JP7039532B2 - Battery - Google Patents

Description

The present invention relates to a battery.

The importance of batteries mounted on electric vehicles and the like (see, for example, Patent Document 1) is increasing.
[Prior Art Document]
[Patent Document]
[Patent Document 1] Japanese Unexamined Patent Publication No. 2015-146162

It is desirable to be able to provide a highly convenient battery.

According to the first aspect of the present invention, the battery is a housing, a battery cell built in the housing, a connector portion for holding the SIM detachably, and a position acquisition unit for acquiring the position of the battery. And wireless communication using the information recorded in the SIM provides a battery including a wireless communication unit that transmits position information indicating the position of the battery.

The battery may further include a notification data output unit that outputs notification data when the remaining battery level of the battery cell is lower than a predetermined threshold value. The wireless communication unit may receive the position information of the charging station, and the notification data output unit may output notification data including the position information of the charging station received by the wireless communication unit. The wireless communication unit may receive the position information of the battery that can be charged to the battery, and the notification data output unit may output the notification data including the position information of the battery received by the wireless communication unit. .. The battery may be mounted on an electric vehicle, and the electric vehicle may be supplied with the electric power of the battery cell.

The outline of the above invention does not list all the necessary features of the present invention. A subcombination of these feature groups can also be an invention.

An example of the battery 100 is shown schematically. An example of the functional configuration of the communication unit 120 is schematically shown. An example of an electric vehicle 300 equipped with a battery 100 is schematically shown. An example of the display data 400 is shown schematically. Another example of the battery 100 is shown schematically.

Hereinafter, the present invention will be described through embodiments of the invention, but the following embodiments do not limit the invention within the scope of the claims. Also, not all combinations of features described in the embodiments are essential to the means of solving the invention.

FIG. 1 schematically shows an example of a battery 100. The battery 100 according to the present embodiment may supply electric power to any device. For example, the battery 100 is mounted on an electric vehicle to supply electric power to the electric vehicle. The battery 100 may be mounted on an electric motorcycle, an electric bicycle, or the like to supply electric power to them. Further, the battery 100 is mounted on the robot, for example, to supply electric power to the robot.

The battery 100 includes a battery cell 110 and a communication unit 120. The communication unit 120 has a connector unit 122, a wireless communication unit 124, and a position acquisition unit 126.

The connector portion 122 holds the SIM (Subscriber Identity Module) detachably. The connector unit 122, for example, holds the SIM card in a detachable manner.

The wireless communication unit 124 executes wireless communication using the information recorded in the SIM held by the connector unit 122. The wireless communication unit 124 is, for example, a 3G (3rd Generation) communication method such as WCDMA (registered trademark) (Wideband Code Division Multiple Access) and CDMA2000 (Code Division Multiple Access 2000), LTE (Long3Lon), etc. Wireless communication is executed according to a mobile communication system such as a 9G communication system and a 4G communication system such as Advanced LTE. The wireless communication unit 124 may further include an antenna for WiFi communication to execute WiFi (Registered Trademark) (Wireless Fidelity) communication.

The wireless communication unit 124 may execute communication via the network 10. The network 10 includes, for example, the Internet and a telephone network. The wireless communication unit 124 communicates with the communication terminal 210, the information management server 220, and the like via the network 10, for example.

The communication terminal 210 may be any terminal as long as it can communicate, and is, for example, a mobile phone such as a smartphone, a tablet terminal, a PC (Personal Computer), or the like. The information management server 220 manages the information transmitted by the battery 100. Further, the information management server 220 may manage the information transmitted to the battery 100.

The wireless communication unit 124 transmits, for example, the remaining battery level of the battery cell 110. The wireless communication unit 124 may transmit the remaining battery level of the battery cell 110 to the communication terminal 210. This makes it possible for the user of the communication terminal 210 to grasp the remaining battery level of the battery 100. Further, the wireless communication unit 124 may transmit the remaining battery level of the battery cell 110 to the information management server 220. As a result, the information management server 220 can manage the remaining battery level of the battery 100.

The position acquisition unit 126 acquires the position of the battery 100. The position acquisition unit 126 is, for example, a GPS (Global Positioning System) unit, and acquires GPS data as the position of the battery 100. When the wireless communication unit 124 can execute the WiFi communication, the position acquisition unit 126 may acquire the position of the WiFi access point for which the wireless communication unit 124 has established the communication as the position of the battery 100. The position acquisition unit 126 may acquire both the position of the WiFi access point to which the wireless communication unit 124 has established communication and the GPS data as the position of the battery 100.

