CN110688408A - Vehicle, cloud platform and mining method of oil data for vehicle - Google Patents

Abstract

The disclosure relates to a vehicle, a cloud platform and a mining method of vehicle oil data, wherein the vehicle comprises a vehicle-mounted terminal, and the vehicle further comprises an oil tank oil quantity sensing module connected with the vehicle-mounted terminal and used for sensing the residual oil quantity in an oil tank of the vehicle; the vehicle further comprises at least one of the following types of data acquisition modules: the vehicle behavior posture sensing module is connected with the vehicle-mounted terminal; the driver action sensing module is connected with the vehicle-mounted terminal; the road condition sensing module is connected with the vehicle-mounted terminal; the mileage recording module is connected with the vehicle-mounted terminal; and the vehicle-mounted terminal is used for displaying the mapping relation between the fuel consumption of the vehicle and the data acquired by any type of the data acquisition module when receiving the query request.

Description

Vehicle, cloud platform and mining method of oil data for vehicle

Technical Field

The disclosure relates to the field of vehicles, in particular to a vehicle, a cloud platform and a mining method of oil data for the vehicle.

Background

At present, fuel oil is still the energy source of most vehicles, various operations of the vehicles in the driving process need to be supported by the fuel oil, and by checking the oil consumption condition, a user can know whether the driving in a short time consumes the fuel oil or not, so that the driving strategy of the user is adjusted to achieve the oil-saving effect.

However, at present, a user cannot intuitively check fuel consumption degrees corresponding to different driving behaviors, and can only estimate fuel consumption from fuel tank quantity, so that the user is difficult to realize if the user wants to know the relationship between each type of driving behaviors and fuel consumption in the long run.

Disclosure of Invention

The purpose of the present disclosure is to provide a vehicle, a cloud platform, and a method for mining vehicle oil data, so as to solve the above technical problems.

In order to achieve the above object, a first aspect of the present disclosure provides a vehicle including an on-board terminal, the vehicle further including a tank fuel amount sensing module connected to the on-board terminal, for sensing a remaining fuel amount in a tank of the vehicle; the vehicle further comprises at least one of the following types of data acquisition modules: the vehicle behavior posture sensing module is connected with the vehicle-mounted terminal; the driver action sensing module is connected with the vehicle-mounted terminal; the road condition sensing module is connected with the vehicle-mounted terminal; the mileage recording module is connected with the vehicle-mounted terminal; and the vehicle-mounted terminal is used for displaying the mapping relation between the fuel consumption of the vehicle and the data acquired by any type of the data acquisition module when receiving the query request.

Optionally, the vehicle-mounted terminal is further configured to: receiving refueling record information of the vehicle at a refueling station, which is sent by a cloud platform, wherein the refueling record information comprises fuel charge information; and the vehicle-mounted terminal is specifically used for displaying the mapping relation between the oil consumption and the oil fee of the vehicle and the data acquired by any type of the data acquisition module when receiving the query request.

Optionally, the vehicle-mounted terminal is further configured to: and when the query request is received, displaying a mapping relation between the oil consumption and the oil charge of the vehicle and the data collected by any type of data collection module in a target time period, wherein the query request comprises the target time period.

Optionally, the vehicle-mounted terminal is further configured to: sending the data acquired by the data acquisition module and the oil tank oil quantity sensing module to a cloud platform; the vehicle-mounted terminal is specifically used for forwarding the query request to the cloud platform when receiving the query request, and receiving a query result returned by the cloud platform and used for responding to the query request, wherein the query result comprises a mapping relation between the fuel consumption of the vehicle and the data acquired by any type of data acquisition module.

