CN108320386B

CN108320386B - Vehicle using method, controller, cloud server and vehicle

Info

Publication number: CN108320386B
Application number: CN201810105173.8A
Authority: CN
Inventors: 于铁勇; 马立璞; 李文东
Original assignee: Beijing Automotive Research Institute Co Ltd
Current assignee: Beijing Automotive Research Institute Co Ltd
Priority date: 2018-02-02
Filing date: 2018-02-02
Publication date: 2023-10-13
Anticipated expiration: 2038-02-02
Also published as: CN108320386A

Abstract

The invention provides a vehicle using method, a controller, a cloud server and a vehicle, wherein the vehicle using method applied to control comprises the following steps: receiving an unlocking request for unlocking the oil filler lock, and after receiving the unlocking request, sending vehicle information to a cloud server for verification; receiving verification passing information sent by a cloud server after verification according to vehicle information; according to the verification passing information, controlling the opening of the oil filler lock; acquiring the oil filling amount information of the fuel meter; and sending the oil filling amount information to a cloud server. According to the vehicle using method, the controller, the cloud server and the vehicle, which are provided by the embodiment of the invention, the risk of vehicle theft is reduced through the vehicle information verification of the vehicle and the cloud server; the oil filling amount information of the vehicle is sent to the cloud server, and the vehicle is charged, so that a vehicle manufacturer is facilitated to improve the quality of the vehicle, the purchase cost of the vehicle is reduced, the vehicle resources are reasonably utilized, and the risk of vehicle theft is reduced.

Description

Vehicle using method, controller, cloud server and vehicle

Technical Field

The invention relates to the technical field of automobiles, in particular to a vehicle using method, a controller, a cloud server and a vehicle.

Background

With the continuous development of the automobile industry and the continuous improvement of the living standard of people, automobiles gradually enter thousands of families as a walking tool. However, due to the difference of individual economic levels, the consumption level of consumers is uneven, so that part of consumers are easy to purchase a plurality of automobiles, the waste of automobile resources is caused, and the other part of consumers cannot purchase automobiles due to lower economic level, so that the economic profit of manufacturers is reduced. The sales of vehicles is in a one-time sales stage, namely profits are mainly obtained through high sales prices, vehicle manufacturers neglect the quality of products in order to obtain more profits, the price is improved, the price of the products is unequal to the quality of the products, and meanwhile, the risk of the vehicles being stolen is increased due to the fact that the price of the vehicles is high.

Disclosure of Invention

The embodiment of the invention aims to solve the technical problems that a vehicle using method, a controller, a cloud server and a vehicle are provided, so that the problem that a vehicle manufacturer pays attention to price improvement to obtain high profits, is unfavorable for reasonable utilization of vehicle resources and is easy to steal the vehicle is solved.

To solve the above-mentioned technical problem, a preferred embodiment of the present invention provides a vehicle usage method, which is applied to a controller, and includes:

acquiring and storing input vehicle information;

receiving an unlocking request for unlocking the oil filler lock, and after receiving the unlocking request, sending vehicle information to a cloud server for verification;

receiving verification passing information sent by a cloud server after the effectiveness verification according to the vehicle information;

according to the verification passing information, controlling the opening of the oil filler lock;

acquiring the oil filling amount information of the fuel gauge for filling oil through the oil filling opening after the oil filling opening lock is opened;

and sending the oil filling amount information to a cloud server.

Specifically, the vehicle use method as described above, the vehicle information includes: vehicle serial number, engine number, frame code, user account information, and vehicle manufacturer account information.

Preferably, in the vehicle usage method as described above, after the step of sending the fuel filler amount information to the cloud server, the method further includes:

detecting once every first preset time length, and determining whether oil filling amount information is received within the first preset time length;

and if the oil filling amount information is not received within the first preset time, sending feedback information to the cloud server.

Preferably, the vehicle use method as described above, the method further comprises:

after the oil filling amount information is acquired, judging whether verification passing information is received within a second preset duration before the oil filling amount information is received;

if the judgment result is negative, sending preset alarm information to the cloud server.

acquiring geographic position information acquired by a global positioning system of a vehicle;

judging whether the duration of the vehicle in a parking state reaches a third preset duration or not according to the geographic position information;

if the judgment result is yes, a first prompt signal is sent to the cloud server.

Further, in the vehicle using method as described above, the step of sending the first prompting signal to the cloud server further includes:

judging whether the time length of the vehicle in a parking state reaches a fourth preset time length or not according to the geographic position information; if the judgment result is yes, a second prompt signal is sent to the cloud server, wherein the fourth preset time period is longer than the third preset time period.

An embodiment of the present invention provides a controller including:

the first processing module is used for acquiring and storing the input vehicle information;

The first transceiver module is used for receiving an unlocking request for unlocking the oil filler lock, and sending the vehicle information to the cloud server for verification after receiving the unlocking request;

the first receiving module is used for receiving verification passing information sent by the cloud server after verification according to the vehicle information;

the first control module is used for controlling the opening of the oil filler lock according to the verification passing information;

the first acquisition module is used for acquiring the oil filling amount information of the fuel gauge for filling oil through the oil filling port after the oil filling port lock is opened;

and the first sending module is used for sending the oil filling amount information to the cloud server.

Preferably, the controller as described above, the controller further comprises:

the second processing module is used for detecting once every first preset time length to determine whether the oil filling amount information is received within the first preset time length;

the second sending module is used for sending feedback information to the cloud server if the oil filling amount information is not received within the first preset time.

the first judging module is used for judging whether verification passing information is received within a second preset duration before the oil filling amount information is received after the oil filling amount information is acquired;

And the third sending module is used for sending preset alarm information to the cloud server if the judging result is negative.

the second acquisition module is used for acquiring geographic position information acquired by a global positioning system of the vehicle;

the second judging module is used for judging whether the duration of the vehicle in the parking state reaches a third preset duration or not according to the geographic position information;

and the fourth sending module is used for sending a first prompt signal to the cloud server if the judgment result is yes.

Further, a controller as described above, the controller further comprising:

the third judging module is used for judging whether the duration of the vehicle in the parking state reaches a fourth preset duration according to the geographic position information;

and the fifth sending module is used for sending a second prompt signal to the cloud server if the judgment result is yes, wherein the fourth preset time length is longer than the third preset time length.

Another preferred embodiment of the present invention provides a vehicle usage method, applied to a cloud server, including:

acquiring and storing input vehicle stock check information;

receiving vehicle information sent by a vehicle; the vehicle information is sent when the vehicle receives an unlocking request for unlocking the oil filler lock;

Verifying the vehicle information and the vehicle inventory information, and when the vehicle information and the vehicle inventory information pass the verification, sending the verification passing information to the vehicle;

receiving oil filling amount information sent by a vehicle;

charging the use of the vehicle according to the oil filling amount information to obtain first expense;

the first fee is drawn from the user account to the vehicle manufacturer account.