The wireless communication unit 124 may transmit position information indicating the position of the battery 100 together with the remaining battery level of the battery 100.

The wireless communication unit 124 transmits, for example, the remaining battery level of the battery 100 and the position information of the battery 100 to the communication terminal 210. For example, when the remaining battery level of the battery 100 received from the battery 100 is lower than a predetermined threshold value, the communication terminal 210 notifies the user of the position of the charging station closest to the position indicated by the position information of the battery 100. do. This makes it possible for the user to grasp the position of the charging station when the battery level of the battery 100 is low.

Further, the wireless communication unit 124 transmits, for example, the remaining battery level of the battery 100 and the position information of the battery 100 to the information management server 220. For example, when the remaining battery level of the battery 100 received from the battery 100 is lower than a predetermined threshold value, the information management server 220 sets the position of the charging station closest to the position indicated by the position information of the battery 100 to the communication terminal 210. Send to. The communication terminal 210 may notify the user of the position of the received charging station.

The wireless communication unit 124 may transmit position information indicating the position of the battery 100 when the remaining battery level of the battery 100 is lower than a predetermined threshold value.

The wireless communication unit 124 transmits, for example, the position information of the battery 100 to the communication terminal 210 when the remaining battery level of the battery 100 is lower than a predetermined threshold value. The communication terminal 210 may notify the user, for example, the position of the charging station closest to the position indicated by the position information of the battery 100.

Further, the wireless communication unit 124 transmits the position information of the battery 100 to the information management server 220, for example, when the remaining battery level of the battery 100 is lower than a predetermined threshold value. The information management server 220 transmits, for example, the position of the charging station closest to the position indicated by the position information of the battery 100 to the communication terminal 210. The communication terminal 210 may notify the user of the position of the received charging station. Further, the information management server 220 transmits, for example, the position of the charging station closest to the position indicated by the position information of the battery 100 to the battery 100. The battery 100 may notify the position of the charging station received from the information management server 220. For example, when the battery 100 is mounted on an electric vehicle, the battery 100 notifies the passengers of the electric vehicle of the position of the charging station by displaying the position of the charging station on a display provided in the electric vehicle. good.

The wireless communication unit 124 may transmit the position information of the battery 100 to the communication terminal 210 in response to a request from the communication terminal 210. For example, if the battery 100 is stolen, the user of the communication terminal 210 can confirm the position of the battery 100 by transmitting a request to the battery 100 using the communication terminal 210.

FIG. 2 schematically shows an example of the functional configuration of the communication unit 120. The communication unit 120 includes a wireless communication unit 124, a position acquisition unit 126, a remaining amount acquisition unit 134, a notification data output unit 136, a battery information storage unit 138, and a history storage unit 140. It is not essential that the communication unit 120 has all of these configurations. For example, at least one of the wireless communication unit 124 and the battery information storage unit 138 may be provided by the battery 100 without the communication unit 120.

The remaining amount acquisition unit 134 acquires the remaining battery level of the battery cell 110. The remaining battery level acquisition unit 134 may periodically acquire the battery level of the battery cell 110.

The notification data output unit 136 outputs the notification data. The notification data output unit 136 causes the wireless communication unit 124 to transmit, for example, notification data for notifying the remaining battery level of the battery cell 110. The notification data output unit 136 may cause the wireless communication unit 124 to transmit notification data for notifying the remaining battery level of the battery cell 110 and the position information of the battery 100 acquired by the position acquisition unit 126.

Further, the notification data output unit 136 causes the wireless communication unit 124 to transmit notification data for notifying, for example, when the remaining battery level of the battery cell 110 is lower than a predetermined threshold value. The notification data output unit 136 wirelessly communicates notification data notifying that when the remaining battery level of the battery cell 110 is lower than a predetermined threshold value and the position information of the battery 100 acquired by the position acquisition unit 126. It may be transmitted to the unit 124.

The battery information storage unit 138 stores the information of the battery cell 110. The battery information storage unit 138 may store the characteristics of the battery cell 110. The battery information storage unit 138 stores, for example, the charge / discharge characteristics of the battery cell 110. When the notification data output unit 136 transmits the remaining battery level of the battery cell 110 to the wireless communication unit 124, the notification data output unit 136 may also transmit the characteristics of the battery cell 110 stored in the battery information storage unit 138.

