WO2022113377A1 - シェアリングシステム - Google Patents
シェアリングシステム Download PDFInfo
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- WO2022113377A1 WO2022113377A1 PCT/JP2020/047132 JP2020047132W WO2022113377A1 WO 2022113377 A1 WO2022113377 A1 WO 2022113377A1 JP 2020047132 W JP2020047132 W JP 2020047132W WO 2022113377 A1 WO2022113377 A1 WO 2022113377A1
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- Prior art keywords
- battery
- user
- electric
- information
- sharing system
- Prior art date
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Images
Classifications
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Definitions
- the present invention relates to a sharing system that manages a plurality of electric mobile bodies and a plurality of users.
- An electric moving body such as an electric bicycle drives the drive source by supplying power from the battery to the drive source, and transmits the driving force of the drive source to the wheels to assist or self-propell.
- Some of these types of electric moving bodies are equipped with a plurality of batteries in order to reduce battery exhaustion during traveling.
- Japanese Patent Application Laid-Open No. 2004-359032 provides an electric moving body in which two batteries (battery packs) are provided in a vehicle body and the power supply of one battery and the power supply of the other battery are selectively switched based on the remaining battery level. It has been disclosed. Further, in the electric moving body disclosed in Japanese Patent Application Laid-Open No. 2015-231764, when the operation unit is operated by the user in the stopped state, the control unit is operated by the electric power of the battery in the operation unit, and after this operation, the motor unit is electrically operated. It is configured to supply power to the components (motors).
- the sharing system that shares the electric mobile body with multiple users as described above basically rents out the electric mobile body that has a large battery level. However, depending on the situation such as a large number of usage applications, the sharing system may rent out an electric mobile body with a low battery level. In this case, the user may not be comfortable using the electric moving body because he / she is concerned about the remaining battery level, and in some cases, the battery may run out.
- the present invention has been made in view of the above circumstances, and applies an electric moving body that can use a user battery possessed by the user, and efficiently operates a plurality of electric moving bodies according to the information of the user battery.
- the purpose is to provide a sharing system that can be used.
- one aspect of the present invention is a sharing system having a plurality of electric moving bodies for supplying power from one or more batteries and shared by a plurality of users, wherein the one or more.
- the battery includes a user battery owned by the user, and has a management server that manages the lending and returning of a plurality of the electric mobile bodies, and the management server is used when the user applies for the use of the electric mobile body.
- the remaining battery level or maximum output power of the user battery is acquired, and the information of the electric moving body available to the user is extracted based on the acquired remaining battery level or maximum output power of the user battery, and the electric moving body is extracted. Information is provided to the user.
- the above sharing system applies an electric mobile body that can use the user battery possessed by the user, and can efficiently operate a plurality of electric mobile bodies according to the information of the user battery.
- FIG. 3A is a block diagram showing the flow of the driving force of the electric bicycle.
- FIG. 3B is a block diagram showing power wiring between the main battery and the user battery and the drive source.
- It is a perspective view which shows the 2nd holder which accommodates a user battery.
- It is a flowchart which shows the usage method of a sharing system.
- FIG. 7A is a flowchart showing a processing procedure between the information processing terminal and the management server at the time of user registration.
- FIG. 7A is a flowchart showing a processing procedure between the information processing terminal and the management server at the time of user registration.
- FIG. 7B is an explanatory diagram illustrating the registrant database. It is a flowchart which shows the processing procedure between an information processing terminal and a management server in a use application. It is explanatory drawing which illustrates the screen information of the use application. It is explanatory drawing which illustrates the screen information which inputs the information of a user battery.
- FIG. 11A is an explanatory diagram illustrating application reception information in which user information and application information are linked.
- FIG. 11B is an explanatory diagram illustrating a mobile database.
- FIG. 12A is a first explanatory diagram illustrating matching between the electric mobile body and the user battery.
- FIG. 12B is a second explanatory diagram illustrating matching between the electric mobile body and the user battery.
- FIG. 12A is a first explanatory diagram illustrating matching between the electric mobile body and the user battery.
- FIG. 12C is a third explanatory diagram illustrating matching between the electric mobile body and the user battery. It is explanatory drawing which illustrates the map screen information of the electric moving body provided by the management server by matching.
- FIG. 14A is an explanatory diagram illustrating the movable range of the electric moving body.
- FIG. 14B is an explanatory diagram illustrating the information of the shared battery displayed when the battery station is selected. It is explanatory drawing which illustrates the shared battery database. It is a block diagram which shows the example of the process of giving the battery identification information of a user battery. It is a block diagram which shows the structure for performing user authentication when a user borrows an electric moving body.
- FIG. 20A is a block diagram showing power supply control when the user battery is not connected.
- 20B to 20D are block diagrams showing power supply control when a user battery is connected.
- It is a graph which illustrates the output value of the user battery and the operation of the main body battery with respect to the required power.
- It is a graph which illustrates the change of the battery remaining amount of the main body battery when the user battery is not connected and when the user battery is connected.
- It is a flowchart which illustrates the control flow of the ECU at the time of using an electric moving body.
- FIG. 25A is an explanatory diagram illustrating a state in which the movable range is displayed on the map information of the touch panel.
- FIG. 25B is an explanatory diagram illustrating the notification of low remaining amount of the touch panel. It is explanatory drawing which illustrates the calculation of a plurality of movement routes to a destination. It is explanatory drawing which illustrates the detection of the usage period of the electric moving body, and the calculation of the usage fee.
- FIG. 28A is an explanatory diagram illustrating the calculation of the usage fee based on the battery usage of the main battery.
- FIG. 28B is an explanatory diagram illustrating the calculation of another usage charge using the battery usage of the main battery.
- FIG. 31A is a block diagram showing power supply from the main body battery to the user battery according to the second modification.
- FIG. 31B is a block diagram showing power supply from the user battery to the main battery according to the third modification.
- the electric mobile body 10 is applied to the sharing system 12, and is rented out to a plurality of users (users) by a business operator providing the system, or a plurality of users. Shared between users.
- the sharing system 12 arranges a plurality of electric moving bodies 10 for one or more stations 22 provided in the city by the business operator.
- the user registered in the sharing system 12 applies for the use of the electric moving body 10, and after the application, goes to an appropriate station 22 to receive the electric moving body 10 to use the electric moving body 10.
- the user returns the electric moving body 10 to the station 22 at the receiving place or a place different from the receiving place.
- the electric moving body 10 has a vehicle body 14 and a drive source 16 such as a motor provided on the vehicle body 14.
- the electric moving body 10 supplies electric power from one or more batteries 18 to drive the drive source 16, and assists the traveling of the vehicle body 14 or self-propells.
- Examples of this type of electric moving body 10 include an electric bicycle 20A, an electric kickboard 20B, an electric wheelchair 20C, and an electric cart 20D.
- the electric mobile body 10 is not limited to this, and can be applied to a mobile body (autonomous mobile robot, follow-up mobile robot, nursing care robot, automatic guided vehicle, etc.) that moves in a facility or in the city.
- the sharing system 12 has at least one type of electric movement.
- a service that shares the body 10 may be used.
- the sharing system 12 is constructed as a client-server type using a network 24 such as the Internet.
- the sharing system 12 includes a user's information processing terminal 26, a management server 28, a management machine 30 of the station 22, and a battery station 34 of the shared battery 32 as a configuration connected to the network 24.
- the electric mobile body 10 itself has a wireless communication function that can be connected to the network 24, and can be configured to communicate with the management server 28 while the user is in use or the station 22 is on standby.
- Examples of the user's information processing terminal 26 include a portable electronic device 36 that the user carries on a daily basis and performs information processing based on the user's operation.
- a smartphone 37 is typically shown as an electronic device 36.
- the information processing terminal 26 is not limited to the smartphone 37, and may be a desktop computer, a laptop computer, or another portable electronic device 36 (mobile phone, PDA, tablet, wearable computer, etc.).
- the electronic device 36 has a computer including one or more processors, a memory, and an input / output interface (not shown), and is connected to the network 24 so as to be capable of information communication. Further, the electronic device 36 includes an input / output unit 36a such as a touch panel, a speaker, and a microphone, and also includes a communication module (not shown) capable of close wireless communication with an external device. The user operates the input / output unit 36a to access the management server 28 of the sharing system 12, and performs information input / output, search, and the like regarding the sharing system 12.
- the management server 28 is installed in the management center 29 of the operator of the sharing system 12 and is used as a host machine of the sharing system 12.
- the management server 28 manages a plurality of registered users and a plurality of electric mobile bodies 10 provided.
- the management server 28 is configured in a computer including one or more processors (not shown), a memory, an input / output interface, and the like.
- the management server 28 may be configured by linking a plurality of computers.
- Each station 22 of the electric bicycle 20A, the electric kickboard 20B, the electric wheelchair 20C, and the electric cart 20D is provided in various places in the city (for example, near a station, a highway, a commercial facility, etc.).
- a plurality of electric moving bodies 10 of a predetermined type are parked in each station 22.
- Each station 22 is provided with a plurality of station lock mechanisms 38 corresponding to the number of vehicles scheduled to be parked.
- the station lock mechanism 38 locks each of the parked electric moving bodies 10 so that they cannot be taken out, and unlocks them so that they can be taken out.
- the management machine 30 provided in each station 22 has a computer (vehicle management unit 31) including one or more processors, a memory, an input / output interface (not shown) and a communication module, and is an electric mobile body parked in the station 22.
- the management machine 30 controls the operation of each station lock mechanism 38 so that the predetermined electric moving body 10 can be taken out when the electric moving body 10 is rented, while the returned electric moving body 10 is taken out. Make it impossible. Further, the management machine 30 acquires the moving body information (moving body identification information, the remaining battery level of the main body battery 100 described later, etc.) from the parked electric moving body 10, and automatically transfers the acquired moving body information to the management server 28. To send.
- the battery station 34 of the shared battery 32 accommodates a plurality of shared batteries 32 and charges the accommodated shared battery 32.
- the battery station 34 is installed in, for example, a facility 33 (commercial facility, store) in the city.
- the battery station 34 has a computer (battery management unit 35) including one or more processors, a memory, an input / output interface (not shown) and a communication module, and manages a shared battery 32 housed in the battery station 34.
- the battery management unit 35 acquires shared battery information (battery identification information, remaining battery level of the shared battery 32, etc.) from the housed shared battery 32, and automatically transmits the acquired shared battery information to the management server 28.
- the user who applied for the use of the shared battery 32 temporarily uses (carries, discharges, and charges) the shared battery 32 by going to an appropriate facility 33 and receiving the shared battery 32. After using the shared battery 32, the user returns (accommodates) the shared battery 32 to the battery station 34 at the place where the battery is received or at a place different from the place where the battery is received.
