WO2018196803A1 - Mobile power unit renting operation system and method, electrical device and operation supporting system and method therefor - Google Patents

Abstract

An electrical device and an operation supporting system and method therefor. The electrical device comprises an electrical unit and an energy storage unit. The system comprises a user terminal, a plurality of mobile power units provided with wireless dialogue terminals, an operation management center, and a mobile power unit handling system user terminal. The power characteristics are no fixed replenishment point, no fixed pick/place point, no usage limitation of mobile power devices, share of mobile power devices, improved utilization efficiency, reduced resource waste, low operation costs, wide applicable range of electrical devices, and high popularization. The user terminal is a terminal device having a communication function of a user for sending a service request to the operation management center and receiving a feedback result; the mobile power units are provided with terminals for positioning, guarding against theft, receiving platform information, user authentication, pricing and charging and son on; the operation management center is used for receiving and responding to the user request, conducting the mobile power unit handling system to balance distribution density of the mobile power units, and forming a renting operation system with respective mobile power units having terminals; the mobile power unit handling system is used for receiving instructions of the operation management center and performing equilibrium distribution management on density of the mobile power units.

Description

 Mobile power unit rental operation system, method, electric device and its guarantee operation system and method The application request is submitted to the Chinese Patent Office on April 26, 2017, and the application number is CN201710281935. 5. The name is "a mobile power unit." The priority of the Chinese Patent Application for Renting Operational Systems and Methods, the entire contents of which is hereby incorporated by reference in its entirety in its entirety in the the the the the the the the the the the The priority of the Chinese Patent Application for "Electric Vehicle Operation Support Operation System and Method" is hereby incorporated by reference in its entirety in its entirety in its entirety in its entirety in 4. The priority of the Chinese patent application entitled "A Power Device and Its Guaranteed Operation System and Method", the entire contents of which are incorporated herein by reference in its entirety in The application number of the Patent Office is CN201710531652. 1. The name is "a type of electrical device and its guaranteed operation. System and Method "Chinese Priority Patent Application, which is hereby incorporated by reference in the present application in combination.

Technical field

 The present application relates to a consumer device and its operational support operating system and method, and more particularly to a mobile power system that operates using its own energy storage.

Background technique

 With the advancement of technology and social development, more and more mobile application devices are driven by electric energy, such as electric vehicles, drones, robots, trolley buses, etc.; at the same time, mobile power equipment such as computers and communication equipment Devices are also becoming more popular. These devices can cause various problems when used outdoors for a long time, such as high power consumption, long power consumption, etc. If there is no replacement power supply or power supply supplement, the user's use requirements will be greatly limited. In response to this problem, there are many power supply supplementing devices. Taking electric vehicles as an example, the current power supply supplements for electric vehicles mainly use charging piles, mobile charging vehicles, three-dimensional charging garages and power station replacements. These methods have many problems. In the following aspects:

 (1) Fixed-point replenishment: Whether it is a public charging device or a private charging device, the fixed-point setting is required, and the user's supplementary power supply needs to go to a fixed charging location. For equipment driven by electric energy or people with inconvenient position, the fixed-point supplementary power supply is extremely inconvenient;

 (2) Long charging time: The power device needs to be continuously placed at the power supply equipment, and cannot be quickly charged. For the power device in use, the power supply capacity is insufficient and the battery life is limited. Problems such as poor ability and short use time;

(3) Damage to the electrical device: For the specific power supply equipment for the pure electric taxi, such as the power station, In addition to the above-mentioned fixed point replenishment and long charging time, it will cause serious damage to the electric vehicle system;

 (4) Waste of resources: Convenient power supply equipment such as charging treasure, although it can meet the needs of real-time charging, but each charging device equipped with a charging treasure will cause serious waste of resources, and the weight of charging treasure is not suitable for high-rise Residents. SUMMARY OF THE INVENTION The object of the present invention is to solve the problems existing in the application of the existing mobile power consuming device, and propose an operation guarantee operation system and method, that is, the mobile removable rechargeable supplementary energy storage without fixed point and no fixed point. The power supply unit (hereinafter referred to as the mobile supplementary power supply unit or mobile power unit, which can be replaced by module or whole, the access point of the mobile power unit and the return point can be arbitrarily set) rental operating system and method. The user of the consumer device and itself can access the mobile power source from anywhere and quickly connect to the low-power device, drive with the device, replenish its power, and drive the device to its intended destination, then move the device to the device. The power unit is detached, or the power supply system is replaced as a whole, and there is no fixed point limit at random. (This situation may be that the electric device is returned to a rechargeable place for a long time to charge; or it may be a function of supplementing the additional mobile energy storage unit. Not only does the power device get closer to the destination, but it can also charge enough energy to the energy storage battery that the consumer itself has.

 The technical implementation of the present invention is: an electrical device and an operation support operation system, having a power consumption unit such as an electric motor or other power unit, including a user terminal, and a plurality of mobile power units equipped with wireless conversation terminals ( Supplementary or integral replacement power unit), operations management center and mobile power unit handling system (and/or handling reward system), preferably, the mobile power system emits no electricity or less electricity or signals or indications that are not in the ideal area, any passing vehicles It can be transferred to a rechargeable place for charging and has earned points or cash rewards. The more preferred mobile power source itself has a memory learning function, which can find and identify the power and connect it itself.

 An object of the present invention is to solve the problems existing in the existing mobile electric device, and to invent a mobile power storage unit (mobile rechargeable supplementary power supply) unit rental operation system without fixed point and no fixed point. The method can be obtained from any location without any fixed point restriction, and can be quickly connected to an electric power device (such as an electric vehicle) with insufficient power, drive along with it, replenish its electric energy, and drive the electric vehicle to a predetermined level. The destination then detaches the mobile energy storage unit from the powered device. (This situation can be that the electrical device is returned to a rechargeable location, which can be charged for a long time, that is, the function of the mobile energy storage unit not only brings the power device closer to the destination, but also charges the battery of the power device itself. With enough power, the electrical device can travel steadily to the destination.

In order to solve the above problems, the present invention provides a mobile power unit rental operation system and method thereof, and a package Includes:

 The operation management center includes an operation system and a control center, wherein the control center includes a power supply unit and a first communication module, and the power supply unit is configured to monitor a position, a usage status, a usage status of the mobile power supply device, and pass the electric The driving module drives the mobile power device to move to balance the distributed density of the mobile power terminal, the power unit includes an electric driving module, and the electric driving module is respectively connected to the operating system and the mobile power handling system.

 The mobile power terminal includes a mobile power device and a mobile power control system installed inside the mobile power device; the mobile power device includes a power module, and the mobile power control system includes a wireless dialogue terminal, a mobile power management system, and a mobile a power drive system and an energy storage system; the mobile power management system is respectively connected to the mobile power device, the mobile power drive system, the wireless dialogue terminal, and the energy storage module, and manages the power information of the mobile power terminal The mobile power drive system is connected to the mobile power device for driving the mobile power device; the mobile power drive system is connected to the operation management center through the wireless dialogue terminal, and receives the operation management center. The power storage system is connected to the power module for storing power of the power module.

 The user terminal includes a user information input unit, a user information output unit, a user control unit, and a power consumption device, the user control unit includes a second communication module, the second communication module and the operation management center and the mobile The power terminal is connected, and the information of the user information input unit and the user information output unit is transmitted to the operation management center through the first communication module, and the information feedback of the operation management center is received, and the user is The information of the control unit is transmitted to the mobile power terminal through the wireless dialogue terminal; the power device is connected to the mobile power device at the mobile power terminal.