In a second aspect of the present disclosure, a cloud platform is provided, including: the system comprises a first receiving module, a second receiving module and a control module, wherein the first receiving module is used for receiving running data of a vehicle, which is sent by a vehicle-mounted terminal, and the running data comprises the fuel consumption of the vehicle and data acquired by any data acquisition module on the vehicle; the second receiving module is used for receiving the refueling record information of the vehicle sent by the gas station equipment, wherein the refueling record information comprises fuel charge information; the data storage and calculation module is used for calculating and storing the oil consumption of the vehicle and the mapping relation between the oil cost and the data acquired by the data acquisition module; and the first sending module is used for returning a query result comprising the mapping relation between the oil consumption and the oil cost of the vehicle relative to the data acquired by any one data acquisition module according to the query request when the query request is received.

Optionally, the cloud platform further comprises: and the refueling reservation module is used for requesting the filling station equipment to occupy the appointed working time period of the filling station equipment when receiving a refueling reservation request, wherein the refueling reservation request comprises the appointed working time period.

In a third aspect of the present disclosure, there is provided a method for mining oil data for a vehicle, applied to the vehicle, including: the running data of the vehicle is acquired through the at least one type of data acquisition module, and the oil consumption of the vehicle is determined through the data acquired by the oil tank oil quantity sensing module; and when an inquiry request is received, displaying the mapping relation between the fuel consumption of the vehicle and the data acquired by any type of data acquisition module.

Optionally, the method further comprises: receiving refueling record information of the vehicle at a refueling station, which is sent by a cloud platform, wherein the refueling record information comprises fuel charge information; when receiving the query request, the method for displaying the mapping relationship between the fuel consumption of the vehicle and the data collected by any type of data collection module comprises the following steps: and when the query request is received, displaying the mapping relation between the oil consumption and the oil charge of the vehicle and the data acquired by any type of data acquisition module.

Optionally, the method further comprises: sending the data acquired by the data acquisition module and the oil tank oil quantity sensing module to a cloud platform; when receiving the query request, the method for displaying the mapping relationship between the fuel consumption of the vehicle and the data collected by any type of data collection module comprises the following steps: when the query request is received, the query request is forwarded to the cloud platform, and a query result returned by the cloud platform and used for responding to the query request is received, wherein the query result comprises a mapping relation between the oil consumption of the vehicle and the data acquired by any type of data acquisition module.

In a fourth aspect of the present disclosure, there is provided a mining method for vehicle oil data, applied to the cloud platform according to the second aspect of the present disclosure, the method including: receiving running data of a vehicle, which is sent by a vehicle-mounted terminal, wherein the running data comprises the fuel consumption of the vehicle and data acquired by any data acquisition module on the vehicle; receiving refueling record information of the vehicle, which is sent by a gas station device, wherein the refueling record information comprises fuel charge information; calculating and storing the oil consumption of the vehicle and the mapping relation between the oil cost and the data acquired by the data acquisition module; and when an inquiry request is received, returning an inquiry result comprising the mapping relation between the fuel consumption and the fuel cost of the vehicle relative to the data acquired by any one data acquisition module according to the inquiry request.

Through the technical scheme, the oil consumption of the vehicle can be associated with the vehicle operation data acquired by the data acquisition module of the vehicle, so that the oil consumption of each type of operation state of the vehicle can be more intuitively reflected, and a user can more intuitively know the oil consumption corresponding to each type of driving behavior.

Additional features and advantages of the disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure without limiting the disclosure. In the drawings:

FIG. 1 is a block diagram illustrating a vehicle according to an exemplary disclosed embodiment.

FIG. 2 is a block diagram of a vehicle shown in accordance with another exemplary disclosed embodiment.

FIG. 3 is a block diagram illustrating a cloud platform according to an exemplary disclosed embodiment.

FIG. 4 is a flow chart illustrating a method of mining vehicle oil data according to an exemplary disclosed embodiment.

FIG. 5 is a flow chart illustrating a method of mining vehicle oil data, according to another exemplary disclosed embodiment.

Detailed Description

The following detailed description of specific embodiments of the present disclosure is provided in connection with the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present disclosure, are given by way of illustration and explanation only, not limitation.