Specifically, the vehicle use method as described above, the vehicle review information includes: vehicle serial number, engine number, frame code, user account information, and vehicle manufacturer account information.

receiving feedback information sent by the vehicle, and charging the use of the vehicle according to the feedback information to obtain second expense; the feedback information is detected for each first preset time length of the vehicle, and the feedback information is sent when the fuel filling amount information is not received within the first preset time length;

and drawing a second fee from the user account to the vehicle manufacturer account.

when a first prompt signal sent by a vehicle is received, sending first preset prompt information to a user terminal and a vehicle manufacturer terminal according to the first prompt signal, wherein the first preset prompt information is used for prompting a user and the parking state of the vehicle manufacturer is unchanged in a third preset duration.

when a second prompt signal sent by the vehicle is received, sending second preset prompt information to the user terminal and the vehicle manufacturer terminal according to the second prompt signal, wherein the second preset prompt information is used for prompting the user and the vehicle manufacturer that the vehicle is at risk of being abandoned or stolen.

when the preset alarm information sent by the vehicle is received, third preset prompt information is sent to the user terminal and the vehicle manufacturer terminal, and the third preset prompt information is used for prompting the user and the vehicle manufacturer that the vehicle is at risk of being abandoned or stolen.

Another embodiment of the present invention provides a cloud server, including:

the third processing module is used for acquiring and storing the input vehicle inventory information;

the second receiving module is used for receiving vehicle information sent by the vehicle; the vehicle information is sent when the vehicle receives an unlocking request for unlocking the oil filler lock;

the fourth processing module is used for verifying the vehicle information and the vehicle inventory information, and sending verification passing information to the vehicle when the vehicle information and the vehicle inventory information pass the verification;

The third receiving module is used for receiving the oil filling amount information sent by the vehicle;

the fifth processing module is used for charging the use of the vehicle according to the oil filling amount information to obtain first expense;

and the sixth processing module is used for drawing the first fee from the user account to the vehicle manufacturer account.

Preferably, the cloud server as described above, the cloud server further comprises:

the seventh processing module is used for charging the use of the vehicle according to the feedback information when receiving the feedback information sent by the vehicle, so as to obtain second expense; the feedback information is detected for each first preset time length of the vehicle, and the feedback information is sent when the fuel filling amount information is not received within the first preset time length;

and the eighth processing module is used for drawing the second fee from the user account to the vehicle manufacturer account.

and the second transceiver module is used for sending first preset prompt information to the user terminal and the vehicle manufacturer terminal according to the first prompt signal when the first prompt signal sent by the vehicle is received, wherein the first preset prompt information is used for prompting the user and the vehicle manufacturer that the parking state of the vehicle is unchanged in a third preset time period.

and the third transceiver module is used for sending second preset prompt information to the user terminal and the vehicle manufacturer terminal according to the second prompt signal when receiving the second prompt signal sent by the vehicle, wherein the second preset prompt information is used for prompting the user and the vehicle manufacturer that the vehicle is at risk of being abandoned or stolen.

and the fourth receiving and transmitting module is used for transmitting third preset prompting information to the user terminal and the vehicle manufacturer terminal when receiving preset alarm information transmitted by the vehicle, wherein the third preset prompting information is used for prompting the user and the vehicle manufacturer that the vehicle is at risk of being abandoned or stolen.

Still another preferred embodiment of the present invention provides a vehicle including:

the fuel gauge is fixedly arranged on the instrument panel;

the oil filler lock is fixedly arranged at the oil filler and used for controlling the oil filler;

the vehicle further comprises a control device which is connected with the oil filler lock and the fuel gauge, and the control device is also connected with a cloud server;

the control device also comprises a processor, and a receiver and a transmitter which are respectively connected with the processor;

After receiving an unlocking request for unlocking the oil filler lock, the receiver sends vehicle information to the cloud server through the transmitter;

after the receiver receives the verification passing information sent by the cloud server, the processor generates a control signal according to the verification passing information to control the opening of the oil filler lock;

the receiver acquires the oil filling amount information of the oil meter for filling oil through the oil filling opening after the oil filling opening lock is opened, and sends the oil filling amount information to the cloud server through the sender.

Preferably, the vehicle as described above, the vehicle further comprises an alarm control circuit;

the alarm control circuit comprises a power supply, a first time relay and a first signal generator which are connected in series;

the first control end of the first time relay is connected with the receiver, and is controlled by the oil consumption information received by the receiver, wherein the oil consumption information is sent when the oil quantity of the fuel meter is reduced or unchanged in unit time;

the timer of the first control end is connected in series with the power supply and the first control switch, the second control end of the first control switch is connected with the receiver, and the second control end is controlled by the oil filling amount information received by the receiver;

the first signal generator is connected with the transmitter, and the transmitter transmits feedback information to the cloud server according to a first control signal generated by the first signal generator;

The first time relay is of a normally open and time delay closed type, and the first control switch is of a normally closed and controlled open type.

Specifically, the vehicle as described above, the alarm control circuit further includes: the second time relay, the second control switch and the second signal generator are sequentially connected in series and connected with the first time relay and the first signal generator in parallel;

the third control end of the second time relay is connected with the receiver and is controlled by verification passing information received by the receiver;

the fourth control end of the second control switch is connected with the receiver and is controlled by the oil filling amount information received by the receiver;

the second signal generator is connected with the transmitter, and the transmitter transmits preset alarm information to the cloud server according to a second control signal generated by the second signal generator;

the second time relay is of a normally closed type and a power-off delay opening type, and the control switch is of a normally open type and a controlled closing type.

Preferably, the vehicle as described above, the vehicle further comprises: the global positioning system, the alarm control circuit further comprises: a third time relay and a third signal generator connected in series and in parallel with the first time relay, the first control switch and the first signal generator;

The fifth control end of the third time relay is connected with the receiver, and is controlled by first geographic position information which is received by the receiver and sent by the global positioning system, wherein the first geographic position information is sent when the geographic position information acquired by the global positioning system is unchanged in unit time;

the timer of the fifth control end is connected in series with the power supply and the third control switch, the sixth control end of the third control switch is connected with the receiver, the sixth control end is controlled by second geographic position information sent by the global positioning system and received by the receiver, and the second geographic position information is sent when the geographic position information acquired by the global positioning system changes in unit time;

the third signal generator is connected with the transmitter, and the transmitter transmits a first prompt signal to the cloud server according to a third control signal generated by the third signal generator;

the third time relay is of a normally open and time-delay closed type, and the third control switch is of a normally closed and controlled open type.