 The mobile power handling system includes a transport storage unit and the transport control unit, and the transport control unit is connected to the operation system of the operation management center to collectively transport the mobile power device; The wireless conversation terminal connection of the mobile power terminal is configured to store a location of the mobile power device.

 The first communication module is respectively connected to the wireless conversation terminal of the mobile power terminal and the second communication module of the user terminal to perform information interaction.

 The wireless conversation terminal is connected to the first communication module of the operation management center, the second communication module of the user terminal, and the transportation control unit of the mobile power transmission system to perform information transmission.

Further, the wireless conversation terminal includes a signal control unit, a positioning control unit, an information transmission unit, a lock control unit, a storage unit, and a processor; the signal control unit includes a signal transmission unit and a signal receiving unit, and the signal control unit Connecting with the first communication module, the second communication module, and the handling control unit, Performing signal transmission; the positioning control unit includes a positioning system and a displacement sensor, and the position of the mobile power supply device is sent to the operation management center, the user terminal, and the mobile handling system by the signal control unit Positioning and moving route determination; the information transmission unit includes a power information input unit and a power information output unit, and the information transmission unit transmits the demand information of the mobile power device and the self power information to the operation management center through the signal control unit.

 Further, the mobile power device further includes a casing, a power lock, a charging/discharging interface, a moving wheel, a signal lamp, and a display panel; the casing is installed outside the power module, and the casing is disposed between the casing and the power module The power supply lock is connected to the lock control unit of the wireless dialogue terminal to control the opening and closing of the power lock; the charge/discharge interface is disposed on the power module, and is powered The charging interface of the device or the charging power source is docked to perform charging/discharging; the moving wheel is installed outside the power module to facilitate movement; the signal light is installed outside the battery module, and is connected to the display panel, The battery module is connected to the mobile power management system for displaying the charging status of the mobile power device.

 Further, the mobile power control system further includes an identification port, a lock control unit, a storage unit, and a processor, wherein the identification port may be set by scanning or inputting a digital manner; the lock control unit and the mobile power supply device a power lock connection for controlling opening and closing of the power lock; the storage unit is connected to the mobile power device for storing information of each of the mobile power terminals, and the processor is used for the power control system Internal program operation processing.

 Further, the user control unit includes an information identification module, an unlocking module, and a fee settlement module; the information identification module is respectively connected to the operation management center and the mobile power terminal by the second communication module, and the The mobile power terminal information is identified and matched, and transmitted to the operation management center; the unlocking module is connected to the lock control unit of the mobile power terminal, and controls the opening and closing of the power lock; a billing module and a billing module, wherein the billing module is connected to the power management system through the second communication module, determining a power consumption and usage time of the user, and calculating a fee; and the user information of the settlement module and the user terminal End connection, for fee settlement.

 Further, the electrical device may further be externally mounted with an integrated storage tank, a power supply socket is disposed in the integrated storage tank, and a power supply device motor is connected to the power supply socket, and the power supply module is inserted into the integrated storage device A socket in the slot can simultaneously supply power to the powered device and the drive motor motor.

 Further, one or more mounting modules of the power module may be disposed inside the casing to perform single or integral moving of the power module.

Further, the power module may further be mounted with an electric driving unit, and the electric driving unit passes the wireless The conversation terminal is connected to the electric drive module of the operation management center, and drives the mobile power device to move by itself.

 The present invention further provides a solution: a mobile power unit rental operation method, comprising the following steps: a) a user sends a request for using the mobile power device to the operation management center through the user terminal, or discovers the mobile power source Request after the device;

 b) the operation management center acquires the location of each mobile power terminal and the state information of the mobile power device, and selects the mobile power device that matches the request for the user to perform feedback, and the feedback information includes the mobile Location of the power device and user identity authentication information;

 c) the user obtains the corresponding mobile power device according to the instruction of the operation management center, and completes the identity authentication operation, and unlocks the mobile power device by using the identification port;

 d) after the user finishes using, the mobile power device is restored to the standby state;

 e) the operation management center acquires the usage state and location of the mobile power device, and controls the mobile power transportation system to balance the distribution density of the mobile power device or supplement the power of the mobile power device.

 Preferably, the mobile power device emits a signal or indication of no power, less power or no ideal area in step d), at which point any passing vehicle can carry it to a chargeable location for charging to obtain points or cash rewards.

 Optionally, in step e), the operation management center may further drive the mobile power device to drive the mobile power device to move by itself to balance the mobile power distribution density or supplement the mobile power device based on the foregoing Method, a mobile power unit rental operation system, comprising a user terminal, a plurality of mobile power units equipped with wireless conversation terminals, an operation management center, and a mobile power unit handling system (and, or a transportation reward system), preferably, a mobile power source The system signals or indicates that there is no electricity or little power or is not in the ideal area. Any passing vehicle can be transported to a rechargeable location for charging and has earned points or cash rewards. among them:

 The user terminal is a terminal device of the electric vehicle user's own peripheral communication function, and is used for sending a service request to the operation management center, and receiving the feedback result; including: a user input control unit, a user output control unit, a user transmission control unit, and The user receives the control unit; the client, the user recognizes the unit through his own mobile device, and associates with the central controller during use. To reach unlock, start payment, and more.

The mobile power source has a wireless conversation terminal for mobile power unit positioning, receiving platform information, user authentication; it includes; positioning control unit, mobile power unit signal transmission control unit, mobile power unit signal receiving control unit, mobile power unit signal input a control unit, a mobile power unit signal output control unit, a mobile power unit lock control unit, a storage control unit, and a processor; The object of the present invention is to solve the problems existing in the application of the existing mobile power consuming device, and propose an operation guarantee operation system and method, that is, a mobile power source without a fixed point and no fixed point (mobile rechargeable supplementary energy storage power source) Or overall replacement) unit rental operating systems and methods. The user of the consumer device and itself can get the mobile power nearby and quickly connect to the low-power device, drive along with it, replenish its power, drive it to its intended destination, and then move the device to the mobile device. The power unit is detached, or the power supply system is replaced as a whole, and there is no fixed point limit at random. (This situation may be that the electric device is returned to a rechargeable place for a long time to charge; or it may be a function of supplementing the additional mobile energy storage unit. Not only does the power device get closer to the destination, but it can also charge enough energy to the energy storage battery that the consumer itself has.

 The technical implementation of the present invention is: an electrical device and an operation guarantee operation system, including a power consumption unit such as an electric motor or other power unit, including a user terminal, and a plurality of mobile power units equipped with wireless conversation terminals ( Supplementary or integral replacement power unit), operations management center and mobile power unit handling system (and/or handling reward system), preferably, the mobile power system emits no electricity or less electricity or signals or indications that are not in the ideal area, any passing vehicles It can be transferred to a rechargeable place for charging and has earned points or cash rewards. The more preferred mobile power source itself has a memory learning function, which can find and identify the power and connect it itself. among them:

 A user terminal is a terminal device that uses the user's own peripheral communication function (which can be either the device itself or the user's intelligent mobile communication device such as mobile phone, hand computer, wearable device, etc.) for operation. The management center sends a service request, or the power device itself or the user first discovers the mobile power source, requests the control center through its identity indication (including positioning), and receives the feedback result; it includes: a user input control unit, a user output control unit The user sends the control unit and the user receives the control unit; the client, the user identifies the unit through his own mobile device, and associates with the central controller to unlock, adjust the cost according to time and power consumption, and initiate payment and the like.