Further, the battery information storage unit 138 may store the manufacturer information regarding the manufacturer of the battery cell 110. Further, the battery information storage unit 138 may store type information indicating the type of another battery cell capable of charging the battery cell 110. The notification data output unit 136 may transmit at least one of these information together when transmitting the remaining battery level of the battery cell 110 to the wireless communication unit 124.

The history storage unit 140 stores the history of the notification data output by the notification data output unit 136. The notification data output unit 136 may cause the wireless communication unit 124 to transmit the history of the notification data stored in the history storage unit 140. The history storage unit 140 stores the history of the remaining battery level of the battery cell 110 acquired by the remaining battery level acquisition unit 134 and the position information of the battery 100 when the remaining battery level acquisition unit 134 acquires the remaining battery level. You may.

FIG. 3 schematically shows an example of an electric vehicle 300 equipped with a battery 100. The electric vehicle 300 includes a drive unit 310 and a display 320. The drive unit 310 drives the electric vehicle 300 by the electric power supplied from the battery cell 110.

The display 320 executes a display based on the notification data received from the notification data output unit 136. The display 320 may be, for example, a display included in a car navigation system.

The notification data output unit 136 transmits, for example, notification data including position information indicating the position of the charging station received from the information management server 220 by the wireless communication unit 124 to the display 320. The display 320 displays the position indicated by the position information of the received charging station. The display 320 displays, for example, map data emphasizing the position indicated by the position information of the charging station.

The notification data output unit 136 transmits the notification data including the position information of the battery that can be charged to the battery 100, which is received from the information management server 220 by the wireless communication unit 124, to the display 320. The notification data output unit 136 receives, for example, the position information of the battery that can charge the battery 100 from the information management server 220 as follows. First, when the remaining battery level of the battery cell 110 is lower than a predetermined threshold value, the notification data output unit 136 stores the position information of the battery 100 acquired by the position acquisition unit 126 and the battery information storage unit 138. The wireless communication unit 124 is made to transmit the type information indicating the type of another battery cell 110 capable of charging the battery cell 110 to the information management server 220. The information management server 220 provides position information indicating the position of the electric vehicle closer to the position indicated by the position information of the received battery 100 among the electric vehicles equipped with the battery cell 110 indicated by the type of the received battery cell 110. Send to 124. The notification data output unit 136 includes the position information of the electric vehicle received by the wireless communication unit 124 as the position information of the battery that can charge the battery 100 in the notification data, and transmits the position information to the display 320.

Then, the display 320 displays, for example, map data emphasizing the position indicated by the received position information. As a result, when the battery level of the battery cell 110 is low, the passenger of the electric vehicle 300 can grasp the position of the electric vehicle equipped with the battery cell 110 capable of charging the battery cell 110.

The battery 100 may be mounted on an electric vehicle capable of automatic operation. Further, the battery 100 may be mounted on a movable robot. The battery 100 may be mounted on each of the plurality of robots, and each of the plurality of batteries 100 mounted on the plurality of robots transmits the remaining battery level and the position information of the respective battery cells 110 to the information management server 220. You can do it. Each of the plurality of batteries 100 may receive the battery remaining amount and position information of the other battery 100 from the information management server 220. When the battery 100 determines that the remaining battery level of the other battery 100 received is less than the remaining battery level of its own and can move to the position indicated by the position information, the battery 100 moves to the position indicated by the position information. , The other battery 100 may be charged. Here, any one of the plurality of batteries 100 may be a battery 100 dedicated to charging. The battery 100 dedicated to charging receives the remaining battery level and position information of another battery 100 from the information management server 220, and the remaining battery level is at a position indicated by the position information of the battery 100 lower than a predetermined threshold value. You may move to charge the battery 100.

FIG. 4 schematically shows an example of the display data 400. The display data 400 may be data generated based on the notification data output by the notification data output unit 136. The display data 400 is generated, for example, by the display 320 that has received the notification data. Further, the display data 400 is generated by, for example, the communication terminal 210 that has received the notification data. Further, the display data 400 may be generated by the notification data output unit 136, transmitted to the display 320, the communication terminal 210, and the like, and displayed.

