CN217181604U - Shared charging device with payment function - Google Patents

Abstract

The utility model provides a take payment function's sharing charging device, relates to the biological identification field, can be applied to intelligent financial machines and tools, contains: the mobile battery charging cabinet comprises a mobile battery charging cabinet body, a battery charging bin, an interaction module and a payment module; the movable battery charging cabinet body utilizes the insulating partition plates to combine in the movable battery charging cabinet body according to the appearance of the battery charging bin to construct a plurality of hollow cavities, and the adjacent hollow cavities are subjected to insulating treatment; the battery charging bin comprises a placing groove, a charging circuit and a detection circuit; the placing groove is used for storing a shared battery with a preset model; the charging circuit charges the shared battery stored in the placing groove; the detection circuit detects the residual electric quantity of the shared battery and uploads the residual electric quantity to a preset position; the interaction module plays prestored first display data and received second display data; and the payment module acquires payment information provided by the user according to the second display data and uploads the payment information to a preset position.

Description

Shared charging device with payment function

Technical Field

The application relates to the field of shared charging, can be applied to the financial field and other fields, and especially relates to a shared charging device with a payment function.

Background

In recent years, electric vehicles are favored by the masses as short-distance transportation means due to their advantages of energy saving and environmental protection, and low cost and convenience. However, since the electric vehicle has a relatively short driving distance, a limited battery capacity and poor sustainability, people who use the electric vehicle for a long time and a long distance, such as couriers and take-away delivery staff, need to be charged repeatedly. The shared battery charging cabinet in the prior art generally only has a battery renting effect, and cannot achieve fine management of the shared rechargeable battery, for example, the user cannot accurately measure the cost according to returned batteries and taken batteries, and cannot know whether the charging cabinet has available batteries in advance, so that the user often rides an electric vehicle to charge the electric vehicle, but finds that the battery cabinet is damaged or the batteries in the battery cabinet are in a power shortage state, and the situation that the user needs to wait for a long time beside the battery cabinet is caused. Therefore, a new charging cabinet and system are needed, which can measure the charging cost of the battery more accurately and reasonably, and facilitate the operation of the user, and reduce the waiting time of the user.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a sharing charging device of function is paid in area, can charge for the battery of different models, and can be more accurate, more reasonable measurement battery charge expense, can scientific management rechargeable battery, the user of being convenient for changes, use the battery, control system can gather rechargeable battery's parameter in real time, master each module operating condition in rechargeable battery storehouse, appointed battery charge management strategy that can be more accurate, including a plurality of independent battery charge storehouses, scalability is strong, and can have special short circuit and overheat protection device, can effectively prevent the conflagration that charges and cause, convenient in people's daily use.

To achieve the above object, the present application provides a shared charging device with payment function, which specifically includes: the mobile battery charging cabinet comprises a mobile battery charging cabinet body, a battery charging bin, an interaction module and a payment module; the movable battery charging cabinet body comprises a plurality of insulating partition plates, and the insulating partition plates are used for combining and constructing a plurality of hollow cavities in the movable battery charging cabinet body according to the appearance of the battery charging bin and insulating adjacent hollow cavities; the battery charging bin is placed in the hollow cavity and comprises a placing groove, a charging circuit and a detection circuit; the placing groove is used for storing a shared battery with a preset model; the charging circuit is arranged in the placing groove and is used for charging the shared battery stored in the placing groove; the detection circuit is arranged in the placing groove and used for detecting the residual electric quantity of the shared battery; the interaction module is arranged on the side, close to a user, of the movable battery charging cabinet body and used for playing prestored first display data and received second display data; the payment module is arranged on the side, close to the user, of the movable battery charging cabinet body and used for obtaining payment information provided by the user according to the second display data.

In the above shared charging device with payment function, optionally, the battery charging bin further includes a latch assembly; the lock catch assembly comprises a bin door and an electronic lock catch, and the electronic lock catch is used for closing or opening a connecting channel between the placing groove and the outside through the bin door according to a received control signal.

