CN110406345B

CN110406345B - Automatic air conditioner adjusting method based on automobile and cloud server

Info

Publication number: CN110406345B
Application number: CN201810388052.9A
Authority: CN
Inventors: 时红仁
Original assignee: Shanghai Pateo Network Technology Service Co Ltd
Current assignee: Shanghai Pateo Network Technology Service Co Ltd
Priority date: 2018-04-26
Filing date: 2018-04-26
Publication date: 2022-06-03
Anticipated expiration: 2038-04-26
Also published as: CN110406345A

Abstract

The invention provides an automatic air conditioner adjusting method based on an automobile and a cloud server, wherein the automatic air conditioner adjusting method based on the automobile is applied to the cloud server, and comprises the following steps: judging whether an air conditioner starting signal sent by a first vehicle is received at least twice within a preset time interval or not in real time; if so, sending a first control signal to the first vehicle to control an air conditioner of the first vehicle to enter an automatic adjusting state; if not, returning to the step of judging whether the air conditioner starting signal sent by the first vehicle is received at least twice within the preset time interval. According to the automatic air conditioner adjusting method and the cloud server based on the automobile, the air conditioner of the automobile can be automatically controlled to enter an automatic adjusting state, user operation is not needed, and user experience is improved.

Description

Automatic air conditioner adjusting method based on automobile and cloud server

Technical Field

The invention relates to the technical field of automatic adjustment of vehicle-mounted air conditioners, in particular to an automatic air conditioner adjustment method based on an automobile and a cloud server.

Background

At present, when a vehicle runs in rainy weather, the front windshield of the vehicle is usually atomized, and especially in rainy weather in winter, the vehicle is easily atomized in the running process, the visual field of a driver is influenced, and potential safety hazards exist. And when the front windshield of vehicle appeared atomizing, the direction of blowing and wind-force size etc. that need the air conditioner in the driver manual regulation vehicle usually blow front windshield to carry out defogging processing to front windshield, lead to often needing the user to adjust the air conditioner repeatedly driving the vehicle process, will influence the concentration degree that the driver drove like this, there is the potential safety hazard, and user experience is poor.

Disclosure of Invention

In view of the above, the invention provides an automatic air conditioner adjusting method based on an automobile and a cloud server, which can automatically control an air conditioner of the automobile to enter an automatic adjusting state, do not need user operation, and improve user experience.

The invention provides an automatic air conditioner adjusting method based on an automobile, which is applied to a cloud server and comprises the following steps: judging whether an air conditioner starting signal sent by a first vehicle is received at least twice within a preset time interval in real time; if so, sending a first control signal to the first vehicle to control an air conditioner of the first vehicle to enter an automatic adjusting state; if not, returning to the step of judging whether the air conditioner starting signal sent by the first vehicle is received at least twice within the preset time interval.

Further, if yes, the step of sending a first control signal to the first vehicle to control the air conditioner of the first vehicle to enter an automatic adjustment state further includes: acquiring a blowing mode and an air conditioner closing signal of the air conditioner of the first vehicle after the air conditioner is started for the previous time; obtaining the running time of the air conditioner of the first vehicle after the previous starting according to the previous air conditioner starting signal and the previous air conditioner closing signal; and processing the blowing mode and the running time to obtain a first adjusting signal, and sending the first adjusting signal to the first vehicle, so that the first vehicle automatically controls the air conditioner to adjust the current working mode of the air conditioner according to the blowing mode, and automatically controls the air conditioner to be closed when the running time is reached.

Further, the step of obtaining a first adjusting signal according to the blowing mode and the operation duration and sending the first adjusting signal to the first vehicle includes: when a wiper starting signal sent by a first vehicle is received, acquiring a weather forecast corresponding to the current position of the first vehicle according to the wiper starting signal; obtaining the weather condition of the position of the first vehicle according to the wiper frequency of the first vehicle and the weather forecast; acquiring a first weather condition and a current weather condition of an air conditioner of the first vehicle when the air conditioner is started at the previous time; processing according to the first weather condition and the current weather condition to obtain an adjusting coefficient of an air conditioner of the first vehicle; adjusting the blowing mode according to the adjusting coefficient to obtain a current blowing mode; and obtaining a first adjusting signal according to the current blowing mode and the running time, and sending the first adjusting signal to the first vehicle, so that the first vehicle automatic control air conditioner adjusts the current working mode of the air conditioner according to the current blowing mode, and automatically controls the air conditioner to be closed for a long time when the running is reached.