Further, the vehicle as described above, the alarm control circuit further includes: a fourth time relay and a fourth signal generator connected in parallel with the third time relay and the third signal generator;

The seventh control end of the fourth time relay is connected with the receiver, and the seventh control end is controlled by the first geographic position information sent by the global positioning system and received by the receiver;

the timer of the seventh control end is connected in series with the power supply and the fourth control switch, the eighth control end of the fourth control switch is connected with the receiver, and the eighth control end is controlled by the second geographic position information sent by the global positioning system and received by the receiver;

the transmitter transmits a second prompt signal to the cloud server according to a fourth control signal generated by the fourth signal generator;

the fourth time relay is of a normally open and controlled closed type, and the fourth control switch is of a normally closed and controlled open type.

The embodiment of the invention also provides a cloud server, which comprises: a memory unit, a processing unit, and a computer program stored on the memory unit and executable on the processing unit; the vehicle using method applied to the cloud server is realized when the processing unit executes the computer program.

Compared with the prior art, the vehicle using method, the controller, the cloud server and the vehicle provided by the embodiment of the invention have the following beneficial effects:

In the embodiment of the invention, the oil filler lock is arranged at the oil filler of the vehicle, and the vehicle can be opened only after the vehicle information passes the verification of the cloud server, so that the vehicle information can be ensured to be in a normal usable state, and a thief cannot use the vehicle for a long time even if the vehicle is stolen, thereby being beneficial to reducing the risk of the vehicle being stolen; when the vehicle is refueled, the refueled amount information of the vehicle is acquired and sent to the cloud server, so that a vehicle manufacturer charges the refueled amount information of the vehicle through the cloud server, profits of the vehicle manufacturer and the use hook of the vehicle are enabled to be favorable for enabling the vehicle manufacturer to improve the quality of the vehicle, the vehicle is enabled to have longer service life, meanwhile, charging is conducted again when the vehicle is used, purchasing cost of the vehicle is favorable for reducing, a low-income user can purchase the vehicle, vehicle resources are reasonably utilized, and the reduction of the purchasing cost of the vehicle is favorable for reducing the risk of vehicle theft.

Drawings

FIG. 1 is a flow chart of a method of using a vehicle for a controller according to the present invention;

FIG. 2 is a second flow chart of the vehicle using method applied to the controller according to the present invention;

FIG. 3 is a third flow chart of the vehicle using method applied to the controller according to the present invention;

FIG. 4 is a flow chart of a method of using a vehicle for a controller according to the present invention;

FIG. 5 is a schematic diagram of a controller according to the present invention;

FIG. 6 is a second schematic diagram of the controller according to the present invention;

FIG. 7 is a third schematic diagram of the controller according to the present invention;

FIG. 8 is a schematic diagram of a controller according to the present invention;

FIG. 9 is a fifth schematic diagram of the controller according to the present invention;

FIG. 10 is a flow chart of a vehicle usage method applied to a cloud server according to the present invention;

FIG. 11 is a second flow chart of the vehicle usage method applied to the cloud server according to the present invention;

FIG. 12 is a schematic diagram of a cloud server according to the present invention;

FIG. 13 is a second schematic diagram of a cloud server according to the present invention;

FIG. 14 is a schematic view of the structure of the vehicle of the present invention;

fig. 15 is a schematic diagram of an alarm control circuit structure of a vehicle according to the present invention.

[ reference numerals description ]

1. A power supply; 2. a first time relay; 21. a first control switch; 3 a first signal generator;

4. a second time relay; 41. a second control switch; 5. a second signal generator;

6. a third time relay; 61. a third control switch; 7. a third signal generator;

8. A fourth time relay; 81. a fourth control switch; 9. and a fourth signal generator.

Detailed Description

In order to make the technical problems, technical solutions and advantages to be solved more apparent, the following detailed description will be given with reference to the accompanying drawings and specific embodiments. In the following description, specific details such as specific configurations and components are provided merely to facilitate a thorough understanding of embodiments of the invention. It will therefore be apparent to those skilled in the art that various changes and modifications can be made to the embodiments described herein without departing from the scope and spirit of the invention. In addition, descriptions of well-known functions and constructions are omitted for clarity and conciseness.

It should be appreciated that reference throughout this specification to "one embodiment" or "an embodiment" means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least one embodiment of the present invention. Thus, the appearances of the phrases "in one embodiment" or "in an embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

In various embodiments of the present application, it should be understood that the sequence numbers of the following processes do not mean the order of execution, and the order of execution of the processes should be determined by the functions and internal logic, and should not constitute any limitation on the implementation process of the embodiments of the present application.

It should be understood that the term "and/or" is merely an association relationship describing the associated object, and means that three relationships may exist, for example, a and/or B may mean: a exists alone, A and B exist together, and B exists alone. In addition, the character "/" herein generally indicates that the front and rear associated objects are an "or" relationship.

In the embodiments provided herein, it should be understood that "B corresponding to a" means that B is associated with a from which B may be determined. It should also be understood that determining B from a does not mean determining B from a alone, but may also determine B from a and/or other information.

Referring to fig. 1, a preferred embodiment of the present application provides a vehicle use method, applied to a controller, comprising:

step 101, acquiring and storing input vehicle information;

step 102, receiving an unlocking request for unlocking the oil filler lock, and after receiving the unlocking request, transmitting vehicle information to a cloud server for verification;

Step 103, receiving verification passing information sent by a cloud server after the validity of the vehicle information is verified;

104, controlling the opening of the oil filler lock according to the verification passing information;

step 105, obtaining the oil filling amount information of the oil meter for filling oil through the oil filling port after the oil filling port lock is opened;

and step 106, the oil filling amount information is sent to a cloud server.

In the embodiment of the invention, the vehicle acquires and stores the input vehicle information, so that each vehicle is unique, and is convenient to verify, so that the information of the vehicle is ensured to be correct, and misoperation is avoided.

The oil filler lock is arranged at the oil filler of the vehicle, and can be opened only after the vehicle information passes the verification of the cloud server, so that the vehicle information can be ensured to be in a normal usable state and can not be used for a long time even if a thief steals the vehicle, and the risk of the vehicle being stolen is reduced; when the vehicle is refueled, the refueled amount information of the vehicle is acquired and sent to the cloud server, so that a vehicle manufacturer charges the refueled amount information of the vehicle through the cloud server, profits of the vehicle manufacturer and the use hook of the vehicle are enabled to be favorable for enabling the vehicle manufacturer to improve the quality of the vehicle, the vehicle is enabled to have longer service life, meanwhile, charging is conducted again when the vehicle is used, purchasing cost of the vehicle is favorable for reducing, a low-income user can purchase the vehicle, vehicle resources are reasonably utilized, and the reduction of the purchasing cost of the vehicle is favorable for reducing the risk of vehicle theft. In addition, the charge of the vehicle is related to the oil filling amount, which is beneficial to promoting the user to purchase the low-displacement and oil-saving type vehicle, thereby reducing the air pollution.

