CN111833542A - Treasured system of renting charges based on block chain - Google Patents

Abstract

The invention provides a block chain-based charger baby leasing system which comprises a client, a charger baby and a charging device, and further comprises five operation modes, namely a charger baby single borrowing operation mode, a charger baby single returning operation mode, a charger baby replacing operation mode, a charger baby loss registration operation mode and a charger baby pick-up returning operation mode. The invention is based on the block chain technology, and the fund management is safer and more reliable; according to the charging method, the charging treasure is charged according to the electricity consumption and the charging times, and a user does not have time psychological pressure; according to the invention, after the charger lost by the user is returned to the charging equipment by the picker, the picker can carry out certain reward, so that the resource recycling is ensured.

Description

Treasured system of renting charges based on block chain

Technical Field

The invention relates to the field of block chains, in particular to a system for leasing a charging treasure based on a block chain.

Background

Blockchain technology is the underlying technology for virtual digital currency, with blockchain having the advantages of being distributed and decentralized. The traditional treasured system of renting charges adopts the mode of length of use to charge to can only charge at dedicated battery charging outfit, this kind of mode causes very big burden to the user, has certain psychological pressure when the user uses to charge, and treasured of charging rents involves fund use and a large amount of information exchange, therefore needs more reliable high-tech to solve.

Disclosure of Invention

The invention provides a charging treasure renting system based on a block chain, which is combined with the advantages of the block chain to solve the problem of a traditional charging treasure renting system.

In the treasured system of renting charges based on block chain, borrow the mode of operation, the treasured mode of returning to the original list of charging, the treasured that charges changes the mode of operation, the treasured that charges loses registration mode of operation and the treasured that charges picks up the mode of returning to the original list of charging. In the five operation modes, the user information and the charger information are updated and stored in the block chain.

Further, a treasured renting system charges based on block chain includes: customer end, treasured and battery charging outfit charge.

Further, the client comprises a user information module, a charging equipment information module and an identification module.

The user information module comprises user identity information, password information, historical lease state information, lease state, current lease information and user fund information.

Wherein, battery charging outfit information module includes battery charging outfit's positional information, treasured information that charges, and the treasured information that charges that the display is this battery charging outfit standby.

The identification module inputs the identity information of the user into the charging device, and optionally, the information can be input in a two-dimensional code scanning mode, a face recognition mode and a fingerprint recognition mode.

Further, the treasured that charges includes treasured information module, the module of charging and battery module.

Wherein, precious information module charges includes precious product number information, historical use information, the number of times of charging, current user information, electric quantity, and is optional, sets up the memory chip and stores precious information that charges in the treasured that charges.

The charging module comprises a household charging module and a charging device charging module, the user brings the charging treasure back to the household charging module, the charging device charging module is used for charging the charging treasure in the charging device, and the battery module is used for storing electric quantity and can be selected to adopt a lithium polymer battery.

Further, the charging equipment comprises a charging device module, a connecting module and an ore digging module 3.

Wherein, the charging device module charges to a plurality of charges simultaneously to gather the precious information that charges of standby.

The connecting module comprises a user connecting module, a charger baby connecting module and an information input module; optionally, the user connection module establishes connection between the charging device and the user by adopting a two-dimensional code scanning mode, a face recognition mode or a fingerprint recognition mode, so that the user identity information is input into the charging device; the charger baby connecting module inputs standby charger baby information into the charging equipment; the information input module inputs the information of the charger baby and the user identity information into the processing center; the ore digging module is used for digging blocks and storing data.

Further, the single borrowing operation mode of the power bank means that the user borrows the power bank which is charged from the charging equipment.

Furthermore, the user uses the client to input the user identity information into the charging equipment, the charging equipment inputs the user identity information and the charger baby information of the charging equipment into the processing center, and the processing center extracts the user information from the block chain according to the user identity information. Correspondingly, the updated user information and the borrowed charger information are returned to the block chain after being processed by the processing center; accordingly, through the calculation processing of the processing center, the processing center sends an instruction to the charging equipment, and the user extracts the charging treasure from the charging equipment.

Further, the charge pal single return operation mode means that the user returns the charge pal to the charging device separately, and no longer borrows a new charge pal.

Furthermore, the user directly returns the charge pal to the charging equipment, the charging equipment inputs the charge pal information and the current user information into the processing center, and the processing center extracts the last charge pal information and the last current user information from the block chain according to the charge pal information and the current user information. Correspondingly, the processing center performs calculation processing, compares the charging treasure information with the last charging treasure information, updates the current user information, and returns the charging treasure information and the updated current user information to the block chain.

Wherein, the current user information is contained in the power bank information.