In the shared charging device with the payment function, optionally, an identification panel and an indicator light are arranged on a near-user side of the door, the identification panel is used for identifying the number information of the battery charging bin, and the indicator light is used for displaying the remaining electric quantity of the shared battery in the placing groove through a preset light group; and turning on one or more light emitting devices in the preset lamp group according to the received control signal.

In the shared charging device with the payment function, optionally, a water cooling assembly is arranged in the insulating partition plate, and the water cooling assembly is used for reducing the temperature in the connected hollow cavity.

In the shared charging apparatus with payment function, optionally, the apparatus further includes a monitoring component; the monitoring assembly is arranged on the user-near side of the movable battery charging cabinet body and used for acquiring video data in a preset area.

In the shared charging device with payment function, optionally, the device further includes a receipt printing component; the receipt printing assembly is arranged on the user-near side of the movable battery charging cabinet body and used for printing the corresponding transaction receipt according to the received transaction feedback signal.

In the shared charging device with payment function, optionally, the payment module comprises a cash payment component, a password keyboard component and a card reading component; the cash payment component is used for acquiring and identifying cash payment information provided by a user; the password keyboard component user acquires payment information input by the user; the card reading assembly comprises a chip card reader and an induction type card reader and is used for identifying payment information provided by a user in a contact type and non-contact type mode.

In the shared charging apparatus with payment function, optionally, the payment module further includes a biometric identification component; the biological characteristic identification component is used for acquiring identity information of a user and generating corresponding payment information according to the identity information; wherein, the biological characteristic identification component comprises a fingerprint instrument, an iris identification instrument and/or a face identification device.

In the above shared charging device with payment function, optionally, the device further includes a power module and a voltage transformation control circuit; the power supply module is arranged in the movable battery charging cabinet body or at the far user side and is used for providing power supply for the movable battery charging cabinet body; the voltage transformation control circuit is respectively connected with the power module and the battery charging bin and is used for providing corresponding power supplies for shared batteries in different battery charging bins.

In the above shared charging apparatus with payment function, optionally, the apparatus further includes a communication module, where the communication module is connected to the battery charging bin, the interaction module and the payment module, respectively, and is configured to implement communication interaction between the battery charging bin, the interaction module and the payment module and an external device.

The beneficial technical effect of this application lies in: the combination of different battery cabinets which are suitable for different battery bins is adopted, the batteries of the electric vehicles with various models can be adapted according to market conditions, an unattended mode is realized by depending on the management of the Internet technology, the batteries are rented or returned in various payment modes such as code scanning, bank card and cash through a mobile phone, convenience for replacing the batteries at any time and any place is provided for users, and convenience, safety and environmental protection travel support is provided for urban residents. The battery replacement device has the advantages that convenience for replacing batteries of the electric bicycle which is more and more popular at present is provided anytime and anywhere, safe charging of the batteries and unified collection and processing of the waste batteries are facilitated, processing efficiency of the waste batteries is improved, risks of randomly discarding and polluting the environment are reduced, citizens using the electric bicycle are relieved to go out, home safety is achieved, the waste batteries are collected and processed in a unified mode, and the environment is protected.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application, are incorporated in and constitute a part of this application, and are not intended to limit the application. In the drawings:

fig. 1A is a schematic structural diagram of a shared charging system according to an embodiment of the present application;

fig. 1B is a schematic structural diagram of a shared charging device according to an embodiment of the present application;

fig. 2 is a schematic circuit diagram of a shared charging system according to an embodiment of the present application;

fig. 3 is a schematic diagram of an internal circuit structure of a mobile battery charging cabinet according to an embodiment of the present application;

fig. 4 is a schematic application diagram of a shared charging system according to an embodiment of the present application.

Detailed Description

The following detailed description will be provided with reference to the drawings and examples to explain how to apply the technical means to solve the technical problems and to achieve the technical effects. It should be noted that, as long as there is no conflict, the embodiments and the features of the embodiments in the present application may be combined with each other, and the technical solutions formed are all within the scope of the present application.