 B mobile power comes with wireless dialogue terminal, used for mobile power unit positioning, receiving management center information, user authentication; it includes; positioning control unit, mobile power unit signal transmission control unit, mobile power unit signal receiving control unit, mobile power unit Signal input control unit, mobile power unit signal output control unit, mobile power unit lock control unit, storage control unit and processor; it uses wireless communication, or Wi-Fi or BluetoothTMTM communication, communication, or near field communication (NFC) One or more methods maintain communication with the user terminal and the operations management center (Operational Headquarters, Control Center).

A mobile power supply and control system for a mobile powered device, comprising a rechargeable energy storage system, a housing package, a charging and discharging interface, a management system, a lock, a recognition buckle, preferably a two-dimensional, display indicating system, RFID, and digital. Rechargeable energy storage, preferably rechargeable batteries and capacitors, or fuel cells or internal combustion The motor, preferably the original energy storage system that does not replace the device. It may be of any shape, preferably cylindrical, rectangular, or a unit composed of a plurality of modules.

 Considering the weight of the mobile power supply, the mobile power supply can be connected to the entire housing with a door and window cover for easy connection and replacement, and contains at least one module inside. After obtaining the permission, the user can open the door or window, move the battery modules one by one to the device and dock with the corresponding interface, or vacate the module first, and install the mobile power supply shell inside or outside the power device. Then, the module is reset and restored. This method can avoid complicated replacement facilities. Generally, the operator can complete the power docking by himself or by using the tools carried in the mobile power supply case.

 In addition, the mobile power feature is that it contains at least one, several or all of the following:

 1. The storage power is greater than 10 wh, preferably greater than 100 wh, preferably greater than lkwh, more preferably greater than 5 kwh, still more preferably greater than 20 kwh, and preferably greater than 50 kwh, preferably a modular structure;

 2. The overall package is used for safety and protection of internal structural components;

 3. Safety facilities, software management systems;

 4. Locks for anti-theft and security;

 5. GPS or other positioning system;

 6. Monitoring, motion sensor;

 7. You can use the mobile phone WeChat and other links to have tracking, monitoring and reporting systems;

 8. The system brings back and reward mechanisms;

 9. A company that interacts with the charging station piles, stations, and replaces the battery as a whole;

 10. Appointment and advance notice;

 11. It has its own charging function, that is, it can have its own solar or wind power generation device to generate electricity and rush into the energy storage unit such as its own battery in certain occasions, or have the function of identification and learning. It can move by itself to find the place with electric energy output. Connect to charge.

 The mobile energy storage unit (mobile rechargeable power supply) can be fixed on the pile, box, chain tree with locks, and can also be parked in places that are easily accessible by electric devices. For electric vehicles, it is preferred on the roadside, parking lot, charging station, Gas station, small area, high-speed service area, park, etc.; mobile rechargeable supplementary power supply can be moved, pulled, moved, preferably with at least one wheel, preferably self-propelled and lowered; can connect mobile power to electricity The rear, side, bottom, inside or top of the device, and the front cover, rear seat, trunk as long as it does not affect the driver's view; does not change the original driving indicator signal system. If necessary, move the rechargeable supplementary power supply with a warning signal.

Preferably, the electrical device includes at least one sump integrated in the electric device in addition to the self battery, and the battery module provides a connection to power the electric motor through a socket inserted into the slot; preferably, the battery module is configured to The sliding into the sump mode achieves power supply when the sump is in contact with the socket of the battery, and the battery can be further removed by sliding from the electrical contact connection socket. The battery supplies power directly to the motor and the power unit while charging the power source that drives the motor of the motor.

 Battery (Source) Replacement: The powered device contains multiple sliding battery sumps that can be replenished to the vacant tank one by one or replaced with a unit that is under or damaged by electrical energy as a separate unit (overall power change).

 The wireless communication between the electric devices is connected by a device; the electric vehicle on the computer, the interface of the control center computer and the communication module is configured to be connected to the socket slot to obtain the current charge level in the storage tank,

 Each battery module has a display panel that is configured to display information on the level of charge of the battery in the socket slot. Provides options for electric device users. At the same time, the battery module communicates with the control center and the battery-operated electric device through the application communication module, and the amount of electricity and time used by the battery module is counted for calculating the charge.

 C Operations Management Center (Operational Headquarters, Control Center), through the Internet, the Internet of Things knows the real-time status of each unit (battery module), including geographic location, charging and power usage, usage status, for receiving and responding to users wanting to use Mobile power request. At the same time, the control center knows the battery modules and power storage required in each section and time period according to the accumulated data of the operation. If the actual distribution of the battery modules is greatly deviated from the demand, the control center directs the mobile power unit handling system (by personnel and A service team consisting of a vehicle carrying a battery module) balances the distribution density of the mobile power unit (battery module) by charging a charged battery module and collecting the charged power back to the charging station.

 In addition, the battery module (group) can be equipped with an electric drive unit, and its own communication terminal is connected to the control center. The mobile power battery module (group) itself has power when the customer completes the mission, and although it does not meet the long distance, it is enough to run a certain distance. On the other hand, the rechargeable location is stored in the central controller with a GPS data and shared with the mobile power processor. The mobile power source finds the nearest or most matching charging point based on the data, and is aligned and charged by the positioning identification or the sensory identification. Charge for wireless.

 D mobile power unit handling system, receiving the command of the operation management center, and performing balanced distribution management on the density of the mobile power unit. In addition to the above manual handling, it is preferable that the intelligent system has memory learning, and it records the location of storing the charging point by itself. The walking route or through the control center can find the power charging point, and accept the command to charge the nearby electric power, preferably using the sidewalk.

The user terminal of the present invention is a user-owned terminal device (in the device or carried by the user) having a communication function, and is configured to send a rental service request, an instruction or a query to the operation management center, and receive feedback information; The system includes: a user input control unit, a user output control unit, a user sending control unit, and a user receiving control unit; each of the control units is discretely connected or integrated, and the input/output control unit can be connected to other systems or devices; The user input control unit is configured to input information to the user; the user output control unit is configured to output information to the user; the user sending control unit is configured to upload/submit information to the operation management center; the user The receiving control unit is configured for the user to download/receive information sent by the rental management system to the user.

 The mobile power source has a dry mobile power unit positioning, anti-theft, receiving platform authentication information, user authentication, and pricing charging; the method includes a positioning control unit, a mobile power unit signal transmission control unit, and a mobile power unit signal receiving control. Unit, mobile power unit signal input control unit, mobile power unit signal output control unit, mobile power unit lock control unit, storage unit and processor;

 The positioning control unit is configured to locate location information of the corresponding mobile power unit and send the information to the management platform. The mobile power unit signal transmission control unit is configured to upload/submit status information of the operating mobile power unit to the operation management center, including The mobile power unit signal receiving control unit is configured to receive user identification information sent by the management platform; the mobile power unit signal input control unit is configured to receive input information of the user; The mobile power unit signal output control unit is configured to provide prompting and indicating information to the mobile power unit user; and the mobile power unit lock control unit is configured to perform identity authentication and mobile power unit theft prevention. The mobile power unit with the self-contained terminal of the present invention is a manual mobile power unit or a vehicle-mounted, vehicle-driven power source unit, and more preferably self-moving. The mobile power unit handling system of the present invention adopts a handling mode of manual or mobile on-board mobile power unit handling or car-pull pulling or self-moving. The self-contained terminal of the present invention is provided with a mobile power unit status display control unit, including a standby and occupied state; an operating mobile power unit in an occupied state, the user can perform multiple unlocking and locking operations, and has a reserved use function.

