CN111833545A - Moped rental system and method with intelligent helmet - Google Patents

Abstract

The invention provides a moped rental system with an intelligent helmet and a method. The first communication module sends an unlocked signal to the second communication module; the helmet lock receives a helmet borrowing operation, the remote server sends a helmet borrowing instruction to the first communication module and then forwards the helmet borrowing instruction to the second communication module to verify the helmet borrowing instruction, and after the verification is passed, the helmet lock unlocks the intelligent helmet; the helmet lock receives the helmet returning instruction, and after the intelligent helmet is detected to be located at the returning position of the helmet lock, the helmet lock broadcasts a returning signal, and the vehicle lock agrees to the vehicle returning operation. After the technical scheme is adopted, the moped and the intelligent helmet can be used simultaneously during renting, and the moped can be returned only in the returned state of the intelligent helmet, so that the intelligent helmet is prevented from being stolen.

Description

Moped rental system and method with intelligent helmet

Technical Field

The invention relates to the field of intelligent travel equipment, in particular to a moped leasing system with an intelligent helmet and a moped leasing method.

Background

Along with the rapid development of traffic ways and vehicles, the electric power-assisted bicycle is widely used, the riding speed is improved while the electric power-assisted bicycle is convenient to use, and the riding safety problem needs to be considered. Therefore, a design that a shared intelligent helmet can be used simultaneously on a shared moped is provided.

In such a design, the intelligent helmet is independent of the renting of the shared moped, and the stealing behavior that the user does not return after renting is easy to occur. Even if the two are rented in a correlated manner, the problem of the communication link is easy to occur, and the moped or the intelligent helmet cannot be rented successfully.

Therefore, a novel moped leasing system and method with an intelligent helmet are needed, the same method and logic as those for leasing a moped can be adopted during leasing, whether the intelligent helmet is returned or not can be intelligently identified during returning, and the intelligent helmet is prevented from being stolen.

Disclosure of Invention

In order to overcome the technical defects, the invention aims to provide a moped leasing system with an intelligent helmet and a method thereof, which can ensure that the moped and the intelligent helmet are used simultaneously during leasing, and the moped can be returned only in the returned state of the intelligent helmet, so that the intelligent helmet is prevented from being stolen.

The invention discloses a moped rental system with an intelligent helmet, which comprises a moped and a remote server which are in communication connection, wherein the moped comprises a vehicle lock and a helmet lock, the intelligent helmet is detachably arranged on the helmet lock, the vehicle lock receives a first unlocking instruction and unlocks the moped after being verified by the remote server,

the helmet lock comprises a second communication module, and after the vehicle lock is unlocked, the first communication module sends an unlocked signal to the second communication module;

the helmet lock receives a helmet borrowing operation, verifies that the unlocking signal is received, and then sends a helmet borrowing instruction to the first communication module and then forwards the helmet borrowing instruction to the second communication module to verify the helmet borrowing instruction;

the helmet lock receives a helmet returning instruction, detects whether the intelligent helmet is located at the returning position of the helmet lock, and when the intelligent helmet is located at the returning position of the helmet lock, the helmet lock broadcasts a returning signal through the second communication module, and the vehicle lock agrees to the vehicle returning operation based on the received returning signal.

Preferably, the helmet borrowing operation is any one of a helmet borrowing signal, a pressing signal and a second communication module near field communication signal, wherein the helmet borrowing signal is formed by the remote server based on a code scanning operation and is transmitted to the second communication module;

the helmet borrowing instruction sent by the helmet lock to the remote server comprises a communication ciphertext of the rental moped and an identification number of the intelligent helmet.

Preferably, the remote server verifies whether the identification number of the rental moped and the identification number of the moped in the helmet borrowing instruction are consistent with the identification number of the rental moped of the unlocked moped and the identification number of the moped;

if the two communication modules are consistent, the helmet borrowing instruction is verified, and an unlocking agreement instruction is sent to the second communication module;

the helmet lock reads the identity recognition chip arranged in the intelligent helmet and controls the acousto-optic prompt module arranged in the helmet lock to send an unlocking indication signal.

Preferably, the helmet returning instruction is an in-place signal formed by triggering an in-place device in the helmet lock by the intelligent helmet;

the helmet lock reads the identity identification chip arranged in the intelligent helmet, the read identity signal is sent to the first communication module through the second communication module, the vehicle lock verifies whether the identity signal accords with the identification number of the moped, and when the identity signal does not accord with the identification number of the moped, the vehicle lock refuses to lock.

