CN107404532B - Shared electricity utilization interaction system and method - Google Patents

Abstract

The invention provides a shared electricity utilization interaction system and a method, comprising the following steps: the system comprises intelligent power supply equipment, a central server and an intelligent user terminal; the central server is used for managing each intelligent power supply device and the intelligent user terminal and pushing the intelligent power supply devices near the intelligent user terminal to the intelligent user terminal; when preferential activities exist, the push contents are sorted according to the preferential strength of the intelligent power supply equipment and the distance weighting between the push contents and the intelligent user terminal; when the resource occupation time of a single user is too long and the use of other users is influenced, the central server can automatically end the service, control the intelligent power supply equipment to be powered off, send a service end message to the intelligent user terminal, and control the charging module to start charging according to the time if the user still occupies the power supply interface and is not away. The invention prevents a single user from occupying the equipment for too long time, the user can conveniently and rapidly acquire power supply service at any time and any place, and novel power system service is provided for a power grid company.

Description

Shared electricity utilization interaction system and method

Technical Field

The invention relates to the field of intelligent interactive power utilization of energy Internet, in particular to a shared power utilization interactive system and method.

Background

In the modern society, various electric power devices including smart devices have become an essential part of people's work and life, and with the high-speed development of integrated circuit technology and internet technology, portable smart devices such as mobile phones, tablet computers and notebook computers have almost become articles carried with people every day. However, the intelligent devices have complex operation and various functions, so that the power consumption and the power consumption speed are increased, and when the devices run out of electric quantity in public places, the devices cannot be charged in time due to the loss of available power supply equipment, so that inconvenience is brought to work and life. In recent years, sharing ideas are deeply popular, the appearance of a sharing bicycle, a sharing umbrella and the like greatly facilitates the life of people, and resources are fully utilized. Therefore, the 'shared electricity utilization' appears in the visual field of people as a new noun, aims to meet the temporary electricity utilization requirement of users in public places, and provides convenient and quick 'buying and using' electricity selling service for the users.

Disclosure of Invention

The object of the present invention is to solve at least one of the technical drawbacks mentioned.

Therefore, the invention aims to provide a shared electricity utilization interaction system and method, and solves the problem that the electricity utilization requirements of users in public places cannot be fully met.

In order to achieve the purpose, the invention provides a shared electricity utilization interaction system and a method, which comprise intelligent power supply equipment, a central server and an intelligent user terminal;

the intelligent power supply equipment is used for being placed in each public place to meet the charging function of a user; the intelligent power supply device includes:

the GPS module is used for tracking and positioning the real-time position of the intelligent power supply equipment and feeding the real-time position back to the central server;

the power supply module is used for providing power for users, providing a plurality of power supply interfaces and meeting the multi-element power consumption requirements of the users;

the power supply communication module is used for communicating with the central server and feeding back the position information, the fault information and the occupation information of the intelligent power supply equipment to the central server;

the charging module is used for calculating corresponding electric charge according to the electric quantity used by the user;

the intelligent user terminal is used for searching the intelligent power supply equipment and paying by a user, and comprises:

the authentication module is used for identifying specific intelligent power supply equipment and finishing the bidirectional authentication of the intelligent user terminal and the intelligent power supply equipment;

the terminal communication module is used for communicating with the central server;

the payment module is used for paying the cost of the used electric quantity;

the central server is used for managing each intelligent power supply device and the intelligent user terminal and pushing the intelligent power supply devices near the intelligent user terminal to the intelligent user terminal; when preferential activities exist, the push contents are sorted according to preferential strength of the intelligent power supply equipment and distance weighting of the intelligent power supply equipment and the intelligent user terminal; when the resource occupation time of a single user is too long and the use of other users is influenced, the central server can automatically end the service, control the intelligent power supply equipment to be powered off, send a service end message to the intelligent user terminal, and control the charging module to start charging according to the time if the user does not remove the equipment in time after the equipment is full.

Furthermore, the intelligent user terminal uploads the residual electric quantity, the interaction frequency and the interaction specific time of the intelligent user terminal and the intelligent power supply equipment and the user position information to the central server, then the central server judges the time period when the intelligent user terminal and the intelligent power supply equipment are frequently interacted, the intelligent power supply equipment and preferential activities near the intelligent user terminal according to the information uploaded by the intelligent user terminal, then the intelligent user terminal is ranked according to the preferential strength of the intelligent power supply equipment and the distance weighting of the intelligent user terminal, and the content is pushed to the intelligent user terminal.