In the embodiment of the invention, the vehicle information comprises user account information, and whether a bank card for deducting fees exists in the user account and whether reserved amount exists in the card can be judged during verification, if no reserved amount exists in the bank card or the card of the user, the verification fails, the user cannot unlock and refuel operation, and the situation that a vehicle manufacturer cannot obtain benefit after the user refuels and uses the vehicle can be avoided. The vehicle serial number, the engine number and the frame code in the vehicle information can ensure that the vehicle after the parts are replaced cannot be normally refueled after the vehicle is stolen, so that the normal use of the vehicle by vehicle theft personnel and vehicle purchase personnel is influenced, and the vehicle can be prevented from being stolen to a certain extent.

Referring to fig. 2, preferably, after the step of sending the fuel charge information to the cloud server according to the vehicle usage method described above, the vehicle usage method further includes:

step 201, detecting once every first preset time length, and determining whether fuel filling amount information is received within the first preset time length;

Step 202, if the fuel filling amount information is not received within the first preset time period, sending feedback information to the cloud server.

In the embodiment of the invention, detection is carried out once every first preset time interval, whether the oil filling amount information is received within the first preset time interval is determined, namely after the vehicle is filled, when the oil amount of the vehicle is reduced or unchanged in unit time, timing is started, and if the vehicle is filled again in the first preset time, timing is restarted; if the vehicle does not refuel again in the first preset time, the user is judged to adopt a certain mode to shield the oil quantity detection or the user does not use the vehicle in the first preset time to lead the vehicle to be idle, and at the moment, the controller can send feedback information to the cloud server, so that a vehicle manufacturer can take corresponding measures according to the feedback information to ensure the benefit of the vehicle manufacturer, the vehicle is also facilitated to be used by the user, the vehicle utilization rate is improved, and the waste of vehicle resources caused by idle vehicle is avoided.

Referring to fig. 3, preferably, the vehicle using method as described above further includes:

step 301, after obtaining the fuel quantity information, judging whether verification passing information is received within a second preset time period before receiving the fuel quantity information;

Step 302, if the result is no, sending preset alarm information to the cloud server.

In the embodiment of the invention, after the fuel filling amount information is acquired, judging the time relation between the received verification passing information and the fuel filling amount information, and if the fuel filling amount information is acquired within the second preset time after the verification information is received, the fuel filling operation is carried out by opening the fuel filling lock after the verification passing information is received; if the fuel filler information is obtained outside the second preset time after the verification information is received, the user or the vehicle stealing personnel is informed that the fuel filler lock of the vehicle is damaged, even the fuel tank of the vehicle is replaced, at the moment, the controller can send the preset alarm information to the cloud server, so that a vehicle manufacturer knows that the vehicle is in question and takes corresponding measures, for example, the vehicle manufacturer can get in touch with the user to know and solve the problem, the due benefit of the vehicle manufacturer is guaranteed, and meanwhile, the loss of the user is avoided.

Referring to fig. 4, preferably, the vehicle using method as described above further includes:

step 401, obtaining geographic position information acquired by a global positioning system of a vehicle;

step 402, judging whether the duration of the vehicle in a parking state reaches a third preset duration according to the geographic position information;

Step 403, if the result is yes, sending a first prompt signal to the cloud server.

In the embodiment of the invention, the controller can acquire the geographic position information acquired by the global positioning system of the vehicle, judge the state of the vehicle according to the geographic position information, start timing when the vehicle is in a parking state all the time in unit time, and indicate that the vehicle is parked and abandoned if the vehicle is in the parking state all the time when the timing reaches the third preset time, and then send a first prompt signal to the cloud server, so that a vehicle manufacturer knows that the vehicle is in the parking state for a long time, further corresponding measures are taken to ensure the benefit of the vehicle, and simultaneously inform a user that the parking state of the vehicle reaches a certain time, thereby being beneficial to promoting the user to use the vehicle, improving the utilization rate of the vehicle and avoiding the waste of vehicle resources caused by the phenomena of vehicle handling and vehicle abandoning of the user.

In the embodiment of the invention, if the vehicle is still in the parking state after the timing reaches the fourth preset time, the vehicle is indicated to have the risk of being abandoned or stolen, and the controller sends a second prompt signal to the cloud server for informing the vehicle manufacturer that the vehicle is in the deactivated state for a long time to reach the critical time, so that the vehicle manufacturer can take corresponding measures to ensure the own benefit of taking the benefit, such as the state of contacting with a user to determine the vehicle, if the vehicle is deliberately dumped and abandoned by the user, the vehicle manufacturer adopts the form of penalty or recovering the vehicle to recover the economic loss, and meanwhile, the low use rate of the vehicle caused by the vehicle abandoned by the user and the waste of vehicle resources are avoided; if the vehicle is stolen, the vehicle is retrieved and alarmed, so that the economic loss is reduced.

Referring to fig. 5, an embodiment of the present invention provides a controller including:

Referring to fig. 6, preferably, the controller as described above, the controller further comprises:

Referring to fig. 7, preferably, the controller as described above, the controller further comprises:

the first judging module is used for judging whether the oil filling amount information is in a second preset time after receiving the verification passing information or not when the oil filling amount information is acquired after the oil filling amount information is acquired;

Referring to fig. 8, preferably, the controller as described above, the controller further comprises:

Referring to fig. 9, further, the controller as described above, the controller further includes:

The embodiment of the controller of the present invention corresponds to the embodiment of the vehicle usage method applied to the controller, and all implementation means in the embodiment of the vehicle usage method applied to the controller are applicable to the embodiment of the controller, so that the same technical effects can be achieved.

Referring to fig. 10, another preferred embodiment of the present invention provides a vehicle usage method, applied to a cloud server, including:

Step 1001, acquiring and storing input vehicle inventory information;

step 1002, receiving vehicle information sent by a vehicle; the vehicle information is sent when the vehicle receives an unlocking request for unlocking the oil filler lock;

step 1003, verifying the vehicle information and the vehicle inventory information, and when the verification is passed, transmitting verification passing information to the vehicle;

step 1004, receiving fuel filling amount information sent by a vehicle;

step 1005, charging the use of the vehicle according to the fuel charge information to obtain a first fee;

at step 1006, a first fee is drawn from the user account to the vehicle manufacturer account.

In the embodiment of the invention, the cloud server acquires and stores the input vehicle inventory information, so that the cloud server performs unique registration for each vehicle, and is convenient for verifying the vehicle information in the subsequent stage; the cloud server receives vehicle information sent by the vehicle, when the vehicle information is the same as the vehicle checking information and the bank card of the user account has reserved amount for deducting fees, the vehicle information can pass the verification, and the verification result information is sent to the vehicle, so that the vehicle takes corresponding measures, and if the verification passes, the oil filling opening is opened to lock the vehicle for filling oil; the cloud server receives the oil filling amount information of the vehicle, charges the oil filling amount of the vehicle according to a preset charging algorithm, and transfers the obtained first charge from a user account to a vehicle manufacturer account to finish charging for vehicle use once. Through the charge to the vehicle use, can make the vehicle producer reduce the selling price of vehicle, be favorable to the consumer of some low income to purchase the vehicle, improve the sales volume of vehicle producer, reduce the risk that the vehicle was stolen, the benefit of producer and the use couple of vehicle simultaneously are favorable to promoting the vehicle producer to improve the quality of vehicle, guarantee the life of vehicle. In addition, the charge of the vehicle is related to the oil filling amount, which is beneficial to promoting the user to purchase the low-displacement and oil-saving type vehicle, thereby reducing the air pollution.