Preferably, when the identity signal accords with the identification number of the moped, the helmet lock controls an acousto-optic prompt module arranged in the helmet lock to send out a locking indication signal;

and the second communication module of the helmet lock sends a returned signal to the remote server, and the remote server records the state of the helmet lock as returned.

Preferably, the returning location comprises: the detection range of the in-place sensor arranged in the helmet lock, the trigger range of the trigger device arranged in the helmet lock and the detection range of the infrared sensor arranged in the helmet lock;

when the moped is in a locked parking state, scanning the locking and unlocking state of the helmet lock based on a period of time;

the helmet lock is electrically connected with a power battery of the moped through an electric connecting wire.

Preferably, after the vehicle lock is unlocked, the first communication module and the second communication module establish a master-slave communication relationship to replace the original independent communication relationship;

the helmet lock receives a helmet borrowing operation, the remote server sends a helmet borrowing instruction to the first communication module of the vehicle lock, the first communication module forwards the helmet borrowing instruction to the second communication module, the helmet borrowing instruction is verified, and after the verification is passed, the helmet lock unlocks the intelligent helmet.

Preferably, the helmet returning instruction is an in-place signal formed by triggering an in-place device in the helmet lock by the intelligent helmet;

the helmet lock reads an identity identification chip arranged in the intelligent helmet, verifies whether the identification number of the intelligent helmet is consistent with the identification number of the helmet lock or not, locks the intelligent helmet if the identification number of the intelligent helmet is consistent with the identification number of the helmet lock, unlocks the intelligent helmet if the identification number of the intelligent helmet is inconsistent with the identification number of the helmet lock, and meanwhile, the vehicle lock refuses to lock the intelligent helmet;

when the identification number of the intelligent helmet accords with the identification number of the helmet lock, the helmet lock controls an acousto-optic prompt module arranged in the helmet lock to send out a locking indication signal;

the second control module updates the helmet lock state.

The invention also discloses a moped leasing method with the intelligent helmet, which comprises the following steps:

the vehicle lock of the moped receives the first unlocking instruction and unlocks the moped after being verified by a remote server;

after the vehicle lock is unlocked, a first communication module included in the vehicle lock sends an unlocked signal to a second communication module for locking a helmet lock of the intelligent helmet;

the helmet lock receives a helmet borrowing operation, and after the helmet lock verifies that the unlocking signal is received, a helmet borrowing instruction is sent to the remote server through the second communication module;

the remote server verifies the helmet borrowing instruction, sends an unlocking agreement instruction to the second communication module after the verification is passed, and the helmet lock unlocks the intelligent helmet based on the unlocking agreement instruction;

the helmet lock receives a helmet returning instruction, detects whether the intelligent helmet is located at the returning position of the helmet lock, and when the intelligent helmet is located at the returning position of the helmet lock, the helmet lock broadcasts a returning signal through the second communication module, and the vehicle lock agrees to the vehicle returning operation based on the received returning signal.

After the technical scheme is adopted, compared with the prior art, the method has the following beneficial effects:

1. the bicycle lock and the helmet lock can be unlocked simultaneously, and for a user, the intelligent helmet can be unlocked simultaneously by the original operation of unlocking the moped, so that the operation is saved;

2. when the moped and the intelligent helmet are returned, if the returned intelligent helmet is lost or the returned intelligent helmet does not belong to the moped to be returned, the moped cannot be locked, and a certain anti-theft effect is achieved on the helmet.

3. When the helmet lock fails, the helmet can not be locked, so that the vehicle can not return. This patent can effectively avoid this condition, and convenience of customers returns the car.

Drawings

FIG. 1 is a schematic view of a rental system of a moped according to a preferred embodiment of the present invention;

FIG. 2 is a schematic view of a rental system of a moped according to a preferred embodiment of the present invention;

FIG. 3 is a schematic flow chart of a rental method of a moped according to a preferred embodiment of the invention.

Detailed Description

The advantages of the invention are further illustrated in the following description of specific embodiments in conjunction with the accompanying drawings.

