CN108665075B

CN108665075B - Automobile maintenance system and maintenance method thereof

Info

Publication number: CN108665075B
Application number: CN201810210428.7A
Authority: CN
Inventors: 黄超超; 李晓丽
Original assignee: Zebred Network Technology Co Ltd
Current assignee: Zebred Network Technology Co Ltd
Priority date: 2018-03-14
Filing date: 2018-03-14
Publication date: 2022-04-15
Anticipated expiration: 2038-03-14
Also published as: CN108665075A

Abstract

The automobile maintenance system comprises at least one automobile platform, wherein the automobile platform is communicated with the automobile so as to obtain at least one predicted travel data and at least one vehicle condition data of the automobile; the maintenance platform is communicatively connected to the vehicle machine platform and comprises at least one maintenance unit and at least one condition unit, the condition unit analyzes the predicted travel data to obtain at least one travel package, the maintenance unit analyzes the travel package and the vehicle condition data to obtain at least one maintenance package, and the maintenance package is suitable for maintaining the vehicle.

Description

Automobile maintenance system and maintenance method thereof

Technical Field

The present invention relates to an automotive system, and more particularly to an automotive maintenance system and a maintenance method thereof, wherein the automotive maintenance system maintains a vehicle according to a predicted trip of the vehicle.

Background

Vehicle maintenance refers to the preventive work of regularly inspecting, cleaning, supplying, lubricating, adjusting or replacing some parts of the relevant parts of the vehicle, and is also called vehicle maintenance. As people need to perform physical examination regularly, automobiles need to be inspected and maintained from time to time, and maintaining automobiles can keep the appearance of automobiles clean, clear hidden dangers, prevent accidents, slow down the deterioration process, prolong the service life and the like, so that vehicle maintenance is inevitable for a vehicle family, and maintenance is more needed particularly after the automobiles run for a period of time. In common speaking, "the seven-element cultivation and the three-element cultivation" are increasingly the choice of the vehicular group to cultivate instead.

At present, automobile maintenance mainly refers to maintenance and adjustment of an automobile, the maintenance of the automobile refers to maintenance or replacement of parts of the automobile and an automobile body, the adjustment of the automobile refers to setting all parts of the automobile to be better performance, specifically, the adjustment of the automobile refers to more accurate adjustment of parameters of all parts of the automobile on the basis of an original factory, parameters are optimized, the operation efficiency of an ECU (electronic control unit) computer is improved, and therefore the purposes of increasing the output efficiency of an engine, improving torque, reducing extra fuel consumption and the like are achieved. In general, a user needs to send a vehicle to a special service shop for maintenance at regular intervals, or send the vehicle to a special service shop for maintenance when there is a special need.

When the vehicle is sent to a special maintenance shop for maintenance, a maintenance professional checks the vehicle condition and then performs maintenance replacement on the abnormal vehicle condition according to the vehicle standard. For example, chassis maintenance of a vehicle mainly includes maintenance of a transmission system, a brake system and a running system, whether bearing tightness of the vehicle is proper or not, whether front wheel positioning is correct or not, whether tire air pressure is normal or not and the like are checked, and therefore traffic accidents caused by vehicle faults can be avoided as much as possible. In addition, the vehicle owner may need to refit the vehicle, and after the vehicle owner tells the maintenance person the requirement, the maintenance person adjusts the vehicle according to the judgment of the maintenance person and the common habit so as to meet the requirement of the vehicle owner.

However, these methods of maintaining a vehicle have the intuitive disadvantage of not being able to accurately maintain the vehicle in accordance with the future journey of the vehicle. In other words, the conventional automobile maintenance system can maintain the vehicle in a good state as much as possible, but cannot maintain the vehicle in a state suitable for traveling. For example, when the owner chooses to perform a complete maintenance on the vehicle before the owner travels, the maintenance shop may use the original factory setting to maintain the vehicle in a better state according to the vehicle maintenance, so as to ensure that the vehicle is not easy to have an accident during the traveling process. However, such a method still cannot ensure the driving safety and the driving comfort of the vehicle well.

Even if the vehicle is maintained to the best state similar to the factory setting, it is not ensured that the vehicle always maintains good performance in the upcoming trip. For example, if a car needs to pass through a muddy ground in the expected travel, the car is very likely to be stuck in the muddy ground due to the lower chassis of the bridge car, thereby causing a phenomenon of being slow to stop. The maintenance of existing vehicles cannot avoid this. In addition, different automobile tires are suitable for different roads, such as mountain tires are needed to enhance friction when climbing mountain roads, and a maintenance shop does not actively change the proper tires for the vehicle during the maintenance process of the vehicle unless the owner specifically mentions that the tires need to be changed.

Of course, when the owner informs the maintenance personnel of the upcoming trip, the maintenance personnel can replace the parts of the repaired vehicle or calibrate the vehicle according to the research, but it is worth mentioning that such pre-determination process is completely dependent on the experience of the maintenance personnel, so that such vehicle maintenance is not accurate. Maintenance personnel maintain the vehicle according to own experience, and the mode can not only ensure that the safety of the vehicle is kept in the process of starting, but also can cause unrecoverable damage to the vehicle. In other words, when a serviceman replaces an inappropriate part with a maintenance vehicle, there is a high possibility that the maintenance vehicle will be accidentally worn.

In summary, the conventional automobile maintenance cannot completely prepare the next journey of the vehicle, and when the owner drives a vehicle which is not prepared to start the next journey, various situations inevitably occur in the driving process, so that the service cycle of the vehicle is shortened, and even traffic accidents occur.

Disclosure of Invention

The invention aims to provide an automobile maintenance system and a maintenance method thereof, wherein the automobile maintenance system can acquire the predicted journey of a vehicle and perform targeted maintenance on the vehicle according to the predicted journey to make sufficient preparation for the predicted journey of the vehicle.

The invention aims to provide an automobile maintenance system and a maintenance method thereof, wherein the automobile maintenance system can be communicated with the Internet or other terminals, in other words, the automobile maintenance system realizes the maintenance of a vehicle through the Internet, and the automobile maintenance system can acquire the specific information of the predicted journey of the vehicle through the Internet so as to maintain the vehicle in a targeted manner.

