnection response to the information terminal device 300 (S28). As a result, the connection between the storage battery pack 100 and the information terminal device 300 is disconnected (S30). Return to FIG.

(4) Information Display In order to explain the processing in the information terminal device 300, here, FIGS. 5 (a)-(b), 6 (a)-(c), and 7 (a)-(b) are shown. Also used. 5 (a)-(c) show a screen displayed on the display unit 340. FIG. 5A shows a screen displayed on the display unit 340 when the application is not started in the information terminal device 300 in which the application is installed. Multiple icons are displayed on the screen. The user of the information terminal device 300 selects the icon 600 by operating the operation unit 350 while looking at the screen displayed on the display unit 340 as shown in FIG. 5A. The user's instruction to select the icon 600 is output from the operation unit 350 to the control unit 320. When the control unit 320 receives the selection instruction, the control unit 320 activates the application stored in the storage unit 330. In the application, the first storage battery pack 100a to the third storage battery pack 100c are registered as communication targets by the short-range wireless communication system.

When the application is started, the control unit 320 controls the first communication unit 310 to execute communication with the registered first storage battery pack 100a as described above. At that time, the read is a request for transmission of information (hereinafter referred to as "first information") from the first storage battery pack 100a. When the first communication unit 140 of the first storage battery pack 100a receives the read, the control unit 120 transmits the first information including various states determined by the determination unit 160 from the first communication unit 140 to the information terminal device 300. Let me. At that time, the first information may include a storage battery pack abnormality notification (hereinafter, referred to as "first storage battery pack abnormality notification") of the first storage battery pack 100a. Further, when the second communication unit 170 receives the charge / discharge device abnormality notification (hereinafter referred to as “first charge / discharge device abnormality notification”) from the first charge / discharge device 200a, the control unit 120 receives the first charge / discharge device abnormality notification. The discharge device abnormality notification is also included in the first information. The first information corresponds to the read response. When the first communication unit 310 of the information terminal device 300 receives the first information from the first storage battery pack 100a, the acquisition unit 322 directly connects with the first storage battery pack 100a attached to the first charging / discharging device 200a. The first information is acquired by the wireless communication of. As described above, the first information may include a first storage battery pack abnormality notification and a first charging / discharging device abnormality notification.

The control unit 320 of the information terminal device 300 also executes such processing on the second storage battery pack 100b and the third storage battery pack 100c. As a result, the acquisition unit 322 acquires the second information from the second storage battery pack 100b by direct wireless communication with the second storage battery pack 100b attached to the second charging / discharging device 200b. The second information may include a second storage battery pack abnormality notification and a second charging / discharging device abnormality notification. Further, the acquisition unit 322 acquires the third information from the third storage battery pack 100c by direct wireless communication with the third storage battery pack 100c attached to the third charging / discharging device 200c. The third information may include a third storage battery pack abnormality notification and a third charging / discharging device abnormality notification. The application executed in the control unit 320 in this way acquires information from the plurality of storage battery packs 100 and the plurality of charge / discharge devices 200.

The control unit 320 stores the first to third information acquired by the acquisition unit 322 in the storage unit 330. The storage unit 330 stores information while associating it with the serial number of each storage battery pack 100 and the serial number of each charging / discharging device 200. Further, the control unit 320 outputs the third information from the first information acquired by the acquisition unit 322 to the second communication unit 360. The second communication unit 360 transmits the first information to the third information to the server device 500 via the network 400 of FIG. The server device 500 stores the first information to the third information.

Further, the control unit 320 displays a list of the first to third information acquired by the acquisition unit 322 on the screen of the display unit 340. This corresponds to being able to collectively display information about the first storage battery pack 100a to the third storage battery pack 100c and information about the first charging / discharging device 200a to the third charging / discharging device 200c connected to them. .. FIG. 5B shows a list display screen displayed on the display unit 340. On the list display screen, the first display area 610a, the second display area 610b, ..., And the seventh display area 610g are arranged in order from the top. The first display area 610a to the seventh display area 610g are collectively referred to as a display area 610, and the display area 610 has a rectangular shape that is long in the lateral direction. The first display area 610a is an area for displaying the first information, the second display area 610b is an area for displaying the second information, and the third display area 610c displays the third information. It is an area to do. Further, the fourth display area 610d is an area for displaying the fourth information from the fourth storage battery pack 100d (not shown in FIGS. 1 and 2), and the fourth information is connected to the fourth storage battery pack 100d. Information from the fourth charging / discharging device 200d is also included. The same applies to the fifth display area 610e to the seventh display area 610g, and the description thereof will be omitted here.

In the first display area 610a, the serial number of the first storage battery pack 100a is shown as the first serial number 612a, and the battery remaining amount of the first storage battery pack 100a is shown as the first battery remaining amount 614a. In particular, the remaining amount of the first battery 614a is indicated by an indicator. The remaining amount of the first battery 614a may be indicated by a numerical value (0 to 100%). Since the display contents in the second display area 610b to the seventh display area 610g are the same as the display contents in the first display area 610a, the description thereof will be omitted here.

As an example, an abnormality notification icon 620 is displayed next to the fifth serial number 612e in the fifth display area 610e. The abnormality notification icon 620 indicates that at least one of the fifth storage battery pack abnormality notification and the fifth charging / discharging device abnormality notification is included in the fifth information. By displaying such an abnormality notification icon 620, information on the charging / discharging device 200 to which the storage battery pack 100 is connected is also displayed in a list. If at least one of the first storage battery pack abnormality notification and the first charging / discharging device abnormality notification is included in the first information, the abnormality notification icon 620 is displayed next to the first serial number 612a in the first display area 610a. Will be done. Further, when at least one of the second storage battery pack abnormality notification and the second charging / discharging device abnormality notification is included in the second information, the abnormality notification icon 620 is displayed next to the second serial number 612b in the second display area 610b. Will be done. The same applies to the other display areas 610.