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

The terminology used in the present disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. As used in this disclosure and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

It is to be understood that although the terms first, second, third, etc. may be used herein to describe various information, such information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present disclosure. The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination", depending on the context.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

In the description of the present invention, unless otherwise specified and limited, it is to be noted that the terms "mounted," "connected," and "connected" are to be interpreted broadly, and may be, for example, a mechanical connection or an electrical connection, a communication between two elements, a direct connection, or an indirect connection via an intermediate medium, and specific meanings of the terms may be understood by those skilled in the art according to specific situations.

In the following description, suffixes such as "module", "component", or "unit" used to denote elements are used only for facilitating the explanation of the present invention, and have no specific meaning in themselves. Thus, "module" and "component" may be used in a mixture.

Referring to fig. 1 and 2, a schematic structural diagram of a rental system of a moped with an intelligent helmet according to a preferred embodiment of the invention is shown. In this embodiment, moped lease system includes communication connection's moped and remote server, has the lock that is used for locking or can unblank on the moped, is used for locking the helmet lock of intelligent helmet, and intelligent helmet detachably installs on the helmet lock according to user's demand, or takes off from the helmet lock. When a user needs to use the moped, the user can use the intelligent terminal to scan the two-dimensional code attached to the moped to form a first unlocking instruction in a manner of renting a shared bicycle, the first unlocking instruction is received by the remote server, and after the first unlocking instruction is verified (whether the user is a legal user or not and whether the vehicle lock is a vehicle lock in a locking state under self operation or not), the moped is unlocked after the verification is passed. When the vehicle lock is unlocked or is being unlocked, the first communication module in the vehicle lock sends an unlocked signal to the second communication module in the helmet lock, so that the helmet lock is informed, the vehicle lock is in an unlocked state, and the helmet lock should be changed to the unlocked state. Therefore, the helmet lock can acquire the state of the vehicle lock through the unlocking signal shared by the vehicle lock.

Then, the helmet lock receives a helmet borrowing operation, for example, a user scans a two-dimensional code attached to the helmet lock, or the helmet lock is not operated by the user (the user scans the vehicle lock and sends an unlocking request to a remote server before, and the unlocking request is regarded as a helmet borrowing operation to the vehicle lock and the helmet lock at the same time, and the like), firstly, an unlocked signal sent by the first communication module is identified, whether the vehicle lock is in the unlocked signal is judged, after the fact that the unlocked signal is received is confirmed, the remote server sends a helmet borrowing instruction to the first communication module of the vehicle lock, it can be understood that the helmet borrowing instruction can be sent to the remote server by the second communication module of the helmet lock alone, or after the vehicle lock and the helmet lock are in communication connection through the first communication module and the second communication module, the unlocking request is sent together by the first communication module, and the like, after the remote server receives the helmet borrowing instruction (or also called as a helmet borrowing request), and sending an unlocking agreement instruction to the first communication module, forwarding the unlocking agreement instruction to the second communication module by the first communication module, performing secondary verification by a second control module in the helmet lock, and after the verification is passed, unlocking the intelligent helmet by the helmet lock, or alternatively, sending the unlocking agreement instruction to the vehicle lock together with the unlocking agreement instruction pointing to the vehicle lock by the remote server, forwarding the unlocking agreement instruction to the helmet lock by the vehicle lock, and unlocking the intelligent helmet by the helmet lock based on the unlocking agreement instruction, or if the unlocking agreement instruction is sent to the vehicle lock and the helmet lock by the remote server, and respectively unlocking the vehicle lock and the helmet lock.

And then, after the moped is used and the moped and the intelligent helmet need to be returned, the helmet lock receives a helmet returning instruction, for example, a code is scanned on the helmet lock, the intelligent helmet is locked on the helmet lock mechanically, a key on the helmet lock is pressed, and the like. If the vehicle lock is locked and the return signal is not received within a certain time, the vehicle lock returns to the unlocking state, the user is informed that the intelligent helmet needs to be returned if the user needs to return the moped, the additional rental expense is prevented from being generated, the intelligent helmet needs to be returned to the returning position at first, otherwise, the intelligent helmet is continuously charged, and therefore the effect of preventing the user from stealing the intelligent helmet is achieved on the control logic.