Additionally, the steps illustrated in the flow charts of the figures may be performed in a computer system such as a set of computer-executable instructions and, although a logical order is illustrated in the flow charts, in some cases, the steps illustrated or described may be performed in an order different than here.

Referring to fig. 1A, the shared charging device with payment function provided in the present application specifically includes: the mobile battery charging cabinet body 11, the battery charging bin 12, the interaction module 13 and the payment module 14; the movable battery charging cabinet 11 comprises a plurality of insulating partition plates 111, and the insulating partition plates 111 are used for combining and constructing a plurality of hollow cavities in the movable battery charging cabinet 11 according to the appearance of the battery charging bin 12, and insulating adjacent hollow cavities; the battery charging bin 12 is placed in the hollow cavity and comprises a placing groove, a charging circuit and a detection circuit; the placing groove is used for storing a shared battery with a preset model; the charging circuit is arranged in the placing groove and is used for charging the shared battery stored in the placing groove; the detection circuit is arranged in the placing groove and used for detecting the residual electric quantity of the shared battery; the interaction module 13 is disposed on a user-near side of the movable battery charging cabinet 11 and configured to play pre-stored first display data and received second display data; the payment module 14 is disposed at a near-user side of the movable battery charging cabinet 11, and is configured to obtain payment information provided by a user according to the second display data. Wherein the first display data may be device usage guidance graphic or video data, and the second display data may be payment link information; it should be noted that the first display data and the second display data are both provided by an external device, and the interaction module in the present application does not involve any method or program improvement, and is only an interaction device, such as a display, a touch screen, and the like.

With this, the device not only can charge for the battery of different models, and can be more accurate, more reasonable measurement battery charge expense, can scientific management rechargeable battery, the user of being convenient for changes, use the battery, control system can gather rechargeable battery's parameter in real time, master each module operating condition in rechargeable battery storehouse, appointed battery charge management strategy that can be more accurate, including a plurality of independent battery charging storehouses, scalability is strong, and can have special short circuit and overheat protection device, can effectively prevent the conflagration that charges and cause, make things convenient for in people's daily use. The battery cabinet provides a uniform, safe and convenient charging place for charging the battery; when the battery is used up, a fully charged battery can be replaced in the battery cabinet, so that the battery can be replaced quickly and conveniently, and people can go out green; the charging time of the batteries is automatically calculated, the waste batteries can be timely found and replaced, the waste batteries are uniformly collected and processed, the processing efficiency of the waste batteries is improved, and the risk of environmental pollution caused by random discarding is reduced.

In an embodiment of the present application, the battery charging bin may further include a latch assembly; the lock catch assembly comprises a bin door and an electronic lock catch, and the electronic lock catch is used for closing or opening a connecting channel between the placing groove and the outside through the bin door according to a received control signal; an identification panel and an indicator light are arranged on the side, close to the user, of the bin door, the identification panel is used for identifying the number information of the battery charging bin, and the indicator light is used for displaying the residual electric quantity of the shared battery in the placing groove through a preset light group; and turning on one or more light emitting devices in the preset lamp group according to the received control signal. The identification panel can be used for printing the number of the current battery charging bin, the indicating lamp can adopt a multicolor LED lamp set, and the indicating lamp is used for prompting a user to quickly position the battery charging bin and facilitating the user to confirm the residual capacity of the battery in the current battery charging bin. Furthermore, a water cooling assembly can be arranged in the insulating partition plate and used for reducing the temperature in the connected hollow cavity so as to solve the problem that the high temperature caused by the charging process of the shared battery cannot be effectively controlled.

In another embodiment of the present application, the apparatus further comprises a monitoring component and a receipt printing component; the monitoring assembly is arranged on the user-near side of the movable battery charging cabinet body and used for acquiring video data in a preset area and uploading the video data to a preset position; the receipt printing assembly is arranged on the user-near side of the movable battery charging cabinet body and used for printing the corresponding transaction receipt according to the received transaction feedback signal. Further, the payment module comprises a cash payment component, a password keyboard component, a card reading component and a biological characteristic identification component; the cash payment component is used for acquiring and identifying cash payment information provided by a user; the password keyboard component user acquires payment information input by the user; the card reading assembly comprises a chip card reader and an induction type card reader, and is used for identifying card information provided by a user in a contact type and non-contact type mode and generating payment information according to the card information; the biological characteristic recognition component is used for acquiring identity information of a user and generating corresponding payment information according to the identity information.

