JP5113950B1 - Battery device, information processing device, control method thereof, and control program - Google Patents

Abstract

An object of the present invention is to effectively supply electricity.
A battery device that is movable, and stores information on a battery for storing electric power, a storage amount detection means for detecting a storage amount stored in the battery, and storage amount information relating to the detected storage amount. A storage amount transmitting means for transmitting to the apparatus; reservation information receiving means for receiving from the information processing apparatus; reservation information for specifying an electric apparatus to be connected in the future; and storage means for storing the reservation information. It is characterized by that.
[Selection] Figure 1

Description

  The present invention relates to a movable battery device and its peripheral technology.

  In the above technical field, Patent Document 1 discloses a technique relating to a detachable trailer that is connected to an electric vehicle and includes a sub-battery that supplies electric power to the electric vehicle.

Japanese Patent Laid-Open No. 11-341608

  However, in the technique described in the above document, the trailer has no ability other than power supply, and is not easy to use. In the world where electric vehicles are becoming more and more popular, it is expected that drivers will want to know when and where trailers can be connected, but there is no system that can meet these needs. Electricity could not be supplied effectively.

  The objective of this invention is providing the technique which solves the above-mentioned subject.

In order to achieve the above object, an apparatus according to the present invention provides:
A movable battery device in a battery system comprising: an electric vehicle; a plurality of movable battery devices that supply power to the electric vehicle; and an information processing device that controls use of the plurality of battery devices by the electric vehicle. Because
A battery for storing electric power to be supplied to the electric vehicle ;
Reservation information receiving means for receiving, from the information processing device, reservation information for identifying an electric vehicle to be connected in the future , included in the reservation received by the information processing device from a user of the electric vehicle;
Storage means for storing the reservation information;
Determining means for determining whether the electric vehicle connected to or about to be connected to the battery device is an electric vehicle specified by the reservation information;
First electric power supply means for supplying electric power to the electric vehicle when it is determined that the electric vehicle is specified by the reservation information;
It is provided with.

In order to achieve the above object, an apparatus according to the present invention provides:
And electric vehicle, and a plurality of movable battery device for supplying electric power to the electric vehicle, in a battery system having an information processing apparatus for controlling use of the plurality of the battery by the electric vehicle, movable above An information processing apparatus capable of communicating with a battery device ,
Before SL accepts reservation of the battery device from a user of the electric vehicle, characterized by comprising a reservation means to transmit the reservation information included in the accepted reservation to the battery device of a reservation target.

In order to achieve the above object, the method according to the present invention comprises:
Supply to the electric vehicle in a battery system having an electric vehicle, a plurality of movable battery devices for supplying electric power to the electric vehicle, and an information processing device for controlling use of the plurality of battery devices by the electric vehicle A control method for a movable battery device, comprising: a battery for storing electric power to perform , reservation information receiving means, determination means, and power supply means ,
The reservation information receiving means receives reservation information for specifying an electric vehicle to be connected in the future included in a reservation received by the information processing apparatus from a user of the electric vehicle from the information processing apparatus and stores the reservation information. Reservation information receiving step stored in
A determination step in which the determination means determines whether the electric vehicle connected to or about to be connected to the battery device is an electric vehicle specified by the reservation information;
When determining that the electric vehicle is specified by the reservation information, the power supply means supplies power to the electric vehicle; and
It is characterized by including.

  According to the present invention, it is possible to effectively supply electricity.

It is a block diagram which shows the structure of the battery trailer system which concerns on 1st Embodiment of this invention. It is a figure which shows the external appearance structure of the electric vehicle and battery trailer which concern on 1st Embodiment of this invention. It is a figure which shows the internal structure of the electric vehicle which concerns on 1st Embodiment of this invention. It is a figure which shows the internal structure of the battery trailer which concerns on 1st Embodiment of this invention. It is a figure which shows the reservation information managed with the server which concerns on 1st Embodiment of this invention. It is a figure which shows the reservation information managed with the battery trailer which concerns on 1st Embodiment of this invention. It is a block diagram which shows the function structure of the server which concerns on 1st Embodiment of this invention. It is a block diagram which shows the hardware constitutions of the server which concerns on 1st Embodiment of this invention. It is a figure which shows the trailer information managed with the server which concerns on 1st Embodiment of this invention. It is a figure which shows the example of a display screen displayed with the electric vehicle which concerns on 1st Embodiment of this invention. It is a figure which shows the example of a display screen displayed with the electric vehicle which concerns on 1st Embodiment of this invention. It is a figure which shows the example of a display screen displayed with the electric vehicle which concerns on 1st Embodiment of this invention. It is a figure which shows the example of a display screen displayed with the electric vehicle which concerns on 1st Embodiment of this invention. It is a flowchart which shows the flow of the process performed in the server which concerns on 1st Embodiment of this invention. It is a figure for demonstrating the content of the process performed in the server which concerns on 1st Embodiment of this invention. It is a figure which shows the example of a display screen displayed with the electric vehicle which concerns on 1st Embodiment of this invention. It is a block diagram which shows the structure of the battery trailer system which concerns on 2nd Embodiment of this invention. It is a figure which shows the internal structure of the battery trailer which concerns on 2nd Embodiment of this invention. It is a figure which shows the internal structure of the server which concerns on 2nd Embodiment of this invention. It is a figure which shows the structure of the battery trailer which concerns on 3rd Embodiment of this invention.

  Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the drawings. However, the components described in the following embodiments are merely examples, and are not intended to limit the technical scope of the present invention only to them.

[First Embodiment]
(System configuration)
A battery trailer system 100 according to a first embodiment of the present invention will be described with reference to FIG. The battery trailer system 100 includes at least a server 101, an electric vehicle 102, and a battery trailer 103 as a movable battery device that is detachably connected to the electric vehicle 102.

  The server 101 includes at least a position acquisition unit 111, a storage amount acquisition unit 112, an arrangement presentation unit 113, a reservation reception unit 114, a reservation information database 115, and a remote control unit 116.

  The position acquisition unit 111 acquires position information of each battery trailer 103. The storage amount acquisition unit 112 acquires storage amount information of each battery trailer 103. The arrangement presentation unit 113 presents the position of the battery trailer 103 in response to a request from the electric vehicle 102 or the mobile communication terminal (mobile phone or smart device) 104.

  The reservation receiving unit 114 receives a reservation for the battery trailer 103 from the electric vehicle 102 or the portable communication terminal 104 via a network such as the Internet. Specifically, the reservation receiving unit 114 receives reservation information including which battery trailer 103 is connected to when, where, and when and where to disconnect. The user (user of the electric vehicle 102) is permitted to rent the battery trailer 103 by registering as a member in advance. The user is charged based on the time using the battery trailer 103 and the power usage fee. The reservation receiving unit 114 stores the received reservation content in the reservation information database 115 (FIG. 5), and transmits it to the battery trailer 103 to be reserved as appropriate.

  Conventional electric vehicles, convert EVs (electric vehicles) and the like have a limited cruising distance because the battery capacity that can be mounted on the vehicle body is limited by space. By connecting a battery trailer 103 mounted with a large capacity battery (for example, a lithium ion battery) to the electric vehicle 102, it is possible to extend the cruising distance.

  The battery trailer 103 transmits the power holding amount and the current reservation status to the server 101 through the built-in wireless communication unit. The server 101 automatically matches the user who wants to use and the battery trailer 103.

  The battery trailer 103 is disposed in a convenience store 140, a home appliance mass retailer 150, a restaurant, and the like, in addition to a battery station 130 such as a gas station. Since the electric vehicle 102 connects the reserved battery trailer 103, the battery trailer 103 identifies the electric vehicle 102 as the reservation subject and permits the connection when visiting the places.

  Electric power supply using the battery trailer 103 may be performed by the tow truck / load service. If the worker pulls the battery trailer 103 and rushes to the site by connecting with the electric vehicle 102 in question by contact from the electric vehicle 102 whose battery charge is insufficient, a simple and rapid response is possible. .

  Further, the remote control unit 116 of the server 101 transmits a traveling instruction to the self-propelled battery trailer 103x having a special specification.

  The battery trailer 103 can be connected to the work vehicle 105 in addition to the electric vehicle 102. The power required for construction machinery and heavy machinery work in mountainous areas and wilderness is enormous, but it takes a lot of money to secure a power infrastructure. Therefore, the battery trailer 103 can be used as a movable power storage facility by deploying the battery trailer 103 in a work site such as a construction machine or a heavy machine or a disaster site. In particular, since the work vehicle 105 often lacks mobility, it is desirable to supply the power by moving the self-propelled battery trailer 103x one after another without moving the work vehicle 105. In this case, the user of the work vehicle 105 may remotely operate the self-propelled battery trailer 103x using a controller. The self-propelled battery trailer 103x may be reciprocated between the charging stand 106 and the work vehicle 105 based on a predetermined schedule.

  Furthermore, by using a facility 160 that can generate electricity (generators such as heavy oil, gasoline, solar thermal power generation) 160 and arranging a plurality of battery trailers 103, 103x, power can be transported to remote sites. Also good. For example, power can be supplied to evacuation centers and factories in the event of a disaster. Generators have many problems such as cost, size and weight, use of volatile oil, etc., and cannot be placed at many points. Therefore, the generator can be fixedly arranged at the base, and the generated electric power can be supplied to the battery trailer 103 and moved to be transported to the site where the electric power is required.