Further, the push contents of the central server are sorted according to the preference of the intelligent power supply equipment and the distance weighting between the intelligent power supply equipment and the intelligent user terminal; the specific sorting method comprises the following steps: setting a distance threshold d_thresThe distance between the intelligent user terminal and the intelligent user terminal is within a distance threshold value d_thresThe intelligent power supply equipment in the system is sorted in a descending order according to the weight W and pushed to the user according to the order;

the formula for the weight W is as follows:

wherein alpha is an adjustable weight coefficient, dc is a discount of a percentage, d is a distance from the intelligent power supply device to the intelligent user terminal, and d_thresIs a distance threshold.

Further, the authentication module transmits the equipment number or the scanned two-dimensional code information to the central server, and the central server completes the bidirectional authentication of the intelligent user terminal and the intelligent power supply equipment. Furthermore, the power supply interface of the intelligent power supply equipment also detects power supply interface occupation information and transmits the power supply interface occupation information to the central server.

The invention also provides a sharing electricity utilization interaction method, which comprises the following steps:

a user downloads a corresponding APP through an intelligent user terminal, selects the current position or the target position of the user and the interface model of the intelligent user terminal after registering and logging in, and transmits information to a central server;

the central server pushes intelligent power supply equipment near the intelligent user terminal and the number of the remaining required power supply interfaces of the intelligent power supply equipment and preferential information to the intelligent user terminal according to the position and the interface model of the intelligent user terminal;

after the user arrives at the intelligent power supply equipment, the user starts to carry out bidirectional authentication, specifically, the user scans a two-dimensional code on the intelligent power supply equipment or inputs an equipment number of the intelligent power supply equipment through APP and communicates with a central server through a cellular mobile network or a wireless local area network to inform the central server of information about the intelligent user terminal and information about the selected intelligent power supply equipment, after the central server passes verification, the intelligent power supply equipment is controlled to supply power to the intelligent user terminal in a wireless communication mode, a charging module is started to start charging, meanwhile, the intelligent power supply equipment feeds the power consumption and the corresponding amount of money of the user back to the central server in real time, the central server feeds the power consumption and the corresponding amount of money back to the user and displays the power consumption on an,

when the central server detects that the residual amount of the intelligent user terminal reaches a set threshold value, the central server pushes a message to the intelligent user terminal to remind a user that the intelligent user is about to be fully charged, and if the user still occupies a charging interface of the intelligent power supply equipment after charging is completed, a charging module of the intelligent power supply equipment starts to charge the equipment occupation fee according to time;

and after the electricity utilization is finished, the intelligent user terminal pays through the third-party payment platform, and after the payment is successful, the charging service is completed.

Furthermore, when the user uses electricity, when the intelligent power supply equipment detects that the charging amount of the user equipment reaches a threshold value, the server pushes a message to the user to remind the user equipment of being full of electricity, if the user does not set up the equipment in time after charging is completed, the user will charge the equipment occupation fee according to time, if the user does not pay, the arrearage record of the user is increased, and if the arrearage record is too much, the user cannot use the intelligent power supply equipment for charging.

Further, the calculation formula of the threshold is as follows:

where Thres denotes a threshold value, n_devIndicating the number of intelligent power supply units, n_userIndicating the number of intelligent user terminals, batt_userRepresents the percentage of the current remaining capacity of the intelligent user terminal, T_maxSetting a threshold, UR, for the unification of intelligent user terminals_devAnd the utilization rate of the intelligent power supply equipment is represented, namely the ratio of rated power required by the intelligent user terminal to the output power of the intelligent power supply equipment.

Furthermore, the intelligent user terminal carries out payment through the third-party payment platform, if the user payment fails or no payment is carried out after a certain time limit, the central server automatically deducts money from the balance of the user, and if the money deduction fails due to insufficient balance, the arrearage record of the user is added once.

Furthermore, the intelligent power supply equipment transmits the position information of the intelligent power supply equipment, the power supply interface occupation information of the intelligent power supply equipment and the residual power information of the intelligent power supply equipment to the central server.