In an embodiment of the present application, the system may further include a power module and a voltage transformation control circuit; the power supply module is arranged in the movable battery charging cabinet body or at the far user side and is used for providing power supply for the movable battery charging cabinet body; the voltage transformation control circuit is respectively connected with the power module and the battery charging bin and is used for providing corresponding power supplies for shared batteries in different battery charging bins. The power module can be a conventional power supply, the voltage transformation control circuit can adopt an existing multi-output control circuit, the voltage transformation control circuit is used for providing corresponding output power for different shared batteries so as to ensure that the shared batteries of various types can be normally charged, and in actual work, the voltage transformation control circuit can be determined based on actual setting of the shared charging device, and the application is not further limited herein.

Specifically, as shown in fig. 1B, in practical operation, the shared charging apparatus provided in the present application may include a movable battery charging cabinet 11, a battery charging chamber 12, a display screen (interactive module 13), a camera 15, a receipt printing outlet, an inductive card reader 1411, a cash inlet 142, a password keyboard 143, a fingerprint device 144, and a bank card slot 1412.

The movable battery charging cabinet body, be provided with a plurality of battery charging storehouses for charge to the sharing battery, adopt insulating barrier to separate between a plurality of battery charging storehouses, be equipped with the cooling water-cooling case between the insulating barrier and help the battery charging storehouse cooling heat dissipation. The movable battery charging cabinet body also comprises a power module, a battery cabinet control module and a communication module. The specification of the rechargeable battery bin on the movable battery charging cabinet can be changed, and the movable battery charging cabinets with different specifications can be combined according to installation requirements through network cables and cables so as to adapt to actual market needs and use conditions.

The battery charging bin is used for charging the shared battery and is used for controlling battery charging, battery identification, battery taking and placing control and battery information reporting. Each battery charging bin is provided with an independent bin door and a door lock, the bin door is provided with a unique battery bin number, the bin door is provided with an independent LED indicating lamp, and the door lock control module controls the door lock control module so that a user can quickly and accurately find the corresponding battery bin, and particularly, reference can be made to fig. 3.

The display screen is used for displaying content to interact with the customer and guiding the customer to charge and pay.

The camera is used for monitoring the conditions of the charging cabinet and the use process of a user.

The voucher printing outlet is used for outputting paper charging payment vouchers. The printer is arranged in the cabinet and used for printing transaction receipts, transaction invoices, transaction details and the like of a user; wherein the outlet of the printer is located outside the cabinet. Therefore, various transaction information required by the user can be conveniently printed, information storage is facilitated, and user experience is improved. The printer can be set as a printer with different functions based on different requirements, for example: laser printer, rely on strip printer, invoice printer etc. laser printer and bankbook printer can set up the inside at the rack, and laser printer's access & exit inlays the vertical plane in rack the place ahead, convenience of customers operation. The following describes each printer in detail:

the laser printer is used for printing a service application form in a paper form, supporting state inquiry and supporting double-sided printing; the basic parameters of a laser printer can be set as follows: the paper box capacity: 250 sheets or more, sheet size: length 127 mm-356 mm, width 76 mm-216 mm, printing speed: 8 pages/min or more, interface type: USB interface, RJ-45 network interface, can set up the warning light of operation (can set up normally bright, glimmer, close etc. based on different states) on the laser printer. The receipt printer is used for printing the transaction receipt (namely the receipt of the transaction processing result). By virtue of the strip width being settable to be greater than 79.5mm, the printing speed being settable to be at most 150mm/s, auto cutting, continuous tape cutter, providing half cut/full cut functionality, the print density being settable to: 203DPI, the diameter of the paper roll can be set as follows: 150mm, supports full-image printing, and has a printing head of not less than 100 kilometers and a cutter of not less than 100 ten thousand times. And the invoice printer is used for printing the invoice. The basic parameters of the invoice printer can be set as follows: a printing mode: 9-pin dot matrix, printing speed: 1.65 lines/sec, sheet width: 76mm, sheet thickness: 60-80 g, diameter of paper roll: 125mm, printhead life: more than 14 hundred million times, have the automatic paper cutting function, cutter working life: the paper has the functions of paper shortage warning and black spot identification for more than 60 ten thousand times, and the paper type comprises common paper or black spot preprinting paper and has the function of paper blockage prevention. The communication mode is as follows: RS-232C, communication rate: 9600bps, operating voltage: 24V.