The invention aims to provide an automobile maintenance system and a maintenance method thereof, wherein the automobile maintenance system is communicated with the Internet or other terminals, so that the automobile maintenance system can acquire the travel information of a vehicle in various ways to optimize the maintenance efficiency of the automobile maintenance system. In other words, the automobile maintenance system can automatically acquire the predicted journey of the vehicle to maintain the vehicle more efficiently.

The invention aims to provide an automobile maintenance system and a maintenance method thereof, wherein the automobile maintenance system acquires vehicle condition data of a vehicle through a sensor, namely the vehicle can send real-time vehicle conditions to a maintenance platform, so that the maintenance platform can perform targeted maintenance on the vehicle according to the vehicle condition data.

The invention aims to provide an automobile maintenance system and a maintenance method thereof, wherein the automobile maintenance system can automatically judge maintenance conditions by combining vehicle condition data of a vehicle and an estimated travel of the vehicle so as to automatically prompt a user to carry out targeted maintenance on the vehicle and improve driving safety. In other words, the vehicle maintenance system can determine whether the vehicle needs to be maintained according to the vehicle condition data and the predicted journey.

The invention aims to provide an automobile maintenance system and a maintenance method thereof, wherein the automobile maintenance system can record the maintenance condition of a vehicle, namely the vehicle or the automobile maintenance system can store the maintenance record so as to update the information of the vehicle in real time, so that the vehicle can be conveniently and subsequently driven or maintained.

The invention aims to provide an automobile maintenance system and a maintenance method thereof, wherein the automobile maintenance system pre-judges the predicted travel of a vehicle, so that the most suitable running preparation is provided for the vehicle, and the intelligent maintenance of the vehicle is realized.

The invention aims to provide an automobile maintenance system and a maintenance method thereof, wherein the automobile maintenance system ensures that a vehicle is sufficiently prepared before a predicted journey is carried out, so that the driving safety of the vehicle and the driving comfort of a driver are greatly improved.

The invention aims to provide an automobile maintenance system and a maintenance method thereof, wherein the automobile maintenance system carries out targeted maintenance on a vehicle so that the vehicle is maintained in the most appropriate state, so that the applicability of the vehicle is improved and the service life of the vehicle is prolonged.

The invention aims to provide an automobile maintenance system and a maintenance method thereof, wherein the automobile maintenance system is used for maintaining vehicles in a targeted manner, so that driving personnel can be sufficiently prepared before going out, and traffic accidents are avoided to the greatest extent.

The invention aims to provide an automobile maintenance system and a maintenance method thereof, wherein the automobile maintenance system is used for maintaining vehicles in a targeted manner, so that the maintenance cost of the vehicles is saved, and the maintenance efficiency of the vehicles is improved.

The invention aims to provide an automobile maintenance system and a maintenance method thereof, wherein the automobile maintenance method is simple and easy to operate, is suitable for vehicles with any sensible predicted travel and has wide market applicability.

The invention aims to provide an automobile maintenance system and a maintenance method thereof, wherein the automobile maintenance method greatly improves the maintenance efficiency of an automobile and the maintenance effect compared with the traditional automobile maintenance method.

In order to achieve any one of the above objects, the present invention provides an automobile maintenance method, which is suitable for maintaining at least one vehicle, and comprises the following steps:

s1: obtaining at least one travel package, wherein the travel package corresponds to the vehicle;

s2: providing a maintenance package, and providing the maintenance package by a maintenance unit, wherein the maintenance package corresponds to the travel package; and

s3: and providing maintenance service for the vehicle according to the maintenance package.

In some embodiments, wherein the vehicle maintenance method further comprises the steps of:

s4: and generating and recording a maintenance record.

In some embodiments, step S2 of the automobile maintenance method further comprises the following steps:

s5: providing vehicle condition data, and providing the vehicle condition data by a vehicle platform.

In some embodiments, the step S2 further comprises the following steps:

s21: obtaining the travel package and the vehicle condition data through a maintenance unit; and

s22: and analyzing the travel package and the vehicle condition data through the maintenance unit to obtain the maintenance package.

In some embodiments, the step S1 further comprises the following steps:

s11: acquiring at least one piece of predicted travel data, wherein the predicted travel data is provided by a vehicle platform; a and

s12: analyzing the predicted travel data by a condition unit to obtain the travel packet.

In some embodiments, the travel package includes one or a combination of travel destination information, travel environment information, and crew information, and the maintenance package includes one or a combination of vehicle maintenance information, component replacement information, component maintenance information, and backup information.

In some embodiments, the trip prediction information is obtainable in communication with at least one mobile terminal, wherein the mobile terminal is associated with the vehicle and provides the predicted trip data for the vehicle.

In some embodiments, the maintenance package in step S3 is transmitted to the vehicle or at least a maintenance center, and the vehicle or the maintenance center maintains the vehicle according to the maintenance package.

According to another aspect of the present invention, there is provided a vehicle maintenance method, adapted for maintaining at least one vehicle, comprising the steps of:

a1: judging at least one maintenance state of the vehicle, wherein the maintenance state comprises an abnormal state and a normal state, and when the vehicle is in the abnormal state, executing the step A2;

a2: providing a maintenance bag, and providing the maintenance bag by a maintenance platform; and

a3: and providing maintenance service for the vehicle according to the maintenance package.

In some embodiments, wherein the step a1 further comprises the steps of:

a11: acquiring at least one piece of predicted travel data, wherein the predicted travel data is provided by a vehicle platform;

a12: analyzing the predicted travel data through a condition unit to obtain the travel packet;

a13: acquiring at least one vehicle condition data, wherein the vehicle platform provides the vehicle condition data; and

a14: and analyzing the vehicle condition data and the travel package through an analysis unit to judge the maintenance state of the vehicle.

According to another aspect of the present invention, there is provided an automotive maintenance system adapted for maintaining at least one vehicle, comprising:

the vehicle platform is communicated with the vehicle to acquire at least one predicted travel data and at least one vehicle condition data of the vehicle;

the maintenance platform is communicatively connected to the vehicle machine platform and comprises at least one maintenance unit and at least one condition unit, the condition unit analyzes the predicted travel data to obtain at least one travel package, the maintenance unit analyzes the travel package and the vehicle condition data to obtain at least one maintenance package, and the maintenance package is suitable for maintaining the vehicle.