- the configuration of the electric bicycle 20A which is the electric moving body 10 applied to the sharing system 12, will be typically described.
- the electric bicycle 20A has a vehicle body 14 including a vehicle body frame 40, a handle 42, a saddle 44, and a basket 46, and two wheels (front wheel Wf, rear wheel Wr) attached to the lower portion of the vehicle body 14.
- the vehicle body frame 40 includes a front head pipe 48, a main frame 50 extending rearward and downward from the head pipe 48, a seat pipe 52 extending upward from the rear end of the main frame 50, and rearward and downward from the upper part of the seat pipe 52.
- a pair of left and right first subframes 54 that extend to the rear wheel support portion that supports the rear wheel Wr, and a pair of left and right second subframes that extend rearward from the lower part of the seat pipe 52 and are connected to the rear wheel support portion. It has a subframe 56 and.
- a crank shaft 58 is pivotally supported at a connection point between the main frame 50 and the seat pipe 52 (a position substantially intermediate in the front-rear direction of the vehicle body 14).
- a pair of left and right pedals 60 are provided at the extending end of the crank shaft 58 extending from the shaft support portion 40a of the vehicle body frame 40, and the crank shaft 58 rotates under the rotation of the pair of left and right pedals 60.
- a one-way clutch 62 (see FIG. 3A) is provided on the shaft support portion 40a of the crank shaft 58, and the front surface to which the rotational force of the crank shaft 58 (user's pedaling force: pedaling force) is transmitted via the one-way clutch 62.
- a sprocket 64a is provided. The front sprocket 64a constitutes a part of the resultant force device 64 that combines the rotational force of the crank shaft 58 and the rotational driving force of the drive source 16.
- the rotation of the front sprocket 64a is transmitted to the rear sprocket 68 provided on the rear wheel Wr via the chain 66, and the rear sprocket 68 is rotated.
- the rear sprocket 68 is connected to the rear wheel Wr via a one-way clutch 70 (see FIG. 3A). Therefore, the rear wheel Wr rotates in accordance with the rotation of the rear sprocket 68.
- the pair of left and right second subframes 56 are provided with a rear wheel brake (not shown) for braking the rotation of the rear wheel Wr.
- the vehicle body 14 for example, a loading platform frame or a rear fender
- a vehicle lock mechanism 72 that regulates the rotation of the rear wheel Wr in the locked state and allows the rotation of the rear wheel Wr in the unlocked state.
- a seatpost 74 having a saddle 44 at the upper end is attached to the seat pipe 52. Further, the seat pipe 52 is provided with an actuator 76 that can vertically displace the seat post 74 based on the power supply from the battery 18.
- the actuator 76 constitutes a position adjusting mechanism for adjusting the height position of the saddle 44.
- a steering shaft 78 having a handle 42 at the upper end thereof is rotatably held in the head pipe 48.
- the steering shaft 78 includes a pair of left and right front forks 80 extending downward, and the front wheels Wf are rotatably supported between the lower ends of the front forks 80.
- the pair of left and right front forks 80 are provided with front wheel brakes (not shown) for braking the rotation of the front wheels Wf.
- the handle 42 has a pair of left and right grips 82 and a pair of left and right brake levers 84.
- the front wheel brake operates under the operation of the right brake lever 84 by the user, and the rear wheel brake operates under the operation of the left brake lever 84 by the user.
- a small motor such as a brushed motor or a brushless motor is applied to the drive source 16 of the electric bicycle 20A, and the drive source 16 is provided near the crank shaft 58.
- the rotation shaft of the drive source 16 is connected to the one-way clutch 86, and the one-way clutch 86 is gear-connected to the reduction mechanism 88.
- the deceleration mechanism 88 is connected to an assist sprocket (not shown) of the resultant force device 64, and the rotational force of the assist sprocket (that is, the drive source 16) is transmitted to the front sprocket 64a or the chain 66.
- An in-hole motor may be applied to the drive source 16.
- the drive source 16 directly rotates the rear wheel Wr and the crank shaft 58 by the rotor provided on the shaft and the crank shaft 58 of the rear wheel Wr and the stator arranged on the outer periphery of the rotor.
- a drive control device 90 for controlling the drive of the drive source 16 is provided between the pair of left and right second subframes 56.
- the drive control device 90 includes a junction box 92 to which a plurality of harnesses are connected, a PCU94 (PowerControlUnit) connected to the junction box 92 to convert DC power into three-phase AC power and supplied to the drive source 16, and a junction. It is provided with an ECU 96 (Electronic Control Unit) that controls a box 92, a PCU 94, and the like.
- the drive control device 90 is a detection signal of a torque sensor provided in the vicinity of the crank shaft 58 and a rotation sensor (hereinafter collectively referred to as a required power sensor 98 (see FIG. 3A)) provided in the vicinity of the rear wheel Wr. The power supply to the drive source 16 is adjusted accordingly.
- the user's pedaling force is applied to the pedal 60, the crank shaft 58, the one-way clutch 62, the resultant force device 64 (front sprocket 64a), the chain 66, the rear sprocket 68, the one-way clutch 70, and the rear. It is transmitted in the order of the wheel Wr. Further, under the control of the drive control device 90, the electric power of the battery 18 is transmitted from the PCU 94 to the drive source 16, so that the drive source 16 rotates.
- the rotational force of the drive source 16 is transmitted in the order of the one-way clutch 86, the reduction mechanism 88, the resultant force device 64 (assist sprocket), the chain 66, the rear sprocket 68, the one-way clutch 70, and the rear wheel Wr.
- the pedal operation of the user is assisted by the driving force of the drive source 16, and the user can comfortably drive the electric bicycle 20A.
- the electric bicycle 20A can use a plurality of batteries 18 as shown in FIGS. 2 and 3B.
- the plurality of batteries 18 are a main body battery 100 previously attached to the vehicle body 14 by the operator of the sharing system 12, and a user who is possessed by the user and is detachably attached to the vehicle body 14 when using the electric moving body 10.
- the battery 102 is a main body battery 100 previously attached to the vehicle body 14 by the operator of the sharing system 12, and a user who is possessed by the user and is detachably attached to the vehicle body 14 when using the electric moving body 10.
- the main body battery 100 basically has a larger charging capacity than the user battery 102, is large and heavy, and is replaced or charged by a replacement worker of the business operator.
- the main body battery 100 preferably has an output voltage of 20 V or more and a capacity of 8 Ah or more, although it depends on the type of the electric moving body 10.
- the main body battery 100 is located between the seat pipe 52 and the rear wheel Wr in the mounted state of the electric bicycle 20A, and is fixed in a posture extending long along the seat pipe 52.
- the main body battery 100 is detachably mounted on a first holder 104 provided between a pair of left and right first subframes 54 and between a pair of left and right second subframes 56.
- the seat pipe 52 or the first subframe 54 is provided with a main body side lock device 106 that locks the removal of the main body battery 100 from the first holder 104.
- the first holder 104 is provided with a first holder sensor 108 (voltage sensor or the like: see FIG. 2) that detects the state of the main body battery 100 in order to calculate the remaining battery level of the main body battery 100.
- the first holder sensor 108 is connected to the ECU 96 and transmits a detection signal to the ECU 96.
- the main battery 100 itself may have a function of detecting and calculating the remaining battery level and a communication function, and may be configured to automatically transmit the remaining battery level to the ECU 96, the management machine 30, or the management server 28.
- the user battery 102 As the user battery 102, a battery having a charge capacity smaller than that of the main body battery 100 is applied, and the user battery 102 is smaller and lighter than the main body battery 100.
- the capacity of the user battery 102 is not particularly limited, but for example, a battery having a capacity of 2 Ah or more is preferable.
- the mobile battery 110 possessed by the user can be used for charging the electronic device 36 (smartphone 37: see FIG. 1, tablet, etc.).
- the mobile battery 110 has a power port 120 capable of outputting power on the side peripheral surface.
- a battery (not shown) integrally attached to the electronic device 36 may be applied for the operation of the electronic device 36 itself.
- the electronic device 36 used as the user battery 102 one having a power port 120 capable of outputting the power of the battery of the electronic device 36 to the outside is used.
- the thin rectangular mobile battery 110 is shown in FIG. 4, the shape of the user battery 102 is not particularly limited as long as it can be held in the second holder 112 described later.
- the shared battery 32 borrowed by the user from the battery station 34 may be applied.
- the electric bicycle 20A is provided with a second holder 112 for accommodating the user battery 102 on the rear side of the head pipe 48 (opposite side of the basket 46 sandwiching the head pipe 48). Therefore, the head pipe 48 is formed so as to have a thickness in the front-rear direction and the width direction of the vehicle body 14.
- the second holder 112 has a storage housing 114 integrally connected to the head pipe 48. The storage housing 114 extends along the head pipe 48 from the upper end of the head pipe 48 that exposes the steering shaft 78 to the connection point with the main frame 50.
- the storage housing 114 is provided with a slit 116 for holding the user battery 102.
- the slit 116 is configured by opening the upper surface of the storage housing 114 and both side surfaces in the width direction in a series, and various user batteries 102 can be inserted from the upper side of the storage housing 114. It is preferable that the inner wall surface of the storage housing 114 constituting the slit 116 is provided with a cushioning member (not shown) for alleviating the vibration applied to the user battery 102 from the vehicle body 14.
- connection connector 118 electrically connected to the user battery 102 is provided on the inner wall surface (bottom surface).
- the lower power port 120 is connected to the connector 118.
- the second holder 112 may be provided with a cable connectable to the power port 120 of the user battery 102 and a storage hole for storing the cable on the inner wall surface (both not shown). In this case, the cable taken out by the user may be connected to the user battery 102, and then the user battery 102 may be inserted into the slit 116.
- the second holder 112 preferably has a detachment prevention mechanism 122 that prevents the user battery 102 from detaching.
- the detachment prevention mechanism 122 can be projected and retracted at the side arm 122a whose length can be adjusted according to the size of the user battery 102 on the side of the storage housing 114 and the opening above the storage housing 114. It has a lock bar 122b and.
- the detachment prevention mechanism 122 projects and locks the lock bar 122b when the user battery 102 is inserted, and also locks the lock bar 122b under the operation of an unlocking input unit (for example, password input, physical key operation, radio wave signal) (not shown). Release.
- an unlocking input unit for example, password input, physical key operation, radio wave signal
- an information acquisition unit 124 for acquiring information on the user battery 102 (at least one of identification information, output voltage, charge capacity, remaining battery level, etc.) is provided. ..