Fig. 1 is a block diagram illustrating a vehicle 100, as shown in fig. 1, including an on-board terminal 110, a tank fuel amount sensing module 120, and a data collection module 130, according to an exemplary disclosed embodiment. The fuel tank quantity sensing module 120 and the data acquisition module 130 are respectively connected to the vehicle-mounted terminal 110.

The data collection module 130 may include at least one of a vehicle behavior posture sensing module, a driver action sensing module, a road condition sensing module, and a mileage recording module.

Optionally, as shown in fig. 2, the data collection module 130 includes a vehicle behavior posture sensing module 131, a driver action sensing module 132, a road condition sensing module 133, and a mileage recording module 134, and each data collection module is connected to the vehicle-mounted terminal 110 of the vehicle.

In the present disclosure, behavior data of the vehicle, such as a driving distance, an idle time, a driving duration, an acceleration duration, a braking duration, a constant speed driving duration, a road condition, etc., of the vehicle is collected by the data collection module 130. After behavior data are obtained, behavior data of different types and oil consumption of the behavior data can be in one-to-one correspondence, and therefore when a query request is received, the vehicle-mounted terminal can display the mapping relation between the oil consumption of the vehicle and the data collected by the data collection module of any type.

The calculation of the corresponding relationship between the behavior data and the fuel consumption can be completed by the vehicle-mounted terminal, or the calculation can be completed by the cloud platform after the vehicle-mounted terminal uploads the behavior data and the fuel consumption to the cloud platform, which is not limited in the disclosure.

Specifically, the driving state of the vehicle, such as the driving direction, the posture change, the idle running, the free-wheeling, and the like, can be acquired through the vehicle behavior posture sensing module; the operation behaviors of the driver on the vehicle, such as stepping on a brake pedal, stepping on an accelerator pedal, controlling the steering of the vehicle, operating gears and the like, can be acquired through the driver action sensing module; road conditions, such as urban roads, expressways, level roads, ramps, curves and the like, can be acquired through the road condition sensing module; the change of the driving mileage of the vehicle may be acquired by a mileage recording module, wherein the mileage recording module may be an instrument panel of the vehicle.

The following illustrates a mapping relationship between the oil cost and the data acquired by the data acquisition module.

For example, the mileage traveled by the vehicle and the change value of the oil amount can be obtained, so that the oil consumption corresponding to the average mileage can be obtained; the number of times of vehicle acceleration, the mileage of vehicle driving and the oil consumption of the vehicle when the vehicle is not accelerated can be obtained, and the oil consumption corresponding to each acceleration on average is obtained; the mileage of the vehicle on the slope and the oil consumption when the vehicle runs on the slope can be obtained, so that the oil consumption corresponding to the average mileage on the slope is obtained; the mileage of the vehicle on the hollow road and the oil consumption of the vehicle when the vehicle runs on the hollow road can be obtained, so that the oil consumption corresponding to the average mileage on the hollow road can be obtained. The mapping relationship between the different types of data and the oil quantity can be compared, for example, the oil consumption corresponding to the average mileage on the pothole road is compared with the oil consumption corresponding to the average mileage on the slope, so that the user can know which driving behavior is relatively oil-saving more intuitively.

And the number of fuel increments and the number of remaining fuel increments before refueling can be recorded, and the mileage change is recorded when the fuel amount returns to the number of remaining fuel increments again, so that the fuel consumption corresponding to the average mileage is obtained. And carrying out average calculation on the oil consumption corresponding to the average mileage acquired after each refueling to obtain the long-term data of the oil consumption corresponding to the average mileage.

Optionally, the vehicle-mounted terminal may further receive refueling record information of the vehicle at a refueling station, which is sent by the cloud platform, where the refueling record information includes fuel cost information; and when the query request is received, displaying the mapping relation between the oil consumption and the oil charge of the vehicle and the data collected by any type of data collection module.