The cash outlet is used for receiving cash paid by a customer and spitting out found change. The bank card inserting port is used for receiving a bank card used by a customer during payment. The password keyboard is used for helping to collect and use the bank card password of a customer or the goods taking appointment password, the password keyboard adopts a standard EPP hardware encryption keyboard to carry out hardware encryption on the password input by the customer, and the number of the keys is 16, wherein 10 digital keys (0-9) and 6 functional keys (decimal point, backspace, return, confirmation, upturn and downturn). The key storage mode is as follows: write only, application program is not readable. When the encryption module is detached from the password keyboard, the key self-destruction function in the hardware encryption module must be started, so that the key is ensured not to leave the self-service equipment, and the security of the key is ensured. And (3) encryption algorithm: support SM4, 3DES, and conform to ANSI X9.24 safety standard. The password keyboard can be used as a system numeric keyboard in a non-encryption mode, and has dustproof, waterproof, anti-riot and anti-peeping safety measures.

The fingerprint instrument is used for collecting fingerprint identity information of an equipment administrator or a user. Under general conditions, the fingerprint appearance adopts the USB interface (plug-and-play exempts from to drive the installation), and collection mouthful window size sets up to: not less than 10mm 14mm, the single fingerprint storage capacity is set as: 256 bytes, and the false reject rate (the false reject rate is the number of times of false reject/the total number of times of comparison) is set as: the false recognition rate (false recognition rate/total comparison times) is set to be less than or equal to 0.1 percent: ≦ 0.0001%, allow rotation angle set to: 360 degrees; the fingerprint image acquisition time (the time required from the sensor detecting the finger pressing up to the time the entire fingerprint image is read in) is set to: 1 second or less, and setting the characteristic generation time as follows: 1 second or less, the fingerprint matching time is set as: 1:1 alignment pattern <80ms, or 1: n (512) is less than or equal to 1 second, and the anti-electromagnetic interference index of the capacitive/dermal layer is set as follows: reaching IEC 61000-4-3, the fingerprint instrument 9 adopts a standard power supply mode, namely, the power supply voltage and current of the USB interface of the computer are set as follows: DC 5V plus or minus 5 percent and less than or equal to 500mA, and the fingerprint instrument 9 has protection measures such as power failure, overcurrent, overvoltage, short circuit, polarity reversal connection and the like. When the voltage returns to normal, the normal working state can be automatically recovered; average number of non-failure operations: the number of the detection is more than or equal to 1,000,000, the detection device has the functions of automatic detection and remote reset of parts, and can report normal and abnormal states and fault codes; the shell protection grade is more than or equal to IP 42.

The induction type card reader is a non-contact type IC card reader, and reads a non-contact type IC card in a non-contact mode. Electromagnetic compatibility (EMC): the standard requirements of GB9254, GB/T17618, GB/T17626 and the like are met. The mechanical environment meets the requirements of GB6587 standard, the read-write life is more than 100 ten thousand times, the MTBF 1 ten thousand hours, and the communication interface requirements are as follows: standard RS-232 or RS-422 or RS-485 or USB, possess the safety module interface: the security module has a physically independent hardware encryption module, has encryption and anti-decoding functions, and its SAM cassette accords with ISO/IEC7816-1, 2 requirements, and logical interface and communication protocol accord with ISO/IEC7816-3 standard, and read/write time < 300ms, has the power-fail protection function to the data of storage in the card reader, carries out mutual authentication according to ISO/IEC14443 standard between reader and the card, possesses the anticollision function: at the same time, 2 IC cards are in the reader/writer sensing area, and each card can be validated and effectively operated. The device may be used to read a device administrator's membership card or a user's membership card for identifying current user identity information.