  Although not shown in the figure, the battery trailer 103 may be pulled by a gasoline vehicle. You can also use it as if you were going to the outside, such as camping.

(Appearance of electric vehicle and battery trailer)
FIG. 2 is a diagram illustrating an example of a state in which the battery trailer 103 is connected to the electric vehicle 102. The battery trailer 103 is connected to the rear part of the electric vehicle 102 and is pulled by the electric vehicle 102. The battery trailer 103 and the electric vehicle 102 are mechanically connected at the connection portion 201 and are also electrically connected by an AC connection (AC) or a DC connection (DC).

  The battery trailer 103 is charged with an internal battery so as to charge an internal battery, a CHAdeMo (registered trademark) standard inlet (power supply port) 202 connected to a charging stand and an inlet 203 that can be connected to a household outlet. And. Thereby, the charging infrastructure in a service area, a city area, etc. can be utilized. Moreover, the outlet 204 which enables the output of AC100V is provided. This outlet 204 assumes the use of an electric device outdoors such as camping.

  In addition, although the structure which can be charged with two types of inlets of CHAdeMo (registered trademark) and AC100V is described here, the present invention is not limited to this. An inlet of a system adopted in Europe and America may be provided, or an AC220V inlet may be used. However, it is desirable to provide both an inlet for a quick charging facility and an inlet for a household power source.

  The battery trailer 103 further includes a lamp 205 such as an LED that can be lit in a plurality of colors as a notification unit. By changing the lighting color and lighting mode of the lamp 205 in conjunction with the reservation status of the battery trailer 103, the reservation status and the like can be distinguished at a glance within the facility where the battery trailer 103 is installed.

(Internal configuration of electric vehicle)
FIG. 3 is a diagram illustrating an internal functional configuration of the electric vehicle 102. First, the electric vehicle 102 includes a vehicle operation device 301 such as an accelerator, a brake, a shift, and a meter. The electric vehicle 102 includes a DC motor or an AC motor 302, and includes a motor control unit 303 for controlling the motor. The motor control unit 303 detects a failure of the motor 302 and performs communication management.

  The charging connection unit 305 supplies power from outside the vehicle to the electric vehicle 102 and charges a battery module 361 mounted on a battery management system (BMS: Battery Management System) 306 of the electric vehicle 102.

  The battery management system 306 includes a battery management unit (BMU) 362 and a battery support unit (BSU) 363 in addition to the battery module 361. The battery management unit 362 monitors the current, monitors it according to the upper and lower limit set values, and performs power line relay disconnection control, communication control with the host controller, log storage, and the like. The battery auxiliary unit 363 monitors the state of each battery cell or battery module, monitors the voltage of the battery module 361, monitors the temperature, stores the history for each cell, equalizes (discharge by cell), battery management unit Power is supplied to 362 and the like.

  Electric power in the battery management system 306 is supplied to the motor 302 via the junction box 307 and the motor control unit 303.

  The vehicle control unit 304 adjusts the amount of power supplied from the battery management system 306 to the motor 302 by controlling the motor control unit 303 and the junction box 307.

  The power of the electric vehicle 102 is obtained from the rotational power of the motor 302 that rotates the wheel 308. The motor 302 also operates as a generator and has a function of regenerating electric power.

  The motor control unit 303 controls the amount of electric power by turning on and off the amount of current supplied from the battery in a very short cycle.

  The power management unit 341 of the vehicle control unit 304 controls the amount of current and voltage that the circuit of the motor control unit 303 passes. The power management unit 341 switches processing such as acceleration and power regeneration operation based on information such as the accelerator opening degree and the depression of the brake acquired from the machine interface 342 and the travel control unit 343. Further, the inverter control unit 344 protects the control so that the motor and the inverter are not destroyed through monitoring the motor and monitoring the tire.

  The charging control unit 345 controls charging of the battery management system 306 with power supplied from a charging point or a household outlet.

  On the other hand, the battery in the battery trailer 103 is connected to the junction box 307. The electric power supplied from the battery trailer 103 is sent to the battery management system 306 or the motor control unit 303 via the junction box 307. The junction box 307 includes a power conversion device or an inverter that converts electric power from the battery trailer 103 into an appropriate voltage.

  Charging from the battery trailer 103 may be performed wirelessly. For example, a method performed using a magnetic field or an electric field can be employed. Further, control communication for transmitting the charging status and charging completion to the battery trailer 103 may be performed wirelessly such as Bluetooth (registered trademark).