 A mobile power device operation guarantee operation method, the power consumption device operation guarantee operation system, comprising the following steps: (a), the user sends a mobile power request (real time, reservation, reservation) to the operation management center, including After the power is found: (b) The operation management center selects the mobile power unit that matches the mobile power request with the user according to the location and status information of each mobile power unit, and replies the relevant information to the user, including the mobile power. Unit location and identity authentication information; (c), the user finds the corresponding mobile power unit, completes the identity authentication operation and unlocks the mobile power; (d), the user finishes using, and operates the mobile power unit to resume the standby state; The operation management center uses the mobile power unit handling system to distribute the density of the mobile power unit. The preferred power source is charged by the control center to find the power supply.

The operating mobile power unit of the present invention can receive the navigation information sent by the operation management center and send it to the processor of the own terminal, and the processor outputs the output through the display control unit. In the present invention, the user's use of the mobile power request may include prepaid information. If the user's request for mobile power is false information, or the user fails to use the service for personal reasons and fails to cancel in time, the operation management center may still deduct the fee. The mobile power unit operating system and method thereof according to the present invention can also be used for electric vehicles and other mobile power rental services, and realizes no fixed point-recovery service management for mobile devices such as taxis.

 The invention has the beneficial effects that the invention has no fixed requisition point limitation, and the mobile power source can be taken close to any place, thereby achieving resource sharing, reducing duplication and waste. The invention has low operation cost and strong promotion; can improve mobility and accessibility, promote the popularization of mobile power devices, thereby reducing pollution emissions and mitigating environmental pressure.

 By implementing the above-mentioned mobile device power supply operation guarantee system and method provided by the present invention, the following technical effects are obtained:

 (1) No fixed replenishment point: The mobile power supply device can be set in the trunk and other parts, and it can be charged and charged with the user. The power supply is supplemented during the use of the electric device, and there is no need to replenish the power supply at a fixed location;

 (2) No fixed take/drop point: When the user needs to supplement the power consumption of the power device, the user terminal system operation management center can be used to send a notification. After receiving the feedback from the operation management center, the nearest mobile power device can be found. After the use is completed, It can be placed on the spot, and the mobile power handling system will carry it according to the instructions. It does not need to be returned by the user to return it.

 (3) The mobile power supply device has no usage restrictions, and various power devices can be charged, and the damage of the power device is not caused by the unsuitable device matching;

 (4) The mobile power device of the system is shared to improve the utilization efficiency of the mobile power device, and the recycling of the mobile power device reduces the user's dependence on the portable charging device such as the charging treasure, and reduces the waste of resources; (5) The operating cost of the system is low, and the applicable electric devices are widely available and popular. DRAWINGS

 The concept, the specific structure, and the technical effects produced by the present invention will be further described in conjunction with the accompanying drawings to fully understand the objects, features and effects of the present invention.

 1 is a schematic diagram of a mobile power supply operation guarantee system for a power device according to Embodiment 1 of the present invention;

 2 is a schematic diagram of a module for a mobile power supply operation support system according to Embodiment 1 of the present invention; FIG. 3 is a schematic diagram of a mobile power terminal module according to Embodiment 1 of the present invention;

 4 is a schematic structural diagram of a mobile power supply device according to Embodiment 1 of the present invention;

 5 is a schematic structural diagram of a mobile power operation system according to Embodiment 3 of the present invention;

6 is a schematic block diagram of a mobile power supply self-contained terminal according to Embodiment 3 of the present invention; FIG. 7 is a schematic diagram of replacing a battery for a self-powered vehicle after the user obtains the mobile power source according to the embodiment of the present invention. Detailed ways

 The embodiments of the present invention will be further described in detail below with reference to the accompanying drawings. The illustrative embodiments of the present invention and the description thereof are intended to explain the present invention, but are not intended to limit the invention.

 The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

 The technical solution of the present invention will be described in detail below using the following specific embodiments.

 Example 1

 As shown in FIG. 1, the present invention provides a mobile power unit rental operation system, including an operation management center 1, a mobile power terminal 4, a user terminal 3, and a mobile power handling system 2;

 As shown in Figure 2-3, the operation management center 1 includes an operation system 11 and a control center 12. The control center 12 includes a power supply unit 121 and a first communication module 122. The power supply unit 121 includes an electric drive module 1211. The electric drive module 1211 and the drive unit 1211 respectively The operation system 11 is connected to the mobile power handling system 2.

 The mobile power terminal 4 is a mobile power device 41 and a mobile power control system 42 installed inside the mobile power device 41. The mobile power control system 42 includes a wireless dialogue terminal 421, a mobile power management system 422, a mobile power drive system 423, and an energy storage system 424. The identification port 425, the lock control unit 426, the storage unit 427, and the processor 428; the mobile power management system is respectively connected to the mobile power device 41, the mobile power drive system 423, the wireless dialogue terminal 421, and the energy storage module 424, and manages the mobile power terminal. 4 power information; the mobile power drive system 423 is connected to the mobile power device 41 for driving the mobile power device 41; the mobile power drive system 423 is connected to the operation management center 1 through the wireless dialogue terminal 421, and receives the drive command of the operation management center 1; The energy storage system 424 is connected to the power module 411 for storing power of the power module 411; the identification port 425 is set by scanning or inputting digital; the lock control unit 426 is connected to the power lock 417 of the mobile power device 41 for controlling the power Opening and closing of lock 417 The storage unit 427 is connected to power mobile device 41, for storing information for each mobile terminal 4 of the power supply, the power supply control processing system 418 for the internal arithmetic processing program 42;

As shown in FIG. 3 and FIG. 4, the mobile power device 41 includes a power module 411, a casing 412, a power lock 417, a charging/discharging interface 413, a moving wheel 414, a signal light 415, and a display panel 416. The power module 411 is equipped with an electric driving list. In the element 4111, the electric drive unit 4111 is connected to the electric drive module 1211 of the operation management center 1 through the wireless dialogue terminal 421 to drive the mobile power device 41 to move by itself; the outer casing is installed outside the power module 411, and the outer casing 412 and the power module 411 are disposed between The power supply lock 417 is connected to the lock control unit 426 to control the opening and closing of the power lock 417. The charge/discharge interface 413 is disposed on the power supply module 411, and is connected to the charging device of the power device 34 or the charging power source to perform charging. The display unit 416 is connected to the mobile power management system 422. , for displaying the charging status of the mobile power device 41.

 As shown in FIG. 1, the user terminal 3 includes a user information input unit 31, a user information output unit 32, a user control unit 33, and a power consumption device 34. The user control unit 33 includes a second communication module 331. The second communication module 331 and the operation The management center 1 and the mobile power terminal 4 are connected, and the information of the user information input unit 31 and the user information output unit 32 is transmitted to the operation management center 1 through the first communication module 122, and the information feedback of the operation management center 1 is received; The information of the unit 33 is transmitted to the mobile power terminal 4 through the wireless dialogue terminal 42; the mobile power source device 41 of the mobile power source terminal 4 is connected by the electric device 34.

 As shown in FIG. 1, the mobile power handling system 2 includes a transport storage unit 21 and a transport control unit 22, and the transport control unit 22 is connected to the operation system 11 of the operation management center 1, and collectively transports the mobile power source device 41; transports the storage unit 21 and moves The wireless dialogue terminal 421 of the power terminal 4 is connected to store the location of the mobile power device 41;

 As shown in FIG. 1, the first communication module 122 is connected to the wireless dialogue terminal 421 of the mobile power terminal 4 and the second communication module 331 of the user terminal 3 for information interaction.