In a preferred embodiment, the helmet borrowing operation of the user on the intelligent helmet can be a helmet borrowing signal which is formed by the remote server based on a code scanning operation (namely, the user scans a two-dimensional code attached to a car lock or the two-dimensional code attached to the helmet lock and then forms the code scanning operation) and is sent to the first communication module (after the user uses the intelligent terminal to scan the code, a helmet borrowing request is sent to the remote server by the intelligent terminal, the remote server feeds back the helmet borrowing request as the helmet borrowing signal), a pressing signal which is operated on the helmet lock (the helmet lock is provided with a key specially used for returning, and the key is pressed and triggered to form the helmet borrowing signal), and any one of near field communication signals (a card reading area is arranged on the vehicle lock, and after a user uses an RFID card and the like to contact the card reading area in a close range, the card reading area reads the RFID card and forms a signal) with the first communication module. Further, the helmet borrowing instruction sent by the helmet lock to the remote server includes a communication ciphertext of renting the moped, the identification number of the intelligent helmet, or optionally, according to an actual working condition, optionally including an identification number of the renting moped, an identification number of the moped, and a renting signal of renting the intelligent helmet, where the identification number of the renting moped may be a user name, an ID number, a mobile phone serial number, etc. registered in an application program when the user uses the intelligent terminal to scan a code to rent the moped, and the identification number of the moped may be a unique identification number pre-configured by a moped operation manager when the moped leaves the factory (in this embodiment, the helmet lock has the same identification number as the moped, that is, the identification mode of the helmet lock is associated with the identification mode of the vehicle lock, and both use the same identification number, so as to save a calculation load of the, the lease signal for leasing the intelligent helmet is a lease signal sent to the remote server by the helmet lock or the helmet lock by means of the vehicle lock (after the second communication module is communicated with the first communication module, the helmet-borrowing request is forwarded to the first communication module, and the first communication module sends the lease signal to the remote server). Through the configuration, the moped and the intelligent helmet can be rented at the same time, even a user can complete synchronous unlocking of the two devices by one-time operation, operation steps of the user are saved, and the situation that the moped is only unlocked or the intelligent helmet is only unlocked can be prevented.

Further preferably or optionally, when the helmet lock is used for verifying whether the helmet borrowing instruction is reasonable and legal, the identification number of the intelligent helmet contained in the helmet borrowing instruction is verified to be consistent with the identification number of the helmet lock, or optionally, according to the actual working condition, the identification number of the rented moped (such as the ID, serial number and the like of an intelligent terminal used by a user) and the identification number of the rented moped (the identification number of the moped per se is the unique identification number of the moped given by a moped manufacturer when the moped leaves a factory) are selectively verified, whether the two identification numbers are consistent with the identification number of the rented moped and the identification number of the moped (namely whether the borrowed intelligent helmet belongs to the rented moped and whether the user rented intelligent helmet is consistent with the user rented moped), and when the two identification numbers are consistent, the helmet borrowing instruction can be verified, the remote server will send an unlock grant instruction to the second communication module, or the second control module. Through the configuration, the intelligent helmet can be prevented from being taken away from the moped by a user through some means or a method of making a chance and taking an accident. Or in another optional scheme, the monitoring of the intelligent helmet adopts a card reading type, that is, a card reading module is arranged on the helmet lock, an identity recognition chip is arranged in the intelligent helmet, the card reading module of the helmet lock reads the identity recognition chip in the intelligent helmet, when the reading state of the identity recognition chip is read and not read when an unlocking instruction is received, the intelligent helmet is taken away by a user, and then the control chip (or the control unit) in the helmet lock controls the acousto-optic prompt module which is also arranged in the helmet lock to send an unlocking indication signal, such as light flashing and sound prompting, so as to inform the user that the behavior of legally borrowing the intelligent helmet is established.