(Internal configuration of battery trailer)
FIG. 4 is a diagram illustrating an internal configuration of the battery trailer 103. In FIG. 4, a battery management system (BMS) 406 includes a battery module 461, a battery management unit (BMU) 462, a battery support unit (BSU) 463, and a storage amount. And a detection unit 464. The battery management unit 462 monitors the current supplied to the battery module 461, monitors the current based on the upper and lower limit set values, and performs power line relay disconnection control, communication control with the host controller, log storage, and the like. The battery auxiliary unit 463 monitors the state of each battery cell or battery module, monitors the voltage of the battery module 461, monitors the temperature, stores the history for each cell, equalizes (discharge by cell), battery management unit Power is supplied to 462. Further, the battery management system 406 includes a storage amount detection unit 464 and detects the storage amount of the battery module 461. The electric power in the battery management system 406 is supplied to the junction box 307 of the electric vehicle 102.

  The trailer control unit 404 includes a converter 441, a wireless communication unit 442, a current location detection unit 443, and a vehicle determination unit 444.

  The converter 441 converts the power supplied from the charging connection unit 405 into a voltage value suitable for charging the battery module 461.

  The wireless communication unit 442 is a unit that realizes the functions of a storage amount transmission unit, a reservation reception unit, a current location transmission unit, and a connection status transmission unit. The wireless communication unit 442 serving as the storage amount transmission unit transmits the storage amount information detected by the storage amount detection unit 464 to the server 101 having a predetermined address via the network.

  In addition, the wireless communication unit 442 serving as a reservation receiving unit receives reservation information for specifying an electric device (an electric vehicle 102, a work vehicle, an electric product, etc.) to be connected in the future from the server 101. The reservation information is information indicating who, when, to which electric device is connected, and when and where to leave. The reservation information memory 410 serving as a storage means in the form of a reservation information table 601 as shown in FIG. Stored in

  The wireless communication unit 442 serving as a connection status transmission unit transmits connection status information indicating a connection status with the electric vehicle to the server 101. The connection status includes not only connection and reservation, but also connection errors.

  The current location detection unit 443 detects the current location of the battery trailer 103 using a GPS (Global Positioning System) or the like. The current location information regarding the detected current location is notified to the server 101 via the wireless communication unit 442.

  The vehicle determination unit 444 determines whether or not the vehicle connected to the battery trailer 103 or the vehicle to be connected matches the reservation target vehicle stored in the reservation information memory 410. The battery trailer 103 may include a camera (not shown) as an imaging unit for confirming an electric device (here, an electric vehicle) to be connected. The vehicle determination unit 444 may determine whether or not the vehicle is a reservation target vehicle using the number of the vehicle photographed using the camera. In addition, the identification information may be acquired directly from the vehicle by wired or wireless connection.

  The trailer control unit 404 further includes a lamp control unit 445 for controlling lighting of the lamp 205. The lamp control unit 445 changes the lighting color and lighting mode of the lamp 205 according to the reservation information (reservation status) stored in the reservation information memory 410. As a result, the reservation status and the like can be recognized at a glance in the facility where the battery trailer 103 is installed.

  The charging connection unit 405 includes a CHAdeMo (registered trademark) standard inlet (power supply port) 202 connected to a charging stand, and an inlet 203 that enables input of AC 100 V that can be connected to a household outlet. As a result, a charging infrastructure in a service area, an urban area, etc. can be utilized, power is supplied from outside the vehicle to the electric vehicle 102, and the battery module 461 mounted in the battery management system 406 is charged.

  The inverter control unit 407 includes an outlet 204 that enables output of AC 100 V, converts the electric power stored in the battery trailer 103 into alternating current (AC 100 V), and supplies it to the outside. Thereby, electric devices, such as a light, a refrigerator, a microwave oven, etc. can be utilized in the outdoors, such as a camp.

  The battery trailer 103 further includes a wheel 408 and is moved by being pulled by the electric vehicle 102.

  The wireless communication unit 442 may notify the electric vehicle 102 of a charging status, a storage amount, a charging completion, and the like using a wireless communication standard such as Bluetooth (registered trademark). As a wireless communication standard to be used, in addition to Bluetooth (registered trademark), Wi-Fi (registered trademark), Ant + (registered trademark), ZigBee (registered trademark), and the like can be considered, but the present invention is limited to these. not.

(Reservation information database)
FIG. 5 is a diagram showing the contents of the reservation information database 115 stored in the server 101. As shown in FIG. 5, the reservation information database 115 includes the user membership number, the connection target to be connected to the trailer, the identification information of the reserved trailer, the current location of the trailer, the start date and time of lending, and the return. (Schedule) The date and time and the reservation status are stored in association with each other. There are three reservation statuses: unconnected, connected, and returned. The returned data is deleted after a certain period of time. If the reservation status is "Not Connected" and the loan start date has passed, or if the reservation status is "Connected" and the return (planned) date has passed, the user or connection target An alert is notified to the electric vehicle. A user information database that stores the user name, contact information, owned car, etc. is prepared separately in association with the user ID, and by referring to the user information database, the contact information of the user can be determined. Can be notified. According to this reservation information database 115, it is possible to derive which trailer is where and where is reserved.