In FIG. 5B, the first display area 610a to the seventh display area 610g are arranged in order from the top of the list screen. However, the control unit 320 may be able to rearrange the display area 610 in the list display according to a preset pattern. This corresponds to the fact that the first information to the seventh information can be rearranged according to a preset pattern. For example, each information can be sorted in ascending / descending order, or status abnormalities can be sorted by type.

6 (a)-(c) show another screen displayed on the display unit 340. FIG. 6A shows the same list display screen as in FIG. 5B. When the user taps the first display area 610a, the operation unit 350 receives an instruction to select the first information. When the operation unit 350 receives an instruction to select the first information, the control unit 320 causes the display unit 340 to display a screen showing the details of the first information (hereinafter, referred to as a “detail display screen”). FIG. 6B shows a screen for displaying the details of the first information.

On the detailed display screen, the remaining battery level 630 is indicated by a numerical value (0 to 100%). Below the battery level 630, SOH632 is shown. SOH632 indicates the state of the maximum capacity of the storage battery 110 of the first storage battery pack 100a. On the lower side of the SOH 632, a usage time guideline 634 when various loads are used with the remaining battery power of 630 is shown. Further, an LED lighting button 636 is arranged at the bottom of the detailed display screen. The LED lighting button 636 will be described later.

FIG. 6C shows a screen for displaying the details of the first information. This is a screen for detailed display of a type different from that shown in FIG. 6 (b). The battery remaining amount 630, SOH632, usage time guideline 634, and LED lighting button 636 are shown in the same manner as in FIG. 6B. A discard button 638 is added to the bottom of the detail display screen. The discard button 638 will be described later.

On the list display screen of FIG. 5B, the abnormality notification icon 620 is displayed in the fifth display area 610e as described above. When the user taps the fifth display area 610e, the operation unit 350 receives an instruction to select the fifth information. When the operation unit 350 receives an instruction to select the fifth information, the control unit 320 causes the display unit 340 to display a screen for displaying the details of the fifth information for which an abnormality notification has been made.

7 (a)-(b) show yet another screen displayed on the display unit 340. FIG. 7A shows a screen for displaying the details of the fifth information, that is, a screen for displaying the details of the information for which the abnormality notification has been made. The battery remaining amount 630, SOH632, usage time guideline 634, LED lighting button 636, and discard button 638 are shown in the same manner as in FIG. 6C. Here, the battery remaining amount 630, the SOH632, the usage time guideline 634, and the LED lighting button 636 may be shown in the same manner as in FIG. 6B. A storage battery pack abnormality notification message 640 and a charging / discharging device abnormality notification message 642 are arranged in the upper part of the detailed information screen. The storage battery pack abnormality notification message 640 is a message displayed when the fifth information includes the fifth storage battery pack abnormality notification, and the charge / discharge device abnormality notification message 642 is the fifth charge / discharge device abnormality notification in the fifth information. This message is displayed when is included. That is, the storage battery pack abnormality notification message 640 is displayed when the information from the storage battery pack 100 includes the storage battery pack abnormality notification, and the charging / discharging device abnormality notification is displayed when the information from the storage battery pack 100 includes the charging / discharging device abnormality notification. Message 642 is displayed.

When the user wants to confirm the details of the storage battery pack abnormality notification message 640, the user taps the storage battery pack abnormality notification message 640, and the operation unit 350 receives an instruction to select the fifth storage battery pack abnormality notification. When the operation unit 350 receives an instruction to select the fifth storage battery pack abnormality notification, the control unit 320 displays a screen (hereinafter, referred to as “notification display screen”) showing the contents of the fifth storage battery pack abnormality notification. It is displayed on the display unit 340. FIG. 7B shows a notification display screen. The content of the fifth storage battery pack abnormality notification is shown, for example, as "XXXXXX". Here, the abnormality code may be displayed, or the URL (Uniform Resource Locator) of the manufacturer of the storage battery pack 100 may be displayed. In FIG. 7A, when the user taps the charging / discharging device abnormality notification message 642, the same screen as in FIG. 7B is displayed on the display unit 340. Return to FIG.

The subject of the device, system, or method in this disclosure is equipped with a computer. By executing the program by this computer, the function of the subject of the device, system, or method in the present disclosure is realized. A computer has a processor that operates according to a program as a main hardware configuration. The type of processor does not matter as long as the function can be realized by executing the program. The processor is composed of one or more electronic circuits including a semiconductor integrated circuit (IC) or an LSI (Large Scale Integration). A plurality of electronic circuits may be integrated on one chip or may be provided on a plurality of chips. A plurality of chips may be integrated into one device, or may be provided in a plurality of devices. The program is recorded on a non-temporary recording medium such as a computer-readable ROM, optical disc, or hard disk drive. The program may be stored in a recording medium in advance, or may be supplied to the recording medium via a wide area communication network including the Internet or the like.

The operation of the charge / discharge system 1000 with the above configuration will be described. FIG. 8 is a sequence diagram showing a display procedure by the charging / discharging system 1000. When the first charge / discharge device 200a detects an abnormality (S50), the first charge / discharge device abnormality notification is transmitted to the first storage battery pack 100a (S52). The first storage battery pack 100a transmits the first information including the first charge / discharge device abnormality notification to the information terminal device 300 (S54). The second storage battery pack 100b transmits the second information to the information terminal device 300 (S56), and the third storage battery pack 100c transmits the third information to the information terminal device 300 (S58). The information terminal device 300 displays a list of the first information to the third information (S60). The information terminal device 300 transmits information to the server device 500 (S62). The server device 500 stores information (S64).

According to this embodiment, since the information of each of the plurality of storage battery packs 100 is displayed in a list by executing the direct wireless communication with each of the plurality of storage battery packs 100, the information of each of the plurality of storage battery packs 100 is once displayed. Can be confirmed. Further, since the information of each of the plurality of storage battery packs 100 is confirmed at once, the usability of the storage battery pack 100 can be improved. Further, since the information of the plurality of storage battery packs 100 is displayed in a list, various information can be confirmed on one screen.