Compared with the prior art, the invention has the beneficial effects that: the invention provides a shared power utilization interaction system and a method, provides a novel shared power utilization concept, gives an interaction method between intelligent power supply equipment providing shared power utilization service and intelligent user terminals enjoying shared power utilization in detail when a user initiates a power utilization request and a central server initiates push service, meets the power utilization requirements of various intelligent user terminals and electrical equipment of people in public places, introduces a fairness mechanism, avoids the condition that a single user occupies too long time of the equipment, can conveniently and quickly obtain power supply service anytime and anywhere, and provides novel power system service for a power grid company.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a block diagram of a shared power interactive system according to the present invention;

FIG. 2 is a flow chart of a shared power interaction method of the present invention;

fig. 3 is an interaction flowchart of the central server initiating the push service according to the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

The invention provides a shared electricity utilization interaction system, which is shown in a figure 1 and comprises intelligent power supply equipment 3, a central server 1 and an intelligent user terminal 2.

The intelligent power supply equipment 3 is used for being placed in various public places to meet the charging function of users; the intelligent power supply apparatus 3 includes:

and the GPS module 31 is used for tracking and positioning the real-time position of the intelligent power supply equipment 3 and feeding the real-time position back to the central server 1.

And the power supply module 32 is configured to provide power for the user, provide a plurality of power supply interfaces, and meet the multiple power consumption requirement of the user, where the power supply interfaces further detect power supply interface occupation information and transmit the power supply interface occupation information to the central server 1.

And the power supply communication module 33 is used for communicating with the central server 1 and feeding back the position information, the fault information and the occupation information of the intelligent power supply equipment 3 to the central server 1.

And the charging module 34 is used for calculating corresponding electric charge according to the electric quantity used by the user.

The intelligent user terminal 2 is used for a user to search the intelligent power supply device 3 and pay, and the intelligent user terminal 2 comprises:

the authentication module 21 is configured to identify a specific intelligent power supply device 3 and complete bidirectional authentication between the intelligent user terminal 2 and the intelligent power supply device 3; namely, the authentication module 21 transmits the device number or the scanned two-dimensional code information to the central server 1, the central server 1 completes the two-way authentication between the intelligent user terminal 2 and the intelligent power supply device 3, the intelligent power supply device 3 starts to supply power after the authentication is successful, and the charging module 34 starts to charge and displays the used power amount and the electricity charge to the intelligent user terminal 2 in real time.

A terminal communication module 22 for communicating with the center server 1;

a payment module 23 for paying the fee of the used electric quantity; the intelligent user terminal 2 can select to use balance payment or third-party software such as a payment treasure and WeChat payment to pay; if the user fails to pay or does not pay when exceeding a certain time limit, the central server informs the system to automatically deduct money from the balance of the user, if the payment is successful, the service is ended, if the balance is insufficient at the moment to cause money deduction failure, the arrearage record of the user is added once, and if the arrearage record reaches a certain number, the user cannot use the intelligent power supply equipment 3 for charging.

The central server 1 is used for managing each intelligent power supply device 3 and the intelligent user terminal 2 and pushing the intelligent power supply devices 3 near the intelligent user terminal 2 to the intelligent user terminal 2; when preferential activities exist, the push contents are sorted according to the preferential strength of the intelligent power supply equipment 3 and the distance weighting between the intelligent power supply equipment 3 and the intelligent user terminal 2; when the resource occupation time of a single user is too long and the use of other users is influenced, namely the surplus of the intelligent user terminal 2 reaches a set threshold value, the central server 1 can automatically end the service, control the intelligent power supply equipment 3 to be powered off, send a service end message to the intelligent user terminal 2, pay by the intelligent user terminal 2, and control the charging module to start charging according to the time if the user still occupies the power supply interface and is not sure to leave.

The push contents of the central server 1 are sorted according to the preferential strength of the intelligent power supply equipment 3 and the distance weighting between the intelligent power supply equipment 3 and the intelligent user terminal 2; the specific sorting method comprises the following steps: setting a distance threshold d_thresThe distance between the intelligent user terminal 2 and the intelligent user terminal is within a distance threshold value d_thresThe intelligent power supply equipment 3 in the system is sorted according to the weight W in a descending order and pushed to the user according to the order.

The formula for the weight W is as follows:

wherein alpha is an adjustable weight coefficient, dc is a discount of a percentage, d is a distance from the intelligent power supply device to the intelligent user terminal, and d_thresIs a distance threshold.