- the information acquisition unit 124 is configured by combining one or a plurality of communication modules, voltage sensors, or other sensors, and is communicably connected to the ECU 96.
- a voltage conversion unit 126 is provided below the slit 116 in the second holder 112 to boost the input voltage input from the user battery 102 and step down the input voltage input from the main battery 100. As shown in FIG. 3B, the voltage conversion unit 126 is interposed in the power path between the user battery 102 set in the second holder 112 and the junction box 92. Specifically, the voltage conversion unit 126 has a step-up DC / DC converter 128 for step-up and a DC / DC converter (not shown) for step-down.
- the voltage conversion unit 126 may be a bidirectional converter having both a step-up function and a step-down function.
- the junction box 92 is connected to each of the main body battery 100, the voltage conversion unit 126 (user battery 102), and the PCU 94 via electrical wiring.
- the junction box 92 switches the power path and power distribution between the main battery 100 and the user battery 102 under the control of the ECU 96.
- the ECU 96 is configured in a computer having one or more processors, a memory, and an input / output interface.
- the ECU 96 controls the power supply to the main body battery 100 and the user battery 102 by executing the program stored in the memory in accordance with the power-on operation of the operation unit (not shown) of the electric moving body 10. Further, the ECU 96 communicates information with the management machine 30 or the management server 28 of the station 22 via a communication module (not shown). Further, the electric moving body 10 is provided with a positioning system (not shown) such as GNSS, and is configured to periodically observe the current position.
- the ECU 96 may be attached to the electric moving body 10 having a control unit having a communication function, a control unit having an authentication function described later, a control unit having a lock function, and the like in advance.
- the electric moving body 10 may be provided with a touch panel 43 at the center of the handle 42 in the width direction.
- the touch panel 43 has one or more processors, a memory, an input / output interface, and a communication module, and is connected to the management server 28 and the ECU 96 of the electric mobile body 10 so as to be capable of information communication.
- the touch panel 43 is configured to display various information provided by the management server 28 and the ECU 96, and to allow the user to input the settings of the electric moving body 10.
- the user when using the sharing system 12, the user registers (step S1), applies for use (step S2), borrows the electric mobile body 10 (step S3), and uses the electric mobile body 10 (step S3).
- Step S4), return of the electric moving body 10 (step S5), and payment of the usage fee (step S6) are carried out in sequence.
- the management server 28 comprehensively monitors the state of the user, the state of the electric mobile body 10, the state of the shared battery 32, and the like by managing each process of the usage method.
- the management server 28 has a registrant database 130 (registrant DB), a mobile database 132 (mobile DB), a shared battery database 134 (shared battery DB), and a mobile station database. It has 136 (mobile station DB) and battery station database 138 (battery station DB).
- the registrant DB 130, the mobile DB 132, the shared battery DB 134, the mobile station DB 136, and the battery station DB 138 are linked to each other so that they can be federated. Therefore, when the information in one DB (for example, the remaining battery level of the main body battery 100 of the electric moving body 10) is updated, the information in the other DB is also updated.
- the management server 28 is configured to enable information communication between the ECU 96 of each electric mobile body 10 of the sharing system 12 and the vehicle management unit 31 of each management machine 30.
- the management server 28 appropriately collects information on the ECU 96 and information on the vehicle management unit 31, and updates the mobile body DB 132 and the mobile body station DB 136 as needed.
- the management server 28 is configured to enable information communication with the battery management unit 35 of the battery station 34, appropriately collects information on the shared battery 32, and updates the shared battery DB 134 and the battery station DB 138 as needed.
- the user's information processing terminal 26 accesses the management server 28 to acquire information necessary for using the sharing system 12 from the management server 28.
- the user accesses the management server 28 from the information processing terminal 26 as shown in FIG. 7A (step S1-1).
- the user downloads and installs the application 140 from the management server 28 to the information processing terminal 26 (step S1-2).
- the application 140 of the information processing terminal 26 facilitates transmission / reception of information to / from the management server 28.
- the information processing terminal 26 may be configured so that information can be input and information can be searched by downloading a dedicated homepage instead of the application 140.
- the user After that, the user opens an input screen for registering with the sharing system 12 in the application 140 or the homepage, and inputs the user information necessary for registration. Examples of user information include names, addresses, telephone numbers, e-mail addresses, passwords, and the like. After inputting the user information on the information processing terminal 26, the user transmits the user information from the information processing terminal 26 to the management server 28 (step S1-3).
- the management server 28 When the management server 28 receives the user registration in response to the reception of the user information, the management server 28 issues the user identification information (hereinafter referred to as the user ID) and transmits the user ID to the information processing terminal 26.
- the application 140 of the information processing terminal 26 can store and manage the user ID.
- the user ID may be set by the user himself / herself.
- the management server 28 stores the user information of the new user in the registrant DB 130.
- the user ID and user information (name, address, telephone number, e-mail address, password, etc.) are stored in the registrant DB 130 in a state of being linked to each other for each user.
- the registrant DB 130 has a usage history column for storing the usage history when the user uses the electric mobile body 10 for each user, and an adjustment information column for storing adjustment information for adjusting the electric mobile body 10 for each user. And have. Examples of the usage history include the number of times of use, the start date and time of use and the end date and time of use when used in the past, the number and time of extension of use, and the number of failures.
- the user ID is stored in the application 140, and the user ID can be automatically assigned when sending / receiving information to / from the management server 28. Further, the management server 28 can search for a user in the registrant DB 130 based on the user ID and quickly extract the target user.
- the sharing system 12 may be configured to enable the electric mobile body 10 without performing user registration (assigning a user ID) in FIG. 5 on the assumption that the user will use it temporarily. good.
- step S2 the user operates the information processing terminal 26 and applies to the management server 28 for the use of the electric mobile body 10.
- the processing flow of the usage application will be described with reference to FIG.
- the user starts the application 140 of the information processing terminal 26 (or downloads the homepage for the usage application from the management server 28) (step S2-1).
- the user inputs the application information according to the screen information 142 displayed on the information processing terminal 26 (step S2-2).
- the screen information 142 for generating the application information includes the type of the electric moving body 10, the start date and time of use, the end date and time of use, the borrowing place (or the current position), and the return place.
- the usage condition may be configured to input the destination when the electric moving body 10 is used instead of the return place (or together with the return place).
- the application 140 (or homepage) preferentially provides the station 22 around the user as a borrowing place or a returning place by using the address of the user information acquired earlier and the current position of the user, and also provides a map of the station 22. Display information.
- the user After inputting the application information, the user transmits the application information including the user ID and password from the information processing terminal 26 to the management server 28 (step S2-3).
- the management server 28 extracts the user information from the registrant DB 130 based on the user ID, and further determines that the password matches the user information, and generates the application acceptance information 144 (step S2-4).
- the management server 28 matches the user who applied for use with the rentable electric mobile body 10 based on the application reception information 144 (step S2-5). Then, the management server 28 transmits the information of the electric mobile body 10 extracted by matching to the information processing terminal 26, and provides the information of the electric mobile body 10 to the user who applied for it (step S2-6). The user selects the electric moving body 10 to be borrowed by searching and confirming the electric moving body 10 for which the information is provided, and transmits the moving body selection information to the management server 28 (step S2-7). As a result, the management server 28 determines the electric mobile body 10 to be rented to the user (step S2-8).
- the sharing system 12 is configured to transmit the information of the user battery 102 from the user to the management server 28.
- the information of the user battery 102 include battery identification information (battery ID), remaining battery power, maximum output power, and the like.
- the sharing system 12 matches the electric moving body 10 based on the remaining battery level of the user battery 102 at the time of the above matching (step S2-5). Further, the sharing system 12 performs user authentication based on the battery ID when the electric mobile body 10 described later is borrowed (step S3).
- the user battery 102 information (battery ID, battery remaining amount, maximum output power, etc.) Enter together.
- the battery ID the one previously assigned to the user battery 102 can be used.
- the sharing system 12 may be configured to automatically assign a battery ID from the information processing terminal 26 to the user battery 102 connected to the information processing terminal 26.
- the management server 28 may be configured to assign a battery ID in the order of the information processing terminal 26 and the user battery 102.
- the management server 28 may extract and store the battery ID of the shared battery 32 itself when the user borrows the shared battery 32. As a result, the user does not have to input the battery ID by inputting that the shared battery 32 is used when the user applies for the use of the electric mobile body 10.
- the user when inputting the remaining battery level and the maximum output power of the user battery 102, the user inputs the values at the time of application for use. For example, the user inputs the remaining battery level and the maximum output power displayed or attached to the user battery 102 to the information processing terminal 26.
- the information processing terminal 26 and the control circuit (not shown) of the user battery 102 perform information communication via USB or the like, so that the application 140 can use the user battery 102 as in the screen information 143. It is preferable that the configuration is such that the information of the above is automatically extracted. This reduces the trouble and mistakes caused by manual input by the user.
- the user can charge the user battery 102, so that the maximum battery capacity is used as the remaining battery capacity of the user battery 102. You may enter it.
- the management server 28 When the management server 28 receives the application information from the information processing terminal 26, the management server 28 extracts the user information of the user who applied from the registrant DB 130, and as shown in FIG. 11A, the application reception information in which the user information and the application information are linked. Generate 144.
- the application reception information 144 includes user ID, name, address, telephone number, e-mail address, usage history, adjustment information, usage start date and time, usage end date and time, borrowing place (or current position), return place (or destination). , Battery ID, remaining battery power, and maximum output power.
- the management server 28 After the application reception information 144 is generated, the management server 28 performs matching (step S2-5: FIG. 8). In this matching, the management server 28 reads the mobile body DB 132 and the mobile body station DB 136, and extracts the rentable electric mobile body 10 based on the application reception information 144.
- the mobile body DB 132 has, for each of the plurality of electric mobile bodies 10, the mobile body identification information (mobile body ID), the current position, the remaining battery level of the main body battery 100, the specifications of the drive source 16, and the use. It stores the status, past loan history, and failure history.
- the management server 28 periodically communicates with the management machine 30 of the station 22 or the ECU 96 of the electric mobile body 10 to update the current position, the remaining battery level of the main battery 100, and the like.
- the mobile station DB 136 can display, for example, the position of the station 22, the mobile ID of the parked electric mobile body 10, the remaining battery level of the main battery 100, and the operating state of each station lock mechanism 38. I remember.
- the management server 28 extracts the available electric mobile body 10 from the mobile body DB 132 based on the usage conditions included in the application reception information 144, the remaining battery level of the user battery 102, and the maximum output power. ..