Further, when an abnormality occurs in the charging / discharging device 200, the charging / discharging device abnormality notification is received via the storage battery pack 100, so that information about the charging / discharging device 200 can be acquired even if the charging / discharging device 200 is not directly connected. Further, since the information about the charging / discharging device 200 is acquired even if the charging / discharging device 200 is not directly connected, the complexity of the configuration of the charging / discharging device 200 can be suppressed. If there is a storage battery pack abnormality notification or a charging / discharging device abnormality notification in each of the plurality of storage battery packs 100, the list is displayed, so that the usability of the storage battery pack 100 and the charging / discharging device 200 can be improved.

Further, since the first information and the second information in the list display can be rearranged according to a preset pattern, the ease of use of the storage battery pack 100 can be improved. Further, since the first information and the second information are stored in the server device 500 via the network 400, the server device 500 can manage the first information and the second information.

The outline of one aspect of this disclosure is as follows. The information terminal device (300) of an aspect of the present disclosure is a first from the first storage battery pack (100a) by direct wireless communication with the first storage battery pack (100a) attached to the first charging / discharging device (200a). Acquisition unit that acquires 1 information and acquires 2nd information from the 2nd storage battery pack (100b) by direct wireless communication with the 2nd storage battery pack (100b) attached to the 2nd charging / discharging device (200b). (322) and a control unit (320) for displaying a list of the first information and the second information acquired by the acquisition unit (322) on the screen are provided. The first information acquired by the acquisition unit (322) includes a first storage battery pack abnormality notification for notifying an abnormal state of the first storage battery pack (100a) when an abnormality occurs in the first storage battery pack (100a). It is a first charge / discharge device abnormality notification transmitted from the first charge / discharge device (200a) via the first storage battery pack (100a) when an abnormality occurs in the first charge / discharge device (200a). The first charge / discharge device abnormality notification for notifying the abnormal state of the first charge / discharge device (200a) is included, and the second information acquired by the acquisition unit (322) includes an abnormality in the second storage battery pack (100b). 2nd storage battery pack abnormality notification for notifying the abnormal state of the 2nd storage battery pack (100b) when It is a second charge / discharge device abnormality notification transmitted from the second storage battery pack (100b) via the second charge / discharge device abnormality notification, and includes a second charge / discharge device abnormality notification for notifying the abnormal state of the second charge / discharge device (200b). Be done.

The control unit (320) may be able to sort the first information and the second information in the list display according to a preset pattern.

The control unit (320) may store the first information and the second information acquired by the acquisition unit (322) in the server device (500) via the network (400).

Another aspect of the present disclosure is a charge / discharge system (1000). This charging / discharging system (1000) includes a first charging / discharging device (200a), a first storage battery pack (100a) attached to the first charging / discharging device (200a), and a second charging / discharging device (200b). An information terminal device (300) capable of performing direct wireless communication between the second storage battery pack (100b) attached to the second charging / discharging device (200b), the first storage battery pack (100a), and the second storage battery pack (100b). ) And. The information terminal device (300) acquires the first information from the first storage battery pack (100a) by direct wireless communication with the first storage battery pack (100a), and also directly with the second storage battery pack (100b). The acquisition unit (322) that acquires the second information from the second storage battery pack (100b) by wireless communication, and the control unit (322) that displays a list of the first information and the second information acquired by the acquisition unit (322) on the screen. 320) and. The first information acquired by the acquisition unit (322) includes a first storage battery pack abnormality notification for notifying an abnormal state of the first storage battery pack (100a) when an abnormality occurs in the first storage battery pack (100a). It is a first charge / discharge device abnormality notification transmitted from the first charge / discharge device (200a) via the first storage battery pack (100a) when an abnormality occurs in the first charge / discharge device (200a). The first charge / discharge device abnormality notification for notifying the abnormal state of the first charge / discharge device (200a) is included, and the second information acquired by the acquisition unit (322) includes an abnormality in the second storage battery pack (100b). 2nd storage battery pack abnormality notification for notifying the abnormal state of the 2nd storage battery pack (100b) when It is a second charge / discharge device abnormality notification transmitted from the second storage battery pack (100b) via the second charge / discharge device abnormality notification, and includes a second charge / discharge device abnormality notification for notifying the abnormal state of the second charge / discharge device (200b). Be done.

(Example 2)
Next, Example 2 will be described. The second embodiment relates to a charge / discharge system 1000 that enables charging / discharging of the storage battery pack 100 by connecting the storage battery pack 100 to the charging / discharging device 200, as in the first embodiment. In the first embodiment, the information of each of the plurality of storage battery packs 100 is displayed in a list on the information terminal device 300. At that time, it is desirable that the correspondence relationship between the information displayed on the information terminal device 300 and the actual storage battery pack 100 can be immediately grasped. In order to deal with this, when the user taps the icon of the specific storage battery pack 100 when the list is displayed in the information terminal device 300 according to the second embodiment, the information terminal device 300 is attached to the storage battery pack 100. Send call information. When the storage battery pack 100 receives the call information, the LED is turned on. The charge / discharge system 1000 according to the second embodiment is the same type as those in FIGS. 1 and 2. Here, the difference from the first embodiment will be mainly described.

FIGS. 9 (a)-(b) are also used to explain the second embodiment. 9 (a)-(b) show the configuration of the charge / discharge system 1000. FIG. 9 (a) shows the same list display screen as in FIG. 5 (b). A storage battery pack icon 650 is shown in each display area 610 on the list display screen. When the user wants to search for the first storage battery pack 100a among the plurality of storage battery packs 100 actually arranged, when the user taps the storage battery pack icon 650 in the first display area 610a, the operation unit 350 first Receive instructions for selecting the storage battery pack 100a. Here, even when the LED lighting button 636 in FIGS. 6B to 6C is tapped, the operation unit 350 receives an instruction to select the first storage battery pack 100a.