  FIG. 6 is a diagram showing the contents of the reservation information table 601 stored in the battery trailer 103. As shown in FIG. 6, the reservation information table 601 stores a reservation status, a lending start date / time, a scheduled return date / time, a planned return location, a reservation target, and a member number in association with each other. The reservation status includes connection, reservation on the day, waiting for charging (power storage amount Xkwh), charging (power storage amount Ykwh), and the like.

(Server configuration)
FIG. 7A is a functional configuration diagram for explaining the configuration of the server 101 in more detail. The server 101 includes a screen generation unit 701, a vehicle destination acquisition unit 702, a vehicle current location acquisition, in addition to the position acquisition unit 111, the storage amount acquisition unit 112, the arrangement presentation unit 113, the reservation reception unit 114, and the like described in FIG. A unit 703 and a vehicle travel route calculation presentation determination unit 704. Further, a recommended battery trailer presenting unit 705 and a recommended leaving location presenting unit 706 are provided, and a user information database 707, a trailer information database 708, and a map information database 709 are provided.

  The screen generation unit 701 generates a screen to be displayed on a navigation system provided in the electric vehicle 102 or a display of the mobile communication terminal 104 owned by the user. For example, a screen for displaying a map, trailer candidates to be connected, schedule information, and the like is generated.

  The vehicle destination acquisition unit 702 acquires the destination of the electric vehicle 102 from the navigation system of the electric vehicle 102 or the mobile communication terminal 104 owned by the user.

  The vehicle current location acquisition unit 703 acquires the current location of the electric vehicle 102 from the navigation system of the electric vehicle 102 or the mobile communication terminal 104 owned by the user.

  Further, the vehicle travel route calculation / presentation determination unit 704 has a travel route that connects the destination acquired by the vehicle destination acquisition unit 702 and the current location acquired by the vehicle current location acquisition unit 703 (for example, recommended route, shortest distance route, toll road priority). Route, toll road non-use route, etc.). And after showing them to a user, the driving | running | working route which should be guided based on a user's operation is determined.

  The recommended battery trailer presenting unit 705 presents candidates for the battery trailer 103 suitable for connection while traveling on the determined travel route.

  When the user selects the battery trailer 103 to be connected from the presented battery trailer 103 candidates, the vehicle travel route calculation presentation determination unit 704 sets the position of the selected battery trailer 103 as an additional destination. Further, the reservation receiving unit 114 receives a reservation for the selected battery trailer 103.

  The recommended leaving location presentation unit 706 presents the timing and location suitable for leaving the battery trailer 103. When the user selects a departure location from the proposed departure location candidates of the battery trailer 103, the vehicle travel route calculation presentation determination unit 704 sets the selected departure location as an additional destination. Further, the reservation receiving unit 114 updates the reservation information of the battery trailer 103.

  The user information database 707 stores a user ID, a user name, a user contact address, a user billing destination, a user-owned vehicle, and the like in association with each other.

  As shown in FIG. 8, the trailer information database 708 stores a trailer No, a status, a current location, a return schedule, a battery storage amount, and the like in association with each other.

(Hardware configuration)
FIG. 7B is a diagram illustrating a hardware configuration of the server 101. The server 101 includes a CPU (Central Processing Unit) 710, a ROM (Read Only Memory) 720, a communication control unit 730, a RAM (Random Access Memory) 740, and a storage 760. The CPU 710 is a central processing unit, and controls the entire server 101 by executing various programs. The ROM 720 is a read-only memory, and stores various parameters and the like in addition to a boot program to be executed first by the CPU 710. The RAM 740 is a random access memory and has execution areas for various applications.

  Specifically, the RAM 740 includes execution areas for a position acquisition module 741, a storage amount acquisition module 742, an arrangement presentation module 743, and a reservation reception module 744. When these modules are executed by the CPU 710, they function as the position acquisition unit 111, the storage amount acquisition unit 112, the arrangement presentation unit 113, and the reservation reception unit 114, respectively.

  The RAM 740 also executes the screen generation module 745, the vehicle destination acquisition module 746, the vehicle current location acquisition module 747, the vehicle travel route calculation presentation determination module 748, the recommended battery trailer presentation module 749, and the recommended departure location presentation module 750. Has an area. When these modules are executed by the CPU 710, a screen generation unit 701, a vehicle destination acquisition unit 702, a vehicle current location acquisition unit 703, a vehicle travel route calculation presentation determination unit 704, a recommended battery trailer presentation unit 705, respectively. And it functions as the recommended leaving location presentation unit 706.