Referring to fig. 2 again, in actual operation, the circuit structure of the shared charging device includes a main control unit, a display unit, a payment processing unit, an identity information reading unit, a communication unit, a printing unit, a movable battery charging cabinet array control unit, and a movable battery charging cabinet array. The main control unit is connected with the display unit, the payment processing unit, the identity information reading unit, the communication unit, the printing unit and the movable battery charging cabinet array control unit. The movable battery charging cabinet array control unit is connected with the main control unit and the movable battery charging cabinet array.

The main control unit is used for coordinating and controlling the components to work cooperatively, and uploading payment information acquired by the payment unit to the bank service for processing through the communication unit; the battery of the user is detected, charged and charged through the array control unit of the movable battery charging cabinet.

The display unit is a display screen, can be a touch screen, and is used for displaying content to interact with the customer and guiding the customer to charge and pay.

The payment processing unit comprises an induction type card reader, a cash processing module and a bank card reading module, and the unit supports various payment modes including processing cash inserted by a customer, an inserted bank card, two-dimensional code or NFC mobile payment and the like.

The identity information reading unit comprises an induction type card reader, a password keyboard, a fingerprint instrument, a camera and the like and is responsible for reading identity information of a current user (an equipment administrator or a common user) and identifying the identity.

The communication unit is used for uploading the collected battery information, the equipment administrator or common user identity information and the payment information to a central server and receiving the download processing result of the central server;

the printing unit is used for printing a consumption certificate of a user or an invoice certificate.

The movable battery charging cabinet array control unit controls the connected movable battery charging cabinets with different models and different voltages, so that the effective management of the movable battery charging cabinet array is formed, and the battery bin state and the switch on each movable battery charging cabinet are controlled.

The movable battery charging cabinet array is composed of movable battery charging cabinets of different models and supporting different voltages, each battery charging cabinet is provided with an independent voltage control device and an electric leakage protection device, the electric leakage protection device comprises a grounding circuit and is used for preventing the safety problem caused by electric leakage, and the battery charging cabinets are mutually independent and do not influence each other.

In an embodiment of the present application, the internal circuit structure of the mobile battery charging cabinet can be shown in fig. 3, which specifically includes: the system comprises a power supply system, a control system, a communication system and a battery charging bin; the power supply system is electrically connected with the control system, the communication system and the battery charging bin and is used for supplying power to the control system, the communication system and the battery charging bin; the control system is connected with the communication system and the battery charging bin, and is used for receiving a battery replacement request of a battery user through the communication system, receiving battery information sent by the battery charging bin, and sending a control instruction to the battery charging bin; the battery charging bin is used for controlling battery charging, battery identification, battery taking and placing control and battery information reporting. The power supply system comprises a power supply input end, a power supply conversion module and a power supply output end, wherein the power supply input end is electrically connected with 220V alternating current; the power output end is connected with the power input end and the power output end and is used for outputting the power input by the power input end into a power with set parameters; the power output end comprises a 12V direct current output port and a 24V direct current output port which are respectively used for outputting 12V direct current and 24V direct current. The communication system is connected with a network cable or connected with a 4G wireless network. The battery charging bin comprises: the intelligent charging system comprises a battery bin controller, an intelligent charger, a door lock detection module, a door lock control module, a battery detection module and a battery lock control module; the battery bin controller is connected with the control system, the intelligent charger, the door lock detection module, the door lock control module, the battery detection module and the battery lock control module, and is used for receiving a control instruction of the control system and controlling the intelligent charger, the door lock detection module, the door lock control module, the battery detection module and the battery lock control module to work; the intelligent charger is connected with the power supply system and is used for starting or closing charging work under the control of the battery compartment controller; the door lock detection module is used for detecting the state of a door lock of the rechargeable battery compartment, judging whether the door lock of the rechargeable battery compartment is opened or closed, and prompting an alarm if the door lock of the rechargeable battery compartment is opened; the door lock control module is used for opening or closing the door lock of the rechargeable battery bin under the control of the battery bin controller, and after the door lock control module 44 starts an instruction of closing the door lock of the rechargeable battery bin, the door lock detection module 43 detects the closing of the door lock of the rechargeable battery bin and stops giving an alarm; the battery detection module is used for detecting whether the rechargeable battery is connected with the intelligent charger, detecting the residual voltage and the electric quantity of the battery to be charged and the voltage and the electric quantity of the battery after the battery is fully charged, and reporting the detection result to the main control unit through the battery cabin controller and the communication module so as to accurately calculate the charging cost; and the battery lock control module is used for locking the battery when the rechargeable battery is placed in the rechargeable battery bin for charging until the charging is finished. The control system is connected with the battery charging bin through a CAN bus. The battery charging bin is connected with a rechargeable battery through a UART wire. The battery charging bin can be provided in plurality.