The control unit 320 generates information for calling the first storage battery pack 100a (hereinafter referred to as "first call information") when the operation unit 350 receives an instruction to select the first storage battery pack 100a. The first call information includes information for identifying the first storage battery pack 100a and a call instruction. The control unit 320 outputs the first call information to the first communication unit 310. When the first communication unit 310 receives the first call information from the control unit 320, the first communication unit 310 transmits the first call information to the first storage battery pack 100a.

FIG. 9B shows the arrangement of a plurality of storage battery packs 100. Here, the first storage battery pack 100a to the seventh storage battery pack 100g are arranged. The first communication unit 140 in the first storage battery pack 100a receives the first call information from the information terminal device 300. When the first communication unit 140 receives the first call information, the control unit 120 turns on a process corresponding to the call, for example, a notification unit 150 (light emitting unit). That is, the output unit 324 of the information terminal device 300 outputs the first call information to the first communication unit 310 when the reception unit 240 receives the instruction to select the first storage battery pack 100a, so that the first storage battery pack The first call information is transmitted to the first storage battery pack 100a by direct wireless communication with the 100a.

On the other hand, when the user wants to search for the second storage battery pack 100b, he / she taps the storage battery pack icon 650 in the second display area 610b in FIG. 9A, and the operation unit 350 gives an instruction to select the second storage battery pack 100b. Accept. When the operation unit 350 receives an instruction to select the second storage battery pack 100b, the control unit 320 generates information for calling the second storage battery pack 100b (hereinafter referred to as "second call information"), and the second is 1 Communication unit 310 transmits the second call information to the second storage battery pack 100b. The first communication unit 140 in the second storage battery pack 100b receives the second call information from the information terminal device 300. When the first communication unit 140 receives the second call information, the control unit 120 turns on a process corresponding to the call, for example, the notification unit 150 (light emitting unit). Similar processing is performed when searching for another storage battery pack 100.

The operation of the charge / discharge system 1000 with the above configuration will be described. FIG. 10 is a sequence diagram showing a lighting procedure by the charging / discharging system 1000. The information terminal device 300 receives the selection of the first storage battery pack 100a (S100). The information terminal device 300 transmits the first call information to the first storage battery pack 100a (S102). The first storage battery pack 100a lights up when it receives the first call information (S104). The information terminal device 300 receives the selection of the second storage battery pack 100b (S106). The information terminal device 300 transmits the second call information to the second storage battery pack 100b (S108). The second storage battery pack 100b lights up when it receives the second call information (S110).

According to this embodiment, when the instruction for selecting the storage battery pack 100 is received, the call information is transmitted to the storage battery pack 100, and the storage battery pack 100 executes the process according to the call information. The correspondence between the displayed information and the actual storage battery pack 100 can be immediately grasped. Further, since the storage battery pack 100 lights up when the call information is received, the storage battery pack 100 can be found immediately.

The outline of one aspect of this disclosure is as follows. From the screen displayed in a list by the control unit (320), the operation unit (350) that receives the instruction for selecting the first storage battery pack (100a) and the operation unit (350) instruct the selection of the first storage battery pack (100a). By outputting the first call information for calling the first storage battery pack (100a) when the above is received, the first call information is transmitted to the first storage battery pack (100a) by direct wireless communication with the first storage battery pack (100a). An output unit (324) to be transmitted to 100a) may be further provided. The operation unit (350) receives an instruction to select the second storage battery pack (100b) from the screen displayed in a list by the control unit (320), and the output unit (324) has the operation unit (350) as the second storage battery. By outputting the second call information for calling the second storage battery pack (100b) when the instruction to select the pack (100b) is received, the second storage battery pack (100b) is directly communicated with the second storage battery pack (100b). The call information is transmitted to the second storage battery pack (100b), the first storage battery pack (100a) executes a process corresponding to the call when the first call information is received, and the second storage battery pack (100b) performs a process corresponding to the call. When the second call information is received, the process corresponding to the call may be executed.

The first storage battery pack (100a) lights the light emitting unit (150) when the first call information is received, and the second storage battery pack (100b) lights the light emitting unit (150) when the second call information is received. May be turned on.

(Example 3)
Next, Example 3 will be described. The third embodiment relates to a charging / discharging system 1000 that enables charging / discharging of the storage battery pack 100 by connecting the storage battery pack 100 to the charging / discharging device 200 as in the past. Even if some error occurs while using the storage battery pack 100, there is a possibility that the storage battery pack 100 is left unattended without being recognized by the user. Such a situation may also occur in the charging / discharging device 200. Further, if the storage battery pack 100 is left with a low battery level, the storage battery pack 100 may be over-discharged and become unusable. The storage battery pack 100 in this embodiment transmits information to the charging / discharging device 200 when an abnormality occurs or the remaining battery level is low. When the information terminal device 300 receives the information from the storage battery pack 100, the information terminal device 300 executes the push notification if the information satisfies the push notification condition even if the application is not started. The charge / discharge system 1000 according to the third embodiment is the same type as in FIGS. 1 and 2. Here, the differences from the past will be mainly explained. The charge / discharge system 1000 according to the third embodiment may be referred to as a processing system.

The application assigns a management code to the storage battery pack 100 to be managed in the application of the information terminal device 300 in advance. The management code is stored in the storage unit 330 of the information terminal device 300 and also in the storage unit 130 of the storage battery pack 100. When the management code stored in the storage unit 330 is called an "application management code", the management code stored in the storage unit 130 is called a "storage battery pack management code". At that time, the storage unit 330 also stores the serial number of the storage battery pack 100 to which the storage battery pack management code is attached while associating with the application management code. In the following, (i) when the management code matches and the push notification condition is satisfied, (ii) when the management code matches but the push notification condition is not satisfied, and (iii) when the serial number is not registered. It will be explained in order. Details of push notification conditions will be described later.

(I) When the management codes match and satisfy the push notification condition FIGS. 11 (a)-(c) are sequence diagrams showing a communication procedure by the charge / discharge system 1000. In FIG. 11A, the control unit 320 of the information terminal device 300 has not started the application (S200). The first communication unit 140 of the storage battery pack 100 periodically transmits advertisements (S202, S204). The advertisement is a broadcast signal and includes the serial number of the battery pack 100. The serial number is indicated by, for example, 12 bytes.