(Display screen example)
9 to 13 are diagrams illustrating examples of screens that the server 101 displays on the display of the electric vehicle 102 or the mobile communication terminal 104. FIG.

  As the simplest example, as shown in FIG. 9, there is a method of displaying a map image 903 and a battery trailer 905 near the current location 904 on a display 902 provided on the center console 901 of the electric vehicle 102. In this case, the number of battery trailers 905 and the respective battery storage amounts may be displayed. Of course, a similar screen may be displayed on the mobile communication terminal 104 (the same applies to FIGS. 10 to 13).

  FIG. 10 is a diagram illustrating a transition example of messages displayed on the display 902 of the electric vehicle 102. The electric vehicle 102 detects the storage amount of the battery module 361 using the storage amount detection unit 364 and transmits it to the server 101. The vehicle destination acquisition unit 702 of the server 101 calculates the amount of power necessary to reach the destination, and reserves the battery module 361 within a range that can be reached by the battery storage amount when the battery storage amount of the battery module 361 is insufficient. If there is a possible battery trailer, the screen 1001 is displayed on the display 902. On the other hand, if there is no battery trailer that can be reserved within the range that can be reached by the amount of stored battery, a screen 1002 is displayed on the display 902.

  Here, when the “search battery trailer” button 1011 is selected, it is determined whether or not there is a battery trailer 103 that can be reserved within the range that can be reached by the amount of stored battery in the battery module 361 and in the vicinity of the travel route. To do.

  If a battery trailer that can be reserved in the vicinity of the travel route is found, the screen 1004 displays a list of the distance to the battery trailer that can be reserved, the location of the battery trailer, and the amount of electric power held. When any battery trailer is selected and the “add destination” button 1041 is selected, the selected battery trailer is set as the additional destination.

  If no battery trailer is found near the travel route, a screen 1003 is displayed. When the “Search for battery trailer outside travel route” button 1031 is selected, a screen 1005 is displayed, and battery trailers that can be reached from the current location are listed in order of the distance from the current location. At this time, the list may be listed not in the order of the distance from the current location but in the order of the distance from the destination.

  FIG. 11 is a diagram showing an example of a display screen displayed when the “add destination” buttons 1041 and 1051 in FIG. 10 are selected. The screen 1101 inquires whether or not to reserve the selected battery trailer. When “YES” button 1111 is selected, reservation accepting unit 114 reserves the selected battery trailer and displays screen 1102. At this time, if the same user has already reserved another battery trailer, a screen 1103 is displayed. If another trailer reservation is canceled, the reservation process is performed again and the screen 1102 is displayed.

  After the reservation, if it becomes difficult to arrive at the reserved battery trailer within the time, a screen 1104 is displayed to re-search the battery trailer or re-reserve the same battery trailer.

  FIG. 12 is a diagram illustrating a display screen example for notifying that the battery storage amount of the battery trailer 103 is decreasing.

  On the screen 1201, an inquiry is made as to whether to search for a trailer leaving place. When searching for a departure location, it is determined whether or not there is a departure location in the vicinity of the travel route to the destination. If there is a departure location in the vicinity of the travel route, a map of the departure location is displayed as shown on a screen 1202 and guidance is provided. To do.

  When there is no departure place near the driving route to the destination, a screen 1203 is displayed. Further, when searching outside the driving route, a screen 1204 is displayed to display a map of the departure place and a detour distance and necessary. Notify the additional power amount.

  FIG. 13 is a flowchart showing the flow of battery trailer search and presentation processing performed in the server 101.

  First, in step S1301, the battery trailer 103 that can be reserved and is within the range that can be reached by the amount of stored battery at the time when the search instruction is received is extracted from the trailer information database 708. At this time, as shown in FIG. 14, the battery trailer 103 (Δ mark in FIG. 14) that is too close from the current position and the battery trailer 103 (× mark in FIG. 14) that exists just before the reachable distance are excluded. The battery trailer 103 is extracted from the hatched portion shown in FIG. That is, the battery trailer 103 is extracted so that the distance from the current location is equal to or less than a value obtained by subtracting a predetermined distance (for example, 5 km) from the reachable distance of the currently used battery and is as far away from the current location as possible. That is, the battery trailer 103 having a large distance from the current location of the electric vehicle 102 is presented with priority over the battery trailer 103 having a small distance from the current location of the electric vehicle 102.

  This is because if the battery trailer 103 that is too close to the current position is selected, the power consumption as a whole becomes worse. This is because there is a risk that the battery trailer 103 that exists at the limit of the reachable distance cannot be reached.