The display data 400 includes map data 402, own vehicle object 410, charging station object 420, and corresponding vehicle object 430. The own vehicle object 410 is arranged at the position of the battery 100 acquired by the position acquisition unit 126 on the map data 402. The charging station object 420 is arranged on the map data 402 at a position indicated by the position information of the charging station received from the information management server 220. The corresponding vehicle object 430 is arranged at the position of the electric vehicle equipped with the battery cell 110 capable of charging the battery cell 110 received from the information management server 220.

By displaying the display data 400 on the display 320 or the communication terminal 210, the viewer can easily determine the location of the charging station where the battery 100 can be charged and the location of the electric vehicle equipped with the battery cell 110 capable of charging the battery 100. It can be grasped.

FIG. 5 schematically shows another example of the battery 100. The battery 100 shown in FIG. 5 includes wheels in addition to the battery cell 110, the wireless communication unit 124, the position acquisition unit 126, the remaining amount acquisition unit 134, the notification data output unit 136, the battery information storage unit 138, and the history storage unit 140. A unit 152 and a supply connector 154 are provided. The battery 100 shown in FIG. 5 is movable by the wheel portion 152, and a plurality of other batteries can be charged by the plurality of supply connectors 154.

The battery 100 moves to the position indicated by the instruction data according to, for example, the instruction data received from the communication terminal 210. The battery 100 moves, for example, to a location where there are a plurality of batteries that need to be charged. The battery 100 transmits the remaining battery level of the battery cell 110 to the communication terminal 210 while supplying electric power to the plurality of batteries. The battery 100 may further transmit the position information of the battery 100 acquired by the position acquisition unit 126.

For example, when the remaining battery level of the battery cell 110 is lower than a predetermined threshold value, the user of the communication terminal 210 uses the communication terminal 210 to transmit a return instruction to the battery 100. The battery 100 returns in response to the receipt of the return instruction.

The battery 100 may be capable of accommodating the wheel portion 152. For example, the battery 100 moves to the position indicated by the instruction data according to the instruction data received from the communication terminal 210, and then houses the wheel portion 152. As a result, it is possible to prevent unexpected movement by the wheel portion 152, and it is possible to stably supply electric power to a plurality of batteries.

The battery 100 in the above embodiment may further include an emotion management unit (not shown) that manages the emotions of the battery 100. The battery 100 receives, for example, position information indicating the position of an electric vehicle equipped with a rechargeable battery cell in the battery cell 110 of the battery 100 from the information management server 220. The emotion management unit may manage the emotions of the battery 100 so that the greater the distance between the battery 100 and the electric vehicle equipped with the rechargeable battery cell in the battery cell 110, the higher the degree of loneliness. In addition, the emotion management unit has a degree of loneliness as the number of electric vehicles equipped with a rechargeable battery cell in the battery cell 110, which exists within a predetermined range based on the position of the battery 100, is smaller. You may manage the emotions of the battery 100 to be high. When the degree of loneliness of the battery 100 managed by the emotion management unit is higher than a predetermined threshold value, the notification data output unit 136 causes the wireless communication unit 124 to transmit notification data indicating a warning, or causes the display 320 to transmit the notification data. You may display it.

Further, the battery 100 may receive position information indicating the position of the charging station from the information management server 220, and the emotion management unit increases the degree of loneliness as the distance between the battery 100 and the charging station increases. You may manage the emotions of the battery 100 as such. The emotion management unit may manage the emotions of the battery 100 so that the smaller the number of charging stations existing within the predetermined range with respect to the position of the battery 100, the higher the degree of loneliness. ..

In the above description, each part of the communication unit 120 may be realized by hardware or may be realized by software. Further, it may be realized by a combination of hardware and software. Further, the computer may function as the communication unit 120 by executing the program. The program may be installed on a computer constituting at least a part of the communication unit 120 from a computer-readable medium or a storage device connected to a network.

The program installed in the computer and causing the computer to function as the communication unit 120 according to the present embodiment works on the CPU or the like to cause the computer to function as each part of the communication unit 120. The information processing described in these programs functions as a concrete means in which the software and the hardware resources of the communication unit 120 cooperate with each other by being read by the computer.

Although the present invention has been described above using the embodiments, the technical scope of the present invention is not limited to the scope described in the above embodiments. It will be apparent to those skilled in the art that various changes or improvements can be made to the above embodiments. It is clear from the description of the claims that the form with such changes or improvements may be included in the technical scope of the present invention.