In another preferred embodiment, the helmet command is an in-position signal generated by triggering an in-position device in the helmet lock by the intelligent helmet, for example, the in-position device may be an in-position sensor, when the in-position sensor is triggered by the intelligent helmet to generate a contact in-position signal, the contact in-position signal is an in-position signal, and the in-position signal may be triggered by hard contact, soft contact, a snap switch, a contact switch, infrared pair tubes, and the like. After the helmet lock reads the identity recognition chip in the intelligent helmet, the read identity signal is sent to the first communication module through the second communication module, and the vehicle lock verifies whether the identity signal conforms to the identification number of the moped, that is, whether the identification number (generally consistent with the identification number of the moped) included in the intelligent helmet is consistent with the identification number of the helmet lock, or optionally, whether the identification number is consistent with the identification number of the moped can be selectively verified according to the actual working condition, if the identification number is consistent, the identity signal is considered to conform to the identification number of the moped, and if the identification number is inconsistent with the identification number of the moped, the identity signal is considered to be inconsistent with the identification number of the moped, the vehicle lock refuses to lock, the intelligent helmet is unlocked, and only if the identity signal is consistent, the intelligent helmet is locked, so that the user can prevent the whole intelligent helmet from communicating with the helmet lock after the identity recognition chip on the, the state that the intelligent helmet has normally been returned is forged, or when the user used other intelligent helmets to return to the helmet lock, when the condition that the intelligent helmet does not correspond with the moped takes place, the intelligent helmet can still be gone into the unusual expectation. Optionally, when the moped is locked and the intelligent helmet is returned, if the result of the verification of the identification chip in the intelligent helmet is that the moped does not belong to the moped, the moped is unlocked, so that the user cannot return the moped until the intelligent helmet associated with the moped is returned normally.

Further, when the identification number of the intelligent helmet accords with the identification number of the helmet lock, the helmet lock also controls an acousto-optic prompt module arranged in the helmet lock to send a locking indication signal, a user is informed of normal returning of the intelligent helmet through light flicker and/or sound notification, at the moment, a second communication module of the helmet lock sends a returning signal to a remote server, and the remote server records the state of the helmet lock as returned.

It can be understood that the signals of the helmet lock and the intelligent helmet can be combined with the renting and returning signals of the moped, and are transmitted and received by the moped, so that on one hand, the identification number of the moped is always consistent with the identification numbers of the helmet lock and the intelligent helmet, the situation that the moped is not consistent with the intelligent helmet can not occur, on the other hand, the signal receiving and transmitting power consumption of the helmet lock can be saved, and the modification cost of the existing moped is reduced.

In the above embodiment, the returning position includes a detection range of the in-place sensor arranged in the helmet lock, a trigger range of the trigger device arranged in the helmet lock, and a detection range of the infrared sensor arranged in the helmet lock, and the user can trigger the in-place signal after returning the intelligent helmet to the returning position of any helmet lock, so that the moped can know that the intelligent helmet is normally returned. When the moped is in a locked parking state, the locking and unlocking state of the helmet lock is scanned based on week time, if the helmet lock is found to be unlocked in an unconventional mode, for example, the moped is not unlocked but the helmet lock is unlocked, or the helmet lock cannot read an identity recognition chip in an intelligent helmet, an illegal state is reported to a remote server, the remote server records vehicle faults, and whether the unconventional situation occurs to the last locked moped is determined to be stronger or weaker than the last locked moped, the last assisted vehicle is charged again (generally, a user is considered to take away the intelligent helmet unconventionally after the locked moped), so that loss is reduced. In addition, the helmet lock is electrically connected with a power battery of the moped through an electric connecting wire, so that the helmet lock is always in a working state.

In another preferred embodiment, after the vehicle lock is unlocked, the first communication module and the second communication module establish a master-slave communication relationship to replace the original independent communication relationship. Specifically, the helmet lock receives a helmet borrowing operation, the remote server sends a helmet borrowing instruction to the first communication module of the vehicle lock, the first communication module forwards the helmet borrowing instruction to the second communication module, the second control module verifies the helmet borrowing instruction, and after the verification is passed, the helmet lock unlocks the intelligent helmet; the helmet lock receives a helmet returning instruction, detects whether the intelligent helmet is located at the returning position of the helmet lock, and when the intelligent helmet is located at the returning position of the helmet lock, the helmet lock broadcasts a returning signal through the second communication module, and the vehicle lock agrees to the vehicle returning operation based on the received returning signal.

In a preferred embodiment, the remote server sends a helmet borrowing instruction to the first communication module of the vehicle lock, the first communication module forwards the helmet borrowing instruction to the second communication module, the second control module verifies the helmet borrowing instruction, and after the verification is passed, the step of unlocking the intelligent helmet by the helmet lock comprises the following steps: the second control module verifies whether the identification number of the intelligent helmet in the helmet borrowing instruction is consistent with the identification number of the helmet lock; if the two communication modules are consistent, the helmet borrowing instruction is verified, and an unlocking agreement instruction is sent to the second communication module; the helmet lock reads the identity identification chip in locating the intelligent helmet to verify the identification number of intelligent helmet, whether the identification number of helmet lock is unanimous, if unanimous, then the intelligent helmet of shutting, if inconsistent, then unblock intelligent helmet, the shutting is refused to the lock of car lock simultaneously.