  Next, in step S1303, from the battery trailer 103 extracted in step S1301, the battery trailer 103 that is connected to the electric vehicle 102 and cannot reach the destination as it is (for example, a circle in FIG. 14) is excluded.

  Next, in step S1305, a plurality of battery trailers 103 extracted in step S1303 (for example, double circles and asterisks in FIG. 14) are required time and power consumption to the destination when they are added destinations. Sort by.

  In this way, in step S1307, a battery trailer (for example, star 1401 in FIG. 14) that reduces the power consumption and required time to the destination is recommended and notified to the user of the electric vehicle. Of course, the double-circle battery trailer in FIG. 14 may be simultaneously notified to the user for selection. For example, on the screen 1501 as shown in FIG. 15, for each battery trailer 103, the estimated required time to the destination, the power consumption, the arrangement location, etc. when connected to the battery trailer 103 are displayed as a list, and the user May be selected.

  As described above, according to this embodiment, it is possible to effectively extend the cruising distance of the electric vehicle using the battery trailer.

[Second Embodiment]
Next, a battery trailer system 200 according to a second embodiment of the present invention will be described with reference to FIGS. 16 and 17. Although shown as a self-propelled battery trailer 103x in FIG. 1 as well, in this embodiment, a battery trailer 1603 that self-propels to connect to the electric vehicle 1602 according to an instruction from the server 1601 will be described. For example, as shown in FIG. 16, the license plate of the electric vehicle 1602 is read by the camera 1604 to determine whether or not the battery trailer 1603 is a reservation target. When it is determined that the reservation is to be made, the battery trailer 1603 travels toward the electric vehicle 1602 using its own battery and motor and automatically connects. The battery trailer 1603 may include a camera 1631 as an imaging unit for confirming an electric device (here, an electric vehicle) to be connected. In that case, a camera 1631 may be disposed on the front surface of the battery trailer 1603 and the number plate at the rear of the electric vehicle 1602 may be read.

  FIG. 17 is a diagram illustrating a configuration of the battery trailer 1603. The battery trailer 1603 includes a motor 1711 that is driven by electric power stored in the battery module 461. The trailer control unit 1704 includes a travel instruction receiving unit that receives a travel instruction from the server 1601 as one function of the wireless communication unit 1742. The trailer control unit 1704 includes a trailer drive control unit 1745 that controls the drive of the battery trailer in accordance with the travel instruction.

  FIG. 18 is a diagram showing a configuration of the server 1601 according to the present embodiment. As illustrated in FIG. 18, the server 1601 includes a travel instruction transmission unit 1801 for transmitting a travel instruction to the battery trailer 1603.

  Since other configurations and operations are the same as those in the first embodiment, the same components are denoted by the same reference numerals, and detailed description thereof is omitted.

  With the above configuration, the battery trailer 1603 can be driven from a remote location using a handy terminal. The battery trailer 1603 can also be called to the electric vehicle 1602 when the power status of the vehicle is tight. Furthermore, it is possible to consider the battery trailer 1603 and select and connect the electric vehicle 1602 by self-propelled.

[Third Embodiment]
Next, a battery trailer according to a third embodiment of the present invention will be described with reference to FIG.

  As shown in FIG. 19, the battery trailer 1903 can be connected to the electric vehicle 1902, and after the connection, only the wheel portion may be detached and only the battery portion may be mounted on the electric vehicle 102. Since the internal configuration of the battery trailer 1903 is the same as that described in the first embodiment, a detailed description thereof is omitted here.

  By configuring in this way, the electric vehicle 1902 has an advantage that the driving operation after mounting the battery trailer is significantly easier than in the first embodiment.

[Other Embodiments]
Although the present invention has been described with reference to the embodiments, the present invention is not limited to the above embodiments. Various changes that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the present invention. In addition, a system or an apparatus in which different features included in each embodiment are combined in any way is also included in the scope of the present invention.

  In addition, the present invention may be applied to a system composed of a plurality of devices, or may be applied to a single device. Furthermore, the present invention can also be applied to a case where an information processing program that implements the functions of the embodiments is supplied directly or remotely to a system or apparatus. Therefore, in order to realize the functions of the present invention on a computer, a program installed in the computer, a medium storing the program, and a WWW (World Wide Web) server that downloads the program are also included in the scope of the present invention. .