The first communication unit 310 of the information terminal device 300 receives the advertisement. The control unit 320 extracts the serial number included in the advertisement and executes the manager determination based on the extracted serial number (S206). Specifically, if the application management code associated with the serial number is stored in the storage unit 330 and the serial number is not the push-notified serial number, the control unit 320 determines to start scanning. The push-notified serial number will be described later, but the push-notified serial number is stored in the storage unit 330.

When the control unit 320 decides to start scanning, the information terminal device 300 executes scanning (S208). The control unit 320 of the information terminal device 300 transmits a connection request from the first communication unit 310 to the storage battery pack 100 (S210). When the first communication unit 140 of the storage battery pack 100 receives the connection request, the control unit 120 transmits the connection response from the first communication unit 140 to the information terminal device 300 (S212). When the first communication unit 310 of the information terminal device 300 receives the connection response, the connection between the storage battery pack 100 and the information terminal device 300 is established (S214).

In a state where the connection with the storage battery pack 100 is established, the control unit 320 of the information terminal device 300 transmits the read from the first communication unit 310 to the storage battery pack 100 (S216). As described above, the read is a request for transmitting information to the storage battery pack 100. When the first communication unit 140 of the storage battery pack 100 receives the read, the control unit 120 transmits the read response from the first communication unit 140 to the information terminal device 300 (S218). As described above, the read response is information corresponding to the transmission request. As a result, the acquisition unit 322 acquires information from the storage battery pack 100 as a response to the transmission request by direct wireless communication with the storage battery pack 100 even if the application is not started. The information includes a battery pack management code. Further, when the storage battery pack 100 is attached to the charging / discharging device 200, the information may include a charging / discharging device abnormality notification transmitted from the charging / discharging device 200 via the storage battery pack 100.

The control unit 320 executes a push notification determination for the information acquired by the acquisition unit 322 (S220). Items included in the push notification conditions are defined as (A) to (F).
(A) The application is not started (B) The application management code and the storage battery pack management code are the same (C) The remaining battery level is a threshold value, for example, 10% or less (D) Charging, The operating state indicating either discharge or stop indicates stop (E) The storage battery pack abnormality notification is included (F) The charge / discharge device abnormality notification is included.

The control unit 320 makes a push notification determination when the combination of (C) and (D) or (E) or (F) is satisfied in the situation where (A) and (B) are satisfied. Determined to meet. The control unit 320 executes push notification when it is determined that the push notification condition is satisfied.

12 (a)-(b) show a screen displayed on the display unit 340. FIG. 12A shows a push notification screen when the information includes a storage battery pack abnormality notification. The push notification window 660 is displayed on the display unit 340, and the message "An error has occurred in the storage battery pack of ID001. Please check the storage battery pack." Is displayed on the push notification window 660. Such a display is made, for example, when a user possessing the information terminal device 300 passes in the vicinity of the storage battery pack 100 in a state where an abnormality has occurred in the storage battery pack 100. The same display is made when the information includes a charge / discharge device abnormality notification.

FIG. 12B shows a push notification screen when the remaining battery level included in the information is below the threshold value. The push notification window 660 is displayed on the display unit 340, and the message "The battery level of ID001 has run out of 10%. Please charge." Is displayed on the push notification window 660. Such a display is made, for example, when the storage battery pack 100 is stored in a warehouse or the like for a long time. Return to FIG. 11 (a).

The storage unit 130 stores the serial number of the storage battery pack 100 as the push notification serial number when the control unit 120 executes the push notification (S222). It can be said that the push-notified serial number is identification information for identifying the storage battery pack 100. For example, the storage unit 130 can store up to 100 push-notified serial numbers. The control unit 320 of the information terminal device 300 transmits a disconnection request from the first communication unit 310 to the storage battery pack 100 (S224). The control unit 120 of the storage battery pack 100 transmits a disconnection response from the first communication unit 140 to the information terminal device 300 (S226). As a result, the connection between the storage battery pack 100 and the information terminal device 300 is disconnected (S228).

FIG. 11 (b) shows a pattern different from that of FIG. 11 (a). Steps 250 to 254 are the same as steps 200 to 204 in FIG. 11 (a). The control unit 320 extracts the serial number included in the advertisement and executes the manager determination based on the extracted serial number (S256). Specifically, even if the application management code associated with the serial number is stored in the storage unit 330, if the serial number is a push-notified serial number, the control unit 320 determines not to start scanning. , End the process. That is, the control unit 320 does not establish a connection with the storage battery pack 100 when the serial number included in the newly received advertisement and the push-notified serial number stored in the storage unit 330 match. Steps 258 to 262 are the same as steps 252 to 256.

FIG. 11 (c) shows a pattern further different from that of FIGS. 11 (a)-(b). In FIG. 11C, the control unit 320 of the information terminal device 300 activates the application (S300). When the application is started, the control unit 320 resets the push-notified serial number stored in the storage unit 330 (S302). Subsequent steps 304 to 324 are the same as steps 10 to 30 in FIG.

(Ii) When the management codes match but the push notification condition is not satisfied FIGS. 13 (a)-(c) are sequence diagrams showing another communication procedure by the charge / discharge system 1000. Steps 350 to 368 in FIG. 13 (a) are the same as steps 200 to 218 in FIG. 11 (a). The control unit 320 executes a push notification determination for the information acquired by the acquisition unit 322 (S270). The control unit 320 determines the push notification when (A) and (B) are not satisfied, or when the combination of (C) and (D) and (E) and (F) are not satisfied. Is not satisfied. The control unit 320 does not execute the push notification when it is determined that the push notification condition is not satisfied. Therefore, the storage unit 330 does not store the serial number of the storage battery pack 100 as the push-notified serial number. Steps 372 to 376 are the same as steps 224 to 228 in FIG. 11 (a).