In some embodiments, the maintenance platform further comprises at least one analysis unit, wherein the analysis unit obtains the vehicle condition data and the travel package, and pre-determines the maintenance state of the vehicle, and the maintenance unit obtains the maintenance package when the vehicle is in an abnormal state.

In some embodiments, the vehicle-mounted device platform includes at least one data unit, where the data unit is connected to the maintenance platform, and the data unit includes at least one communication module and/or at least one obtaining module, where the communication module is communicated with the internet to obtain the predicted journey data of the vehicle, and the obtaining module directly obtains the predicted journey data of the vehicle.

In some embodiments, the maintenance package is transmitted to the vehicle or at least a maintenance center, and the vehicle or the maintenance center maintains the vehicle according to the maintenance package.

In some embodiments, the vehicle maintenance system further comprises a terminal communicatively coupled to the maintenance platform and the vehicle platform.

Drawings

Fig. 1 is a schematic overall block diagram of a vehicle maintenance system according to a preferred embodiment of the present invention.

Fig. 2 is a partial block diagram of the automobile maintenance system according to the above preferred embodiment of the present invention.

Fig. 3 is an overall block diagram schematically illustrating a vehicle maintenance system according to another preferred embodiment of the present invention.

Fig. 4 is a partial block diagram illustrating the vehicle maintenance system according to the above preferred embodiment of the present invention.

Fig. 5 is a schematic view of a trip pack in the automobile maintenance system according to the above preferred embodiment of the present invention.

Fig. 6 is a schematic view of a maintenance pack in the automobile maintenance system according to the above preferred embodiment of the present invention.

FIG. 7 is a flowchart illustrating a method for maintaining a vehicle according to a preferred embodiment of the present invention.

FIG. 8 is a flow chart illustrating a method for maintaining a vehicle according to another preferred embodiment of the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced devices or components must be constructed and operated in a particular orientation and thus are not to be considered limiting.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

As shown in fig. 1, the present invention provides an automobile maintenance system, wherein the automobile maintenance system includes a maintenance platform 10 and a vehicle platform 20, wherein the vehicle platform 20 is connected to a vehicle, and information of the vehicle is interactively communicated with the maintenance platform 10 through the vehicle platform 20. In an embodiment of the present invention, the vehicle platform 20 obtains the predicted journey data of the vehicle, and transmits the predicted journey data to the maintenance platform 10, and the maintenance platform 10 provides a maintenance package 40 according to the predicted journey data provided by the vehicle platform 20, wherein the maintenance package 40 is specific to the predicted journey data. In addition, the service pack 40 is transmitted to the vehicle platform 20 or a maintenance center, so that the service pack 40 can perform targeted maintenance on the vehicle through the vehicle platform 20, or the maintenance center provides targeted maintenance for the vehicle according to the service pack 40.

It is worth mentioning that, unlike conventional vehicle maintenance, the vehicle maintenance system may acquire a predicted trip of the vehicle and perform targeted maintenance on the vehicle according to the predicted trip, thereby sufficiently preparing for the predicted trip of the vehicle. The conventional vehicle maintenance can only maintain the vehicle according to the real-time condition of the vehicle and the original factory setting data of the vehicle, for example, after the vehicle runs for a long time, the vehicle is generally subjected to tire inspection, safety belt airbag inspection, engine oil inspection, brake system inspection and the like. As an example, tire inspection is taken, and conventional vehicle maintenance inspects the appearance and the degree of wear of vehicle tires, compares the real-time vehicle condition state with the original factory settings of the vehicle, and considers whether to replace the tires; however, the automobile maintenance system provided by the invention can accurately pre-judge whether the vehicle needs to replace the tire according to the predicted travel of the vehicle.

Specifically, the vehicle platform 20 includes a data unit 21 and a detection unit 22, wherein the vehicle platform 20 is connected to the vehicle, so that the vehicle platform 20 can obtain the vehicle information of the vehicle. Specifically, the data unit 21 obtains the predicted travel data of the vehicle, and the detection unit 22 obtains the real-time vehicle condition data of the vehicle, or the vehicle transmits the predicted travel data to the data unit 21 and transmits the real-time vehicle condition data to the detection unit 22, so that the vehicle platform 20 can obtain the predicted travel data and the real-time vehicle condition data of the vehicle, and the maintenance platform 10 can provide the vehicle with the targeted maintenance package 40 according to the predicted travel data and the real-time vehicle condition data.

The data unit 21 is in communication with the vehicle to obtain the predicted trip data of the vehicle. Wherein the data unit 21 can acquire the predicted journey data of the vehicle in various ways, in the present invention, the data unit 21 can be connected to the internet to acquire the predicted journey data of the vehicle indirectly or directly through input data. Specifically, the data unit 21 includes at least one communication module 211 and at least one obtaining module 212, where the communication module 211 is connected to the internet, and the obtaining module 212 directly obtains the predicted journey data.

The communication unit 211 may be implemented as an interactor on the vehicle, wherein the interactor is disposed on the vehicle to realize information interaction between the vehicle and the outside, and wherein the interactor is communicated with the internet to acquire the predicted travel data of the vehicle. For example, the interactive device may be connected to an electronic trip list of a vehicle operator, and when the vehicle operator inputs a predicted trip in the electronic trip list, the interactive device may be connected to the electronic trip list to obtain the predicted trip data. For another example, the interactor may be connected to various terminal software of a vehicle operator, so as to obtain the predicted journey data from data habits of the vehicle operator.

For example, the interactor is connected to a mobile terminal 50 of the vehicle driver, and when the vehicle driver frequently searches information of a specific mountain region on the mobile terminal 50, the interactor can judge the predicted journey of the vehicle to be the specific mountain region according to big data analysis. When the vehicle driver searches the information of the self-driving tour on the mobile terminal 50, the interactor can also judge that the predicted journey of the vehicle is the destination of the self-driving tour according to a database. Of course, when the driver notes the next trip message directly on the mobile terminal 50, the interactor can directly acquire the predicted trip data. In other words, the interactor can communicate the predicted trip data of the vehicle via the internet or the like. It should be noted that the specific implementation of the interactor and the communication unit 211 is not limited, and does not affect the inventive content and the inventive spirit of the present invention.