- the management server 28 is scheduled to be able to be rented at or around the borrowed place at the start date and time of use, based on the type of the electric mobile body 10, the start date and time of use, and the borrowed place (or the current position) in the usage conditions.
- the moving body 10 is limited.
- the management server 28 refers to the maximum output power of the user battery 102 and the specifications of the drive source 16 of each of the limited electric mobile bodies 10, and ranks the electric mobile bodies 10 to which the user battery 102 is easily adapted. Turn on.
- the management server 28 ranks the electric mobile units 10 in the order in which the maximum output power of the user battery 102 and the power of the drive source 16 are close to each other.
- the management server 28 appropriately narrows down the electric moving body 10 by referring to the battery remaining amount of the user battery 102 and the battery remaining amount of the main body battery 100 of each of the ranked electric moving bodies 10.
- the management server 28 has the remaining battery level of the main body battery 100 and the remaining battery of the user battery 102 for each of the extracted electric moving bodies 10 (electric moving bodies A, B, ).
- the total battery level (total value) is calculated by adding the amount.
- the management server 28 selects the electric moving body 10 whose calculated total value exceeds the lending recommended threshold value.
- the lending recommended threshold value is an index value that allows the user to comfortably use the electric moving body 10 (without worrying about charging).
- the lending recommended threshold value may be a value that fluctuates based on the usage period (use start date / time, use end date / time) included in the application reception information 144.
- the management server 28 determines whether or not the total value exceeds the lending possible threshold value.
- the lending possible threshold value is a value predicted that the remaining battery levels of the main battery 100 and the user battery 102 do not become zero (no need to charge in the middle) in the average power consumption during the usage period. Therefore, the lending possible threshold is set to a value lower than the lending recommended threshold.
- the management server 28 may determine not to select the electric moving body 10 when the calculated total value greatly exceeds the lending recommended threshold value. For example, in FIG. 12C, the management server 28 determines the size of the remaining amount difference obtained by subtracting the lending recommended threshold value from the total value of the electric moving bodies C and the remaining amount for determination. Since the difference in the remaining amount of the electric moving body C exceeds the remaining amount for determination, the management server 28 does not select the electric moving body C. This is because the electric moving body 10 having a large total value can be efficiently operated as a whole sharing system 12 by renting it to another user.
- the management server 28 may be configured to estimate the battery usage amount based on the usage conditions of the application reception information 144 and select the electric moving body 10 whose estimated battery usage amount is within the total value.
- the battery usage amount is based on the type of the electric mobile body 10 (electric power of the drive source 16 and the like) and the usage period (use start date and time and use end date and time) included in the usage conditions, and the predetermined type of electric mobile body 10 during the usage period. It can be estimated from the average power consumption of.
- the type of the electric moving body 10 included in the usage conditions, the movement route (or the movement distance) based on the borrowing place and the return place (or the destination) are calculated, and this movement route is the predetermined type of electric movement. It can be estimated from the average power consumption when the body 10 moves.
- the management server 28 may be configured to set the above-mentioned recommended lending threshold value and lending possible threshold value based on the battery usage amount.
- the management server 28 provides information on the electric mobile body 10 of a predetermined type to the information processing terminal 26 of the user, and the electric mobile body 10 is provided to the input / output unit 36a of the information processing terminal 26.
- Information IV is displayed.
- the information IV of the electric moving body 10 is described by marking on the map screen information 146, and the user selects (touches, clicks) the marking to further detail the electric moving body 10.
- Information is configured to be displayed.
- the movable range mr of the electric moving body 10 based on the total value of the remaining battery level of the main body battery 100 and the remaining battery level of the user battery 102 is set. It may be shown on the map screen information 146.
- the movable range mr can be obtained by calculating the travelable distance based on the total value calculated for each of the electric moving bodies 10. In this way, by indicating the movable range mr for each electric moving body 10 in the information provision, the user can select an appropriate electric moving body 10 according to his / her purpose of use.
- the management server 28 refers to the shared battery DB 134 or the battery station DB 138 and displays the position information of the battery station 34 together with the information provided by the electric mobile body 10 (step S2-6).
- the user can formulate a traveling plan by comparing the movable range mr of the electric moving body 10 with the battery station 34.
- the shared battery DB 134 includes the battery ID of each shared battery 32, the current position, specifications (output voltage, output power, maximum battery capacity, etc.), remaining battery capacity (or SOC), usage status, and past. Lending history etc. are stored.
- the battery station DB 138 stores the installation position, the battery ID of the shared battery 32 accommodated, the remaining battery level (or SOC), and the like.
- the management server 28 displays the information IB of the battery station 34 on the map screen information 146 based on the shared battery DB 134 and the battery station DB 138 (see FIG. 14A). If there is no shared battery 32 in the battery station 34, and if the remaining battery level of all the shared batteries 32 accommodated is equal to or less than a predetermined threshold value, even if the battery station 34 exists, the map screen information 146 is displayed. Hide it.
- the information of the battery station 34 displayed on the map screen information 146 can display the remaining battery level of each shared battery 32 housed in the battery station 34. As shown in FIG. 14B as an example, when the user clicks the information IB of the battery station 34, a list of each shared battery 32 accommodated and information indicating the remaining battery level of each shared battery 32 are displayed.
- the management server 28 calculates a movement route as detailed information of the electric mobile body 10 and estimates it from the calculated movement route. The amount of battery used may be calculated. As a result, when selecting the electric moving body 10, the user can confirm the moving path and the battery usage displayed on the information processing terminal 26 and select an appropriate electric moving body 10.
- the user can appropriately select the electric mobile body 10 to be used on the information processing terminal 26 based on the provided information transmitted from the management server 28 as described above.
- the management server 28 receives the mobile body selection information selected by the user, the management server 28 associates the information of the selected electric mobile body 10 with the application reception information 144, and updates the usage status of the mobile body DB 132 to the rental schedule. Then, the management server 28 prevents the electric moving body 10 to be rented from being extracted when there is a usage application from another user.
- step S3 the process when the user rents the electric moving body 10 (step S3) will be described.
- the sharing system 12 collates the user who applied for the use of the electric moving body 10 with the electric moving body 10 actually borrowed by the user, and determines whether or not the user is a legitimate user. Is determined.
- the sharing system 12 according to the present embodiment performs user authentication using the battery ID of the user battery 102.
- the application information at the time of application for use includes the battery ID of the user battery 102 input or acquired by the user.
- the management server 28 Upon receiving the application information, the management server 28 generates the application acceptance information 144 including the battery ID as described above (see FIG. 11A).
- the management server 28 receives the mobile body selection information selected by the user and determines the electric mobile body 10 to be lent to the user, the battery ID included in the application reception information 144 is used before the user actually borrows the electric mobile body 10. Manage up to.
- the management server 28 uses the managed battery ID as registration identification information (hereinafter referred to as a registration ID), and the ECU 96 of the electric mobile body 10 actually used by the user. Send to. That is, the management server 28 functions as an identification information management unit that registers the registration ID in the electric mobile body 10.
- the management server 28 transmits the registration ID to the electric mobile body 10 at a predetermined time (for example, from a few minutes before to a few hours before) before the start date and time when the user starts using the electric mobile body 10.
- the sharing system 12 may transmit the registration ID to the electric mobile body 10 via the management machine 30 (this pattern is illustrated in FIG. 16), or the registration ID is transmitted via the network 24.
- the registration ID may be directly transmitted to the electric mobile body 10.
- the registration ID is also stored in the management machine 30 itself by passing through the management machine 30, and can also be used for management of the electric moving body 10 by the management machine 30.
- an authentication unit 150 for performing user authentication is constructed by a processor executing and processing a program (not shown) stored in a memory.
- the authentication unit 150 stores the registration ID transmitted from the management server 28 in the memory before the user battery 102 is attached. It is preferable that the electric moving body 10 automatically keeps the locked state by the vehicle locking mechanism 72 (see FIG. 2) in the state where the registration ID is not transmitted. Similarly, it is preferable that the management machine 30 also automatically continues to lock the station lock mechanism 38 in a state where the registration ID has not been transmitted.
- the authentication unit 150 acquires a battery ID from the user battery 102 via the information acquisition unit 124 as the user battery 102 possessed by the user is attached to the second holder 112 of the electric moving body 10. With the acquisition of the battery ID, the authentication unit 150 performs user authentication for collating the battery ID with the registered ID held. That is, in the user authentication, the authentication unit 150 determines whether the battery ID and the registration ID match or do not match. Then, when the IDs match, the user is authenticated as the user of the electric mobile body 10 (hereinafter, the state in which the user is authenticated is referred to as user confirmation). It is preferable that the authentication unit 150 continues to confirm the continuous use of the electric mobile body 10 by the user by periodically performing user authentication even after the user is confirmed once.
- the ECU 96 shifts the electric moving body 10 from the traveling restricted state to the traveling allowable state. Therefore, in addition to the authentication unit 150, a vehicle lock control unit 152, a power supply control unit 154, an adjustment control unit 156, a detachment prevention mechanism control unit 158, a notification unit 160, a utilization measurement unit 162, and the like are constructed in the ECU 96. ing.
- the vehicle lock control unit 152 is a functional unit that controls the vehicle lock mechanism 72, and is configured to automatically operate based on the user authentication of the authentication unit 150. For example, the electric moving body 10 is in a traveling restricted state by being locked by the vehicle lock mechanism 72 until the user is confirmed. The vehicle lock control unit 152 unlocks the vehicle lock mechanism 72 based on the user confirmation. As a result, the electric moving body 10 shifts from the travelable state to the travelable state.
- the electric moving body 10 is in a traveling restricted state in which the drive source 16 is not driven by prohibiting the power supply from the main body battery 100 and the user battery 102 to the drive source 16 by the power supply control unit 154 until the user is confirmed. It has become.
- the power supply control unit 154 shifts to a travel allowable state in which the drive source 16 is driven by supplying power from the main body battery 100 and the user battery 102 to the drive source 16.
- the vehicle management unit 31 of the management machine 30 unlocks the electric moving body 10 based on the reception of the user confirmation signal from the ECU 96 when the electric moving body 10 cannot be taken out by the station lock mechanism 38. 10 is ready to be taken out.
- the adjustment control unit 156 of the ECU 96 accesses the management server 28 based on the user confirmation, and acquires the adjustment information of the user confirmed from the management server 28.
- the adjustment information is information for adjusting the electric moving body 10 for each user based on the user's preference, physique, etc., and is transmitted at the time of user registration or at the time of application for use of the electric moving body 10, so that the registrant It is managed by DB 130 (see FIG. 7B). That is, the management server 28 constitutes an adjustment information storage unit that stores adjustment information.