FIG. 13 (b) shows the process when the same information is received from the same storage battery pack 100, following FIG. 13 (a). That is, the push notification determination is not satisfied again. Therefore, steps 400 to 426 are the same as steps 350 to 376 in FIG. 13 (a). FIG. 13 (c) shows the processing when the application is started, following FIG. 13 (b). Therefore, steps 450 to 474 of FIG. 13 (c) are the same as steps 300 to 324 of FIG. 11 (c).

(Iii) When the serial number is not registered FIGS. 14 (a)-(b) are sequence diagrams showing another communication procedure by the charge / discharge system 1000. Steps 500 to 504 in FIG. 14 (a) are the same as steps 200 to 204 in FIG. 11 (a). The first communication unit 310 of the information terminal device 300 receives the advertisement. The control unit 320 extracts the serial number included in the advertisement and executes the manager determination based on the extracted serial number (S506). If the application management code associated with the serial number is not stored in the storage unit 330, the control unit 320 determines not to start scanning and ends the process. Steps 508 to 512 are the same as steps 502 to 506.

According to this embodiment, push notification is executed when the acquired information satisfies the push notification condition, and push notification is not executed when the information does not satisfy the push notification condition, so that highly necessary information can be pushed notification. .. In addition, since the push notification is executed even if the application is not started, it is possible to inform the user of highly urgent information. Further, the push notification condition is at least one of the following that the remaining capacity of the storage battery pack 100 is equal to or less than the threshold value, the operating state of the storage battery pack 100 indicates that it is stopped, and the abnormal state of the storage battery pack 100 indicates that there is an abnormality. Since there is only one, it is possible to inform the user of highly urgent information. Further, since the push notification condition also includes that the abnormal state of the charging / discharging device 200 indicates that there is an abnormality, it is possible to inform the user of highly urgent information regarding the charging / discharging device 200.

Further, after receiving the broadcast signal from the storage battery pack 100, in a state where the connection with the storage battery pack 100 is established, the information transmission request is transmitted and then the information is acquired. Communication procedures can be used. Further, when the push notification is executed, the serial number of the storage battery pack 100 is stored as the push-notified serial number, and the push is made when the serial number included in the newly received advertisement matches the push-notified serial number. Since notifications are not executed, unnecessary push notifications can be avoided. Further, since unnecessary push notifications are avoided, the battery consumption of the information terminal device 300 can be suppressed.

The outline of one aspect of this disclosure is as follows. The information terminal device (300) according to a certain aspect of the present disclosure includes an acquisition unit (322) and an acquisition unit (322) for acquiring information from the storage battery pack (100) by direct wireless communication with the storage battery pack (100). It is provided with a control unit (320) that executes push notification when the acquired information satisfies the push notification condition. The control unit (320) does not execute the push notification when the information acquired by the acquisition unit (322) does not satisfy the push notification condition.

The push notification condition in the control unit (320) indicates that the remaining capacity of the storage battery pack (100) included in the information is equal to or less than the threshold value, and that the operating state of the storage battery pack (100) included in the information is stopped. That is, the abnormal state of the storage battery pack (100) included in the information may be at least one of indicating that there is an abnormality.

The storage battery pack (100) is attached to the charging / discharging device (200), and the information acquired by the acquisition unit (322) is charged from the charging / discharging device (200) via the storage battery pack (100). The abnormal state of the discharging device (200) is included, and the push notification condition in the control unit (320) may also include that the abnormal state of the charging / discharging device (200) included in the information indicates that there is an abnormality.

After receiving the broadcast signal from the storage battery pack (100), the information terminal device (300) transmits an information transmission request to the storage battery pack (100) in a state where the connection with the storage battery pack (100) is established. The acquisition unit (322) may acquire the information received from the storage battery pack (100) by the information terminal device (300) as a response to the transmission request.

When the control unit (320) executes the push notification, the storage unit (330) for storing the identification information for identifying the storage battery pack (100) may be further provided. The control unit (320) does not establish a connection with the storage battery pack (100) when the identification information included in the newly received broadcast signal matches the identification information stored in the storage unit (330).

Yet another aspect of the present disclosure is a processing system. This processing system includes a storage battery pack (100) and an information terminal device (300) capable of performing direct wireless communication with the storage battery pack (100). The information terminal device (300) has an acquisition unit (322) for acquiring information from the storage battery pack (100) by direct wireless communication with the storage battery pack (100), and a push notification of the information acquired by the acquisition unit (322). It is provided with a control unit (320) that executes push notification when the conditions are satisfied. The control unit (320) does not execute the push notification when the information acquired by the acquisition unit (322) does not satisfy the push notification condition.

(Example 4)
Next, Example 4 will be described. The fourth embodiment relates to a charge / discharge system 1000 that enables charging / discharging of the storage battery pack 100 by connecting the storage battery pack 100 to the charging / discharging device 200 as in the past. When the purpose is to provide a function that can be used only by a specific user, it is necessary to provide a dedicated application to a specific user. This can lead to complex specifications for the user. In this embodiment, by setting a management code for the storage battery pack 100 from the application of the information terminal device 300, it is possible to extend the control function to the storage battery pack 100. The management code is preset in the third embodiment, but in the fourth embodiment, it is used for expanding the control function. The charge / discharge system 1000 according to the fourth embodiment is the same type as in FIGS. 1 and 2. Here, the differences from the past will be mainly explained. The charge / discharge system 1000 according to the fourth embodiment may be referred to as a processing system.

The control unit 320 can issue a management code to the storage battery pack 100 when the management code is not set in the storage battery pack 100. Specifically, when the management code for the storage battery pack 100 is not set, when the application executed in the control unit 320 of the information terminal device 300 registers the management code for the storage battery pack 100, the application sets the management code. Issued automatically. At that time, the application acquires the serial number from the storage battery pack 100 via the first communication unit 310. The application stores the issued management code as an application management code in the storage unit 330 while associating it with the serial number. Further, the application transmits a management code to the storage battery pack 100 via the first communication unit 310. The control unit 120 of the storage battery pack 100 stores the received management code as the storage battery management code.