That is, the present disclosure can obtain not only the relationship between the vehicle behavior data and the fuel consumption, but also the relationship between the behavior data, the fuel consumption, and the fuel cost.

The fuel cost information sent by the cloud platform may be the fuel cost price of the vehicle at the last refueling behavior time, the fuel cost price at the query time, or the fuel cost price in any time period set by the user.

The fueling record information may further include date, time, location of fueling, gun number of the fueling machine, channel of placing orders, payment method, whether to enjoy a preference, number of liters for fueling, etc., so that the user can refer to data related to fueling activities at any time.

Optionally, the query request may further include a target time period, and when the query request is received, a mapping relationship between the fuel consumption and the fuel cost of the vehicle and the data acquired by any type of the data acquisition module in the target time period is shown.

That is to say, the present disclosure can not only query the relationship between the total behavior data and the fuel consumption and the fuel cost, but also query the relationship between the behavior data and the fuel consumption and the fuel cost in a certain time period, so as to show the fuel consumption and the fuel cost corresponding to different driving behaviors to the user in more detail.

Similarly, the calculation can be completed by the vehicle-mounted terminal, or the calculation can be completed by the cloud platform after the vehicle-mounted terminal sends the data acquired by the data acquisition module and the oil tank quantity sensing module to the cloud platform. And when receiving the query request, the vehicle-mounted terminal forwards the query request to the cloud platform, receives a query result returned by the cloud platform and used for responding to the query request, and displays the query result.

Optionally, the query request may also be sent to the cloud platform by another terminal, for example, a portable mobile terminal, a web page version platform, and the like, and the cloud platform may also send the query result to these terminals when receiving the query request.

The query result can be displayed through screen display, voice broadcast or data push, and the query result can be uploaded to an operation platform with printing and downloading functions after the query result is displayed, so that the user can download, print, send mails, share APP and the like on the query result.

In addition, the vehicle-mounted terminal can also send a refueling reservation request to the cloud platform so that the cloud platform requests the gas station equipment to occupy the appointed working time period of the gas station equipment, and the refueling reservation request comprises the appointed working time period.

After the reservation refueling request is sent, the refueling order can be paid through the cloud platform, so that the operation amount of a user during refueling is reduced, and the refueling convenience is improved.

Through the technical scheme, the oil consumption of the vehicle can be associated with the vehicle behavior data acquired by the data acquisition module of the vehicle, so that the oil consumption of each type of running state of the vehicle can be more intuitively reflected, and a user can more intuitively know the oil consumption corresponding to each type of driving behavior.

Fig. 3 is a block diagram illustrating a cloud platform according to an exemplary disclosed embodiment, and as shown in fig. 3, the cloud platform 300 includes a first receiving module 310, a second receiving module 320, a data storage and computation module 330, and a first sending module 340.

The first receiving module 310 and the second receiving module 320 are respectively connected to the data storing and calculating module 330, and the data storing and calculating module 330 is connected to the first sending module 340.

In the disclosure, the operation data of the vehicle, which is sent by the vehicle-mounted terminal, is received by the first receiving module, and may include behavior data acquired by any data acquisition module on the vehicle, such as driving mileage, idle time, driving duration, acceleration duration, braking duration, driving duration at a constant speed, and road conditions of the vehicle, and may further include oil consumption of the vehicle. After the operation data are obtained, behavior data of different types and oil consumption of the behavior data can be in one-to-one correspondence, so that when an inquiry request is received, an inquiry result can be calculated and sent to the vehicle-mounted terminal, and the vehicle-mounted terminal can conveniently display the mapping relation between the oil consumption of the vehicle and the data collected by the data collection module of any type.

Specifically, the behavior data may include a driving state of the vehicle, such as a driving direction, a posture change, idling, free-wheeling, and the like; the behavior data may include the driver's operation behavior of the vehicle, such as stepping on a brake pedal, stepping on an accelerator pedal, controlling the steering of the vehicle, gear operation, and the like; the behavior data may include road conditions, such as urban roads, highways, level roads, ramps, curves, and the like; the behavior data may include a change in mileage of the vehicle.