- the adjustment information of the electric bicycle 20A includes the height of the saddle 44, the gear shift stage, and the like.
- the adjustment information of the electric kickboard 20B includes the height of the handle and the like.
- the adjustment information of the electric wheelchair 20C and the electric cart 20D includes the seat height, the mirror angle, and the like.
- the adjustment information may be stored in the management server 28 by transmitting the content (adjustment data) actually adjusted at the time of boarding by the user to the management server 28 by the ECU 96 of the electric moving body 10.
- the adjustment control unit 156 adjusts the electric moving body 10 based on the adjustment information. For example, when the electric moving body 10 is an electric bicycle 20A and the adjustment information includes the height of the saddle 44, the adjustment control unit 156 drives the actuator 76 to displace the seatpost 74, thereby adjusting the adjustment information. Adjust the height of the saddle 44 according to the above.
- the detachment prevention mechanism control unit 158 of the ECU 96 operates the detachment prevention mechanism 122 based on the user confirmation to lock the user battery 102.
- the electric moving body 10 can prevent the user battery 102 from being stolen while the user is using the electric moving body 10, for example, when the user temporarily leaves the electric moving body 10.
- the vehicle lock control unit 152 and the power supply control unit 154 continue the traveling restricted state (locking and power supply prohibited).
- the sharing system 12 prevents a person different from the regular user from using the electric moving body 10.
- the vehicle management unit 31 of the management machine 30 makes the electric moving body 10 unremovable by the station lock mechanism 38, the vehicle management unit 31 does not receive the user confirmation from the ECU 96 of the electric moving body 10, so that the electric moving body 10 cannot be taken out. continue. This makes it possible to prevent the electric moving body 10 from being taken out from the station 22.
- the notification unit 160 of the ECU 96 transmits a user uncertainty (failure of user authentication) due to the battery ID to the management server 28, and the management server 28 transmits a user uncertainty notification to the information processing terminal 26 of the user.
- the user who receives the notification can smoothly recognize that the user battery 102 connected to the electric mobile body 10 is different from the one registered at the time of application.
- the usage measurement unit 162 of the ECU 96 measures the usage period of the electric moving body 10 by the user when the user is confirmed with the installation of the user battery 102.
- the station 22 that rents the electric mobile body 10 to the user and the station 22 that the user returns the electric mobile body 10 may be different, and it is difficult to measure the usage period on the station 22 side. be.
- the management server 28 manages the battery ID transmitted at the time of application for use by the user in a state of being associated with the electric mobile body 10 to be borrowed by the user.
- the management server 28 measures the date and time, and sends the registration ID to the electric mobile body 10 before the user starts using the electric mobile body 10 (step S3-1).
- the ECU 96 of the electric moving body 10 waits in a state of receiving the registration ID and storing it in the memory.
- the user has the user battery 102, goes to the station 22 where the target electric moving body 10 is parked, and attaches the user battery 102 to the second holder 112 of the electric moving body 10 (step S3-2).
- the information acquisition unit 124 of the electric mobile body 10 automatically acquires the battery ID from the user battery 102, and the ECU 96 receives this battery ID (step S3-3).
- the authentication unit 150 of the ECU 96 performs user authentication for collating the acquired battery ID with the stored registration ID (step S3-4).
- the user authentication when the battery ID and the registration ID match, it is determined that the user who is the user of the electric mobile body 10 is confirmed.
- the ECU 96 transmits the user confirmation information to the control circuit of the user battery 102 (step S3-5) and also transmits it to the management machine 30 and the management server 28 (step S3-6).
- the vehicle lock control unit 152 switches the vehicle lock mechanism 72 from locking to unlocking (step S3-7).
- the power supply control unit 154 of the ECU 96 enables power supply from the main body battery 100 and the user battery 102 to the drive source 16 (step S3-8).
- the ECU 96 receives adjustment information from the management server 28 that has transmitted the user confirmation (step S3-9).
- the adjustment control unit 156 of the ECU 96 adjusts the electric moving body 10 according to the user based on this adjustment information (step S3-10).
- the usage measurement unit 162 of the ECU 96 measures the date and time when the user is first confirmed, determines the usage start date and time, and starts measuring the usage period (step S3-11). As described above, the user can comfortably use the electric moving body 10 by performing user authentication with the installation of the user battery 102 and performing subsequent control as appropriate.
- step S4 the process when the user uses the electric moving body 10 (step S4) will be described.
- the power supply control unit 154 of the ECU 96 appropriately distributes the electric power of the main body battery 100 and the electric power of the user battery 102. Therefore, as shown in FIG. 19, a functional block including a required power calculation unit 170, a capacity acquisition unit 172, a boost setting unit 174, a power distribution management unit 176, and a PCU control unit 178 is constructed in the power supply control unit 154. ..
- the required power calculation unit 170 continuously calculates the required power to be supplied to the drive source 16 based on the detection signal of the required power sensor 98 (torque sensor, rotation sensor), and the calculated required power is used by the power distribution management unit 176 and the PCIU. It is output to the control unit 178.
- the required power calculation unit 170 estimates a running situation based on the reaction force of the pedal 60 applied to the crank shaft 58 detected by the torque sensor and the rotation speed detected by the rotation sensor, and assists according to the running situation. Calculate the required power as a quantity.
- the capacity acquisition unit 172 calculates the remaining battery level of the main battery 100 by a well-known calculation method based on the detection signal of the first holder sensor 108. Further, the capacity acquisition unit 172 calculates or acquires the battery remaining amount of the user battery 102 based on the information (battery remaining amount, output voltage) of the information acquisition unit 124 of the second holder 112. The capacity acquisition unit 172 stores the acquired remaining battery level of the main body battery 100 and the remaining battery level of the user battery 102 in the memory, and transmits the acquired battery level to the power distribution management unit 176.
- the boost setting unit 174 refers to the data map 180 held in advance, and is a boost type DC / DC converter between the input voltage input from the user battery 102 and the output voltage output to the drive source 16 (PCU94). Set the boost amount of 128.
- the specifications of the plurality of types of drive sources 16 (output voltage, output power, etc.) and the specifications of the plurality of types of user batteries 102 (input voltage, input power, capacity, etc.) are associated with each other by the boost amount.
- the boost amount corresponds to, for example, the switch time of the switching circuit (not shown) of the boost DC / DC converter 128.
- the user battery 102 may include a voltage conversion unit 126 (DC / DC converter) and a control circuit (not shown) having a boost setting unit 174 so that the boosted output power of the user battery 102 can be supplied to the outside.
- the boost setting unit 174 acquires information (input voltage, input power, capacity, etc.) of the user battery 102 when the user battery 102 is held in the second holder 112.
- the boost setting unit 174 recognizes the specifications of the drive source 16 in advance, extracts an appropriate boost amount from the data map 180 based on the acquired information of the user battery 102 and the specifications of the drive source 16, and calculates the extracted boost amount. It is transmitted to the step-up DC / DC converter 128.
- the switching control unit (not shown) of the step-up DC / DC converter 128 boosts the voltage of the user battery 102 to a set boost amount by switching the switch circuit based on the transmitted boost amount.
- the step-up DC / DC converter 128 can be easily installed on various types of electric moving bodies 10. That is, by referring to the data map 180, the ECU 96 can perform boosting according to the drive source 16 of the electric moving body 10 to be applied in the step-up DC / DC converter 128. As a result, the work load of setting the boosting amount for each drive source 16 of the electric moving body 10 is reduced.
- the power distribution management unit 176 Upon receiving the required power, the remaining battery level of the main body battery 100, the remaining battery level of the user battery 102, and the boosted amount of the user battery 102, the power distribution management unit 176 controls the power supply of the main body battery 100 and the power of the user battery 102. conduct. The power distribution management unit 176 controls the operation of the junction box 92 so that the control content is as shown in FIGS. 20A to 20D, and switches between the power path of the main battery 100 and the power path of the user battery 102.
- FIG. 20A shows power supply control when the user battery 102 is not connected.
- the power distribution management unit 176 appropriately switches the inside of the junction box 92 to supply the electric power of the main body battery 100 in the order of the junction box 92, the PCU 94, and the drive source 16.
- the drive source 16 is driven only by the electric power of the main battery 100.
- FIGS. 20B to 20D show power supply control when the user battery 102 is connected.
- the power distribution management unit 176 determines the power of the main battery 100 and the power of the user battery 102. Are merged in the junction box 92 and supplied to the drive source 16. That is, the power distribution management unit 176 simultaneously supplies the power of the main body battery 100 and the power of the user battery 102 to the drive source 16.
- the power distribution management unit 176 stops the power supply of the main battery 100 when the required power is larger than zero and is equal to or less than the predetermined value PD (in the case of a low output request).
- the power of the user battery 102 is supplied in the order of the step-up DC / DC converter 128, the junction box 92, the PCU 94, and the drive source 16. Therefore, the drive source 16 is driven only by the electric power of the user battery 102.
- the power distribution management unit 176 appropriately distributes the power of the user battery 102 according to the remaining battery level of the main body battery 100, the remaining battery level of the user battery 102, and the required power. ..
- the power distribution management unit 176 supplies power from the user battery 102 to the main body battery 100 via the junction box 92 (in FIG. 20C, the present). Illustrates the pattern).
- the main body battery charge threshold value Tm may be set to a value equal to or less than the above-mentioned predetermined value PD.
- the electric moving body 10 can charge the main body battery 100 when the drive source 16 has a low output.
- the power distribution management unit 176 determines the stopped state of the vehicle body 14, and moves from the user battery 102 to the drive source 16. Power supply is stopped. Then, the power distribution management unit 176 supplies the power of the user battery 102 in the order of the step-up DC / DC converter 128, the junction box 92, and the main body battery 100 to charge the main body battery 100. In the patterns of FIGS. 20C and 20D, the power distribution management unit 176 acquires the remaining battery level of the main body battery 100, and when the main body battery 100 is near full charge (for example, the SOC is 90% or more), the user battery 102 is used.
- the power supply to the main body battery 100 may be stopped.
- the power distribution management unit 176 lowers the output value of the power of the user battery 102. As a result, overcharging of the main body battery 100 can be suppressed, and power consumption of the user battery 102 can be suppressed.
- the power distribution management unit 176 controls the junction box 92 and the step-up DC / DC converter 128 so as to keep the power output from the user battery 102 at a constant output value in the control contents of FIGS. 20B to 20D. It is preferable to do so. As shown in FIG. 21, the power distribution management unit 176 controls, for example, so that the predetermined value PD and the output value of the user battery 102 match, and the output value remains constant even if the required power changes with time. And. Therefore, the battery 18 whose output value (or input value) changes depending on the required power is only the main body battery 100.