Further, the operation mode of returning the power bank once means that the user returns the power bank to the charging device, and borrows a new power bank again.

Furthermore, the user directly returns the charge pal to the charging equipment, the charging equipment inputs the charge pal information and the current user information into the processing center, and the processing center extracts the last charge pal information and the last current user information from the block chain according to the charge pal information and the current user information. Correspondingly, the processing center calculates and processes, compares the treasured information that charges with the treasured information that charges of last time, updates current user information and treasured information that charges to the treasured information that charges, the current user information that updates and the treasured information that charges of borrowing return to the district chain. The processing center sends an instruction to the charging equipment, and the user borrows the power bank from the charging equipment.

Further, when the user loses the power bank, the user can adopt the power bank to lose and register.

Further, the user uses the client to input the user identity information into the processing center, and the processing center extracts the user information and the lost charge pal information from the block chain according to the user identity information. Correspondingly, the processing center processes and updates the user information and the lost charge pal information, and returns the updated user information and the lost charge pal information to the block chain. Optionally, the user loses the power bank, and the user of the system deducts corresponding funds.

Further, the user picks up the treasured that charges that other users lost, can adopt the treasured operation mode that returns of picking up that charges, plans the treasured that charges who picks up to battery charging outfit.

Further, the picked-up charge pal is returned to the charging equipment by the picker, the identity information of the picker is input to the charging equipment by the client, the identity information of the picker, the identity information of the lost person and the charge pal information are input to the processing center by the charging equipment, and the processing center extracts the picker information, the lost person information and the last charge pal information in the block chain according to the identity information of the picker, the identity information of the lost person and the charge pal information. Accordingly, after the processing center performs calculation processing, the processing center returns the updated picker information, the missing person information and the charge pal information to the block chain.

The identity information of the lost person is contained in the information of the power bank.

Further, the charging equipment inputs new charging treasure information into the processing center, and the processing center extracts the last charging treasure information from the block chain to calculate the capital cost.

Capital cost = (C)_New-C_{On the upper part}）×F_{Next time}+（D_{On the upper part}-D_New）×F_{Electric power}。

Wherein, C is new precious use number of times that charges, is last precious use number of times that charges on C, and F is the use number of times unit price that charges, is last precious electric quantity that charges on D, and D is new precious electric quantity that charges, and F electricity is the precious electric quantity use unit price that charges.

Compared with the prior art, the invention has the beneficial effects that.

1. The invention is based on the block chain technology, and the fund management is safer and more reliable.

2. The charging of the charger of the invention is based on the electricity consumption and the charging times, and the user does not have time psychological pressure.

3. According to the invention, after the charger lost by the user is returned to the charging equipment by the picker, the picker can carry out certain reward, so that the resource recycling is ensured.

Drawings

The above and other objects of the present disclosure will be more readily understood by reference to the following description of the embodiments of the present disclosure taken in conjunction with the accompanying drawings. Features and advantages. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the disclosure. In the drawings, the same or similar technical features or components will be denoted by the same or similar reference numerals.

Fig. 1 is a schematic diagram of a client, a power bank, and a charging device module.

Fig. 2 is a schematic flow chart of a single borrowing operation mode of the power bank.

Fig. 3 is a schematic flow chart of a single return operation mode of the charge pal.

Fig. 4 is a schematic flow chart of a change operation mode of the power bank.

Fig. 5 is a schematic diagram illustrating an operation mode of registering a charge pal loss.

Fig. 6 is a schematic flow chart of a pick-up and return operation mode of the power bank.

FIG. 7 is a schematic flow chart of a user fund calculation algorithm.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

Exemplary embodiments of the present disclosure will be described hereinafter with reference to the accompanying drawings. In the interest of clarity and conciseness, not all features of an actual implementation are described in the specification. It will of course be appreciated that in the development of any such actual embodiment, numerous implementation-specific decisions may be made to achieve the developers' specific goals, such as compliance with system-related and business-related constraints, which will vary from one implementation to another.

Here, it should be further noted that, in order to avoid obscuring the present disclosure with unnecessary details, only components closely related to the scheme according to the present disclosure are shown in the drawings, and other details not so related to the present disclosure are omitted.

According to the present disclosure, the client and charging device are point-to-point as a constituent blockchain, where the charging device is a mineworker node of the distributed network.

In the treasured system of renting charges based on block chain, borrow the mode of operation, the treasured mode of returning to the original list of charging, the treasured that charges changes the mode of operation, the treasured that charges loses registration mode of operation and the treasured that charges picks up the mode of returning to the original list of charging. In the five operation modes, the user information and the charger information are updated and stored in the block chain.