In another preferred embodiment, if the helmet lock fails, the user cannot return the helmet, so that the user cannot return the moped, which brings great inconvenience to the user. Therefore, the helmet lock or the moped is provided with an emergency operation device, such as a key arranged on the helmet lock or the moped, and the emergency operation device is triggered after being pressed or is triggered by operation on an intelligent terminal held by a user and is mechanically or electrically connected with a lock body of the helmet lock; when the helmet lock fails, the emergency operation device is controlled to unlock the intelligent helmet, and sends a trigger signal to the remote server through the first communication module so as to send a return signal to the remote server. The remote server records that the state of the helmet lock is returned, and modifies the moped into a state of returning the moped, so that the moped can be updated into the state of returning the moped, a user can be informed of the operation of returning the moped, and the moped is marked as the fault state of the helmet lock to be checked by a maintenance worker. So as not to affect the user's return.

In addition, the helmet lock can be configured, the control module of the moped can patrol the state of the helmet lock at intervals of a period, the state can be reported to the remote server after a fault is found, and the remote server judges whether the fault condition and the intelligent helmet exist or not according to the reported message, namely whether the intelligent helmet has a stolen condition or not, so that a manager of the moped can conveniently eliminate the fault problem in time.

Referring to fig. 3, a moped leasing method with an intelligent helmet is shown, which comprises the following steps:

the vehicle lock of the moped receives the first unlocking instruction and unlocks the moped after being verified by a remote server;

after the vehicle lock is unlocked, a first communication module included in the vehicle lock sends an unlocked signal to a second communication module for locking a helmet lock of the intelligent helmet;

the helmet lock receives a helmet borrowing operation, verifies that the unlocking signal is received, and then sends a helmet borrowing instruction to the first communication module and then forwards the helmet borrowing instruction to the second communication module to verify the helmet borrowing instruction;

the helmet lock receives a helmet returning instruction, detects whether the intelligent helmet is located at the returning position of the helmet lock, and when the intelligent helmet is located at the returning position of the helmet lock, the helmet lock broadcasts a returning signal through the second communication module, and the vehicle lock agrees to the vehicle returning operation based on the received returning signal.

The smart terminal may be implemented in various forms. For example, the terminal described in the present invention may include an intelligent terminal such as a mobile phone, a smart phone, a notebook computer, a PDA (personal digital assistant), a PAD (tablet computer), a PMP (portable multimedia player), a navigation device, etc., and a fixed terminal such as a digital TV, a desktop computer, etc. In the following, it is assumed that the terminal is a smart terminal. However, it will be understood by those skilled in the art that the configuration according to the embodiment of the present invention can be applied to a fixed type terminal in addition to elements particularly used for moving purposes.

It should be noted that the embodiments of the present invention have been described in terms of preferred embodiments, and not by way of limitation, and that those skilled in the art can make modifications and variations of the embodiments described above without departing from the spirit of the invention.

Claims (9)

1. A moped rental system with an intelligent helmet comprises a moped and a remote server which are in communication connection, wherein the moped comprises a vehicle lock and a helmet lock, the intelligent helmet is detachably mounted on the helmet lock, the vehicle lock receives a first unlocking instruction and unlocks the moped after being verified by the remote server, and the moped rental system is characterized in that,

the vehicle lock comprises a first communication module, the helmet lock comprises a second communication module, and after the vehicle lock is unlocked, the first communication module sends an unlocked signal to the second communication module;

the helmet lock receives a helmet borrowing operation, verifies that the unlocking signal is received, and then sends a helmet borrowing instruction to the first communication module, and then forwards the helmet borrowing instruction to the second communication module to verify the helmet borrowing instruction, and sends an unlocking approval instruction to the second communication module after the verification is passed, wherein the helmet lock unlocks the intelligent helmet based on the unlocking approval instruction;

the helmet lock receives a helmet returning instruction, detects whether the intelligent helmet is located at the returning position of the helmet lock, and when the intelligent helmet is located at the returning position of the helmet lock, the helmet lock broadcasts a returning signal through the second communication module, and the vehicle lock agrees to a vehicle returning operation based on the received returning signal.