 As shown in Fig. 1, the wireless conversation terminal 331 is connected to the first communication module 122 of the operation management center 1, the second communication module 331 of the user terminal 3, and the conveyance control unit 22 of the mobile power transmission system 4, respectively.

 According to some embodiments of the present invention, the operations management center 1 includes servers and administrators other than the server hardware and software systems.

 According to some embodiments of the present invention, both the wireless conversation terminal 421 and the second communication module 331 may perform wireless communication or one or more of wi-fi or Bluetooth communication or near field communication (NFC) with the operation management center 1. Information exchange.

 According to some embodiments of the present invention, the user terminal 3 employs a terminal device with a communication function, such as a smart phone, a tablet, a handheld electronic device, a smart wearable device, or the like.

According to some embodiments of the present invention, the power module of the mobile power terminal 4 may include an energy storage unit that itself carries solar energy, a wind power generation device, and may supplement itself. According to some embodiments of the present invention, at least one wheel may be mounted on the mobile power device 41 for movement. According to some embodiments of the present invention, the mobile power handling system 2 can adopt the transportation mode of the manual or vehicle-mounted mobile power device 41 to carry or the vehicle to pull the mobile or the operation management center 1 to drive the electric drive of the mobile power terminal 4 through the electric driving unit 1211. The module 4111 causes the mobile power device 41 to move by itself.

 According to some embodiments of the present invention, the mobile power device may include one or more of the following features: a) a stored power greater than 10 wh, preferably greater than 50 wh, preferably greater than 100 wh, more preferably greater than 500 wh; b) provided with anti-theft security Lock; c) Internally set GPS or other positioning system; d) Internally set the mobile sensor; e) The energy storage unit is equipped with a solar panel or a wind power generator for self-charging.

 In accordance with some embodiments of the present invention, the manner in which the identification port 425 is set may be a two-dimensional code, RFID or digital input.

 According to some embodiments of the present invention, the user information input unit 31 inputs information including user registration information, the user matches the mobile power device 41 demand, the user fee settlement account information, and the personal identification; the user information output unit 32 reports to the operation management center 1 Customer needs, approval, reporting on charging implementation.

 Based on the above description, when the user makes a reservation/real-time request to use the mobile power source, the following operations are performed: S1: The user sends a request for using the mobile power device 41 to the operation management center 1 through the user terminal 3, and fills in the request information, including real-time/ The start location and the number of uses of the mobile power device 41 for reservation/scheduled use;

S2: After receiving the mobile power request sent by the user terminal 3, the operation management center 1 selects the mobile power terminal 4 that matches the request of the mobile power device 41 according to the positioning and status information of each running mobile power device 41, and The location of the mobile power terminal 4 and the identity authentication information are fed back to the user, and the information that matches the identity authentication information sent to the user is sent to the mobile power terminal 4;

 S3: The user finds the corresponding mobile power terminal 4 according to the location information of the mobile power terminal 4 sent by the operation management center 1, and completes the identity authentication operation, and unlocks the mobile power device 41 by scanning the code or inputting the verification code;

 S4: Handling the mobile power device 41 to supplement the power supply;

 S5: After completing the mobile charging demand/reaching the destination, the user is used up, and the operating mobile power terminal 4 resumes the standby state;

 S6: Add the power supply of the power supply terminal 4 in the standby state for the next use.

 have to be aware of is:

 When the mobile power source is in the overall structure, it is pulled and suspended, and the upper position is actively moved to various positions.

When the mobile power source is in the exploded structure, first open the door, vacate the module, put the outer casing, and restore it to the shell; insert the module, the shell is pulled; the tool cooperates with the power supply. Placement of the mobile power supply: Just at the charging station, being transported, passing by the way to the charging place, intelligently walking to the charging place.

 Anyone takes it to charge (similar to the gas tank or solid trash recycling mode, the modules are unified, each purchase, no matter what way at home... grid, solar wind energy, etc., after pushing, push to the side of the road, the power collection company comes over Daily or recognizable, move, leave empty batteries. Community waste clothes also operate like this) Get cash points rewards, or commissioned 'utilize your own photovoltaic power generation, night trough power, wind power, fuel cells, treadmills , fitness equipment to charge.

 The mobile power source exhibits its own solar wind power generation (self-charging, fuel cell power generation).

 As shown in Figures 5 and 6, a mobile power unit rental operation system has no fixed access point and fixed return point, no fixed access/release point, and no fixed access point limit. The mobile power unit includes a user terminal, a plurality of mobile power units with their own terminals, an operation management center, and a mobile power unit handling system. Among them: As shown in Figure 5, a mobile power device operation guarantee operation system, including user terminals, multiple mobile power units with their own terminals, operation management center and mobile power unit handling system. among them:

 The user terminal is a user-owned terminal device with communication function (which may be the user's intelligent mobile communication device such as a mobile phone, a hand-held device, a wearable device, etc.) for sending the service to the operation management center. Requesting, and receiving feedback results; it includes a user input control unit, a user output control unit, a user transmission control unit, and a user reception control unit: a self-contained terminal (mobile power) for positioning, placing, and receiving platform information of the mobile power unit User authentication, billing charge; it includes positioning control unit, mobile power unit signal transmission control unit, mobile power unit information receiving control unit, mobile power unit information input control unit, mobile power unit information output control unit, mobile power unit lock a control unit, a storage control unit, and a processor;

 The operation management center is configured to receive and respond to the user's request for the mobile power source, and the smart mobile power unit handling system balances the distribution density of the mobile power unit, and forms a rental management system with the respective terminal;

 The mobile power unit handling system accepts the instructions of the operation management center to balance the density of the mobile power unit. The transportation methods that can be adopted are: car and car towed mobile power unit handling or intelligent self-propelled movement.

The user terminal of the present invention is a user-owned terminal device having a communication function, and is configured to send a rental service request, an instruction or a query to the operation management center, and accept feedback information; and the user input control unit and the user output a control unit, a user transmission control unit, and a user reception control unit; In the present invention, the self-contained terminal is used for mobile power unit positioning, anti-theft, receiving platform authentication information, user authentication, and pricing; it includes a positioning mode, a mobile power unit signal transmission control unit, and a mobile power unit signal. a receiving control unit, a mobile power unit signal input control unit, and a mobile power unit signal output control unit, a mobile power unit lock control unit, a storage control unit, and a processor;

 The positioning control unit is configured to locate location information of the corresponding mobile power unit and send the information to the management platform,

GPS, base station, RFID/sensor or beacon;

 The mobile power unit model transmission control unit is configured to upload/submit the status information of the operating mobile power unit to the operation management center, including the inactive and occupied status;

 The mobile power unit model receiving mode is configured to receive user identification information sent by the management platform; the mobile power unit signal input control unit is configured to receive input information of the user, and the mobile power unit signal input control unit comprises: Identification control unit, pricing control unit. The authentication and identification control unit is configured to authenticate the input of the user information, and cooperate with the mobile power unit lock control unit to complete the unlocking use operation; the pricing and charging control unit transmits the start information of the user using the mobile power unit to the storage unit, thereby charging with the pricing The algorithm is combined and used for the user to calculate the mobile power cost.