In an embodiment of the present application, the shared charging device may further include a communication module, where the communication module is connected to the battery charging bin, the interaction module, and the payment module, respectively, and is configured to implement communication interaction between the battery charging bin, the interaction module, and the payment module and an external device. Specifically, a terminal transaction device can be arranged outside during practical application, and the terminal transaction device is used for calculating charging cost, user identity authentication and the like; as will be appreciated by those skilled in the art, the terminal transaction device may be selectively set according to actual needs, and the present application is not limited herein; in practical operation, a plurality of shared charging apparatuses may be connected to a terminal transaction apparatus through respective communication modules to form a many-to-one structure to construct a shared charging system, where the terminal transaction apparatus may include a shared charging device management center server 200 and a bank server 300, and as shown in fig. 4, the whole system includes a plurality of shared charging devices 100, a shared charging device management center server 200 and a bank server 300, where the plurality of shared charging devices 100 are all connected to the shared charging device management center server 200, and the shared charging device management center server 200 is connected to the bank server 300. The shared charging device management center server 200 includes a management center communication module 201, a management center main control module 202, an identity verification module 203, a shared battery information management module 204, a charging module 205, and an information storage module 206. The shared charging device management center server 200 is connected to a plurality of shared charging devices 100 through a network, and is responsible for performing centralized management and monitoring on the shared charging devices, and processing and storing data sent by the shared charging devices 100. The bank server 300 is responsible for sharing payment data information sent by the charging device management center server 200, the payment data may include but is not limited to data such as bank card information, payment password information, payment two-dimensional codes, payment reservation codes and the like for verification, and if the verification is successful, the account of the customer is deducted, and an account deducting result is returned to the charging device management center server 200. The management center communication module 201 is responsible for performing network communication and data interaction with the communication unit on the shared charging device 100. The management center main control module 202 is responsible for coordinating the modules of the service provider to write. The identity verification module 203 is responsible for verifying various kinds of identity data sent by the shared charging device 100, where the identity data includes card information, password information, and biometric data (such as fingerprints and faces) of the user, and confirms and verifies the identity of the client or the charging administrator. The shared battery information management module 204 is responsible for managing battery status data, such as the current electric quantity of the battery, the charging time, the electric quantity consumed by charging, the RFID information of the shared battery, the record details of the battery usage, the battery user, the battery health status, and the like. The charging module 205 is responsible for calculating charging fee according to the electric quantity of the shared battery sent by the shared charging device 100 before charging and the electric quantity consumed after charging is finished, processing the payment data sent by the shared charging device 100, sending the payment data to the bank server 300 through the management center communication module 201 for deduction processing, registering according to a deduction result returned by the bank server 300, and returning a successful payment result to the shared charging device 100. The information storage module 206 stores the shared battery information data (including charging information, battery status, usage records, payment records, etc.) on all the shared charging devices 100.