Unlike the link module 211, the acquisition unit 212 directly acquires the predicted travel data of the vehicle. In an embodiment of the present invention, the obtaining unit 212 is implemented as an input device disposed on the vehicle, so that the vehicle operator can input the predicted travel data through the obtaining unit 212. The input device may be implemented as an on-board navigation device or other device through which a driver of the vehicle inputs a predicted trip during a particular use, in such a way that the acquisition unit 212 acquires the predicted trip data of the vehicle. For example, when the input device is implemented as an on-board navigation device, the driver may search for an upcoming journey in the on-board navigation device, so that the input device transmits the predicted journey data to the acquisition unit 212.

It is worth mentioning that the predicted travel data includes information of a destination of the predicted travel, a time of the predicted travel, a traveler of the predicted travel, and the like. In addition, the obtaining unit 212 and the communicating unit 211 may work independently or in communication, in other words, the data unit 21 may obtain the predicted travel data through the obtaining unit 212 and the communicating unit 211 at the same time, or may obtain the predicted travel data from the obtaining unit 212 or the communicating unit 211 separately. The vehicle is provided with the interactor or the input device to transmit the predicted travel data to the vehicle platform 20.

After the vehicle machine platform 20 acquires the estimated travel data, the estimated travel data is transmitted to the maintenance platform 10, so that the maintenance platform 10 can provide the targeted maintenance package 40 according to the estimated travel data. It is worth mentioning that the maintenance platform 10 can be arranged in the vehicle-mounted machine system of the vehicle, and the maintenance platform 10 can also be arranged in the vehicle-mounted machine system of the vehicle independently.

In order to provide the targeted maintenance pack 40 for the predicted trip data, the maintenance platform 10 includes at least one pre-line unit 11 and a condition unit 12, wherein the pre-line unit 11 is connected to the data unit 21, and the condition unit 12 is connected to the pre-line unit 11 in communication. The pre-line stroke data acquired by the data unit 11 is transmitted to the pre-line unit 11, which includes the pre-line stroke data acquired from the communication module 211 and the acquisition module 212, so that the pre-line unit 11 stores the pre-line stroke data.

The condition unit 12 is communicatively connected to the pre-trip unit 11 to convert the pre-trip travel data into at least one travel package 30, and specifically, the condition unit 12 may be connected to the internet or at least one terminal to obtain specific information of a predicted travel of the vehicle, so as to convert the predicted travel data into the travel package 30.

Specifically, the condition unit 12 may convert the pre-trip data into the trip pack 30 for maintenance convenience. In an embodiment of the present invention, the condition unit 12 includes at least one traffic condition module 121, an environmental condition module 122 and at least one trip condition module 123, where the traffic condition module 121 may obtain trip traffic information of a predicted trip according to the predicted trip data, the environmental condition module 122 may obtain trip environmental information of the predicted trip according to the predicted trip data, and the trip condition module 123 may obtain vehicle information of the predicted trip according to the predicted trip data, so that the trip pack 30 includes one or a combination of the trip traffic information, the trip environmental information and the vehicle information.

In other words, the predicted trip data may include information of a predicted trip destination, a predicted trip time, a predicted driver combination, and the like of the maintenance vehicle, and the condition unit 12 acquires the predicted trip data and is connected to the internet to acquire the trip pack 30. It is worth mentioning that the condition unit 12 may be implemented as the interactor to communicate with the internet when the maintenance platform 10 is built into the vehicle. Specifically, for example, the predicted travel data shows that the predicted travel of the vehicle is from date a to location B, the vehicle driver includes three doors, the traffic condition module 121 may communicate with the internet to obtain the travel traffic information arriving at location B, the environmental condition module 122 may search the weather condition of date a to obtain the travel environmental information, and the travel condition module 123 may obtain the specific information (such as age, preference, physical condition, etc.) of the vehicle driver to obtain the vehicle driver information. It should be noted that the present invention is only used as an example, the condition unit 12 can obtain more formation information about the predicted trip, that is, the trip pack 30 not only includes the trip purpose information, the trip environment information, the driver information, and the like, but also includes other trip data related to the trip, and the condition module of the condition unit 12 can be adjusted according to design requirements.

Automobile maintenance not only needs to learn the travel package of the vehicle, but also needs to acquire vehicle condition information of the vehicle. In practical applications, the vehicle condition information of the vehicle can be obtained through vehicle detection, for example, when the vehicle is sent to a maintenance center for maintenance, the maintenance center can detect the vehicle condition information of the vehicle and obtain the maintenance package 40 according to the travel package 30. In an embodiment of the present invention, the vehicle may self-test the vehicle condition data, so that the maintenance platform 10 can obtain the specific maintenance pack 40 according to the vehicle condition data and the travel pack 30.

Specifically, the vehicle platform 20 further comprises the detection unit 22, and the detection unit 22 is adapted to detect the vehicle condition data of the vehicle. The detecting unit 22 further includes at least one component detecting module 221 and at least one vehicle detecting module 222, wherein the component detecting module 221 detects an operation status of a component of the vehicle, and the vehicle detecting module 222 detects an overall operation status of the vehicle. The detection unit 22 is implemented as different types of sensing detectors, wherein the sensing detectors are disposed on the vehicle to detect the vehicle condition data of the vehicle in real time, the component detection module 221 is implemented as a component detector to detect the component condition of the vehicle, and the in-vehicle detection module 222 is implemented as an in-vehicle detector to detect the in-vehicle condition of the vehicle. For example, the component detection module 221 may include at least one tire detector adapted to detect a tire condition of the vehicle, or the component detection module 221 may include at least one cylinder detector adapted to detect a cylinder condition of the vehicle. After the detection unit 22 collects the vehicle condition data about the vehicle, the vehicle condition data is transmitted to the maintenance platform 10, so that the maintenance platform 10 can obtain the corresponding maintenance pack 40 according to the vehicle condition data and the travel pack 30.