Further, the intelligent user terminal 2 uploads the residual electric quantity, the interaction frequency and the interaction specific time of the intelligent user terminal 2 and the intelligent power supply device 3, and the user position information to the central server 1, and then the central server 1 judges a time period in which the intelligent user terminal 2 and the intelligent power supply device 3 interact frequently, the intelligent power supply device 3 and preferential activities near the intelligent user terminal 2 according to the information uploaded by the intelligent user terminal 2, and then sorts the preferential activities according to the preferential strength of the intelligent power supply device 3 and the distance weighting of the intelligent user terminal 2, and pushes the content to the intelligent user terminal 2.

The invention also provides a sharing electricity utilization interaction method, as shown in fig. 2, comprising the following steps:

the user downloads the corresponding APP through the intelligent user terminal 2, selects the current position or the target position of the user and the interface model of the intelligent user terminal 2 after registration and login, and transmits the information to the central server 1; if the user is old, the current position or the destination position of the user can be selected after the user logs in by default.

The central server 1 pushes the intelligent power supply equipment 3 near the intelligent user terminal 2 and the number of the remaining required power supply interfaces of the intelligent power supply equipment 3 and preferential information to the intelligent user terminal according to the position and the interface model of the intelligent user terminal 2, the pushed content screens a part of clients for pushing according to the information uploaded by each intelligent user terminal 2 and the recent preferential activity information, the pushed content has the position, the model and the like of the intelligent power supply equipment near the user, and then the clients are sorted according to the distance between the intelligent power supply equipment and the user. When preferential activities exist, the pushed contents are sorted according to preferential strength of the intelligent power supply equipment and distance weighting of the intelligent power supply equipment and the intelligent user terminal, and a calculation formula of the weight is shown as a formula (1). Meanwhile, the intelligent power supply equipment 3 transmits the position information of the intelligent power supply equipment, the power supply interface occupation information of the intelligent power supply equipment and the residual power information of the intelligent power supply equipment to the central server 1, the central server 1 pushes the information to the intelligent user terminal 2 for display, and the user automatically selects and goes to the intelligent user terminal after receiving the push, as shown in fig. 3.

After the user arrives at the intelligent power supply equipment 3, the user starts to perform mutual authentication, specifically, the user scans the two-dimensional code on the intelligent power supply equipment 3 or inputs the equipment number of the intelligent power supply equipment 3 through APP, and communicates with the central server 1 through a cellular mobile network or a wireless local area network, the central server 1 is informed of information about the intelligent user terminal 2 and information about the selected intelligent power supply equipment 3, after the central server 1 passes verification, the intelligent power supply equipment 3 is controlled to supply power to the intelligent user terminal 2 through a wireless communication mode, and a charging module is started to start charging, meanwhile, the intelligent power supply equipment 3 feeds the power consumption and the corresponding amount of money of the user back to the central server 1 in real time, and the central server 1 feeds the consumed power consumption and the electricity charge back to the user in real time and displays the consumed power consumption and the electricity charge.

When the central server 1 detects that the residual amount of the intelligent user terminal 2 reaches a set threshold value, the central server 1 pushes a message for the intelligent user terminal 2 to remind a user that the intelligent user is about to be charged fully, if the user still occupies the charging interface of the intelligent power supply equipment 3 after charging is completed, the charging module of the intelligent power supply equipment 3 starts to charge the equipment occupation cost, if the user does not pay, the arrearage record of the user is increased, and if the arrearage record is too much, the user cannot charge the intelligent power supply equipment 3.

When the power utilization time of a user exceeds the threshold, the service is automatically ended, the power supply equipment is powered off, the user is informed, and if the user continues to occupy the equipment, the equipment occupation cost is charged according to the time. If the user wants to continue using the power supply equipment to use the power, the user needs to queue again.

The calculation formula of the threshold is as follows:

where Thres denotes a threshold value, n_devIndicating the number of intelligent power supply units, n_userIndicating the number of intelligent user terminals, batt_userRepresents the percentage of the current remaining capacity of the intelligent user terminal, T_maxSetting a threshold, UR, for the unification of intelligent user terminals_devAnd the utilization rate of the intelligent power supply equipment is represented, namely the ratio of rated power required by the intelligent user terminal to the output power of the intelligent power supply equipment.