Referring to fig. 1, the 1 st embodiment of the present invention provides a block chain-based battery charging rental system, including: client S100, power bank S200, and charging device S300.

The client S100 includes a user information module S101, a charging device information module S102, and an identification module S103.

The user information module S101 includes user identity information, password information, historical lease state information, lease state, current lease information, and user fund information, wherein the charging device information module S102 includes location information of a charging device and information of a charging treasure, and the charging treasure displays charging treasure information that is waiting for the charging device; the identification module S103 inputs the identity information of the user into the charging device, and optionally, the information may be input in a two-dimensional code scanning manner, a face recognition manner, and a fingerprint recognition manner.

The power bank S200 includes a power bank information module S201, a charging module S202, and a battery module S203.

The charger baby information module S201 comprises serial number information of a charger baby product, historical use information, charging times, current user information and electric quantity, and optionally, a memory chip is arranged in the charger baby to store the charger baby information; the charging module S202 comprises a household charging module and a charging equipment charging module, wherein the household charging module is used for bringing a charging treasure back to a home by a user, and the charging equipment charging module is used for charging the charging treasure in the charging equipment; the battery module S302 is used for storing electricity, and optionally, a lithium polymer battery may be used.

The charging apparatus S300 includes a charging device module S301, a connection module S302, and a mining module S303.

The charging device module S301 charges a plurality of charges at the same time and collects information of the standby charger bank; the connection module S302 comprises a user connection module, a charger baby connection module and an information input module; optionally, the user connection module establishes connection between the charging device and the user by adopting a two-dimensional code scanning mode, a face recognition mode or a fingerprint recognition mode, so that the user identity information is input into the charging device; the charger baby connecting module inputs standby charger baby information into the charging equipment; the information input module inputs the information of the charger baby and the user identity information into the processing center; the mining module S303 is used for mining blocks and storing data.

Referring to fig. 2, the 2 nd embodiment of the present invention provides a single borrowing mode of operation for a power bank.

The operation mode is borrowed to treasured that charges once means that the user borrows the treasured that charges that has been charged from battery charging outfit alone.

Further, the user uses the client 101 to input the user identity information into the charging device, the charging device inputs the user identity information and the charger baby information of the charging device into the processing center, and the processing center extracts the user information from the blockchain according to the user identity information. Correspondingly, the updated user information and the borrowed information of the charger baby 102 are returned to the blockchain after being processed by the processing center; accordingly, through the processing center computing process, the processing center issues an instruction to the charging device, and the user extracts the power bank 102 from the charging device.

Referring to fig. 3, the 3 rd embodiment of the present invention provides a single return operation mode of the charger.

The charge pal single return operation mode means that the user returns the charge pal to the charging device independently, and no longer borrows new charge pal.

Further, the user directly returns the power bank 201 to the charging device, the charging device inputs the information of the power bank 201 and the information of the current user into the processing center, and the processing center extracts the last power bank 201 information and the last information of the current user from the blockchain according to the information of the power bank 201 and the information of the current user. Accordingly, the processing center performs calculation processing, compares the information of the power bank 201 with the last 201 of the power bank, updates the current user information, and returns the information of the power bank 201 and the updated current user information to the blockchain.

The current user information is included in the power bank 201 information.

Referring to fig. 4, the 4 th embodiment of the present invention provides a charge pump replacement mode of operation.

The treasured operation mode that returns that charges means that the user will charge the treasured and return for battery charging outfit to borrow new treasured that charges again.

Further, the user directly returns the power bank 301 to the charging device, the charging device inputs the information of the power bank 301 and the information of the current user into the processing center, and the processing center extracts the last power bank 301 information and the last information of the current user from the blockchain according to the information of the power bank 301 and the information of the current user. Correspondingly, the processing center performs calculation processing, compares the charging treasure 301 information with the last charging treasure 301 information, updates the current user information and the charging treasure 302 information, and returns the charging treasure 301 information, the updated current user information and the borrowed charging treasure 302 information to the block chain. The processing center issues an instruction to the charging device, and the user borrows the power bank from the charging device 302.

Referring to fig. 5, the 5 th embodiment of the present invention provides a charger loss registration operation mode.

When the user loses the power bank, the power bank can be registered by adopting the power bank loss registration operation.

Further, the user uses the client 401 to input the user identity information into the processing center, and the processing center extracts the user information and the lost power bank information from the blockchain according to the user identity information. Correspondingly, the processing center processes and updates the user information and the lost charge pal information, and returns the updated user information and the lost charge pal information to the block chain. Optionally, the user loses the power bank, and the user of the system deducts corresponding funds.