- the power distribution management unit 176 changes the power of the main body battery 100 according to the required power without changing the output value of the user battery 102. .. Further, when the required power is equal to or less than the predetermined value PD (output value), the power distribution management unit 176 directs the power to both the drive source 16 and the main body battery 100 by not changing the output value of the user battery 102. In other words, the power distribution management unit 176 supplies the difference power obtained by subtracting the required power from the output value from the user battery 102 to the main body battery 100.
- the output value of the user battery 102 is appropriately set by the power distribution management unit 176 according to the remaining battery level of the main battery 100. For example, when the battery level of the main body battery 100 is high, the output value of the user battery 102 is set small, while when the battery level of the main body battery 100 is low, the output value of the user battery 102 is set large. Can be mentioned.
- the electric mobile body 10 preferentially supplies the electric power of the user battery 102, so that the decrease in the remaining battery level of the main battery 100 can be sufficiently suppressed.
- the time change of the remaining battery level of the main body battery 100 when the user battery 102 which outputs a constant output value of 30 W is used, and the time change of the remaining battery level of the main body battery 100 when the user battery 102 is not used.
- FIG. 22 illustrates a pattern in which the electric bicycle 20A travels 3 km on a flat road at a vehicle speed of 15 km / h and waits for a signal twice on the way.
- the remaining battery level of the main body battery 100 decreases at a substantially constant rate of decrease while the electric bicycle 20A is running. Then, when the electric bicycle 20A is stopped, the remaining battery level of the main body battery 100 does not decrease and remains flat. Therefore, the remaining battery level of the main body battery 100 is in a state of being greatly reduced after traveling for 3 km.
- the remaining battery level of the main body battery 100 is substantially constant and the decrease rate is gradual than the decrease rate when the user battery 102 is not used while the electric vehicle is running. It will decrease with. Further, when the electric bicycle 20A is stopped, the remaining battery level of the main body battery 100 is increased by supplying power from the user battery 102 to the main body battery 100. As a result, even after traveling for 3 km, the remaining battery level of the main body battery 100 is hardly reduced. That is, by applying the user battery 102, the electric moving body 10 can sufficiently suppress the chance that the remaining battery level of the main body battery 100 is significantly reduced.
- the power distribution management unit 176 may set the control content according to the remaining battery level of the user battery 102. For example, as shown in FIG. 19, the power distribution management unit 176 has a stop threshold value Ts corresponding to the remaining battery level of the user battery 102. The power distribution management unit 176 supplies power from the user battery 102 to the drive source 16 or the main body battery 100 when the remaining battery level of the user battery 102 is larger than the stop threshold value Ts. On the other hand, the power distribution management unit 176 stops the power supply of the user battery 102 when the remaining battery level of the user battery 102 is equal to or less than the stop threshold Ts. When the power supply of the user battery 102 is stopped, only the power of the main battery 100 is supplied to the drive source 16 as shown in FIG. 20A. As a result, it is possible to avoid using the battery of the user battery 102 more than necessary.
- the power distribution management unit 176 has a usage content setting unit 182 in which the battery usage amount of the user battery 102 can be set by the user.
- the usage content setting unit 182 can change the stop threshold value Ts based on an instruction from the smartphone 37 by communicating information with the user's smartphone 37 (application 140 of the sharing system 12) via the communication module.
- the usage content setting unit 182 may be configured so that the output value of the user battery 102 and the like can be set in addition to the stop threshold value Ts.
- the PCU control unit 178 of the ECU 96 controls the PCU 94 based on the required power received from the required power calculation unit 170.
- the power distribution management unit 176 controls the junction box 92 on the upstream side of the PCU 94 so that the power required for the PCU 94 can be supplied. Therefore, the PCU control unit 178 can appropriately convert DC power into AC power in the PCU 94 and output it to the drive source 16 according to the range of required power from high output to low output.
- step S4 in FIG. 5 the processing flow of the ECU 96 when the user uses the electric moving body 10 (step S4 in FIG. 5) will be described.
- the ECU 96 of the electric moving body 10 When the ECU 96 of the electric moving body 10 is activated based on the power-on operation by the user, it controls the driving of the drive source 16.
- the power supply control unit 154 of the ECU 96 determines whether or not the user battery 102 is connected to the second holder 112 after activation (step S4-1). For example, the power supply control unit 154 determines the connection of the user battery 102 based on the signal transmitted from the information acquisition unit 124. Then, when the user battery 102 is not connected (step S4-1: NO), the process proceeds to step S4-2, while when the user battery 102 is connected (step S4-1: YES), step S4. Proceed to -4.
- step S4-2 the power supply control unit 154 calculates the required power based on the detection signal of the required power sensor 98. Further, the power supply control unit 154 controls the junction box 92 and the PCU 94 to supply the electric power of the main battery 100 to the drive source 16 (step S4-3). As a result, the electric moving body 10 can travel using the electric power of the main body battery 100.
- step S4-4 the power supply control unit 154 acquires the input voltage of the user battery 102 from the information acquisition unit 124 of the second holder 112, refers to the data map 180, and boosts the step-up DC / DC based on the input voltage. Set the boost amount of the converter 128.
- the power supply control unit 154 calculates the required power based on the detection signal of the required power sensor 98 (step S4-5). Further, the power supply control unit 154 determines the control content based on the calculated required power. For example, the power supply control unit 154 determines whether or not the required power is zero (step S4-6). When the required power is zero (step S4-6: YES), the required power is definitely below the main body battery charge threshold Tm. Therefore, the power supply control unit 154 switches the junction box 92 to stop the power supply of the main body battery 100, and also supplies the power of the user battery 102 to the main body battery 100 (step S4-7). On the other hand, if the required power is zero or more (step S4-6: NO), the process proceeds to step S4-8.
- step S4-8 the power supply control unit 154 determines whether or not the required power is equal to or less than a predetermined value PD (a value that separates high output and low output).
- a predetermined value PD a value that separates high output and low output.
- the power supply of the main battery 100 is stopped and the power of the user battery 102 is supplied to the drive source 16 (step S4-9). ..
- the power supply control unit 154 supplies the surplus power of the user battery 102 that is not supplied to the drive source 16 to the main body battery 100 to charge the main body battery 100. May be (see also FIG. 20C).
- step S4-8 NO
- the junction box 92 is switched to simultaneously supply the power of the main battery 100 and the power of the user battery 102 to the drive source 16 (step S4-). 10).
- the electric moving body 10 can travel while suppressing the amount of electric power used by the main body battery 100.
- the sharing system 12 performs some processing on the electric moving body 10 in use by monitoring the remaining battery level of the main body battery 100 and the remaining battery level of the user battery 102.
- a usage management unit 190 is formed inside the management server 28.
- the usage management unit 190 communicates with the ECU 96 of the electric mobile body 10 used by the user to obtain the current position of the electric mobile body 10, the remaining battery level of the main body battery 100, and the remaining battery level of the user battery 102. To get.
- the ECU 96 may be configured to perform communication only when the movement of the vehicle body 14 whose communication state is stable is stopped. ..
- the usage management unit 190 monitors the remaining battery level of the entire electric mobile body 10 by calculating the total value of the remaining battery level of the main body battery 100 and the remaining battery level of the user battery 102.
- the sharing system 12 may transmit the total value calculated by the usage management unit 190 to the touch panel 43 provided on the electric moving body 10.
- the touch panel 43 can make the user recognize the remaining battery level of the entire battery 18 of the electric moving body 10 by displaying the transmitted total value.
- the touch panel 43 may have a function of positioning the current position and a navigation function, and may be configured to display map information 192, own vehicle X, and movement route.
- the usage management unit 190 may calculate a movement route based on the usage conditions (return place, destination) of the user's application reception information 144, and provide this movement route to the touch panel 43.
- the usage management unit 190 may be provided in the touch panel 43.
- the touch panel 43 may display the movable range mr of the electric moving body 10 estimated from the acquired total value on the upper layer of the map information 192. As a result, the user can easily recognize the movable range mr based on the remaining battery level of the entire electric moving body 10.
- the touch panel 43 may be configured to display the movable range mr of the remaining battery level of the main body battery 100 and the movable range mr of the remaining battery level of the user battery 102, respectively.
- the usage management unit 190 has a remaining amount determination threshold value Tp for monitoring a decrease in the remaining battery level of the battery 18. For example, the usage management unit 190 compares the total value (or the remaining battery level of the main body battery 100 alone, the remaining battery level of the user battery 102 alone) with the remaining amount determination threshold value Tp, and the total value is equal to or less than the remaining amount determination threshold value Tp. Determine if it is. When the total value is equal to or less than the remaining amount determination threshold value Tp, the remaining amount decrease information indicating that the battery remaining amount of the electric moving body 10 is low is transmitted to the touch panel 43 (or mailed to the user's smartphone 37 or the like). The touch panel 43 displays the remaining amount low notification 194 based on the reception of the remaining amount low information, for example, as shown in FIG. 25B.
- the usage management unit 190 may provide the information IB of the battery station 34 near the current position of the electric moving body 10 with reference to the battery station DB 138 based on the current position of the electric moving body 10 in use. Good (see also Figure 25A).
- the usage management unit 190 may refer to the share battery DB 134 and provide information on the share battery 32 that can be rented with a sufficient battery remaining amount. At this time, the usage management unit 190 calculates the power consumption based on the usage conditions of the user's application reception information 144, extracts only the shared battery 32 having a battery remaining amount exceeding the power usage, and provides the information. Is preferable. As a result, the user using the electric mobile body 10 can comfortably use the electric mobile body 10 by the electric power of the share battery 32 once the share battery 32 displayed on the touch panel 43 is borrowed. When the user borrows the shared battery 32, the management server 28 transmits the battery ID of the shared battery 32 to the authentication unit 150 as a registration ID for user authentication so that the user authentication can be stably performed. To.
- the usage management unit 190 also transmits the information of the rentable shared battery 32 or the battery station 34 at the time of transmitting the above-mentioned remaining amount reduction information.
- the touch panel 43 displays the position of the shared battery 32 together with the remaining amount low notification 194, and the user can take measures such as going to borrow the shared battery 32 based on this information.
- the usage management unit 190 may compare the remaining battery level of the electric mobile body 10 with the battery usage amount based on the usage conditions of the application reception information 144, and may change the assist mode of the electric mobile body 10.