Correspondingly, the maintenance platform 10 includes a vehicle condition unit 14, and the vehicle condition unit 14 is communicatively connected to the detection unit 22 to obtain the vehicle condition data. In this way, the vehicle condition unit 14 is caused to store the vehicle condition data of the vehicle, and the pre-travel unit 11 is caused to store the predicted trip data of the vehicle, so that the maintenance platform 10 can acquire targeted maintenance information from the predicted trip data and the vehicle condition data.

It should be noted that, in an embodiment of the present invention, the maintenance platform 10 performs targeted maintenance on the vehicle after receiving a maintenance request. At this time, the maintenance platform 10 further includes a maintenance unit 13, the maintenance unit 13 is communicatively connected to the vehicle condition unit 14 and the condition module 13 to obtain the vehicle condition data of the vehicle and the travel package 30, and the maintenance unit 13 can obtain the maintenance package 40 according to the vehicle condition data and the travel package 30, wherein the maintenance package 40 corresponds to the travel package 30 of the vehicle.

Specifically, a maintenance database is stored in the maintenance unit 13 or the maintenance unit 13 is connected to at least one internet, so that the maintenance unit 13 can specifically obtain the maintenance package 40 according to the travel package 30 and the vehicle condition data. As shown in the figure, the maintenance package 40 includes at least one vehicle maintenance information, a component replacement information, a component maintenance information, a standby condition information, and other maintenance information, the vehicle maintenance information refers to maintenance information of an overall appearance and an interior of the vehicle, the component replacement information refers to replacement information of a vehicle component, the component maintenance information refers to maintenance information of a component of the vehicle, the standby condition information refers to personnel information of a traveler of the vehicle, and of course, the maintenance package 40 may include only one maintenance information, or may include more types of maintenance information, which is not limited in this respect.

The maintenance unit 13 can know the maintenance position and maintenance condition of the vehicle according to the travel package 30 and the vehicle condition data, for example, when the travel package 30 indicates that the vehicle is about to travel to a mountain and a rain storm may occur during traveling. The maintenance unit 13 can be used to maintain the vehicle in a targeted manner for severe weather conditions, such as the need to replace tires with skid-resistant mountain tires, the need to fill the cylinders with oil, the need for more sensitive braking systems, etc., which are then summarized into the maintenance pack 40. For another example, when the travel package 30 indicates that the vehicle is about to travel long with an infant, the maintenance unit 13 is configured to purposely maintain the vehicle as a vehicle suitable for caring for the infant, such as a car with a safety seat, a wide-seat, a spare tire, etc., and these pieces of information are collected as the maintenance package 40.

It should be particularly noted that the maintenance unit 13 may store a maintenance standard database, and the maintenance platform 10 may directly call the information of the standard database as needed. In addition, the maintenance unit 13 may also be implemented to be connected to the internet, so that the maintenance platform 10 may be connected to the internet to obtain the maintenance pack 40 as required.

In another embodiment of the present invention, the maintenance unit 10 may pre-determine whether the vehicle needs to be maintained according to the travel package 30 and the vehicle condition data, and if the vehicle is determined to need to be maintained, the maintenance unit 10 may automatically prompt the user to perform vehicle-specific maintenance, so as to improve driving safety. In other words, the maintenance unit 10 can self-judge whether the vehicle needs to be maintained.

At this time, the maintenance unit 10 further includes at least one analysis unit 15A, wherein the analysis unit 15A is connected to the condition unit 12 and the vehicle condition unit 14, so that the analysis unit 15A can obtain the travel package 30 and the vehicle condition data of the vehicle, and the analysis unit 15A can analyze whether the vehicle needs maintenance according to the travel package 30 and the vehicle condition data. If the analysis unit 15A obtains that the vehicle needs to be maintained, the analysis unit 15A is connected to the maintenance unit 13, so that the maintenance unit 13 provides the corresponding maintenance pack 40 according to the travel pack 30 and the vehicle condition data. If the analysis unit 15A obtains that the vehicle does not need to be maintained, the analysis unit 15A does not perform the next operation. In other words, in the embodiment of the present invention, the maintenance unit 10 automatically determines whether the vehicle needs to be maintained, so as to improve the driving safety of the vehicle.

For example, when the destination of the vehicle obtained by the pre-trip unit 11 is a remote destination, and the vehicle condition data obtained by the vehicle condition unit 14 is poor and is not suitable for the remote destination trip, the analysis unit 15A may comprehensively determine an analysis result according to the vehicle condition data and the trip packet 30. When the analysis result shows that the vehicle needs maintenance, the analysis unit 15A notifies the vehicle.

Specifically, the analysis unit 15A further includes a determination module 151A and a trigger module 152A, wherein the determination module 151A is connected to the vehicle condition unit 14 and the condition unit 12, so that the determination module 151A can determine the vehicle condition according to the vehicle condition data and the travel package 30. The triggering module 152A is connected to the judging module 151A and the maintenance unit 13, when the judging module 151A judges that the vehicle needs to be maintained, the triggering module 152A triggers the maintenance unit 13 to work, and the triggering module 152A sends prompt information to the vehicle, so as to prompt the vehicle.

When the maintenance unit 13 receives the maintenance pack 40, the maintenance pack 40 is transferred to a maintenance center or transferred to the vehicle platform 20. It is worth mentioning that the maintenance center maintains the vehicle according to the maintenance pack 40 when the maintenance pack 40 is transferred to the maintenance center. When the service pack 40 is transferred to the vehicle platform 20, the vehicle may self-service the vehicle according to the service pack 40.

Specifically, the vehicle platform 20 further includes a processing unit 24, wherein the processing unit 24 may be implemented as an ECU, and is disposed on the vehicle. At this time, the ECU of the vehicle may perform preliminary maintenance of the vehicle according to the maintenance pack 40. For example, when the maintenance pack 40 needs to maintain the vehicle to a type suitable for mountain travel, the processing unit 24 adjusts the vehicle data so that the vehicle meets the travel requirements.