The following illustrates a mapping relationship between the oil cost and the data acquired by the data acquisition module.

For example, the mileage traveled by the vehicle and the variation values of the oil quantity and the oil fee can be obtained, so that the oil consumption and the oil fee corresponding to the average mileage can be obtained; the number of times of vehicle acceleration, the mileage of vehicle driving, and the oil consumption and the oil cost of the vehicle when the vehicle is not accelerated can be obtained, and the oil consumption and the oil cost corresponding to each acceleration are obtained on average; the mileage of the vehicle on the ramp and the oil consumption and the oil cost consumed when the vehicle runs on the ramp can be obtained, so that the oil consumption and the oil cost corresponding to the average mileage on the ramp are obtained; the mileage of the vehicle on the hollow road and the oil consumption fee consumed when the vehicle runs on the hollow road can be obtained, so that the oil consumption and the oil consumption fee corresponding to the average mileage on the hollow road can be obtained. The mapping relationship between the different types of data and the oil quantity and the oil charge can be compared, for example, the oil consumption and the oil charge corresponding to the average mileage on the pothole road are compared with the oil consumption and the oil charge corresponding to the average mileage on the ramp, so that the user can know which driving behavior is relatively oil-saving more intuitively.

The fuel cost information may be a fuel cost price of the vehicle at the last refueling behavior time, a fuel cost price at the query time, or a fuel cost price in any time period set by the user.

The fueling record information may further include date, time, location of fueling, gun number of the fueling machine, channel of placing orders, payment method, whether to enjoy a preference, number of liters for fueling, etc., so that the user can refer to data related to fueling activities at any time.

Optionally, the query request may further include a target time period, and when the query request is received, a mapping relationship between the fuel consumption and the fuel cost of the vehicle and the data acquired by any type of the data acquisition module in the target time period is calculated and sent.

That is to say, the present disclosure can not only query the relationship between the total behavior data and the fuel consumption and the fuel cost, but also query the relationship between the behavior data and the fuel consumption and the fuel cost in a certain time period, so as to show the fuel consumption and the fuel cost corresponding to different driving behaviors to the user in more detail.

Optionally, the query request may also be sent to the cloud platform by another terminal, for example, a portable mobile terminal, a web page version platform, and the like, and the cloud platform may also send the query result to these terminals when receiving the query request.

The query result can be displayed through screen display, voice broadcast or data push, and the query result can be uploaded to an operation platform with printing and downloading functions after the query result is displayed, so that the user can download, print, send mails, share APP and the like on the query result.

In addition, the vehicle-mounted terminal can also send a refueling reservation request to the cloud platform so that the cloud platform requests the gas station equipment to occupy the appointed working time period of the gas station equipment, and the refueling reservation request comprises the appointed working time period.

After the reservation refueling request is sent, the refueling order can be paid through the cloud platform, so that the operation amount of a user during refueling is reduced, and the refueling convenience is improved.

Through the technical scheme, the oil consumption of the vehicle can be associated with the vehicle behavior data acquired by the data acquisition module of the vehicle, so that the oil consumption of each type of running state of the vehicle can be more intuitively reflected, and a user can more intuitively know the oil consumption corresponding to each type of driving behavior.

FIG. 4 is a flow chart illustrating a method of mining vehicle oil data, as shown in FIG. 4, as applied to a vehicle, including the steps of:

and S41, acquiring the running data of the vehicle through the at least one type of data acquisition module, and acquiring data through the oil tank oil quantity sensing module to determine the oil consumption of the vehicle.

The operation data of the vehicle collected by the data collection module may include driving mileage, idle time, driving duration, acceleration duration, braking duration, driving duration at a constant speed, road conditions, and the like of the vehicle.

And S42, when the inquiry request is received, displaying the mapping relation between the fuel consumption of the vehicle and the data collected by any type of data collection module.