- the assist mode is a power mode that uses the power of the battery 18 at full power while driving, a normal mode that uses the power of the battery 18 depending on the necessary situation during driving, a power saving mode that suppresses the power consumption of the battery 18, etc. It is set in multiple stages like. As an example, in the power saving mode, the power supply of the battery 18 is stopped on a flat road or the like, and the power supply of the battery 18 is performed only when the path gradient (torque) is large.
- the usage management unit 190 calculates the movement route or the movement distance of the electric moving body 10 based on the usage conditions of the application reception information 144, and includes it in the movement route with reference to the map information (not shown) held. Recognize the path gradient. Further, the usage management unit 190 calculates the battery usage amount in consideration of these movement routes, movement distances, route gradients, and the like. Then, the usage management unit 190 transmits an instruction to the ECU 96 to run in the power mode or the normal mode when the battery remaining amount of the electric moving body 10 is large with respect to the calculated battery usage amount. As a result, the power supply control unit 154 of the ECU 96 controls to supply sufficient power from the battery 18 to the drive source 16 according to the required power, and the user of the electric moving body 10 feels uncomfortable (an opportunity to feel lack of assistance). To reduce.
- the power supply control unit 154 of the ECU 96 performs control while suppressing the power consumption of the battery 18 based on the instructed power saving mode. This makes it possible to prevent the remaining power of the battery 18 from becoming zero when the user returns the electric moving body 10.
- the ECU 96 can perform necessary information communication with the management machine 30 or the management server 28 depending on the remaining battery level.
- the usage management unit 190 calculates a plurality of movement paths R from the usage conditions and calculates the battery usage amount for each movement path R, depending on the remaining battery level of the electric moving body 10.
- route information with a low battery usage may be provided.
- the user who recognizes this route information can follow the movement route R with reduced power consumption.
- FIG. 26 an example is shown in which a plurality of movement routes R such as a detour route but a low energy route Rl, a shortest route but a high energy route Rh, and another route (medium energy route Rm) are presented. Shows.
- the usage management unit 190 (or ECU 96) sets the assist mode to the normal mode when the user travels along the low energy route Rl, and sets the power saving mode when the user travels along the high energy route Rh. You may perform control such as.
- step S5 the processing when the user returns the electric moving body 10 (step S5) and the payment of the fee (step S6) will be described.
- the user who uses the electric moving body 10 returns the electric moving body 10 to the return place (station 22) specified at the time of application for use.
- the user may return the electric mobile body 10 to a station 22 different from the return location specified in the application reception information 144.
- the return of the electric moving body 10 is completed by stopping the electric moving body 10 with respect to the station lock mechanism 38 of the station 22 and removing the user battery 102 from the second holder 112.
- the ECU 96 since the ECU 96 performs user authentication (user confirmation) by the battery ID, the user confirmation is canceled when the user battery 102 is removed.
- the ECU 96 may determine the end date and time of use based on the parking of the station 22 and the timing of canceling the user confirmation.
- the usage measurement unit 162 of the ECU 96 recognizes the usage start date and time of the electric moving body 10 based on the user confirmation, and measures the usage period from that point. Further, the usage measurement unit 162 recognizes the usage end date and time of the electric moving body 10 based on the fact that the user battery 102 is removed from the second holder 112 (cancellation of user confirmation), and ends the measurement of the usage period at that point. do. As a result, the usage measurement unit 162 can easily calculate the usage period of the user's electric mobile body 10 and transmit the calculated usage period to the management server 28 or the management machine 30.
- the management server 28 is provided with a calculation unit 196 that calculates the usage charge of the electric mobile body 10 based on the usage period measured by the usage measurement unit 162 (see FIG. 17).
- the calculation unit 196 of the management server 28 charges the user for the usage fee by calculating the usage fee according to the usage period of the received user.
- the sharing system 12 may be configured to make available points related to other services and the like, and the calculation unit 196 may calculate points according to the usage period. Further, the sharing system 12 may be configured such that the calculation unit 196 is provided in the management machine 30 and the usage fee of the electric moving body 10 is settled in the management machine 30.
- the sharing system 12 may be configured to calculate the usage fee based on the battery usage amount of the main battery 100.
- the usage measurement unit 162 recognizes the start of use of the electric moving body 10 based on the user confirmation, and measures and stores the remaining battery level of the main body battery 100 at that time. Further, the usage measurement unit 162 recognizes the end of use of the electric moving body 10 based on the removal of the user battery 102 from the second holder 112, and measures and stores the remaining battery level of the main body battery 100 at that time. do. Then, the usage measurement unit 162 calculates the difference between the remaining battery level of the main body battery 100 at the start of use and the remaining battery level of the main body battery 100 at the end of use. As a result, the calculation unit 196 of the management server 28 and the management machine 30 can calculate the charge according to the calculated difference in the remaining battery level of the main battery 100 and charge the user.
- the basic usage fee calculated based on the usage period and the points according to the battery usage of the main battery 100 are calculated and the usage fee is calculated.
- a calculation method of subtracting points from the battery may be adopted.
- the calculation unit 196 has a reference value of the battery usage corresponding to the battery usage of the main battery 100, and subtracts the battery usage from the reference value.
- the calculation unit 196 can calculate a high point when the battery usage of the main battery 100 is low and greatly discount the usage fee.
- the calculation unit 196 can calculate a low point when the battery usage of the main battery 100 is large, and discount or increase the usage fee.
- the sharing system 12 may be configured to measure the power consumption of the user battery 102 during the usage period of the electric mobile body 10 and reflect it in the usage fee.
- the usage measurement unit 162 includes the remaining battery level of the user battery 102 at the start of use of the electric mobile body 10 based on the user confirmation and the user at the end of use of the electric mobile body 10 based on the removal of the user battery 102. The difference from the remaining battery level of the battery 102 is calculated.
- the calculation unit 196 calculates, for example, a low usage charge when the battery usage of the user battery 102 is high, while calculating a high usage charge when the battery usage of the user battery 102 is low.
- the calculation unit 196 calculates a high point when the battery usage of the user battery 102 is high, while calculating a low point when the battery usage of the user battery 102 is low. As a result, the calculation unit 196 can calculate a high point when the battery usage of the user battery 102 is large and greatly discount the usage fee. Further, the calculation unit 196 can calculate a low point when the battery usage of the user battery 102 is low, and discount or increase the usage fee.
- the calculation unit 196 may calculate the usage fee by comprehensively converting the usage period, the power consumption of the main battery 100, and the power usage of the user battery 102.
- the sharing system 12 may be configured such that the user directly pays the usage fee of the electric moving body 10 to the management machine 30.
- the sharing system 12 may include various forms of temporary use such as a lease for renting the electric mobile body 10 to the user for a long period of time and a rental for renting the electric mobile body 10 to the user for a short period of time.
- the sharing system 12 may be configured to share one electric moving body 10 with a plurality of users.
- the electric moving body 10 is not only applied to the sharing system 12, but may be owned by an individual.
- the electric moving body 10 may be configured to apply only the user battery 102 as one or more batteries 18.
- the electric moving body 10 other than the electric bicycle 20A may also have the second holder 112 for fixing the user battery 102 at an appropriate position.
- the electric kickboard 20B can be configured to include a second holder 112 in a bulging portion 204 connecting the handle shaft 200 and the floor plate portion 202.
- the electric wheelchair 20C and the electric cart 20D may have a configuration in which the second holder 112 is provided on the elbow rest 206 provided adjacent to the seat on which the user sits.
- the electric moving body 10 may have a configuration in which the second holder 112 for holding the user battery 102 is provided on the handle 42 (frame near the steering shaft 78).
- the second holder 112 fixes the smartphone 37 so that the input / output unit 36a of the smartphone 37 faces the user sitting on the saddle 44.
- the user battery 102 (smartphone 37) can display various information when the electric mobile body 10 is used, as in the touch panel 43, while supplying electric power to the drive source 16 and the main body battery 100. can.
- the electric moving body 10 may be configured to charge the user battery 102 with the power of the main body battery 100 when the power of the user battery 102 becomes low.
- the ECU 96 has a user battery charge threshold Tu (charge threshold: see the dotted line in FIG. 19) in the power distribution management unit 176, and when the remaining battery level of the user battery 102 becomes equal to or less than the user battery charge threshold Tu, the main body battery 100 power is supplied to the user battery 102.
- the user battery charge threshold value Tu is preferably set smaller than the stop threshold value Ts, or may be configured to be configurable by the user via the usage content setting unit 182.
- the electric power of the main body battery 100 is converted into a voltage suitable for charging the user battery 102 by passing through the DC / DC converter 210 (voltage conversion unit 126) for step-down. Further, the power distribution management unit 176 monitors the required power to the drive source 16 even when it is determined that the user battery 102 is charged, and when the required power is low (when stopped or when the output is low), the main body battery. Power is directed from 100 to the user battery 102. As a result, the electric moving body 10 can charge the user battery 102 while preventing the power supply to the drive source 16 from being insufficient.
- the electric moving body 10 may be configured to use the electric power of the user battery 102 only for charging the main body battery 100 and not to supply the electric power to the drive source 16.
- a step-up DC / DC converter 128 and a chopper circuit 212 are provided between the main battery 100 and the user battery 102.
- the ECU 96 cuts off the power supply of the user battery 102 by the chopper circuit 212 while the electric moving body 10 is traveling. Then, when the ECU 96 recognizes that the electric moving body 10 is stopped moving (required power is zero) and stops the power supply from the main body battery 100 to the drive source 16, the chopper circuit 212 is released from the cutoff and the user battery 102 is released. Power is supplied to the main battery 100. As described above, even if the user battery 102 only charges the main body battery 100, it is possible to suppress a decrease in the remaining battery level of the main body battery 100.
- the sharing system 12 does not select the type of the electric mobile body 10 in the usage application by the user, so that the management server 28 extracts an appropriate type of the electric mobile body 10 based on the information of the user battery 102, and the user. You may propose to. For example, the management server 28 extracts the electric kickboard 20B that consumes a large amount of power when the battery level of the user battery 102 is high, and the electric bicycle 20A that consumes a small amount of power when the battery level of the user battery 102 is low. Extract. As a result, the user can use the appropriate electric moving body 10 according to the user battery 102.
- the authentication unit 150 for performing user authentication is not limited to the configuration provided in the electric mobile body 10, and may be provided in the management machine 30 or the management server 28 of each station 22.
- the ECU 96 of the electric mobile body 10 acquires a battery ID from the user battery 102 mounted on the second holder 112, and uses this battery ID as the management server. Send to 28.
- the management server 28 can collate the transmitted battery ID with the registration ID to determine whether or not the user is a legitimate user who has applied for the use of the electric mobile body 10.