In addition, the vehicle maintenance system may record the maintenance package 40, i.e., the vehicle or the vehicle maintenance system may store the maintenance record, so as to update the information of the vehicle in real time for subsequent driving or maintenance of the vehicle. Specifically, the vehicle platform 20 includes a storage unit 23, wherein the storage unit 23 includes at least one maintenance pack storage module 231, and the maintenance pack storage module 231 is connected to the maintenance unit 13, so that the maintenance pack 40 obtained by the maintenance unit 13 can be stored in the maintenance pack storage module 231. In addition, the maintenance unit 13 additionally generates a maintenance record 31, the maintenance record 31 is also stored in the maintenance package storage module 231, and the maintenance record 31 records the maintenance condition of the vehicle, so that the data of the vehicle is updated in real time.

In addition, the storage unit 23 is communicated with the vehicle condition unit 14, that is, the vehicle condition unit 14 can not only obtain the vehicle condition data of the current vehicle, but also obtain the past maintenance condition of the vehicle, so as to better maintain the vehicle. For example, when the maintenance record 31 indicates that the vehicle has been subjected to bonnet modification, the maintenance unit 13 may specifically lift the maintenance pack 40 during the subsequent maintenance process.

Of course, the vehicle maintenance system additionally includes a terminal 50, and the terminal 50 may be installed in a smart terminal. Preferably, the terminal 50 is installed in a mobile intelligent terminal. For example, computers, tablets, smart phones, wearable devices, and the like. The terminal 50 is communicatively connected to the maintenance platform 10 and the on-board machine platform 20 so that the information of the maintenance pack 40 can be viewed through the terminal. Or when the user logs in to the terminal 50 using an account, the user may trigger a maintenance request through the terminal 50. The maintenance platform 10 starts to maintain the vehicle according to the maintenance request.

In summary, when the vehicle maintenance system is adapted to maintain a vehicle, the vehicle platform is connected to the vehicle, so as to obtain a predicted travel and vehicle condition data of the vehicle, the maintenance platform obtains the predicted travel and the vehicle condition data, and obtains the maintenance package according to the predicted travel and the vehicle condition data, and a maintenance center or the vehicle maintains the vehicle according to the maintenance package. Of course, the automobile maintenance system can automatically judge whether the vehicle needs to be maintained, and if the vehicle needs to be maintained, the automobile maintenance system provides the maintenance package. It should be noted that, in the embodiment of the present invention, the vehicle maintenance system may perform targeted maintenance on the vehicle according to the predicted travel of the vehicle to sufficiently prepare the vehicle.

1000: triggering a maintenance request;

2000: acquiring at least one travel package 30;

3000: providing a maintenance pack 40, wherein the maintenance pack 40 is directed to the travel pack 30; and

4000: and providing maintenance service for the vehicle according to the maintenance package 40.

Of course, the automobile maintenance method further comprises the following steps: 5000: a maintenance record 31 is generated and the maintenance record 31 is recorded.

It is worth mentioning that, in the embodiment of the present invention, the vehicle maintenance method is completed by the vehicle maintenance system, and in the embodiment, the vehicle maintenance method is triggered to occur.

Specifically, in step 1000, the triggering request may be triggered by the terminal 50 or the in-vehicle platform 20. When the triggering request is triggered by the terminal 50, the vehicle operator of the vehicle can directly apply for maintenance in the terminal 50. At the moment, the car machine maintenance system is triggered to start to prepare for maintaining the car.

In the step 2000, the travel package 30 is obtained through the condition unit 12 in the maintenance platform 10, and the vehicle platform 20 is connected to the vehicle, so that the vehicle transmits the predicted travel data to the vehicle platform 20, the vehicle platform 20 communicates the predicted travel data to the maintenance platform 10, and the maintenance platform 10 obtains the travel package 30 according to the predicted travel data.

Specifically, the step 2000 further includes the steps of:

2001: at least one predicted trip data is obtained. The predicted travel data is obtained through the vehicle machine platform 20, and the vehicle machine platform 20 is communicated with the vehicle so as to obtain the predicted travel data of the vehicle;

2002: and acquiring the corresponding journey package 30 according to the predicted journey data. Wherein the condition unit 12 acquires condition data of the predicted trip after acquiring the predicted trip data, and converts the condition data into the trip pack 30. It is worth mentioning that the condition unit 12 may be connected to the internet to obtain the condition data related to the predicted trip.

In the embodiment of the present invention, the travel package 30 includes one or a combination of the travel destination information, the travel environment information, and the driver information, but the travel package 30 may include other condition information about a predicted travel.

In addition, the predicted journey data in step 2001 may be acquired in various ways, and two embodiments are provided in the examples of the present invention, and the predicted journey data of the vehicle may be acquired through a internet terminal. Wherein the internet terminal corresponds to the vehicle, so that the vehicle platform 20 communicably acquires the predicted travel data of the vehicle. Or the predicted travel data can be obtained through manual input of a vehicle operator.

In addition, before the step 3000, the automobile maintenance method may further include the steps of:

6000: at least one vehicle condition data is provided. The vehicle condition data is obtained by the vehicle platform 20, and specifically, the detecting unit 22 detects the vehicle condition data of the vehicle and transmits the vehicle condition data to the maintenance platform 10. It is also worth mentioning that different types of detectors are provided on the vehicle, and the detectors detect the condition of the vehicle and transmit the vehicle condition data to the vehicle platform 20, so that the maintenance platform 10 can obtain vehicle information in real time according to the vehicle condition data.

In step 3000, the maintenance unit 13 of the maintenance platform 10 obtains the vehicle condition data and the travel package, and provides the targeted maintenance package 40. Wherein a maintenance database is stored in the maintenance unit 13 or the maintenance unit 13 is connected to at least one internet, so that the maintenance unit 13 can specifically obtain the maintenance package 40 according to the travel package 30 and the vehicle condition data. As shown in the figure, the maintenance package 40 includes at least one vehicle maintenance information, a component replacement information, a component maintenance information, a standby condition information, and other maintenance information, the vehicle maintenance information refers to maintenance information of an overall appearance and an interior of the vehicle, the component replacement information refers to replacement information of a vehicle component, the component maintenance information refers to maintenance information of a component of the vehicle, the standby condition information refers to personnel information of a traveler of the vehicle, and of course, the maintenance package 40 may include only one maintenance information, or may include more types of maintenance information, which is not limited in this respect.