After the electricity utilization is finished, the intelligent user terminal 2 pays through a third-party payment platform, and after the payment is successful, the charging service is completed; if the user fails to pay or does not pay beyond a certain time limit, the central server 1 automatically deducts money from the balance of the user, if the money deduction fails due to insufficient balance, an arrearage record of the user is added once, and if the arrearage record reaches a certain number, the user cannot use the intelligent power supply equipment 3 for charging. The condition that a single user occupies the equipment for too long time is avoided, the user can conveniently and quickly obtain power supply service at any time and any place,

in addition, under the condition that the resource occupation time of a single user is too long, the user clicks to close and move the equipment when the code scanning service is finished but the time is not in time, and when the number of people in queue is large, the continuous power utilization time of the single user is too long, so that the use of other people is influenced

To sum up, the invention provides a system model and a method for interaction between a user and intelligent power supply equipment, wherein the user can search surrounding intelligent power supply equipment through an intelligent terminal such as a mobile phone and a tablet personal computer to supply power for various own power utilization equipment, and the problem of difficulty in public places is solved. Meanwhile, the server can also initiate a push service to inform the user of power supply, new equipment and preferential activities in time.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made in the above embodiments by those of ordinary skill in the art without departing from the principle and spirit of the present invention. The scope of the invention is defined by the appended claims and their full range of equivalents.

Claims (9)

1. A sharing power utilization interaction system is characterized by comprising intelligent power supply equipment, a central server and an intelligent user terminal;

the intelligent power supply equipment is used for being placed in each public place to meet the charging function of a user; the intelligent power supply device includes:

the GPS module is used for tracking and positioning the real-time position of the intelligent power supply equipment and feeding the real-time position back to the central server;

the power supply module is used for providing power for users, providing a plurality of power supply interfaces and meeting the multi-element power consumption requirements of the users;

the power supply communication module is used for communicating with the central server and feeding back the position information, the fault information and the occupation information of the intelligent power supply equipment to the central server;

the charging module is used for calculating corresponding electric charge according to the electric quantity used by the user;

the intelligent user terminal is used for searching the intelligent power supply equipment and paying by a user, and comprises:

the authentication module is used for identifying specific intelligent power supply equipment and finishing the bidirectional authentication of the intelligent user terminal and the intelligent power supply equipment;

the terminal communication module is used for communicating with the central server;

the payment module is used for paying the cost of the used electric quantity;

the central server is used for managing each intelligent power supply device and the intelligent user terminal and pushing the intelligent power supply devices near the intelligent user terminal to the intelligent user terminal; when preferential activities exist, the push contents are sorted according to preferential strength of the intelligent power supply equipment and distance weighting of the intelligent power supply equipment and the intelligent user terminal; when the resource occupation time of a single user is too long and the use of other users is influenced, the central server can automatically end the service, control the intelligent power supply equipment to be powered off, send a service end message to the intelligent user terminal, and control the charging module to start charging according to the time if the user does not remove the equipment in time after the equipment is full; the intelligent user terminal uploads the residual electric quantity, the interaction frequency and the interaction specific time of the intelligent user terminal and the intelligent power supply equipment and the user position information to the central server, then the central server judges the time period of frequent interaction between the intelligent user terminal and the intelligent power supply equipment, the intelligent power supply equipment and the preferential activities near the intelligent user terminal according to the information uploaded by the intelligent user terminal, then the time period is sorted according to the preferential strength of the intelligent power supply equipment and the distance weighting between the intelligent power supply equipment and the intelligent user terminal, and the content is pushed to the intelligent user terminal in the deduced time period.

2. The shared power consumption interactive system as claimed in claim 1, wherein the push contents of the central server are sorted according to the preference of the intelligent power supply device and the distance weighting between the intelligent power supply device and the intelligent user terminal; the specific sorting method comprises the following steps: setting a distance threshold d_thresThe distance between the intelligent user terminal and the intelligent user terminal is within a distance threshold value d_thresThe intelligent power supply equipment in the system is sorted in a descending order according to the weight W and pushed to the user according to the order;

the formula for the weight W is as follows:

wherein alpha is an adjustable weight coefficient, dc is a discount of a percentage, d is a distance from the intelligent power supply device to the intelligent user terminal, and d_thresIs a distance threshold.