FIG. 15 shows the data structure of the table stored in the storage unit 330. The table shows the presence or absence of the application management code, the presence or absence of the battery pack management code, and the corresponding controllable functions. Here, when both the application management code and the storage battery pack management code are "yes" and match, it is called the first state. On the other hand, if both the application management code and the storage battery pack management code are "yes" and do not match, or if at least one of the application management code and the storage battery pack management code is "no", the second Called a state.

Also, "BLE connection", "remaining amount display in application, maximum capacity display, abnormality display" are called the first process. Further, "discharge instruction / cancellation at the time of disposal", "remaining amount low notification, abnormality notification (push notification when the application is not started)", and "deletion of the management code of the storage battery pack 100 by the application" are called the second process. The control unit 320 executively controls the first process and the second process in the first state. In the second state, the control unit 320 controls the first process for the storage battery pack 100 in an executable manner while controlling the second process for the storage battery pack 100 in an executable manner. Return to FIG.

Here, "discharge instruction at the time of disposal" will be explained. When the "discharge instruction at the time of disposal" is executably controlled, the detailed display screen of FIG. 6C can be displayed on the display unit 340. When the discard button 638 on the detail display screen is tapped, the operation unit 350 receives a discharge instruction at the time of disposal. The control unit 320 causes the storage battery pack 100 to transmit a discharge instruction at the time of disposal from the first communication unit 310.

The first communication unit 140 of the storage battery pack 100 receives a discharge instruction at the time of disposal from the information terminal device 300. The control unit 120 causes the notification unit 150 to display a notification for notifying the start of the waste discharge. For example, the notification unit 150 makes a plurality of LEDs all blink. The second communication unit 170 transmits a discharge instruction at the time of disposal to the charging / discharging device 200. The communication unit 230 of the charging / discharging device 200 receives a discharging instruction at the time of disposal. In response to this, the reception unit 240 receives a discharge instruction at the time of disposal. The charge / discharge circuit 210 uses a discharger 280 that reduces the capacity of the storage battery 110 with respect to the storage battery pack 100 when the receiving unit 240 receives a discharge instruction at the time of disposal, and the charge / discharge circuit 210 is lower than the first level. Perform discharge up to 2 levels. The discharger 280 is, for example, a resistance. The second level is defined as, for example, a value equal to or higher than the remaining battery level at which the first communication unit 140 of the storage battery pack 100 can transmit the end of discharge to the information terminal device 300 or the control unit 120 drives. At that time, the control unit 220 uses the cooling fan 270, which was normally used to cool the charge / discharge circuit 210, to cool the discharger 280.

The charge / discharge circuit 210 ends discharging when the remaining battery level of the storage battery 110 reaches the second level. When the control unit 120 of the storage battery pack 100 detects the end of discharge, the notification unit 150 displays a notification for notifying the end of discharge. For example, the notification unit 150 turns off a plurality of LEDs altogether. The control unit 120 causes the information terminal device 300 to transmit a notification of the end of discharge to the information terminal device 300 via the first communication unit 140. Notification of the end of discharge corresponds to notification of completion of preparation for disposal.

The first communication unit 310 of the information terminal device 300 receives the notification of the end of discharge from the storage battery pack 100. The control unit 320 causes the display unit 340 to display, for example, the guidance for disposing of the storage battery pack 100. Further, the control unit 320 transmits a notification of the end of discharge to the server device 500 via the second communication unit 360. Upon receiving the notification of the end of discharge, the server device 500 registers the disposable storage battery pack 100.

Further, the control unit 320 can delete the management code for the storage battery pack 100 that has already been set. When the application executed in the control unit 320 of the information terminal device 300 matches the storage battery pack management code acquired from the storage battery pack 100 via the first communication unit 310 and the application management code stored in the storage unit 330, the application is executed. Decide to delete the control code. When the application decides to delete the management code, the application deletes the application management code stored in the storage unit 330. Further, the application transmits an instruction to delete the storage battery pack management code to the first communication unit 140 via the first communication unit 310. When the control unit 120 of the storage battery pack 100 receives the deletion instruction of the storage battery pack management code via the first communication unit 140, the control unit 120 deletes the storage battery pack management code stored in the storage unit 130.

According to this embodiment, the executable processing is changed according to the storage battery pack management code and the application management code, so that the function expansion can be easily executed. Further, when the storage battery pack management code and the application management code match, the second process can be executed in addition to the first process, so that the function expansion can be easily executed. Further, since the first process can be executed even if the storage battery pack management code and the application management code do not match, the necessary process can be executed. Further, the first process is a process of displaying the remaining capacity of the storage battery pack 100 on the screen, and the second process is a process of discharging the storage battery pack 100 for disposal. Therefore, the storage battery pack 100 is discharged regardless of the management code. The remaining capacity of can be displayed on the screen. Moreover, since the management code can be issued, the management code can be set as needed.

The outline of one aspect of this disclosure is as follows. Another aspect of the present disclosure is also an information terminal device (300). This device has an acquisition unit (322) that acquires information from the storage battery pack (100) by direct wireless communication with the storage battery pack (100), and a storage unit (330) that stores a management code that has already been issued. In the first state where the management code of the storage battery pack (100) for the information acquired in the unit (322) and the management code stored in the storage unit (330) match, the first processing and the second processing for the storage battery pack (100) It is provided with a control unit (320) that controls the above in an executable manner. The control unit (320) controls the second process for the storage battery pack (100) in an executable manner while controlling the first process for the storage battery pack (100) in a second state different from the first state. do.

The first process may be a process of displaying the remaining capacity of the storage battery pack (100) on the screen, and the second process may be a process of discharging the storage battery pack (100) for disposal.

The control unit (320) can issue a management code to the storage battery pack (100) when the management code is not set in the storage battery pack (100), and the storage unit (330) is issued by the control unit (320). You may memorize the management code.