In the embodiment of the invention, the vehicle check information stored by the cloud server corresponds to the vehicle information one by one, so that the verification of the vehicle information is convenient, the vehicle information can be verified and passed only when all the information is consistent, the normal use of the vehicle is ensured, the risk of preventing the vehicle from being stolen is reduced, and the benefits of users and vehicle manufacturers are ensured.

Referring to fig. 11, preferably, the vehicle using method as described above further includes:

step 1101, receiving feedback information sent by the vehicle, and charging the use of the vehicle according to the feedback information to obtain a second fee; the feedback information is detected for each first preset time length of the vehicle, and the feedback information is sent when the fuel filling amount information is not received within the first preset time length;

at step 1102, a second fee is drawn from the user account to the vehicle manufacturer account.

In the embodiment of the invention, the cloud server receives the feedback information, which indicates that the user does not refuel again within the first preset time after refuel, and judges that the user shields the detection of the oil amount in a certain way or the user does not use the vehicle within the first preset time, at this time, the vehicle is charged to obtain the second cost, and the second cost is divided from the user account to the vehicle manufacturer account, thereby being beneficial to ensuring the benefit of the vehicle manufacturer, improving the utilization rate of the vehicle and avoiding the waste of vehicle resources caused by idle vehicle.

Preferably, the vehicle use method as described above, the vehicle use method further includes:

In the embodiment of the invention, when the cloud server receives the first prompt signal that the vehicle is in the parking state and reaches the third preset duration, the cloud server sends the first preset prompt information to the vehicle manufacturer terminal and the user terminal according to the first preset signal to remind the vehicle manufacturer and the user that the vehicle is in the parking state for a certain time, so that the user and the vehicle manufacturer are facilitated to know the use state of the vehicle, the user is promoted to use the vehicle to improve the use rate of the vehicle, the waste of vehicle resources caused by the phenomena of vehicle storage and vehicle abandonment of the user is avoided, and meanwhile, the benefit of the vehicle manufacturer is ensured.

In the embodiment of the invention, when the cloud server receives the second prompt signal that the vehicle is in the parking state and reaches the fourth preset duration, the cloud server sends the second preset prompt information to the vehicle manufacturer terminal and the user terminal according to the second prompt signal to remind the vehicle manufacturer and the user that the vehicle is in the parking state and reaches the critical time, so that the vehicle manufacturer can take corresponding measures to ensure the own benefit of taking the vehicle, for example, the vehicle manufacturer contacts with the user to determine the state of the vehicle, if the vehicle is deliberately dumped and abandoned, the vehicle manufacturer adopts the form of penalty or vehicle recovery to recover the economic loss, meanwhile, the problem that the vehicle use rate is not high and the waste of vehicle resources is avoided because the vehicle is abandoned by the user is avoided, and if the vehicle is stolen, the vehicle is retrieved and alarmed, thereby reducing the economic loss.

In the embodiment of the invention, when the fuel filler information of the vehicle outside the second preset time after the verification passing information is received, third preset prompt information is sent to the user terminal and the vehicle manufacturer terminal to remind the user and the vehicle manufacturer that the vehicle is not refueled within the preset time when the fuel filler lock is opened, and the risk of being abandoned or stolen exists, so that the vehicle manufacturer knows that the vehicle is problematic and is connected with the user, the due benefit of the vehicle manufacturer is ensured, the vehicle is also beneficial to determining whether the vehicle is stolen or not, the stolen vehicle is recovered, the user or a vehicle stealing person is prevented from damaging the fuel filler lock of the vehicle, and even the fuel tank of the vehicle is replaced to cause economic loss to the vehicle manufacturer.

Referring to fig. 12, another embodiment of the present invention provides a cloud server, including:

the third processing module is used for acquiring input vehicle inventory information;

the second receiving module is used for receiving vehicle information sent by the vehicle; the vehicle information is sent when the vehicle receives an unlocking request sent by the oil filler lock;

Referring to fig. 13, preferably, the cloud server as described above, the cloud server further includes:

The cloud server embodiment of the invention corresponds to the embodiment of the vehicle using method applied to the cloud server, and all the implementation means in the embodiment of the vehicle using method applied to the cloud server are applicable to the embodiment of the cloud server, so that the same technical effect can be achieved.

Referring to fig. 14, still another preferred embodiment of the present invention further provides a vehicle including:

The fuel gauge is fixedly arranged on the instrument panel;

the receiver acquires the oil filling amount information of the fuel meter for filling oil through the oil filling opening after the oil filling opening lock is opened, and the transmitter transmits the oil filling amount information to the cloud server.

In the embodiment of the invention, the vehicle comprises the control device, the fuel gauge and the fuel filler lock, wherein the fuel gauge and the fuel filler lock are connected with the control device, after the receiver of the control device receives an unlocking request for opening the fuel filler lock, vehicle information is sent to the cloud server through the sender to verify the vehicle information, the fuel filler lock is opened to carry out fuel filling operation only when the receiver of the control device receives the verified information, the vehicle can be ensured to be filled under safe and normal conditions, a thief cannot use the vehicle for a long time even though the vehicle is stolen, the risk of vehicle theft is reduced, the receiver of the control device can acquire the fuel filler information of the vehicle when the vehicle is filled, and the sender sends the fuel filler information to the cloud server, so that the vehicle manufacturer charges the fuel filler information of the vehicle through the cloud server, profits of the vehicle manufacturer and the use hook of the vehicle, the vehicle manufacturer is facilitated to promote the vehicle quality to be improved, the vehicle has longer service life, and simultaneously, the vehicle is charged again when the vehicle is used, the vehicle is also facilitated to be reduced, the vehicle theft cost is also reduced, the vehicle cost is reasonably utilized, and the vehicle purchase cost is facilitated to be reduced.

Referring to fig. 15, preferably, the vehicle as described above, the vehicle further includes an alarm control circuit;

the alarm control circuit comprises a power supply 1, a first time relay 2 and a first signal generator 3 which are connected in series;

the first control end of the first time relay 2 is connected with the receiver, and is controlled by the oil consumption information received by the receiver, wherein the oil consumption information is sent when the oil quantity of the fuel meter is reduced or unchanged in unit time;

the timer of the first control end is connected in series with the power supply 1 and the first control switch 21, the second control end of the first control switch 21 is connected with the receiver, and the second control end is controlled by the oil filling amount information received by the receiver;

the first signal generator 3 is connected with a transmitter, and the transmitter transmits feedback information to the cloud server according to a first control signal generated by the first signal generator 3;

the first time relay 2 is of a normally open and time-lapse closed type, and the first control switch 21 is of a normally closed and controlled open type.