3. The shared power consumption interactive system as claimed in claim 1, wherein the authentication module transmits the device number or the scanned two-dimensional code information to the central server, and the central server performs bidirectional authentication between the intelligent user terminal and the intelligent power supply device.

4. The shared power interactive system as claimed in claim 1, wherein the power supply interface of the intelligent power supply device further detects power supply interface occupancy information and transmits the power supply interface occupancy information to the central server.

5. A shared electricity interaction method is characterized by comprising the following steps:

a user downloads a corresponding APP through an intelligent user terminal, selects the current position or the target position of the user and the interface model of the intelligent user terminal after registering and logging in, and transmits information to a central server;

the central server pushes intelligent power supply equipment near the intelligent user terminal and the number of the remaining required power supply interfaces of the intelligent power supply equipment and preferential information to the intelligent user terminal according to the position and the interface model of the intelligent user terminal;

after the user arrives at the intelligent power supply equipment, the user starts to carry out bidirectional authentication, specifically, the user scans a two-dimensional code on the intelligent power supply equipment or inputs an equipment number of the intelligent power supply equipment through APP and communicates with a central server through a cellular mobile network or a wireless local area network to inform the central server of information about the intelligent user terminal and information about the selected intelligent power supply equipment, after the central server passes verification, the intelligent power supply equipment is controlled to supply power to the intelligent user terminal in a wireless communication mode, a charging module is started to start charging, meanwhile, the intelligent power supply equipment feeds the power consumption and the corresponding amount of money of the user back to the central server in real time, the central server feeds the power consumption and the corresponding amount of money back to the user and displays the power consumption on an,

when the central server detects that the residual amount of the intelligent user terminal reaches a set threshold value, the central server pushes a message to the intelligent user terminal to remind a user that the intelligent user is about to be fully charged, and if the user still occupies a charging interface of the intelligent power supply equipment after charging is completed, a charging module of the intelligent power supply equipment starts to charge the equipment occupation fee according to time; the intelligent user terminal uploads the residual electric quantity, the interaction frequency and the interaction specific time of the intelligent user terminal and the intelligent power supply equipment and the user position information to the central server, then the central server judges a time period when the intelligent user terminal and the intelligent power supply equipment are frequently interacted, the intelligent power supply equipment and preferential activities near the intelligent user terminal according to the information uploaded by the intelligent user terminal, then the time period is sorted according to the preferential strength of the intelligent power supply equipment and the distance weighting between the intelligent power supply equipment and the intelligent user terminal, and the content is pushed to the intelligent user terminal in the deduced time period;

and after the electricity utilization is finished, the intelligent user terminal pays through the third-party payment platform, and after the payment is successful, the charging service is completed.

6. The interactive method for sharing power consumption of claim 5, wherein when the user uses power, the intelligent power supply device pushes a message to the user when detecting that the charging amount of the user device reaches a threshold value, so as to remind the user device of being fully charged, if the user does not set up the device in time after charging is completed, the user will charge the device occupation fee according to time, if the user does not pay, the arrearage record of the user is increased, and if the arrearage record is too much, the user cannot use the intelligent power supply device for charging.

7. The shared power interaction method of claim 6, wherein the threshold is calculated by the formula:

where Thres denotes a threshold value, n_devIndicating the number of intelligent power supply units, n_userIndicating the number of intelligent user terminals, batt_userRepresents the percentage of the current remaining capacity of the intelligent user terminal, T_maxSetting a threshold, UR, for the unification of intelligent user terminals_devThe utilization rate of the intelligent power supply equipment is represented, namely the ratio of the rated power required by the intelligent user terminal to the output power of the intelligent power supply equipment; when the electricity utilization time of the user exceeds the threshold value Thres, the service is automatically ended, the power supply equipment is powered off, the user is informed, and if the user continues to occupy the equipment, the equipment occupation fee is collected according to the time.

8. The shared electricity interaction method as claimed in claim 5, wherein the intelligent user terminal pays through a third party payment platform, if the user payment fails or no payment is made beyond a certain time limit, the central server will automatically deduct money from the user balance, and if the balance is insufficient at this time and the deduction fails, the arrearage record of the user is added once.

9. The shared power consumption interaction method as claimed in claim 5, wherein the intelligent power supply device transmits its own location information, its own power supply interface occupancy information, and its own remaining power amount information to the central server.

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