After behavior data are obtained, behavior data of different types and oil consumption of the behavior data can be in one-to-one correspondence, and therefore when a query request is received, the vehicle-mounted terminal can display the mapping relation between the oil consumption of the vehicle and the data collected by the data collection module of any type.

Optionally, the method further comprises: receiving refueling record information of the vehicle at a refueling station, which is sent by a cloud platform, wherein the refueling record information comprises fuel charge information; when receiving the query request, the method for displaying the mapping relationship between the fuel consumption of the vehicle and the data collected by any type of data collection module comprises the following steps: and when the query request is received, displaying the mapping relation between the oil consumption and the oil charge of the vehicle and the data acquired by any type of data acquisition module.

Optionally, the method further comprises: sending the data acquired by the data acquisition module and the oil tank oil quantity sensing module to a cloud platform; when receiving the query request, the method for displaying the mapping relationship between the fuel consumption of the vehicle and the data collected by any type of data collection module comprises the following steps: when the query request is received, the query request is forwarded to the cloud platform, and a query result returned by the cloud platform and used for responding to the query request is received, wherein the query result comprises a mapping relation between the oil consumption of the vehicle and the data acquired by any type of data acquisition module.

The calculation can be completed by the vehicle-mounted terminal, or the calculation can be completed by the cloud platform after the vehicle-mounted terminal sends the data acquired by the data acquisition module and the oil quantity sensing module of the oil tank to the cloud platform. And when receiving the query request, the vehicle-mounted terminal forwards the query request to the cloud platform, receives a query result returned by the cloud platform and used for responding to the query request, and displays the query result.

The query result can be displayed through screen display, voice broadcast or data push, and the query result can be uploaded to an operation platform with printing and downloading functions after the query result is displayed, so that the user can download, print, send mails, share APP and the like on the query result.

In addition, a refueling reservation request can be sent to the cloud platform, so that the cloud platform requests the gas station equipment to occupy the specified working time period of the gas station equipment, and the refueling reservation request comprises the specified working time period.

After the reservation refueling request is sent, the refueling order can be paid through the cloud platform, so that the operation amount of a user during refueling is reduced, and the refueling convenience is improved.

Through the technical scheme, the oil consumption of the vehicle can be associated with the vehicle behavior data acquired by the data acquisition module of the vehicle, so that the oil consumption of each type of running state of the vehicle can be more intuitively reflected, and a user can more intuitively know the oil consumption corresponding to each type of driving behavior.

FIG. 5 is a flow chart illustrating a method of mining vehicle oil data, as shown in FIG. 5, applied to a cloud platform, including the steps of:

and S51, receiving the running data of the vehicle sent by the vehicle-mounted terminal, wherein the running data comprises the fuel consumption of the vehicle and the data collected by any data collection module on the vehicle.

The operation data of the vehicle may include behavior data acquired by any data acquisition module on the vehicle, such as driving mileage, idle time, driving duration, acceleration duration, braking duration, constant speed driving duration, road conditions, and the like, and may also include fuel consumption of the vehicle.

And S52, receiving the refueling record information of the vehicle sent by the refueling station equipment, wherein the refueling record information comprises fuel cost information.

The fuel cost information may be a fuel cost price of the vehicle at the last refueling behavior time, a fuel cost price at the query time, or a fuel cost price in any time period set by the user.

The fueling record information may further include date, time, location of fueling, gun number of the fueling machine, channel of placing orders, payment method, whether to enjoy a preference, number of liters for fueling, etc., so that the user can refer to data related to fueling activities at any time.

And S53, calculating and storing the fuel consumption and the oil cost of the vehicle according to the mapping relation between the data collected by the data collection module.