The order of execution of each process, such as operation, procedure, step, and step in the apparatus, system, program, and method shown in the claims, specification, and drawings, is particularly "before" and "prior to". It should be noted that it can be realized in any order unless the output of the previous process is used in the subsequent process. Even if the scope of claims, the specification, and the operation flow in the drawings are explained using "first", "next", etc. for convenience, it means that it is essential to carry out in this order. It's not a thing.

10 network, 100 battery, 110 battery cell, 120 communication unit, 122 connector part, 124 wireless communication part, 126 position acquisition part, 134 remaining amount acquisition part, 136 notification data output part, 138 battery information storage part, 140 history storage part , 152 wheel part, 154 supply connector, 210 communication terminal, 220 information management server, 300 electric vehicle, 310 drive part, 320 display, 400 display data, 402 map data, 410 own vehicle object, 420 charging station object, 430 compatible vehicle object

Claims (9)

A battery mounted on an electric vehicle to supply electric power to the electric vehicle .
With the housing
The battery cell built into the housing and
A connector part that holds the SIM (Subscriber Identity Module) detachably, and
A GPS unit built in the housing and acquiring GPS (Global Positioning System) data as the position of the battery, and
When the remaining battery level of the battery cell built in the housing is lower than a predetermined threshold value, the battery is subjected to wireless communication according to a mobile communication method using information recorded in the SIM. The position information indicating the position and the type information indicating the type of another battery cell capable of charging the battery cell are transmitted to the information management server, and the electricity equipped with the battery cell indicated by the type of the battery cell indicated by the type information is transmitted. Among automobiles, a wireless communication unit that receives position information indicating the position of an electric vehicle closer to the position indicated by the position information of the battery received by the information management server , and
Equipped with a battery. A battery mounted on an electric vehicle to supply electric power to the electric vehicle .
With the housing
The battery cell built into the housing and
A GPS unit built in the housing and acquiring GPS (Global Positioning System) data as the position of the battery, and
When the remaining battery level of the battery cell is lower than a predetermined threshold value, the above is performed by wireless communication according to a mobile communication method using information recorded in a SIM (Subscriber Identity Module) held by the battery. The position information indicating the position of the battery and the type information indicating the type of another battery cell capable of charging the battery cell are transmitted to the information management server, and the battery cell indicated by the type of the battery cell indicated by the type information is installed. Among the electric vehicles, the wireless communication unit built in the housing, which receives the position information indicating the position of the electric vehicle closer to the position indicated by the position information of the battery received by the information management server , and
Equipped with a battery. The wireless communication unit included in the battery realizes wireless communication according to the mobile communication method using the information recorded in the SIM even when the battery is not mounted on the electric vehicle. The battery according to claim 1 or 2. The battery according to any one of claims 1 to 3, wherein the wireless communication unit further transmits the position information of the battery to the external device when the request from the external device is received. When the remaining battery level of the battery is lower than a predetermined threshold value, the wireless communication unit includes the remaining battery level of the battery, the position information of the battery, i) the characteristics of the battery cell, and ii) the said. Notification data including type information indicating the type of another battery cell capable of charging the battery cell and iii) manufacturer information regarding the manufacturer of the battery cell is transmitted to the information management server, and further, from an external device. The battery according to any one of claims 1 to 4, wherein the position information of the battery is transmitted to the external device when the request is received. The battery is mounted on an electric vehicle capable of automatic operation, and supplies electric power of the battery cell to the electric vehicle .
The wireless communication unit transmits the position information and the remaining battery level of the battery cell to the information management server.
The wireless communication unit receives the position information of another battery and the remaining battery level from the information management server, and receives the position information and the remaining battery level of the other battery.
When it is determined that the remaining battery level of the other battery received is less than the remaining battery level of the other battery and the battery can move to the position indicated by the position information of the other battery, the position of the other battery is determined. The battery according to any one of claims 1 to 5, which controls the electric vehicle to move to a position indicated by information and charges the other battery. It also has wheels,
The battery according to any one of claims 1 to 6 , wherein the wireless communication unit receives instruction data from an external device and can move to a position indicated by the instruction data according to the instruction data. The battery according to claim 7 , wherein the battery is capable of accommodating the wheel portion. The battery according to claim 8 , wherein the battery is moved by the wheel portion to a position indicated by the instruction data according to the instruction data, and then houses the wheel portion.

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