- the utilization measurement unit 162 of the ECU 96 is not limited to the configuration provided in the electric moving body 10, and may be provided in the management machine 30 or the management server 28 of each station 22.
- the sharing system 12 uses the electric mobile body 10 by allowing the user to carry the user battery 102 to the station 22 and connect the user battery 102 to the standby electric mobile body 10 without making a usage application. It may be possible.
- the ECU 96 of the electric moving body 10 acquires the battery ID of the user battery 102 as the user battery 102 is connected, and transmits the battery ID to the management server 28.
- the management server 28 can perform license, charge management, and the like by authenticating (identifying) the user based on the battery ID.
- a sharing system 12 having a plurality of electric mobile bodies 10 that supply power from one or more batteries 18 of the present invention and shared by a plurality of users, wherein the one or more batteries 18 are user batteries owned by the users. It has a management server 28 that manages the lending and returning of a plurality of electric mobile bodies 10 including 102, and the management server 28 has the remaining battery level or the maximum output of the user battery 102 when the user applies for the use of the electric mobile body 10.
- the electric power is acquired, the information of the electric mobile body 10 available to the user is extracted based on the remaining battery level or the maximum output power of the acquired user battery 102, and the information of the electric mobile body 10 is provided to the user.
- the sharing system 12 applies the electric moving body 10 that can use the user battery 102 possessed by the user, so that the user suppresses the battery exhaustion of the electric moving body 10 and causes the electric moving body 10 to be used. It can be used comfortably.
- the management server 28 extracts information on the available electric moving body 10 based on the remaining battery level of the user battery 102 or the maximum output power and provides the information to the user, so that the user can appropriately move the electric moving body. Body 10 can be selected.
- the business operator of the sharing system 12 can efficiently operate the plurality of electric mobile bodies 10 based on the information of the user battery 102 at the time of application for use.
- the plurality of electric moving bodies 10 include at least one of an electric bicycle 20A, an electric kickboard 20B, an electric wheelchair 20C, an electric cart 20D, and a robot.
- the sharing system 12 can comfortably use various types of electric moving bodies 10 by using the user battery 102.
- one or more batteries 18 include a main body battery 100 preliminarily attached to the electric moving body 10 by the operator of the sharing system 12, and the management server 28 is a battery of the main body battery 100 for each of the plurality of electric moving bodies 10. The remaining amount is acquired, and the electric moving body 10 that can be used by the user is extracted based on the total value of the remaining amount of the battery of the user battery 102 and the remaining amount of the battery of the main body battery 100. As a result, the sharing system 12 can provide the user with information on the electric moving body 10 in consideration of the remaining battery level of the main body battery 100 of the electric moving body 10.
- the management server 28 acquires at least one of the location information including the borrowing place and the return place or the destination, and the time information including the use start time and the use end time as the usage conditions of the user's electric mobile body 10. Then, the power consumption is estimated based on the acquired usage conditions, and the information of the electric mobile body 10 that can be used by the user is extracted based on the estimated power usage and the remaining battery level of the user battery 102. Thereby, the sharing system 12 can provide the user with the information of the electric mobile body 10 corresponding to the electric power consumption estimated based on the usage conditions.
- the management server 28 acquires the remaining battery level of one or more batteries 18, calculates the power consumption amount based on the usage conditions, and the total value of the remaining battery levels of the one or more batteries 18 is equal to or less than the power consumption amount.
- the electric moving body 10 is instructed to perform a power saving mode for suppressing the power consumption of one or more batteries 18.
- the electric mobile body 10 can have the battery remaining amount of the electric mobile body 10 until the user returns the electric mobile body 10 by executing the power saving mode when the battery remaining amount is low. Become.
- the management server 28 includes a battery station database 138 indicating the position of the battery station 34 having the shared battery 32 that can be used as the user battery 102, and extracts information on the battery station 34 according to the usage conditions from the battery station database 138. And provide it to the user. As a result, the user can recognize the position of the battery station 34 and take measures to borrow the shared battery 32 as needed when selecting or using the electric moving body 10.
- the management server 28 includes a shared battery database 134 that manages a plurality of shared batteries 32 accommodated in the battery station 34, and the shared battery database 134 is a battery balance for each of the plurality of shared batteries 32 acquired by the management server 28.
- the amount can be stored, and the management server 28 extracts the information of the shared battery 32 including the remaining battery level from the shared battery database 134 according to the usage conditions, and provides the information of the shared battery 32 to the user.
- the user can borrow the share battery 32 having a sufficient remaining battery level, and can more reliably compensate for the insufficient battery level of the electric moving body 10.
- the management server 28 acquires the remaining battery levels of one or more batteries 18 while the user is using the electric mobile body 10, and the total value of the remaining battery levels of the one or more batteries 18 is the remaining amount determination threshold value Tp.
- the position information of the shared battery 32 or the battery station 34 is provided. As a result, even if the remaining battery level becomes low while the electric moving body 10 is being used, the user can take measures to borrow the shared battery 32 based on the provided information.
- the management server 28 acquires the remaining battery levels of one or more batteries 18 while the user is using the electric mobile body 10, and the total value of the remaining battery levels of the one or more batteries 18 is the remaining amount determination threshold value Tp.
- the user is provided with information on the remaining battery level. As a result, the user can easily recognize the decrease in the remaining battery level while using the electric moving body 10.
- the user's information processing terminal 26 or the electric mobile body 10 is provided with a display unit (touch panel 43), and the management server 28 estimates the movable range mr of the electric mobile body 10 based on the remaining battery level of one or more batteries 18. Then, the estimated movable range mr is displayed on the display unit. As a result, the user can recognize the movable range mr during use, and can use the electric moving body 10 more comfortably.
- the management server 28 calculates the movement route R with a small amount of power consumption based on the usage conditions at the time of application for use, and displays the movement route R on the display unit (touch panel 43). As a result, the user can avoid running out of the battery of the electric moving body 10 by traveling along the moving path R where the amount of electric power used is small even if the remaining battery level becomes low during use.
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Abstract
Description
Claims (11)
- 1以上のバッテリ(18)から電力を供給する電動移動体(10)を複数有し、複数のユーザにより共有されるシェアリングシステム(12)であって、
前記1以上のバッテリは、前記ユーザが所持するユーザバッテリ(102)を含み、
複数の前記電動移動体の貸出及び返却を管理する管理サーバ(28)を有し、
前記管理サーバは、前記ユーザによる前記電動移動体の利用申請時に、前記ユーザバッテリの電池残量又は最大出力電力を取得し、取得した前記ユーザバッテリの電池残量又は最大出力電力に基づき前記ユーザが利用可能な電動移動体の情報を抽出して、当該電動移動体の情報を前記ユーザに提供する
シェアリングシステム。 - 請求項1記載のシェアリングシステムにおいて、
複数の前記電動移動体は、電動自転車(20A)、電動キックボード(20B)、電動車椅子(20C)、電動カート(20D)、ロボットのうち少なくとも一種類を含む
シェアリングシステム。 - 請求項1又は2記載のシェアリングシステムにおいて、
前記1以上のバッテリは、シェアリングシステムの事業者により前記電動移動体に予め装着された本体バッテリ(100)を含み、
前記管理サーバは、複数の前記電動移動体毎の前記本体バッテリの電池残量を取得し、前記ユーザバッテリの電池残量と前記本体バッテリの電池残量との合計値に基づき前記ユーザが利用可能な電動移動体を抽出する
シェアリングシステム。 - 請求項1~3のいずれか1項に記載のシェアリングシステムにおいて、
前記管理サーバは、前記ユーザの前記電動移動体の利用条件として、借り受け場所と返却場所又は目的地とを含む場所情報、及び利用開始時間と利用終了時間とを含む時間情報のうち、少なくとも一方を取得し、
取得した前記利用条件に基づき電力使用量を推定し、推定した前記電力使用量と前記ユーザバッテリの電池残量とに基づき、前記ユーザが利用可能な電動移動体の情報を抽出する
シェアリングシステム。 - 請求項4記載のシェアリングシステムにおいて、
前記管理サーバは、前記1以上のバッテリの電池残量を取得すると共に、前記利用条件に基づき電力使用量を算出し、
前記1以上のバッテリの電池残量の合計値が前記電力使用量以下の場合に、前記1以上のバッテリの消費電力を抑える省電力モードを前記電動移動体に指示する
シェアリングシステム。 - 請求項4又は5記載のシェアリングシステムにおいて、
前記管理サーバは、前記ユーザバッテリとして利用可能なシェアバッテリ(32)を有するバッテリステーション(22)の位置を示すバッテリステーションデータベース(138)を備え、
前記バッテリステーションデータベースから前記利用条件に応じた前記バッテリステーションの情報を抽出して前記ユーザに提供する
シェアリングシステム。 - 請求項6記載のシェアリングシステムにおいて、
前記管理サーバは、前記バッテリステーションに収容された複数の前記シェアバッテリを管理するシェアバッテリデータベース(134)を備え、
前記シェアバッテリデータベースは、前記管理サーバが取得した複数の前記シェアバッテリ毎の電池残量を記憶可能であり、
前記管理サーバは、前記電池残量を含む前記シェアバッテリの情報を、前記シェアバッテリデータベースから前記利用条件に応じて抽出し、当該シェアバッテリの情報を前記ユーザに提供する
シェアリングシステム。 - 請求項6又は7記載のシェアリングシステムにおいて、
前記管理サーバは、前記ユーザによる前記電動移動体の利用中に、前記1以上のバッテリの電池残量を各々取得し、前記1以上のバッテリの電池残量の合計値が残量判定閾値(Tp)以下となった場合に、前記シェアバッテリ又は前記バッテリステーションの位置情報を提供する
シェアリングシステム。 - 請求項1~7のいずれか1項に記載のシェアリングシステムにおいて、
前記管理サーバは、前記ユーザによる前記電動移動体の利用中に、前記1以上のバッテリの電池残量を各々取得し、前記1以上のバッテリの電池残量の合計値が残量判定閾値以下となった場合に、前記ユーザに残量低下の情報を提供する
シェアリングシステム。 - 請求項1~9のいずれか1項に記載のシェアリングシステムにおいて、
前記ユーザの情報処理端末又は前記電動移動体に表示部(43)を備え、
前記管理サーバは、前記1以上のバッテリの電池残量に基づき前記電動移動体の移動可能範囲(mr)を推定し、推定した前記移動可能範囲を前記表示部に表示させる
シェアリングシステム。 - 請求項10記載のシェアリングシステムにおいて、
前記管理サーバは、前記利用申請時の利用条件に基づき電力使用量が少ない移動経路(R)を算出し、前記移動経路を前記表示部に表示させる
シェアリングシステム。
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