In the embodiment of the invention, a first control end of a first time relay 2 is connected with a receiver, when the receiver receives oil consumption information that the oil quantity of a fuel meter is reduced or unchanged in unit time, the first time relay 2 is controlled to start timing, when the timing of the first time relay 2 reaches a first preset time, the first time relay 2 is closed, a closed loop where the first time relay 2, a first signal generator 3 and a power supply 1 are positioned is electrified, so that the first signal generator 3 generates a first control signal, and a transmitter connected with the first signal generator 3 transmits feedback information to a cloud server according to the first control signal generated by the first signal generator 3.

The timer of the first control end is connected in series with the power supply 1 and the first control switch 21, the second control end of the first control switch 21 is connected with the receiver, and when the receiver receives the oil filling amount information, the first control switch 21 is disconnected, so that a loop where the timer of the first control end is located is powered off, and the timing is reset to zero.

That is, after the vehicle is refueled, starting timing when the oil amount of the vehicle is reduced or unchanged in unit time, and restarting timing if the vehicle is refueled again in the first preset time; if the vehicle does not refuel again in the first preset time, the user is judged to adopt a certain mode to shield the detection of the oil quantity or the user does not use the vehicle in the first preset time to lead the vehicle to be idle, and at the moment, the control device can send feedback information to the cloud server, so that a vehicle manufacturer can take corresponding measures according to the feedback information to ensure the benefit of the vehicle manufacturer, the vehicle is also facilitated to be used by the user, the utilization rate of the vehicle is improved, and the waste of vehicle resources caused by the idle of the vehicle is avoided.

Referring to fig. 15, specifically, the vehicle as described above, the alarm control circuit further includes: a second time relay 4, a second control switch 41, and a second signal generator 5 connected in series in order and in parallel with the first time relay 2 and the first signal generator 3;

The third control end of the second time relay 4 is connected with the receiver and is controlled by verification passing information received by the receiver;

a fourth control end of the second control switch 41 is connected with the receiver and is controlled by the oil filling amount information received by the receiver;

the second signal generator 5 is connected with a transmitter, and the transmitter transmits preset alarm information to the cloud server according to a second control signal generated by the second signal generator 5;

the second time relay 4 is of a normally closed and power-off delay-open type, and the control switch is of a normally open and controlled closed type.

In the embodiment of the invention, the third control end of the second time relay 4 is connected with the receiver, the second time relay 4 is in a normally closed and power-off delay disconnection type, when the receiver receives verification passing information, the second time relay 4 is controlled to be disconnected and starts to time, and when a second preset time is spaced, the second time relay 4 is closed;

the fourth control end of the second control switch 41 is connected with the receiver, when the receiver receives the oil filling amount information, the second control switch 41 is controlled to be closed, if the oil filling amount information is in a second preset time after the second time relay 4 is opened at the moment, a loop where the power supply 1, the second time relay 4, the second control switch 41 and the second signal generator 5 are located is powered off, and the second signal generator 5 does not generate a control signal; if the current time is outside a second preset time after the second time relay 4 is disconnected, the loop is electrified, the second signal generator 5 generates a second control signal, and a transmitter connected with the second signal generator 5 transmits preset alarm information to the cloud server according to the second control signal.

That is, after the fuel filling amount information is obtained, judging the time relation between the received verification passing information and the fuel filling amount information, and if the fuel filling amount information is obtained within the second preset time after the verification passing information is received, opening the fuel filling lock to perform the fuel filling operation after the verification passing information is received; if the fuel filler information is obtained outside the second preset time after the verification information is received, the user or the vehicle stealing personnel is informed that the fuel filler lock of the vehicle is damaged, and even the fuel tank of the vehicle is replaced, at the moment, the control device can send the preset alarm information to the cloud server, so that a vehicle manufacturer knows that the vehicle is in question and takes corresponding measures, for example, the vehicle manufacturer can get in touch with the user to know and solve the problem, the due benefit of the vehicle manufacturer is guaranteed, and meanwhile, the loss of the user is avoided.

Referring to fig. 15, preferably, the vehicle as described above, the vehicle further includes: the global positioning system, the alarm control circuit further comprises: a third time relay 6 and a third signal generator 7 connected in series and in parallel with the first time relay 2, the first control switch 21 and the first signal generator 3;

the fifth control end of the third time relay 6 is connected with the receiver, and is controlled by the first geographic position information sent by the global positioning system and received by the receiver, wherein the first geographic position information is sent when the geographic position information acquired by the global positioning system is unchanged in unit time;

The timer of the fifth control end is connected in series with the power supply 1 and the third control switch 61, the sixth control end of the third control switch 61 is connected with the receiver, the sixth control end is controlled by the second geographic position information sent by the global positioning system and received by the receiver, and the second geographic position information is sent when the geographic position information acquired by the global positioning system changes in unit time;

the third signal generator 7 is connected with a transmitter, and the transmitter transmits a first prompt signal to the cloud server according to a third control signal generated by the third signal generator 7;

the third time relay 6 is of the normally open and time-delay closed type, and the third control switch 61 is of the normally closed and controlled open type.

In the embodiment of the invention, a fifth control end of the third time relay 6 is connected with the receiver, when the receiver receives the first geographical position information which is transmitted when the geographical position information acquired by the global positioning system is unchanged in unit time, the third time relay 6 is controlled to start timing, if the timing reaches a third preset time, the third time relay 6 is closed, a loop where the power supply 1, the third time relay 6 and the third signal generator 7 are positioned is electrified, the third signal generator 7 generates a third control signal, and a transmitter connected with the third signal generator 7 transmits a first prompt signal to the cloud server according to the third control signal;

The timer of the fifth control end is connected in series with the power supply 1 and the third control switch 61, the sixth control end of the third control switch 61 is connected with the receiver, and when the receiver receives the second geographic position information sent when the geographic position information acquired by the global positioning system changes within unit time, the third control switch 61 is controlled to be disconnected, so that the timer of the fifth control end is powered off, and the timing is reset to zero.

That is, the control device acquires the geographic position information acquired by the global positioning system of the vehicle, judges the state of the vehicle according to the geographic position information, starts timing when the vehicle is in a parking state all the time in unit time, and restarts timing if the geographic position information of the vehicle is received and changed in unit time; if the timing reaches the third preset time and the vehicle is in the parking state all the time, the vehicle is indicated to be parked and abandoned, and at the moment, the control device sends a first prompt signal to the cloud server, so that a vehicle manufacturer knows that the vehicle is in the parking state for a long time, corresponding measures are taken to ensure the benefit of the vehicle, and meanwhile, a user is informed that the parking state of the vehicle reaches a certain time, the vehicle is facilitated to be used by the user, the utilization rate of the vehicle is improved, and the waste of vehicle resources caused by the phenomena of vehicle handling and vehicle abandoning of the user is avoided.