 The mobile power unit signal output control unit is configured to provide prompting and knowledge information to the mobile power unit user. The mobile power unit signal output control unit comprises: a mobile power unit status display control unit and a navigation control unit. The mobile power unit status display control unit includes the substitute and occupied status; the operating mobile power unit in the occupied state, the user can perform multiple unlocking and locking operations, and has the function of retaining use; the navigation control unit can receive the navigation issued by the operation management center. The information is sent to the processor of the own terminal, which outputs through the display control unit. The mobile power unit lock control unit (model can be a password lock with an alarm device) is used for user identity authentication and mobile power unit security.

 In the present invention, the mobile power unit equipped with the self-equipped terminal is a human power mobile power unit or a power mobile power unit, or intelligently moves by itself.

 A method for operating a guaranteed operation of a powered device, and applying the mobile power unit to lease an operating system, comprising the following steps:

 1. Demand: The user sends a request for mobile power to the operation management center. The information includes the request for mobile power (real time, reservation, reservation, including the first discovery of the power supply), the starting point, and the amount of mobile power;

2. Discovery: 2a manages these requests through the user terminal such as mobile phone, (informed to the location status) The operation management center selects the user to match the mobile power request according to the positioning and status information of each running mobile power unit. The mobile power unit returns the relevant information to the user, and the information includes the location of the mobile power unit and the identity authentication letter from E.

 The information sent to the user includes: mobile power unit location information and identity authentication information;

The information sent to the corresponding mobile power unit includes: information that matches the authentication information sent to the user; 2b _{: The} user opens the ID card and the bank card after seeing the appropriate power source.

 3. The user finds the corresponding mobile power unit, completes the identity authentication operation and unlocks the mobile power; Execute: 3a unlock: scan code (the code can be given randomly, or fixed, or

 3b handling (recharge mode)

 3bl) Overall: Pulling, active topping, etc., being transported to various positions;

 3b2) Decomposition: 3b2a: (Open the door first, vacate the module, put it outside the shell, and restore it to the shell);

 3b2b: Insert the module as shown in Figure 7. The shell is pulled. Work with the power tools together.

 4. Completion of the requirements (reaching the destination) After the user has finished using, the operating mobile power unit is restored to the standby state;

4a power supply: (4al is just at the charging station, 4a2 is carried: passing by the way to the charging station, 4a3 smart walking to the charging station)

 4b Anyone takes the charge (similar to the gas tank or solid waste bin recycling mode, the module is unified, each purchase, no matter what way at home... grid, solar wind energy, etc., after pushing, push to the roadside, power collection company Come over, every day or identify, move, leave empty batteries. Community waste clothes also run like this.) Get cash points rewards, or commissioned 'utilize your own photovoltaic power generation, night trough power, wind power, fuel cells, Treadmills, fitness equipment to charge.

 4c exhibits its own solar wind power generation (self-charging, fuel cell power generation)

 5. The Operations Management Center uses the mobile power unit handling system to distribute the density of the mobile power unit.

 The invention is between step 2 and step 3; the user feedbacks whether to use the service, if not used, the service is terminated; if used, the continuation; the management center sends the matching user simultaneously after receiving the confirmation information used by the user The identity authentication information is given to the user and the corresponding mobile power unit.

 In the present invention, the user's mobile power request can protect the prepaid information. If the user's mobile power request is false information, or the user fails to use the service for personal reasons and fails to cancel in time, the operational service management accessory recognizes the deduction.

The mobile power unit operating system without fixed power take-off and the method thereof in the invention can also be used for renting services, and realize service management for renting mobile power. The parts not covered by the present invention are the same as the prior art or can be implemented by the prior art. The mobile power unit operating system without fixed power take-off and the method thereof in the invention can also be used for renting services, and supplementing power supply for renting mobile power devices to realize service management. The parts not covered by the present invention are the same as the prior art or can be implemented by the prior art. Example 3

 The technology shown in Embodiment 3 is basically the same as Embodiment 2, and the difference is that in Step 2 and Step 2, the user himself opens the ID card and the bank card after seeing the appropriate power source. The above has described in detail the preferred embodiments of the invention. It will be appreciated that many modifications and variations can be made in the present invention without departing from the scope of the invention. Therefore, any technical solution that can be obtained by a person skilled in the art based on the prior art based on the prior art by logic analysis, reasoning or limited experimentation should be within the scope of protection determined by the claims.

 The above description is only for the preferred embodiment of the present application, and is not intended to limit the present application, and various changes and modifications may be made by the skilled person in the art. Any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of this application are intended to be included within the scope of the present application.

 Industrial applicability

 The application utilizes no fixed replenishment point; no fixed access/discharge point; no restrictions on the use of the mobile power device; the invention has no fixed requisition point limitation, and the mobile power source can be taken at any place to achieve resource sharing, reducing duplication and waste. The invention has low operating cost and more popularization; can improve mobility and accessibility, promote the popularization of mobile power devices, thereby reducing pollution emissions and mitigating environmental pressures.

Claims

Claim

A mobile power unit rental operation system, characterized in that: the rental operation system comprises: a user terminal, a plurality of mobile power units equipped with own terminals, an operation management center and a mobile power unit handling system, and a mobile supplementary power supply The access point and return point of the unit can be set arbitrarily, among which:

 The user terminal is a terminal device of the electric vehicle user's own peripheral communication function, and is used for sending a service request to the operation management center and receiving the feedback result; the user terminal includes: a user input control unit control unit, a user output control unit, and a user sending The control unit and the user receive the control unit;

 Self-contained terminal, used for mobile power unit positioning, anti-theft, receiving platform authentication information, user authentication, pricing and charging; self-contained terminal including positioning control unit, mobile power unit signal transmission control unit, mobile power unit signal receiving control unit, a mobile power unit signal input control unit, a mobile power unit signal output control unit, a mobile power unit lock control unit, a storage control unit, and a processor;

 Operation Management Center, through the Internet, the Internet of Things obtains the real-time status of each unit, including geographic location, charging and power status, usage status, for receiving and responding to the user's mobile supplemental power request, directing the mobile power unit handling system to balance movement The power unit is distributed and has a rental management system with its own terminal; the mobile power unit handling system is used to receive the instructions of the operation management center to perform balanced distribution management on the density of the mobile power unit.

 The mobile power unit rental operation system according to claim 1, wherein the user terminal is a user terminal device having a communication function, and is configured to send a rental service request, an instruction, and an operation to the operation management center. Querying and accepting feedback information thereof; the user terminal includes a user input control unit, a user output control unit, a user transmission control unit, and a user acceptance control unit; each of the control units of the user terminal is discretely connected or integrated, user input The control unit/user output control unit is capable of interfacing with other systems or devices; the user input control unit is for user input information; the user output control unit is for outputting information to the user; The user uploads/submits information to the operation management center; the user reception control unit is configured to download/receive information sent by the rental management system to the user.

The mobile power unit rental operation system according to claim 1, wherein the self-contained terminal is used for power source positioning, anti-theft, receiving platform authentication information, performing user authentication, and pricing charging; a power signal transmission control unit, a power signal acceptance control unit, a power signal input control unit power signal output control unit, a power lock control unit storage control unit, and a processor; the positioning control unit is configured to locate a position of the corresponding mobile power unit The information is sent to the operation management center; the mobile power unit signal transmission control unit is configured to upload/submit the status information of the operating mobile power unit to the operation management center, including standby, The mobile power unit signal receiving control unit is configured to receive user identification information sent by the operation management center; the mobile power unit signal input control unit is configured to receive input information of the user; The mobile power unit signal output control unit is configured to provide prompting and indicating information to the mobile power unit user; and the mobile power unit lock control unit is configured to perform identity authentication and mobile power unit theft prevention.