Claims (16)

A movable battery device in a battery system comprising: an electric vehicle; a plurality of movable battery devices that supply power to the electric vehicle; and an information processing device that controls use of the plurality of battery devices by the electric vehicle. Because
A battery for storing electric power to be supplied to the electric vehicle ;
Reservation information receiving means for receiving, from the information processing device, reservation information for identifying an electric vehicle to be connected in the future , included in the reservation received by the information processing device from a user of the electric vehicle;
Storage means for storing the reservation information;
Determining means for determining whether the electric vehicle connected to or about to be connected to the battery device is an electric vehicle specified by the reservation information;
First electric power supply means for supplying electric power to the electric vehicle when it is determined that the electric vehicle is specified by the reservation information;
A movable battery device comprising: Current location detection means for detecting the current location of the battery device;
Current location transmission means for transmitting current location information relating to the current location to the information processing device;
The movable battery device according to claim 1, comprising: A storage amount detection means for detecting a storage amount stored in the battery;
  Storage amount transmission means for transmitting storage amount information relating to the detected storage amount to an information processing device;
  Connection status transmission means for transmitting connection status information indicating a connection status with the electric vehicle to the information processing device;
  The movable battery device according to claim 1 or 2, further comprising: A motor driven by electric power stored in the battery;
Wheels rotated by the motor;
With
The movable battery device according to any one of claims 1 to 3, wherein the battery device is self-propelled by remote control. It said determination means, a movable battery device according to any one of claims 1 to 4, characterized in that it comprises an imaging means for checking the electric vehicle to be the connection. Movable battery device according to any one of claims 1 to 5, further comprising a notifying means for notifying the reservation information to the external. 2. The apparatus according to claim 1, further comprising second power supply means for supplying electric power stored in the battery to the electric device used by a user of the electric vehicle by a method corresponding to the electric device. 7. The movable battery device according to any one of 6 above. 2. The battery system according to claim 1 , comprising: an electric vehicle; a plurality of movable battery devices that supply electric power to the electric vehicle; and an information processing device that controls use of the plurality of battery devices by the electric vehicle. An information processing device capable of communicating with a movable battery device of
The accepts reservation of an electric vehicle of the battery device from the user, the information processing apparatus characterized by having a reservation means for transmitting the reservation information included in the accepted reservation to the battery device of a reservation target. 9. The apparatus according to claim 8, further comprising battery information presenting means for receiving battery information indicating a current battery state from the plurality of movable battery devices and presenting the battery information to a user of the electric vehicle. The information processing apparatus described in 1. Destination acquisition means for acquiring a destination of the electric vehicle;
Current location acquisition means for acquiring the current location of the electric vehicle;
The current of the movable battery device is within a reachable distance from the current location of the electric vehicle in the storage amount of the electric vehicle, the battery device presenting means for presenting to a user of the electric vehicle,
The information processing apparatus according to claim 8 or 9, further comprising: The battery device presenting means, further wherein there from the current location of the electric vehicle reachable distance storage amount of the electric vehicle, to present the movable battery device located farther in priority manner The information processing apparatus according to claim 10. A storage amount receiving means for receiving storage amount information about the storage amount from the movable battery device;
The said battery apparatus presentation means further presents the said movable battery apparatus which has the electrical storage amount which can reach | attain the destination of the said electric vehicle from the present location of the said movable battery apparatus. The information processing apparatus described in 1. The battery device presenting means gives priority to a movable battery device that is within a predetermined distance from a travel route from the current location to the destination of the electric vehicle over a movable battery device that is outside a predetermined distance from the travel route. The information processing apparatus according to claim 10, wherein the information processing apparatus is provided in the information processing apparatus. It comprises a hard-to-reach information acquisition means for acquiring, from the electric vehicle, information that makes it difficult to reach the movable battery device reserved by the electric vehicle within a reservation time,
  The reservation accepting unit accepts re-reservation of the movable battery device to a user of the electric vehicle in response to information that makes it difficult to reach the reserved movable battery device. The information processing apparatus according to any one of claims 9 to 13. When the stored amount of the movable battery device connected to the electric vehicle is less than a threshold value, it comprises a leaving location presenting means for presenting the leaving location of the connected movable battery device,
  The leaving location presenting means presents the leaving location within a predetermined distance from the travel route from the current location to the destination of the electric vehicle in preference to the leaving location outside the predetermined distance from the travel route. The information processing apparatus according to claim 9, wherein: Supply to the electric vehicle in a battery system having an electric vehicle, a plurality of movable battery devices for supplying electric power to the electric vehicle, and an information processing device for controlling use of the plurality of battery devices by the electric vehicle A control method for a movable battery device, comprising: a battery for storing electric power to perform , reservation information receiving means, determination means, and power supply means ,
The reservation information receiving means receives reservation information for specifying an electric vehicle to be connected in the future included in a reservation received by the information processing apparatus from a user of the electric vehicle from the information processing apparatus and stores the reservation information. Reservation information receiving step stored in
A determination step in which the determination means determines whether the electric vehicle connected to or about to be connected to the battery device is an electric vehicle specified by the reservation information;
When determining that the electric vehicle is specified by the reservation information, the power supply means supplies power to the electric vehicle; and
A control method for a movable battery device, comprising:

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