In step 4000, the maintenance service may be provided autonomously by the vehicle, i.e., the vehicle may autonomously maintain the vehicle, although the maintenance service may be provided by a maintenance center. Specifically, the step 4000 further includes the steps of:

4001: and transmitting the curing bag to at least one curing center. And the maintenance center maintains the vehicle according to the maintenance package, and in addition, the vehicle can also transmit the maintenance record to the maintenance center, so that the maintenance center can maintain the vehicle by taking the maintenance record as a reference.

Alternatively, the step 4000 comprises the steps of:

4001': transmitting the service pack to the vehicle. The vehicle platform 20 is provided with at least one processing unit 24, wherein the processing unit 24 receives the curing bag 40 and performs simple curing work on the vehicle according to the curing bag 40.

In an embodiment of the present invention, the health care pack 40 may be recorded for the next use. At this time, the maintenance pack storage module 231 is connected to the maintenance unit 13, so that the maintenance pack 40 obtained by the maintenance unit 13 can be stored in the maintenance pack storage module 231, the maintenance record 31 is also stored in the maintenance pack storage module 231, and the maintenance record 31 records the maintenance condition of the vehicle, so that the data of the vehicle is updated in real time.

In addition, the car maintenance system is connected to at least one terminal 50, wherein the terminal 50 can be installed in a smart terminal. Preferably, the terminal 50 is installed in a mobile intelligent terminal. For example, computers, tablets, smart phones, wearable devices, and the like. The terminal 50 is communicatively connected to the maintenance platform 10 and the on-board machine platform 20 so that the information of the maintenance pack 40 can be viewed through the terminal. Or when the user logs in to the terminal 50 using an account, the user may trigger a maintenance request through the terminal 50. The maintenance platform 10 starts to maintain the vehicle according to the maintenance request.

According to another aspect of the present invention, there is provided a vehicle maintenance method, said vehicle maintenance method being adapted for maintaining at least one vehicle, wherein said vehicle maintenance method comprises the steps of:

1000A: judging the maintenance state, executing a step 2000A when the vehicle needs to be maintained, and stopping the automobile maintenance method when the vehicle does not need to be maintained;

2000A: providing a curing bag 40;

3000A: and providing maintenance service according to the maintenance package.

In the automobile maintenance method of the present invention, the automobile maintenance method includes the steps of:

4000A: a maintenance record 31 is generated and the maintenance record 31 is recorded.

It should be noted that, in the embodiment of the present invention, the vehicle maintenance method is completed by the vehicle maintenance system, and in the embodiment, the vehicle maintenance system autonomously determines the condition of the vehicle to determine whether the vehicle needs maintenance.

That is, the maintenance unit 10 may pre-determine whether the vehicle needs to be maintained according to the travel package 30 and the vehicle condition data, and if the vehicle is determined to need to be maintained, the maintenance unit 10 may automatically prompt the user to perform vehicle-specific maintenance, so as to improve driving safety. In other words, the maintenance unit 10 can self-judge whether the vehicle needs to be maintained.

Step 1000A of the present invention further comprises the steps of:

1001A: acquiring at least one piece of predicted travel data; the predicted travel data is obtained through the vehicle machine platform 20, and the vehicle machine platform 20 is communicated with the vehicle so as to obtain the predicted travel data of the vehicle;

1002A: and acquiring the corresponding journey package 30 according to the predicted journey data. Wherein the condition unit 12 acquires condition data of the predicted trip after acquiring the predicted trip data, and converts the condition data into the trip pack 30. It is worth mentioning that the condition unit 12 may be connected to the internet to obtain the condition data related to the predicted trip.

1003A: acquiring at least one vehicle condition data of the vehicle; the vehicle condition data is obtained by the vehicle platform 20, and specifically, the detecting unit 22 detects the vehicle condition data of the vehicle and transmits the vehicle condition data to the maintenance platform 10. It is also worth mentioning that different types of detectors are provided on the vehicle, and the detectors detect the condition of the vehicle and transmit the vehicle condition data to the vehicle platform 20, so that the maintenance platform 10 can obtain vehicle information in real time according to the vehicle condition data.

1004A: and judging the maintenance state according to the travel package and the vehicle condition data. Wherein the analysis unit 15A of the vehicle platform 10 analyzes the maintenance status, and the determination module 151A is connected to the vehicle condition unit 14 and the condition unit 12, so that the determination module 151A can determine the vehicle condition according to the vehicle condition data and the travel package 30. The triggering module 152A is connected to the judging module 151A and the maintenance unit 13, when the judging module 151A judges that the vehicle needs to be maintained, the triggering module 152A triggers the maintenance unit 13 to work, and the triggering module 152A sends prompt information to the vehicle, so as to prompt the vehicle.

In the step 2000A, the health care bundle 40 is obtained by analyzing the travel bundle 30, or the health care bundle 40 is obtained by analyzing the travel bundle 30 and the vehicle condition data. Specifically, the maintenance unit 13 of the maintenance platform 10 acquires the vehicle condition data and the travel package, and provides the maintenance package 40 with pertinence. Wherein a maintenance database is stored in the maintenance unit 13 or the maintenance unit 13 is connected to at least one internet, so that the maintenance unit 13 can specifically obtain the maintenance package 40 according to the travel package 30 and the vehicle condition data. As shown in the figure, the maintenance package 40 includes at least one vehicle maintenance information, a component replacement information, a component maintenance information, a standby condition information, and other maintenance information, the vehicle maintenance information refers to maintenance information of an overall appearance and an interior of the vehicle, the component replacement information refers to replacement information of a vehicle component, the component maintenance information refers to maintenance information of a component of the vehicle, the standby condition information refers to personnel information of a traveler of the vehicle, and of course, the maintenance package 40 may include only one maintenance information, or may include more types of maintenance information, which is not limited in this respect.

In step 3000A, the maintenance service may be provided autonomously by the vehicle, i.e., the vehicle may autonomously maintain the vehicle, although the maintenance service may be provided by a maintenance center. Specifically, the step 3000A further includes the steps of:

3001A: and transmitting the curing bag to at least one curing center. And the maintenance center maintains the vehicle according to the maintenance package, and in addition, the vehicle can also transmit the maintenance record to the maintenance center, so that the maintenance center can maintain the vehicle by taking the maintenance record as a reference.