 The mobile power unit rental operation system according to claim 1, wherein the power source of the self-contained terminal is a rechargeable mobile power source, and the power source can be a combination of a battery and a capacitor, and has a power management system and a charging and discharging interface. , protection device, under the central control command, unlock and power.

 The mobile power unit rental operation system according to claim 1, wherein the transportation system adopts a transportation mode of in-vehicle, anchor, and reward transportation.

 The mobile power unit rental operation system according to claim 1, wherein the terminal of the power supply with the terminal is provided with a power status display, including a standby state and an occupied state; and an operating power source in an occupied state. The user can perform multiple unlocking and locking operations, and has the function of retaining use.

 A mobile power unit rental operation method, the mobile power unit rental operation system according to claim 1, characterized in that it comprises the following steps:

 (a) The Operations Management Center receives the request from the user to replenish the power supply with the mobile:

 (b) The operation management center selects a mobile power unit that matches the mobile supplementary power request with the mobile power unit according to the positioning and status information of each operating mobile power unit, and replies relevant information to the user, the related information includes the mobile power unit. Location and identity authentication information;

 (c), the user finds the corresponding mobile power unit, completes the identity authentication operation, and unlocks the mobile supplemental power source;

 (d), after the user has finished using, control the mobile power unit to resume the standby state;

 (e) The Operations Management Center uses the mobile power unit handling system to distribute the density of the mobile power unit. The mobile power system sends a signal or indication that there is no electricity or less electricity or is not in the ideal area. Any passing vehicle can carry it to a rechargeable place for charging. Earned points or cash rewards.

 The mobile power unit rental operation method according to claim 7, wherein the operating power source can receive navigation information sent by the operation management center, and send a call originating from a tape processor, and the processor provides a display control unit. Output.

The mobile power unit rental operation method according to claim 7, wherein the user's lease power request may include prepaid information, if the user's rental request is false information, or the user fails to perform the service for personal reasons and If it is not cancelled in time, the operation management center can deduct the fee.

10. A mobile power device, comprising: an electric power unit and a power storage unit, wherein the mobile power device is a mobile power consuming device including at least an electric vehicle, an electric aircraft, a drone, and a robot. An electric vehicle is a consumer device comprising at least one one-two-wheeled vehicle, or one-three-wheeled vehicle, or four-wheeled vehicle, or a motorcycle, or a car, or a truck, or a pickup truck, or a utility vehicle, or a vehicle, or an industrial vehicle; The power unit includes a motor and other power consuming devices; the power storage unit includes an energy storage device, preferably a plurality of module configurations or an overall replacement, and is interchangeably interchangeable with an external mobile power source.

 11. A powered device according to claim 10, characterized in that the powered device itself or the user comprises a communication device comprising a communication module for processing wireless communication, or Wi-Fi or Bluetooth τTM communication, or near field Communication NFC.

 12. The electrical device according to claim 10, wherein the mobile power source comprises a unitary housing containing at least one battery module therein, and the user can open the door or window after obtaining the permission, and move the battery modules one by one to the The device can be docked with the corresponding interface, and the battery module can be vacated first, the mobile power supply housing is installed inside or outside the power device, the battery module is restored and placed in the mobile power supply shell, or the mobile power source is crawled by itself under the command. The electrical device is internal or attached to its exterior.

 The electric device according to claim 12, wherein the mobile power source selectively comprises one of the following, several combinations or all:

 a) storage power greater than 10 wh, preferably greater than 100 wh, preferably greater than lkwh, more preferably greater than 5 kwh, still more preferably greater than 20 kwh, preferably greater than 50 kwh, preferably a modular structure;

 b) the overall packaging is used to secure and protect internal structural components;

 c) security facilities, software management systems;

 d) locks for theft and security;

 e) GPS and other positioning systems;

 0 monitoring, moving sensor;

 g) can use the mobile phone WeChat and other links to have tracking, monitoring and reporting systems;

 h) the system brings back and reward mechanisms;

 i) a company that interacts with the charging station piles, stations, and replaces the batteries as a whole;

 j) make an appointment and advance reminder;

k) It has its own charging function, that is, it can have its own solar or wind power generation device to generate electricity and rush into the energy storage unit such as its own battery in certain occasions, or have the function of identification and learning. It can move by itself to find the place with electric energy output. Connect to charge.

14. An operational support operation system for a mobile electrical device, characterized in that it comprises a user terminal, a plurality of mobile power units with their own terminals, an operation control management center and a mobile power unit handling system, wherein: The user terminal is a terminal device that uses the electrical device itself or the user's own communication function, and is used to send a service request to the operation control management center and receive the feedback result; including: a user input control unit control unit, a user output control unit a user sending control unit and a user receiving control unit;

 b) Mobile supplementary or replacement power supply with its own terminal, used for positioning and anti-theft of the electric device and its own unit, receiving the authentication information of the operation management center, performing user authentication and pricing; it includes a positioning control unit, a signal transmission control unit, a signal receiving control unit, a signal input control unit, a signal output control unit, a lock control unit, a storage control unit, and a processor;

 c) Operations Management Center, through the Internet, the Internet of Things and the cloud to grasp the real-time status of each unit, including geographic location, charging and power status, and usage status; for receiving and responding to the user's request to supplement the power supply with mobile, directing the mobile power unit The handling system balances the distribution density of the mobile power unit, and constitutes a rental management system with the mobile supplementary power source with its own terminal;

 d) The mobile power unit handling system is used to receive the instructions of the operation management center to manage the density distribution of the mobile power unit.

 The operation guarantee operation system of the electric device according to claim 14, wherein the user terminal is a user terminal device having a communication function, and is configured to send a rental service request to the operation management center, The instructions and the query include first finding a suitable mobile supplemental power source and accepting the feedback information thereof; the user terminal includes a user input control unit, a user output control unit, a user transmission control unit, and a user acceptance control unit; each control unit of the user terminal Is a discrete docking or integrated integration, the user input control unit / user output control unit can be docked with other systems or devices; the user input control unit is used for user input information; the user output control unit is used for the user Outputting information; the user sending control unit is configured to upload/submit information to the operation management center; and the user receiving control unit is configured to download/receive information sent by the rental management system to the user.

The operation guarantee operation system of the electric device according to claim 14, wherein the mobile power source has a terminal for power source positioning, anti-theft, platform authentication information, user authentication, and pricing; The utility model comprises a positioning control unit, a power signal transmitting control unit, a power signal receiving control unit, a power signal input control unit power signal output control unit, a power lock control unit storage control unit and a processor; and the positioning control unit is configured to locate the corresponding Transmitting the location information of the power supply unit to the operation management center; the mobile power unit signal transmission control unit is configured to upload/submit a status letter of the operating mobile power unit to the operation management center The mobile power unit signal receiving control unit is configured to receive user identification information sent by the operation management center, and the mobile power unit signal input control unit is configured to receive the user's information. Inputting information; the mobile power unit signal output control unit is configured to provide prompting and indicating information to the mobile power unit user; and the mobile power unit lock control unit is configured to perform identity authentication and mobile power unit theft prevention.

 The operation guarantee operation system of the electric device according to claim 14, wherein the power source of the self-contained terminal is a rechargeable mobile power source, and the power source may be a combination of a battery and a capacitor, or may be a fuel cell or The generator passes electricity, it has a power management system, a charge and discharge interface, a protection device, and is unlocked and powered under central control commands.

 The operation guarantee operation system for an electric device according to claim 14, wherein the transportation system adopts a transportation mode for loading, abutting, and rewarding third-party transportation, or walking by itself.