Referring to fig. 6, the 6 th embodiment of the present invention provides a charge pal pick-and-return operation mode.

The user picks up the treasured that charges that other users lost, can adopt the treasured operation mode that returns of picking up that charges, and the treasured that charges that will pick up plans charging device.

The picker 501 returns the picked-up charge pal 502 to the charging device, the client is used for inputting the identity information of the picker to the charging device, the charging device inputs the identity information of the picker, the identity information of the lost person and the information of the charge pal 502 to the processing center, and the processing center extracts the information of the picker, the information of the lost person and the information of the charge pal 502 in the blockchain according to the identity information of the picker, the identity information of the lost person and the information of the charge pal 502. Accordingly, after the processing center performs calculation processing, the processing center returns the updated picker information, the missing person information and the charge pal information to the block chain.

The identity information of the loser is included in the information of the power bank 502.

Optionally, the updated loser funds are reduced, the reduced amount of the loser funds being added to the retriever funds.

Referring to FIG. 7, the 7 th embodiment of the present invention is a user funds calculation algorithm.

The charging equipment inputs the new charging treasure information into the processing center, and the processing center extracts the last charging treasure information from the block chain to calculate the capital cost.

Capital cost = (C)_New-C_{On the upper part}）×F_{Next time}+（D_{On the upper part}-D_New）×F_{Electric power}。

Wherein, C is new precious use number of times that charges, is last precious use number of times that charges on C, and F is the use number of times unit price that charges, is last precious electric quantity that charges on D, and D is new precious electric quantity that charges, and F electricity is the precious electric quantity use unit price that charges.

Claims (10)

1. The utility model provides a treasured system of renting charges based on block chain which characterized in that, this system includes customer end (S100), treasured (S200) charges and battery charging outfit (S300), still includes in this system that treasured that charges borrows the mode of operation once, treasured that charges returns the mode of operation once, treasured that charges changes the mode of operation, treasured that charges loses registration mode of operation and treasured that charges picks up the mode of operation of returning, this system still includes user' S fund calculation algorithm.

2. The system according to claim 1, wherein the system comprises: the client (S100) includes a user information module (S101), a charging device information module (S102), and an identification module (S103), where the user information module (S101) includes user identity information, password information, historical lease status information, lease status, current lease information, and user fund information, where the charging device information module (S102) includes location information of a charging device and information of a power bank, and the power bank displays information of the power bank that is waiting for the charging device, and the identification module (S103) inputs the identity information of the user into the charging device, and optionally, the information may be input in a two-dimensional code scanning manner, a face recognition manner, and a fingerprint recognition manner.

3. The system according to claim 1, wherein the treasured charger (S200) comprises a treasured charger information module (S201), a charger module (S202), and a battery module (S203), wherein the treasured charger information module (S201) comprises a treasured charger product number, historical usage information, charging times, current user information, and an amount of electricity, wherein the charger module (S202) comprises a household charger module and a charger module, the user brings the treasured charger back to the household for use as the household charger module, the charger module for charging the treasured charger is a charger for use in the charger, and the battery module (S302) is used for storing the amount of electricity.

4. The system according to claim 1, wherein the charging device (S300) comprises a charging device module (S301), a connection module (S302), and an ore mining module (S303), wherein the charging device module (S301) charges a plurality of charges simultaneously and collects information of a standby charging treasure, wherein the connection module S302 comprises a user connection module, a charging treasure connection module, and an information input module, and wherein the ore mining module S303 is used for mining an area and storing data.

5. The system according to claim 1, wherein the charge pal single borrowing operation mode is that a user borrows a charge pal which is charged from a charging device separately.

6. The system according to claim 1, wherein the charge pal single return operation mode is that the user returns the charge pal to the charging device independently, and does not borrow a new charge pal any more.

7. The system according to claim 1, wherein the charge pal single return operation mode is that the user returns the charge pal to the charging device and borrows a new charge pal again.

8. The system according to claim 1, wherein the charge pal loss registration operation mode is that the user loses the charge pal and registers in the system.

9. The system according to claim 1, wherein the charge pal pickup and return operation mode is that a user picks up a charge pal lost by another user and returns the charge pal to the charging device.

10. The system according to claim 1, wherein the user fund calculation algorithm calculates a fund cost = (C)_New-C_{On the upper part}）×F_{Next time}+（D_{On the upper part}-D_New）×F_{Electric power}In which C is_NewNumber of uses for new charger_{On the upper part}For last charge pal usage times, F_{Next time}Unit price for charging use number of times, D_{On the upper part}For last charging power, D_NewFor new charge amount, F_{Electric power}The unit price is used for the precious electric quantity of charging.

Images