Referring to fig. 15, further, the vehicle as described above, the alarm control circuit further includes: a fourth time relay 8 and a fourth signal generator 9 connected in parallel with the third time relay 6 and the third signal generator 7;

the seventh control end of the fourth time relay 8 is connected with the receiver, and the seventh control end is controlled by the first geographic position information sent by the global positioning system and received by the receiver;

the timer of the seventh control end is connected in series with the power supply 1 and the fourth control switch 81, the eighth control end of the fourth control switch 81 is connected with the receiver, and the eighth control end is controlled by the second geographic position information sent by the global positioning system and received by the receiver;

the fourth signal generator 9 is connected with a transmitter, and the transmitter transmits a second prompt signal to the cloud server according to a fourth control signal generated by the fourth signal generator 9;

the fourth time relay 8 is of a normally open and controlled closed type, and the fourth control switch 81 is of a normally closed and controlled open type.

In the embodiment of the invention, a seventh control end of the fourth time relay 8 is connected with the receiver, when the receiver receives the first geographic position information sent by the global positioning system, the fourth time relay 8 is controlled to start timing, if the timing reaches a fourth preset time, the fourth time relay 8 is closed, a loop where the power supply 1, the fourth time relay 8 and the fourth signal generator 9 are located is electrified, the fourth signal generator 9 generates a fourth control signal, and a transmitter connected with the fourth signal generator 9 transmits a second prompt signal to the cloud server according to the fourth control signal;

The timer of the seventh control end is connected in series with the power supply 1 and the fourth control switch 81, the eighth control end of the fourth control switch 81 is connected with the receiver, and when the receiver receives the second geographic position information sent by the global positioning system, the fourth control switch 81 is controlled to be turned off, so that the timer of the seventh control end is powered off, and the timing is reset to zero.

That is, if the vehicle is still in the parking state after the timing reaches the fourth preset time, the vehicle is indicated to have the risk of being abandoned or stolen or to be disabled and is discarded, at the moment, the control device sends a second prompt signal to the cloud server for informing the vehicle manufacturer that the vehicle is in the disabled state for a long time to reach the critical time, so that the vehicle manufacturer can take corresponding measures to ensure the benefit of the vehicle, such as the condition of contacting with a user to determine the vehicle, if the vehicle is deliberately dumped and abandoned by the user, the vehicle manufacturer adopts the form of penalty or recycling the vehicle to recover the economic loss, and meanwhile, the low vehicle use rate caused by the vehicle discarding by the user and the waste of vehicle resources are avoided; if the vehicle is stolen, the vehicle is retrieved and alarmed, so that the economic loss is reduced.

In the embodiment of the invention, the processing unit of the cloud server realizes the vehicle using method applied to the cloud server when executing the computer program, so that the cloud server can take corresponding measures according to various signals and information sent by the vehicle, for example, the charging of the fuel charge is carried out when the fuel charge information is received; and receiving preset alarm information, a first prompt signal and a second prompt signal, and sending corresponding preset alarm information to the user terminal and the vehicle manufacturer terminal. Through the operation, a vehicle manufacturer or a user can take corresponding measures to ensure the benefit of the vehicle manufacturer, the user is facilitated to use the vehicle, the utilization rate of the vehicle is improved, and the waste of vehicle resources caused by idle vehicle is avoided.

Furthermore, the present invention may repeat reference numerals and/or letters in the various examples. This repetition is for the purpose of simplicity and clarity and does not in itself dictate a relationship between the various embodiments and/or configurations discussed.

It is further noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprise," "include," or any other variation thereof, are intended to cover a non-exclusive inclusion.

While the foregoing is directed to the preferred embodiments of the present invention, it will be appreciated by those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present invention, and such modifications and adaptations are intended to be comprehended within the scope of the present invention.

Claims

1. A method of using a vehicle, applied to a controller, comprising:

acquiring and storing input vehicle information;

receiving an unlocking request for opening the oil filler lock, and after receiving the unlocking request, sending the vehicle information to a cloud server for verification;

receiving verification passing information sent by the cloud server after verification according to the vehicle information;

controlling the opening of the oil filler lock according to the verification passing information;

Acquiring the oil filling amount information of the fuel gauge for filling oil through the oil filling port after the oil filling port lock is opened;

the oil filling amount information is sent to the cloud server;

after the step of sending the fuel filling amount information to the cloud server, the method further includes:

detecting once every first preset time length, and determining whether the oil filling amount information is received again within the first preset time length;

if the oil filling amount information is not received within the first preset duration, sending feedback information to the cloud server;

the method further comprises the steps of:

and if the judgment result is negative, sending preset alarm information to the cloud server.

2. The vehicle use method according to claim 1, characterized in that the vehicle information includes: vehicle serial number, engine number, frame code, user account information, and vehicle manufacturer account information.

3. The vehicle use of claim 1, wherein the method further comprises:

and if the judgment result is yes, sending a first prompt signal to the cloud server.

4. The vehicle use method according to claim 3, wherein the step of sending the first prompt signal to the cloud server further includes:

judging whether the time length of the vehicle in a parking state reaches a fourth preset time length or not according to the geographic position information;

if the judgment result is yes, a second prompt signal is sent to the cloud server, wherein the fourth preset time period is longer than the third preset time period.

5. A controller, comprising:

The first acquisition module is used for acquiring the oil filling amount information of the fuel gauge for filling oil through the oil filling opening after the oil filling opening lock is opened;

the first sending module is used for sending the oil filling amount information to the cloud server;

the controller further includes:

the first judging module is used for judging whether verification passing information is received within a second preset duration before the fuel filling amount information is received again after the fuel filling amount information is acquired;

the third sending module is used for sending preset alarm information to the cloud server if the judging result is negative;

the second processing module is used for detecting once every first preset time length to determine whether the oil filling amount information is received again within the first preset time length;

the second sending module is used for sending feedback information to the cloud server if the oil filling amount information is not received within the first preset time length;

the second judging module is used for judging whether the duration of the vehicle in a parking state reaches a third preset duration or not according to the geographic position information;

6. The controller of claim 5, wherein the controller further comprises:

the third judging module is used for judging whether the duration of the vehicle in a parking state reaches a fourth preset duration or not according to the geographic position information;

7. The vehicle use method is applied to a cloud server and is characterized by comprising the following steps of:

acquiring and storing input vehicle stock check information;

verifying the vehicle information and the vehicle inventory information, and sending verification passing information to the vehicle when the verification passes;

receiving the oil filling amount information sent by the vehicle;

drawing the first fee from a user account to a vehicle manufacturer account;

The method further comprises the steps of:

receiving feedback information sent by the vehicle, and charging the use of the vehicle according to the feedback information to obtain second expense; the feedback information is detected for a first preset time length of each interval of the vehicle, and the feedback information is sent when the fuel filling amount information is not received again within the first preset time length;

drawing the second fee from the user account to a vehicle manufacturer account;

the method further comprises the steps of:

when a first prompt signal sent by the vehicle is received, sending first preset prompt information to a user terminal and a vehicle manufacturer terminal according to the first prompt signal, wherein the first preset prompt information is used for prompting a user and the vehicle manufacturer that the parking state of the vehicle is unchanged in a third preset duration.