For example, the mileage traveled by the vehicle and the variation values of the oil quantity and the oil fee can be obtained, so that the oil consumption and the oil fee corresponding to the average mileage can be obtained; the number of times of vehicle acceleration, the mileage of vehicle driving, and the oil consumption and the oil cost of the vehicle when the vehicle is not accelerated can be obtained, and the oil consumption and the oil cost corresponding to each acceleration are obtained on average; the mileage of the vehicle on the ramp and the oil consumption and the oil cost consumed when the vehicle runs on the ramp can be obtained, so that the oil consumption and the oil cost corresponding to the average mileage on the ramp are obtained; the mileage of the vehicle on the hollow road and the oil consumption fee consumed when the vehicle runs on the hollow road can be obtained, so that the oil consumption and the oil consumption fee corresponding to the average mileage on the hollow road can be obtained. The mapping relationship between the different types of data and the oil quantity and the oil charge can be compared, for example, the oil consumption and the oil charge corresponding to the average mileage on the pothole road are compared with the oil consumption and the oil charge corresponding to the average mileage on the ramp, so that the user can know which driving behavior is relatively oil-saving more intuitively.

And S54, when receiving the query request, returning a query result including the mapping relation between the fuel consumption and the fuel cost of the vehicle relative to the data acquired by any one data acquisition module according to the query request.

Optionally, the query request may further include a target time period, and when the query request is received, a mapping relationship between the fuel consumption and the fuel cost of the vehicle and the data acquired by any type of the data acquisition module in the target time period is calculated and sent.

Optionally, the query request may also be sent to the cloud platform by another terminal, for example, a portable mobile terminal, a web page version platform, and the like, and the cloud platform may also send the query result to these terminals when receiving the query request.

The query result can be displayed through screen display, voice broadcast or data push, and the query result can be uploaded to an operation platform with printing and downloading functions after the query result is displayed, so that the user can download, print, send mails, share APP and the like on the query result.

In addition, the vehicle-mounted terminal can also send a refueling reservation request to the cloud platform so that the cloud platform requests the gas station equipment to occupy the appointed working time period of the gas station equipment, and the refueling reservation request comprises the appointed working time period.

After the reservation refueling request is sent, the refueling order can be paid through the cloud platform, so that the operation amount of a user during refueling is reduced, and the refueling convenience is improved.

Through the technical scheme, the oil consumption of the vehicle can be associated with the vehicle behavior data acquired by the data acquisition module of the vehicle, so that the oil consumption of each type of running state of the vehicle can be more intuitively reflected, and a user can more intuitively know the oil consumption corresponding to each type of driving behavior.

The preferred embodiments of the present disclosure are described in detail with reference to the accompanying drawings, however, the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solution of the present disclosure within the technical idea of the present disclosure, and these simple modifications all belong to the protection scope of the present disclosure.

It should be noted that, in the foregoing embodiments, various features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various combinations that are possible in the present disclosure are not described again.

In addition, any combination of various embodiments of the present disclosure may be made, and the same should be considered as the disclosure of the present disclosure, as long as it does not depart from the spirit of the present disclosure.

Claims (10)

1. A vehicle is characterized by comprising an on-board terminal, and the vehicle further comprises a fuel tank fuel quantity sensing module connected with the on-board terminal and used for sensing the residual fuel quantity in a fuel tank of the vehicle;

the vehicle further comprises at least one of the following types of data acquisition modules:

the vehicle behavior posture sensing module is connected with the vehicle-mounted terminal;

the driver action sensing module is connected with the vehicle-mounted terminal;

the road condition sensing module is connected with the vehicle-mounted terminal;

the mileage recording module is connected with the vehicle-mounted terminal;

and the vehicle-mounted terminal is used for displaying the mapping relation between the fuel consumption of the vehicle and the data acquired by any type of the data acquisition module when receiving the query request.

2. The vehicle of claim 1, wherein the in-vehicle terminal is further configured to:

receiving refueling record information of the vehicle at a refueling station, which is sent by a cloud platform, wherein the refueling record information comprises fuel charge information;

and the vehicle-mounted terminal is specifically used for displaying the mapping relation between the oil consumption and the oil fee of the vehicle and the data acquired by any type of the data acquisition module when receiving the query request.