Yet another aspect of the present disclosure is also a processing system. This processing system includes a storage battery pack (100) and an information terminal device (300) capable of performing direct wireless communication with the storage battery pack (100). The information terminal device (300) has an acquisition unit (322) that acquires information from the storage battery pack (100) by direct wireless communication with the storage battery pack (100), and a storage unit (330) that stores a management code that has already been issued. ) And the management code of the storage battery pack (100) for the information acquired by the acquisition unit (322) and the management code stored in the storage unit (330) in the first state, the first processing for the storage battery pack (100). It is provided with a control unit (320) that controls the second process and the second process in an executable manner. The control unit (320) controls the second process for the storage battery pack (100) in an executable manner while controlling the first process for the storage battery pack (100) in a second state different from the first state. do.

Above, this disclosure has been explained based on the examples. It will be appreciated by those skilled in the art that this embodiment is exemplary and that various variations of each of these components or combinations of processing processes are possible and that such modifications are also within the scope of the present disclosure. ..

According to this disclosure, the ease of use of the storage battery pack can be improved.

100 storage battery pack, 110 storage battery, 120 control unit, 130 storage unit, 140 first communication unit, 150 notification unit, 160 judgment unit, 170 second communication unit, 180 operation unit, 200 charge / discharge device, 210 charge / discharge circuit, 220 Control unit, 230 communication unit, 240 reception unit, 250 power plug, 260 power supply unit, 270 cooling fan, 280 discharger, 300 information terminal device, 310 1st communication unit, 320 control unit, 322 acquisition unit, 324 output unit , 330 storage unit, 340 display unit, 350 operation unit, 360 second communication unit, 400 network, 500 server device, 1000 charge / discharge system.

Claims (12)

1. An acquisition unit that acquires information from the storage battery pack by direct wireless communication with the storage battery pack, and
   It is provided with a control unit that executes push notification when the information acquired in the acquisition unit satisfies the push notification condition.
   The control unit is an information terminal device that does not execute push notification when the information acquired by the acquisition unit does not satisfy the push notification condition.
2. The push notification condition in the control unit is that the remaining capacity of the storage battery pack included in the information is equal to or less than the threshold value, that the operating state of the storage battery pack included in the information is stopped, and that the operation state is stopped. The information terminal device according to claim 1, wherein the abnormal state of the storage battery pack included in the information indicates that there is an abnormality.
3. The storage battery pack is attached to the charging / discharging device, and the storage battery pack is attached to the charging / discharging device.
   The information acquired by the acquisition unit includes an abnormal state of the charging / discharging device transmitted from the charging / discharging device via the storage battery pack.
   The information terminal device according to claim 2, wherein the push notification condition in the control unit includes that the abnormal state of the charging / discharging device included in the information indicates that there is an abnormality.
4. After receiving the broadcast signal from the storage battery pack, the information terminal device transmits a transmission request for the information to the storage battery pack in a state where the connection with the storage battery pack is established.
   The information terminal device according to any one of claims 1 to 3, wherein the acquisition unit acquires the information received from the storage battery pack by the information terminal device in response to the transmission request.
5. Further, a storage unit for storing identification information for identifying the storage battery pack when the control unit executes a push notification is provided.
   The information according to claim 4, wherein the control unit does not establish a connection with the storage battery pack when the identification information included in the newly received broadcast signal and the identification information stored in the storage unit match. Terminal device.
6. An acquisition unit that acquires information from the storage battery pack by direct wireless communication with the storage battery pack, and
   A storage unit that stores the management code that has already been issued,
   In the first state where the management code of the storage battery pack for the information acquired by the acquisition unit and the management code stored in the storage unit match, the first process and the second process for the storage battery pack can be executed. Equipped with a control unit to control
   The control unit is an information terminal that controls the second process for the storage battery pack in an executable manner while controlling the first process for the storage battery pack in a second state different from the first state. Device.
7. The first process is a process of displaying the remaining capacity of the storage battery pack on the screen.
   The information terminal device according to claim 6, wherein the second process is a process of discharging the storage battery pack for disposal.
8. When the management code is not set in the storage battery pack, the control unit can issue the management code to the storage battery pack.
   The information terminal device according to claim 6 or 7, wherein the storage unit stores the management code issued by the control unit.
9. With a storage battery pack,
   It is equipped with the storage battery pack and an information terminal device capable of performing direct wireless communication.
   The information terminal device is
   An acquisition unit that acquires information from the storage battery pack by direct wireless communication with the storage battery pack, and
   It is provided with a control unit that executes push notification when the information acquired in the acquisition unit satisfies the push notification condition.
   The control unit is a processing system that does not execute push notification when the information acquired by the acquisition unit does not satisfy the push notification condition.
10. With a storage battery pack,
    It is equipped with the storage battery pack and an information terminal device capable of performing direct wireless communication.
    The information terminal device is
    An acquisition unit that acquires information from the storage battery pack by direct wireless communication with the storage battery pack, and
    A storage unit that stores the management code that has already been issued,
    In the first state where the management code of the storage battery pack for the information acquired by the acquisition unit and the management code stored in the storage unit match, the first process and the second process for the storage battery pack can be executably controlled. Equipped with a control unit
    The control unit is a processing system that controls the second process for the storage battery pack in an executable manner while controlling the first process for the storage battery pack in a second state different from the first state. ..
11. The step of acquiring information from the storage battery pack by direct wireless communication with the storage battery pack, and
    A step to execute a push notification when the acquired information satisfies the push notification condition, and
    A program for causing a computer to execute a step of not executing push notification when the acquired information does not satisfy the push notification condition.
12. The step of acquiring information from the storage battery pack by direct wireless communication with the storage battery pack, and
    A step of executably controlling the first process and the second process for the storage battery pack in the first state in which the management code of the storage battery pack for the acquired information and the management code already issued and stored match.
    In a second state different from the first state, the computer is made to execute a step of executably controlling the first process for the storage battery pack and infeasibly controlling the second process for the storage battery pack. Program for.

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