8. The vehicle use method according to claim 7, characterized in that the vehicle inventory information includes: vehicle serial number, engine number, frame code, user account information, and vehicle manufacturer account information.

9. The vehicle use of claim 7, characterized in that the method further comprises:

and when a second prompt signal sent by the vehicle is received, sending second preset prompt information to a user terminal and a vehicle manufacturer terminal according to the second prompt signal, wherein the second preset prompt information is used for prompting a user and the vehicle manufacturer that the vehicle is at risk of being abandoned or stolen.

10. The vehicle use of claim 7, characterized in that the method further comprises:

and when the preset alarm information sent by the vehicle is received, sending third preset prompt information to the user terminal and the vehicle manufacturer terminal, wherein the third preset prompt information is used for prompting the user and the vehicle manufacturer that the vehicle is at risk of being abandoned or stolen.

11. A cloud server, comprising:

the fourth processing module is used for verifying the vehicle information and the vehicle inventory information, and sending verification passing information to the vehicle when the verification passes;

a fifth processing module, configured to charge for use of the vehicle according to the fuel amount information, to obtain a first fee;

a sixth processing module, configured to draw the first fee from the user account to a vehicle manufacturer account;

A seventh processing module, configured to charge, when feedback information sent by the vehicle is received, the use of the vehicle according to the feedback information, so as to obtain a second fee; the feedback information is detected for a first preset time length of each interval of the vehicle, and the feedback information is sent when the fuel filling amount information is not received again within the first preset time length;

the eighth processing module is used for drawing the second fee from the user account to the vehicle manufacturer account;

the cloud server further comprises:

and the second transceiver module is used for transmitting first preset prompt information to the user terminal and the vehicle manufacturer terminal according to the first prompt signal when the first prompt signal transmitted by the vehicle is received, wherein the first preset prompt information is used for prompting the user and the vehicle manufacturer that the parking state of the vehicle is unchanged within a third preset duration.

12. The cloud server of claim 11, wherein the cloud server further comprises:

13. The cloud server of claim 11, wherein the cloud server further comprises:

and the fourth receiving and transmitting module is used for transmitting third preset prompting information to the user terminal and the vehicle manufacturer terminal when receiving the preset alarm information transmitted by the vehicle, wherein the third preset prompting information is used for prompting the user and the vehicle manufacturer that the vehicle is at risk of being abandoned or stolen.

14. A vehicle, characterized by comprising:

the fuel gauge is fixedly arranged on the instrument panel;

after receiving an unlocking request for unlocking the oil filler lock, the receiver sends vehicle information to a cloud server through the transmitter;

The receiver acquires the oil filling amount information of the oil meter for filling oil through the oil filling opening after the oil filling opening lock is opened, and sends the oil filling amount information to the cloud server through the sender;

the vehicle further includes an alarm control circuit;

the alarm control circuit comprises a power supply (1), a first time relay (2) and a first signal generator (3) which are connected in series;

the first control end of the first time relay (2) is connected with the receiver, the first control end is controlled by the oil consumption information received by the receiver, and the oil consumption information is sent when the oil quantity of the fuel meter is reduced or unchanged in unit time;

the timer of the first control end is connected with the power supply (1) and the first control switch (21) in series, the second control end of the first control switch (21) is connected with the receiver, and the second control end is controlled by the oil filling amount information received by the receiver;

the first signal generator (3) is connected with the transmitter, and the transmitter transmits feedback information to the cloud server according to a first control signal generated by the first signal generator (3);

The first time relay (2) is of a normally-open and time-delay closed type, and the first control switch (21) is of a normally-closed and controlled open type;

the alarm control circuit further includes: a second time relay (4), a second control switch (41) and a second signal generator (5) which are connected in series in sequence and connected in parallel with the first time relay (2) and the first signal generator (3);

the third control end of the second time relay (4) is connected with the receiver and is controlled by verification passing information received by the receiver;

a fourth control end of the second control switch (41) is connected with the receiver, and the fourth control end is controlled by the oil filling amount information received by the receiver;

the second signal generator (5) is connected with the transmitter, and the transmitter transmits preset alarm information to the cloud server according to a second control signal generated by the second signal generator (5);

the second time relay (4) is of a normally closed type and a power-off delay opening type, and the control switch is of a normally open type and a controlled closing type.

15. The vehicle of claim 14, characterized in that the vehicle further comprises: the global positioning system, the alarm control circuit further comprises: a third time relay (6) and a third signal generator (7) connected in series and in parallel with the first time relay (2), the first control switch (21) and the first signal generator (3);

A fifth control end of the third time relay (6) is connected with the receiver, and is controlled by first geographic position information sent by the global positioning system and received by the receiver, wherein the first geographic position information is sent when geographic position information acquired by the global positioning system is unchanged in unit time;

the timer of the fifth control end is connected in series with the power supply (1) and a third control switch (61), the sixth control end of the third control switch (61) is connected with the receiver, the sixth control end is controlled by second geographic position information sent by the global positioning system and received by the receiver, and the second geographic position information is sent when geographic position information acquired by the global positioning system changes in unit time;

the third signal generator (7) is connected with the transmitter, and the transmitter transmits a first prompt signal to the cloud server according to a third control signal generated by the third signal generator (7);

the third time relay (6) is of a normally open and time-delay closed type, and the third control switch (61) is of a normally closed and controlled open type.

16. The vehicle of claim 15, wherein the alarm control circuit further comprises: a fourth time relay (8) and a fourth signal generator (9) connected in parallel with the third time relay (6) and the third signal generator (7);

a seventh control end of the fourth time relay (8) is connected with the receiver, and the seventh control end is controlled by the first geographic position information sent by the global positioning system and received by the receiver;

the timer of the seventh control end is connected in series with the power supply (1) and a fourth control switch (81), an eighth control end of the fourth control switch (81) is connected with the receiver, and the eighth control end is controlled by the second geographic position information sent by the global positioning system and received by the receiver;

the fourth signal generator (9) is connected with the transmitter, and the transmitter transmits a second prompt signal to the cloud server according to a fourth control signal generated by the fourth signal generator (9);

the fourth time relay (8) is of a normally open and controlled closing type, and the fourth control switch (81) is of a normally closed and controlled opening type.

17. A cloud server, comprising: a storage unit, a processing unit, and a computer program stored on the storage unit and executable on the processing unit; wherein the processing unit, when executing the computer program, implements the vehicle use method according to any one of claims 7 to 10.