3. The vehicle of claim 2, wherein the in-vehicle terminal is further configured to: and when the query request is received, displaying a mapping relation between the oil consumption and the oil charge of the vehicle and the data collected by any type of data collection module in a target time period, wherein the query request comprises the target time period.

4. The vehicle of claim 1, wherein the in-vehicle terminal is further configured to:

sending the data acquired by the data acquisition module and the oil tank oil quantity sensing module to a cloud platform;

the vehicle-mounted terminal is specifically used for forwarding the query request to the cloud platform when receiving the query request, and receiving a query result returned by the cloud platform and used for responding to the query request, wherein the query result comprises a mapping relation between the fuel consumption of the vehicle and the data acquired by any type of data acquisition module.

5. A cloud platform, comprising:

the system comprises a first receiving module, a second receiving module and a control module, wherein the first receiving module is used for receiving running data of a vehicle, which is sent by a vehicle-mounted terminal, and the running data comprises the fuel consumption of the vehicle and data acquired by any data acquisition module on the vehicle;

the second receiving module is used for receiving the refueling record information of the vehicle sent by the gas station equipment, wherein the refueling record information comprises fuel charge information;

the data storage and calculation module is used for calculating and storing the oil consumption of the vehicle and the mapping relation between the oil cost and the data acquired by the data acquisition module;

and the first sending module is used for returning a query result comprising the mapping relation between the oil consumption and the oil cost of the vehicle relative to the data acquired by any one data acquisition module according to the query request when the query request is received.

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

and the refueling reservation module is used for requesting the filling station equipment to occupy the appointed working time period of the filling station equipment when receiving a refueling reservation request, wherein the refueling reservation request comprises the appointed working time period.

7. A method for mining oil data for a vehicle, applied to the vehicle according to claim 1, the method comprising:

the running data of the vehicle is acquired through the at least one type of data acquisition module, and the oil consumption of the vehicle is determined through the data acquired by the oil tank oil quantity sensing module;

and when an inquiry request is received, displaying the mapping relation between the fuel consumption of the vehicle and the data acquired by any type of data acquisition module.

8. The method of claim 7, further comprising:

receiving refueling record information of the vehicle at a refueling station, which is sent by a cloud platform, wherein the refueling record information comprises fuel charge information;

when receiving the query request, the method for displaying the mapping relationship between the fuel consumption of the vehicle and the data collected by any type of data collection module comprises the following steps:

and when the query request is received, displaying the mapping relation between the oil consumption and the oil charge of the vehicle and the data acquired by any type of data acquisition module.

9. The method of claim 7, further comprising:

sending the data acquired by the data acquisition module and the oil tank oil quantity sensing module to a cloud platform;

when receiving the query request, the method for displaying the mapping relationship between the fuel consumption of the vehicle and the data collected by any type of data collection module comprises the following steps:

when the query request is received, the query request is forwarded to the cloud platform, and a query result returned by the cloud platform and used for responding to the query request is received, wherein the query result comprises a mapping relation between the oil consumption of the vehicle and the data acquired by any type of data acquisition module.

10. A mining method of oil data for vehicles, applied to the cloud platform of claim 5, the method comprising:

receiving running data of a vehicle, which is sent by a vehicle-mounted terminal, wherein the running data comprises the fuel consumption of the vehicle and data acquired by any data acquisition module on the vehicle;

receiving refueling record information of the vehicle, which is sent by a gas station device, wherein the refueling record information comprises fuel charge information;

calculating and storing the oil consumption of the vehicle and the mapping relation between the oil cost and the data acquired by the data acquisition module;

and when an inquiry request is received, returning an inquiry result comprising the mapping relation between the fuel consumption and the fuel cost of the vehicle relative to the data acquired by any one data acquisition module according to the inquiry request.

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