In the above embodiment, the logic executed by the shared charging equipment management center server 200 and the bank server 300 can be obtained by adjusting the existing calculation rule, and those skilled in the art can select the setting according to the actual requirement.

The above-mentioned embodiments are further described in detail for the purpose of illustrating the invention, and it should be understood that the above-mentioned embodiments are only illustrative of the present invention and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A shared charging apparatus with payment function, the apparatus comprising: the mobile battery charging cabinet comprises a mobile battery charging cabinet body, a battery charging bin, an interaction module and a payment module;

the movable battery charging cabinet body comprises a plurality of insulating partition plates, and the insulating partition plates are used for combining and constructing a plurality of hollow cavities in the movable battery charging cabinet body according to the appearance of the battery charging bin and insulating adjacent hollow cavities;

the battery charging bin is placed in the hollow cavity and comprises a placing groove, a charging circuit and a detection circuit;

the placing groove is used for storing a shared battery with a preset model; the charging circuit is arranged in the placing groove and is used for charging the shared battery stored in the placing groove; the detection circuit is arranged in the placing groove and used for detecting the residual electric quantity of the shared battery;

the interaction module is arranged on the side, close to a user, of the movable battery charging cabinet body and used for playing prestored first display data and received second display data;

the payment module is arranged on the side, close to the user, of the movable battery charging cabinet body and used for obtaining payment information provided by the user according to the second display data.

2. The shared charging device with payment function of claim 1, wherein the battery charging bay further comprises a latch assembly;

the lock catch assembly comprises a bin door and an electronic lock catch, and the electronic lock catch is used for closing or opening a connecting channel between the placing groove and the outside through the bin door according to a received control signal.

3. The shared charging device with the payment function according to claim 2, wherein an identification panel and an indicator light are arranged on a near-user side of the door, the identification panel is used for identifying the number information of the battery charging bin, and the indicator light is used for displaying the remaining power of the shared battery in the placing groove through a preset light group; and turning on one or more light emitting devices in the preset lamp group according to the received control signal.

4. The shared charging device with payment function as claimed in claim 1, wherein a water cooling module is disposed in the insulating partition for reducing the temperature in the connected hollow cavity.

5. The shared charging device with payment function of claim 1, wherein the device further comprises a monitoring component;

the monitoring assembly is arranged on the user-near side of the movable battery charging cabinet body and used for acquiring video data in a preset area.

6. The shared charging device with payment functions of claim 1, wherein the device further comprises a credential printing component;

the receipt printing assembly is arranged on the user-near side of the movable battery charging cabinet body and used for printing the corresponding transaction receipt according to the received transaction feedback signal.

7. The shared charging apparatus with payment function of claim 1, wherein the payment module comprises a cash payment component, a password keypad component and a card reading component;

the cash payment component is used for acquiring and identifying cash payment information provided by a user;

the password keyboard component user acquires payment information input by the user;

the card reading assembly comprises a chip card reader and an induction type card reader and is used for identifying payment information provided by a user in a contact type and non-contact type mode.

8. The shared charging apparatus with payment function of claim 1, wherein the payment module further comprises a biometric identification component;

the biological characteristic identification component is used for acquiring identity information of a user and generating corresponding payment information according to the identity information;

wherein, the biological characteristic identification component comprises a fingerprint instrument, an iris identification instrument and/or a face identification device.

9. The shared charging device with payment function of claim 1, wherein the device further comprises a power module and a voltage transformation control circuit;

the power supply module is arranged in the movable battery charging cabinet body or at the far user side and is used for providing power supply for the movable battery charging cabinet body;

the voltage transformation control circuit is respectively connected with the power module and the battery charging bin and is used for providing corresponding power supplies for shared batteries in different battery charging bins.

10. The shared charging device with payment function as claimed in claim 1, further comprising a communication module, wherein the communication module is respectively connected to the battery charging chamber, the interaction module and the payment module, for realizing communication interaction between the battery charging chamber, the interaction module and the payment module and external devices.

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