2. The moped rental system of claim 1,

the helmet borrowing operation is any one of a helmet borrowing signal, a pressing signal and a first communication module near-field communication signal, wherein the helmet borrowing signal is formed by a remote server based on a code scanning operation and is transmitted to the first communication module;

the helmet borrowing instruction sent by the helmet lock to the remote server comprises a communication ciphertext for renting the moped and an identification number of the intelligent helmet.

3. The moped rental system of claim 2,

the remote server verifies whether the identification number of the rented moped and the identification number of the moped in the helmet borrowing instruction are consistent with the identification number of the rented moped unlocked with the moped and the identification number of the moped; if the two communication modules are consistent, the helmet borrowing instruction is verified to be passed, and an unlocking agreement instruction is sent to the second communication module;

the helmet lock reads an identity recognition chip arranged in the intelligent helmet and controls a sound and light prompt module arranged in the helmet lock to send an unlocking indication signal.

4. The moped rental system of claim 1,

the helmet returning instruction is an in-place signal formed by triggering an in-place device in the helmet lock by the intelligent helmet;

the helmet lock reads and locates the identification chip in the intelligent helmet to the identity signal warp that will read second communication module sends to first communication module, the lock is verified whether the identity signal accords with the identification number of vehicle using motor, works as the identity signal does not accord with when the identification number of vehicle using motor, the lock is refused to block.

5. The moped rental system of claim 4,

when the identity signal accords with the identification number of the moped, the helmet lock controls an acousto-optic prompt module arranged in the helmet lock to send out a locking indication signal;

and the second communication module of the helmet lock sends a returned signal to the remote server, and the remote server records that the state of the helmet lock is returned.

6. The moped rental system of claim 1,

the return position includes: the helmet lock comprises a detection range of an in-place sensor arranged in the helmet lock, a trigger range of a trigger device arranged in the helmet lock, and a detection range of an infrared sensor arranged in the helmet lock;

when the moped is in a locked parking state, scanning the locking and unlocking state of the helmet lock based on a period of time;

the helmet lock is electrically connected with a power battery of the moped through an electric connecting wire.

7. The moped rental system of claim 1,

after the vehicle lock is unlocked, the first communication module and the second communication module establish a master-slave communication relationship to replace the original independent communication relationship;

the helmet lock receives a helmet borrowing operation, the remote server sends a helmet borrowing instruction to the first communication module of the vehicle lock, the first communication module forwards the helmet borrowing instruction to the second communication module, the helmet borrowing instruction is verified, and after the verification is passed, the helmet lock unlocks the intelligent helmet.

8. The moped rental system of claim 7,

the helmet returning instruction is an in-place signal formed by triggering an in-place device in the helmet lock by the intelligent helmet;

the helmet lock reads an identity identification chip arranged in the intelligent helmet, verifies whether the identification number of the intelligent helmet is consistent with the identification number of the helmet lock or not, locks the intelligent helmet if the identification number of the intelligent helmet is consistent with the identification number of the helmet lock, unlocks the intelligent helmet if the identification number of the intelligent helmet is inconsistent with the identification number of the helmet lock, and meanwhile, the vehicle lock refuses to lock the intelligent helmet;

when the identification number of the intelligent helmet accords with the identification number of the helmet lock, the helmet lock controls an acousto-optic prompt module arranged in the helmet lock to send a locking indication signal;

the second control module updates the helmet lock status.

9. A moped renting method with an intelligent helmet is characterized by comprising the following steps:

the method comprises the following steps that a vehicle lock of the moped receives a first unlocking instruction and unlocks the moped after being verified by a remote server;

after the vehicle lock is unlocked, a first communication module included in the vehicle lock sends an unlocked signal to a second communication module for locking a helmet lock of the intelligent helmet;

the helmet lock receives a helmet borrowing operation, verifies that the unlocking signal is received, and then sends a helmet borrowing instruction to the first communication module, and then forwards the helmet borrowing instruction to the second communication module to verify the helmet borrowing instruction, and sends an unlocking approval instruction to the second communication module after the verification is passed, wherein the helmet lock unlocks the intelligent helmet based on the unlocking approval instruction;

the helmet lock receives a helmet returning instruction, detects whether the intelligent helmet is located at the returning position of the helmet lock, and when the intelligent helmet is located at the returning position of the helmet lock, the helmet lock broadcasts a returning signal through the second communication module, and the vehicle lock agrees to a vehicle returning operation based on the received returning signal.

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