 The operation guarantee operation system of the electric device according to claim 14, wherein the terminal of the power supply with the terminal is provided with a power status display, including a standby state and an occupied state; Operating the power supply, the user can perform multiple unlocking and locking operations, and has the functions of reserved use, reservation, and reservation.

 A method for operating a guaranteed operation of a powered device, comprising the operational support operating system of the mobile electrical device of claim 14, comprising the steps of:

 a) The operation management center receives the request for mobile supplemental power issued by the user, including requesting the power supply first; b) the operation management center selects the mobile supplemental power request for the user according to the positioning and status information of each operating mobile power unit Matching mobile power unit, replying relevant information to the user, the information including location and identity authentication information of the mobile power unit;

 c) The user finds the corresponding mobile power unit, completes the identity authentication operation and unlocks the mobile supplementary power supply; d) the user uses the mobile power unit to resume the standby state;

 e) The Operations Management Center uses the mobile power unit handling system to distribute the density of the mobile power unit. The mobile power system sends out signals or indications that there is no or little power or is not in the ideal area. Any passing vehicle can carry it to a rechargeable location for charging. Points or cash rewards.

The method according to claim 20, wherein the operating power source can receive navigation information sent by the operation management center, and send a call originating from a band processor, and the processor provides display control. Unit output. The method according to claim 20, wherein the user's leased power request may include prepaid information, if the user's lease request is false information, or the user fails to experiment for personal reasons. If the service is not cancelled in time, the operation management center may deduct the fee.

 A mobile power unit rental operation system, comprising: an operation management center, a mobile power terminal, a user terminal, and a mobile power handling system;

 The operation management center includes an operation system and a control center, the control center includes a power supply unit and a first communication module, and the power supply unit includes an electric drive module; the electric drive module and the operation system and the mobile power supply respectively Handling system connection;

 The mobile power terminal includes a mobile power device and a mobile power control system installed inside the mobile power device; the mobile power control system includes a wireless dialogue terminal; the mobile power device includes a power module; An electric drive unit, wherein the electric drive unit is connected to the electric drive module of the operation management center through the wireless dialogue terminal, and drives the mobile power supply device to move by itself;

 The user terminal includes a user information input unit, a user information output unit, a user control unit, and a power consumption device, the user control unit includes a second communication module; the second communication module and the operation management center and the mobile The power terminal is connected, and the information of the user information input unit and the user information output unit is transmitted to the operation management center through the first communication module, and receives information feedback of the operation management center; The information of the control unit is transmitted to the mobile power terminal through the wireless dialogue terminal; the power device is connected to the mobile power device at the mobile power terminal;

 The mobile power handling system includes a handling storage unit and a handling control unit, the handling control unit is coupled to the operating system of the operations management center, and collectively carries the mobile power device; the handling storage unit and the moving The wireless conversation terminal connection of the power terminal is configured to store a location of the mobile power device;

 The first communication module is connected to the wireless conversation terminal of the mobile power terminal and the second communication module of the user terminal to perform information interaction;

 The wireless conversation terminal is respectively connected to the first communication module of the operation management center, the second communication module of the user terminal, and the transportation control unit of the mobile power transmission system.

The mobile power unit rental operation system according to claim 23, wherein the mobile power control system further comprises a mobile power management system, a mobile power drive system, an energy storage system, an identification port, a lock control unit, and a storage. a unit and a processor; the mobile power management system is respectively connected to the mobile power device, the mobile power driving system, the wireless dialogue terminal, and the energy storage module, and manages the power information of the mobile power terminal; a mobile power drive system coupled to the mobile power device for driving the mobile power device; The power supply driving system is connected to the operation management center through the wireless dialogue terminal, and receives a driving instruction of the operation management center; the energy storage system is connected to the power supply module, and is configured to store the power of the power module; The identification port is configured to be scanned or input digitally; the lock control unit is connected to the power lock of the mobile power device for controlling opening and closing of the power lock; the storage unit and the mobile power device Connected for storing information of each of the mobile power terminals, the processor being used for internal program operation processing of the power control system.

 The mobile power unit rental operation system according to claim 23, wherein the wireless conversation terminal comprises a signal control unit, a positioning control unit, an information transmission unit, a lock control unit, a storage unit, and a processor; The signal control unit includes a signal transmitting unit and a signal receiving unit, and the signal control unit is respectively connected to the first communication module, the second communication module, and the handling control unit to perform signal transmission; the positioning control unit includes a positioning system and a displacement sensor, wherein the location of the mobile power device is transmitted to the operation management center, the user terminal, and the mobile handling system by the signal control unit to perform positioning and movement route determination; The unit includes a power information input unit and a power information output unit, and the information transmission unit transmits the demand information of the mobile power device and the self power information to the operation management center through the signal control unit.

 The mobile power unit rental operation system according to claim 23, wherein the mobile power supply device comprises a casing, a power lock, a charging/discharging interface, a moving wheel, a signal lamp, and a display panel; Outside the power module, the power lock is connected to the lock control unit of the wireless dialogue terminal to control opening and closing of the power lock; the charge/discharge interface is disposed on the power module; Installed outside the power module for easy movement; the display panel is connected to the mobile power management system for displaying the charging status of the mobile power device.

 The mobile power unit rental operation system according to claim 23, wherein the user control unit comprises an information recognition module, an unlocking module, and a fee settlement module; wherein the information identification module is respectively configured by the second communication module Connecting to the operation management center and the mobile power terminal, performing identification and matching of the mobile power terminal information, and transmitting the information to the operation management center; and the unlocking module is connected to the lock control unit of the mobile power terminal Controlling the opening and closing of the power lock; the fee settlement module includes a billing module and a settlement module, and the billing module is connected to the power management system through the second communication module to determine the power consumption of the user and In use, the fee is calculated; the settlement module is connected to the user information end of the user terminal to perform fee settlement.

The mobile power unit rental operation system according to claim 23, wherein the electric device is externally mounted with an integrated storage tank, wherein the integrated storage tank is provided with a power supply socket, and one end of the power supply socket is connected with a driving use An electric device motor that simultaneously supplies power to the electric device and the driving electric device motor through a socket inserted into the integrated sump.

 The mobile power unit rental operation system according to claim 23, wherein the power module is mounted with an electric drive unit, and the electric drive unit passes the wireless dialogue terminal and the operation management center The electric drive module is connected to drive the mobile power device to move by itself.

 30. A mobile power unit rental operation method according to any one of claims 23 to 29, characterized in that it comprises the following steps:

 a) the user sends a request to the operation management center to use the mobile power device through the user terminal, or after the mobile power device is found;

 b) the operation management center acquires the location of the mobile power terminal and the state information of the mobile power device, and selects the mobile power device that matches the request for the user to perform feedback, and the feedback information includes the mobile Location of the power device and user identity authentication information;

 c) the user obtains the corresponding mobile power device according to the instruction of the operation management center, and completes the identity authentication operation, and unlocks the mobile power device by using the identification port;

 d) after the user finishes using, the mobile power device is restored to the standby state;

 e) The operation management center acquires the usage state and location of the mobile power device, and controls the mobile power transportation system to balance the distribution density of the mobile power device or supplement the power of the mobile power device.

 31. The mobile power unit rental operation method according to claim 30, wherein the mobile power source device sends a signal or indication of no power, less power or no ideal area in step d).

 The mobile power unit rental operation method according to claim 31, wherein in the step e), the operation management center further drives the mobile power device to drive the mobile power device to move by itself. To balance the mobile power distribution density or to supplement the power of the mobile power device.