Alternatively, the step 3000 includes the steps of:

3001B: transmitting the service pack to the vehicle. The vehicle platform 20 is provided with at least one processing unit 24, wherein the processing unit 24 receives the curing bag 40 and performs simple curing work on the vehicle according to the curing bag 40.

It is worth mentioning that the automobile maintenance method is suitable for multiple types of vehicles, the vehicles acquire and transmit the predicted journey data, and the automobile maintenance method acquires the corresponding maintenance pack according to the predicted journey data, so that the vehicles are maintained in a targeted manner.

It will be appreciated by persons skilled in the art that the embodiments of the invention described above and shown in the drawings are given by way of example only and are not limiting of the invention. The objects of the invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the examples, and any variations or modifications of the embodiments of the present invention may be made without departing from the principles.

Claims

1. An automobile maintenance method, suitable for maintaining at least one vehicle, comprising the steps of:

s11: acquiring at least one piece of predicted travel data, wherein the predicted travel data is provided by a vehicle platform; and

s12: analyzing the predicted stroke data through a condition unit to obtain a stroke packet; the travel package comprises one or the combination of travel purpose information, travel environment information and vehicle traveling personnel information;

s2: providing a maintenance package, wherein a maintenance unit provides the maintenance package, wherein the maintenance package corresponds to the travel package, wherein the maintenance package is suitable for maintaining the vehicle;

s3: providing a maintenance service for the vehicle according to the maintenance package;

the vehicle machine platform comprises a data unit; the data unit comprises at least one communication module and/or at least one acquisition module, wherein the communication module is communicated with the Internet, and the acquisition module directly acquires the predicted travel data;

specifically, the communicating module is an interactor, and the interactor is communicated with at least one mobile terminal, wherein the mobile terminal is associated with the vehicle and provides the predicted travel data of the vehicle.

2. The vehicle maintenance method of claim 1, wherein the vehicle maintenance method further comprises the steps of:

s4: and generating and recording a maintenance record.

3. The automobile maintenance method according to claim 1 or 2, wherein the step S2 of the automobile maintenance method further includes the steps of:

4. A method for maintaining an automobile according to claim 3, wherein said step S2 further includes the steps of:

5. The vehicle maintenance method of claim 1, wherein the maintenance package includes one or a combination of on-board maintenance information, component replacement information, component maintenance information, and back-up information.

6. The automobile maintenance method according to claim 1 or 2, wherein the maintenance package in the step S3 is transmitted to the vehicle or at least a maintenance center, and the vehicle or the maintenance center maintains the vehicle according to the maintenance package.

7. An automobile maintenance method, suitable for maintaining at least one vehicle, comprising the steps of:

a12: analyzing the predicted stroke data through a condition unit to obtain a stroke packet; the travel package comprises one or the combination of travel purpose information, travel environment information and vehicle traveling personnel information;

a2: judging at least one maintenance state of the vehicle, wherein the maintenance state comprises an abnormal state and a normal state, and when the vehicle is in the abnormal state, executing the step A3;

a3: providing a maintenance package, a maintenance platform providing the maintenance package, wherein the maintenance package is adapted to maintain the vehicle;

a4: providing a maintenance service for the vehicle according to the maintenance package;

8. The vehicle maintenance method of claim 7, wherein the vehicle maintenance method further comprises the steps of:

a4: and generating and recording a maintenance record.

9. The automobile maintenance method according to any one of claims 7 or 8, wherein the step A2 is further preceded by the steps of:

a13: acquiring at least one vehicle condition data, wherein the vehicle platform provides the vehicle condition data;

10. A method of maintaining an automobile as recited in claim 9, wherein said step a2 further comprises the steps of:

a21: acquiring the travel package and the vehicle condition data; and

a22: and analyzing the travel package and the vehicle condition data through a maintenance unit to obtain the maintenance package.

11. The vehicle maintenance method of claim 10, wherein the maintenance package includes one or a combination of on-board vehicle maintenance information, component replacement information, component maintenance information, and back-up information.

12. A method of maintaining an automobile as recited in claim 10, wherein the projected trip data is available in communication with at least one mobile terminal, wherein the mobile terminal is associated with the vehicle and provides the projected trip data for the vehicle.

13. The automobile maintenance method of claim 7 or 10, wherein the maintenance package of the step a3 is transmitted to the vehicle or at least a maintenance center, and the vehicle or the maintenance center maintains the vehicle according to the maintenance package.

14. An automotive maintenance system adapted for maintaining at least one vehicle, comprising:

the maintenance platform is communicatively connected to the vehicle machine platform, the maintenance platform comprises at least one maintenance unit and at least one condition unit, the condition unit analyzes the predicted travel data to obtain at least one travel package, the travel package comprises one or a combination of travel purpose information, travel environment information and vehicle condition information, the maintenance unit analyzes the travel package and the vehicle condition data to obtain at least one maintenance package, the maintenance package corresponds to the travel package, and the maintenance package is suitable for maintaining the vehicle;

the vehicle-mounted machine platform comprises at least one data unit, wherein the data unit is communicated with the maintenance platform and comprises at least one communication module and/or at least one acquisition module, the communication module is communicated with the internet, and the acquisition module directly acquires the predicted travel data of the vehicle;

specifically, the communicating module is an interactor, and the interactor is communicated with at least one mobile terminal, wherein the mobile terminal is associated with the vehicle and provides the predicted travel data of the vehicle; the mobile terminal is in communication connection with the maintenance platform and the vehicle machine platform.

15. The vehicle maintenance system of claim 14, wherein the maintenance platform further comprises at least one analysis unit that acquires the vehicle condition data and the travel package and pre-determines a maintenance state of the vehicle, wherein the maintenance unit acquires the maintenance package when the vehicle is in an abnormal state.

16. The automotive maintenance system of claim 15, wherein the maintenance package is communicated to the vehicle or at least one maintenance center, the vehicle or the maintenance center maintaining the vehicle according to the maintenance package.