Further, the automatic adjusting method of the automobile-based air conditioner further comprises the following steps: according to the time interval between the air conditioner closing signal of the air conditioner of the first vehicle at the previous time and the air conditioner starting signal at the next time; and when the time length of the air conditioner of the first vehicle after being closed reaches the time interval, sending a second control signal to the first vehicle so that the first vehicle controls the air conditioner to be started again according to the second control signal.

Further, the blowing mode comprises the air outlet direction of the air conditioner, the wind power and cold and hot air.

Further, before the step of determining in real time whether an air conditioner start signal of an air conditioner sent by a first vehicle is received at least twice within a preset time interval, the method further includes: and receiving a vehicle air conditioner starting signal sent by the first vehicle.

The invention also provides a cloud server, comprising: a memory for storing executable program code; and a processor for invoking the executable program code in the memory to implement the steps of auto-tuning of an automotive-based air conditioner: judging whether an air conditioner starting signal sent by a first vehicle is received at least twice within a preset time interval in real time; if so, sending a first control signal to the first vehicle to control an air conditioner of the first vehicle to enter an automatic adjusting state; if not, returning to the step of judging whether the air conditioner starting signal sent by the first vehicle is received at least twice within the preset time interval.

Further, the processor, after executing the step of sending a first control signal to the first vehicle to control the air conditioner of the first vehicle to enter the automatic adjustment state if the first control signal is positive, further includes: acquiring a blowing mode and an air conditioner closing signal of an air conditioner of the first vehicle after the air conditioner is started for the previous time; obtaining the running time of the air conditioner of the first vehicle after the previous starting according to the previous air conditioner starting signal and the previous air conditioner closing signal; processing the blowing mode and the running time to obtain a first adjusting signal, and sending the first adjusting signal to the first vehicle, so that the first vehicle automatically controls the air conditioner to adjust the current working mode of the air conditioner according to the blowing mode, and automatically controls the air conditioner to be closed when the running time is reached; the blowing mode comprises the air outlet direction of the air conditioner, the wind power and cold and hot air.

Further, the processor, executing the step of obtaining a first adjusting signal according to the blowing mode and the operation duration, and sending the first adjusting signal to the first vehicle, includes: when a wiper starting signal sent by a first vehicle is received, acquiring a weather forecast corresponding to the current position of the first vehicle according to the wiper starting signal; obtaining the weather condition of the position of the first vehicle according to the wiper frequency of the first vehicle and the weather forecast; acquiring a first weather condition and a current weather condition of an air conditioner of the first vehicle when the air conditioner is started at the previous time; processing according to the first weather condition and the current weather condition to obtain an adjusting coefficient of an air conditioner of the first vehicle; adjusting the blowing mode according to the adjusting coefficient to obtain a current blowing mode; and obtaining a first adjusting signal according to the current blowing mode and the running time, and sending the first adjusting signal to the first vehicle, so that the first vehicle automatic control air conditioner adjusts the current working mode of the air conditioner according to the current blowing mode, and automatically controls the air conditioner to be closed for a long time when the running is reached.

Further, the processor, further performing steps comprising: according to the time interval between the air conditioner closing signal of the air conditioner of the first vehicle at the previous time and the air conditioner starting signal at the next time; and when the time length of the air conditioner of the first vehicle after being closed reaches the time interval, sending a second control signal to the first vehicle so that the first vehicle controls the air conditioner to be started again according to the second control signal.

Specifically, according to the automatic air conditioner adjustment method based on the automobile and the cloud server provided by the embodiment, the operation behavior of the air conditioner in the vehicle driven by the user is judged, so that when the user repeats the same operation behavior on the air conditioner, the air conditioner of the vehicle can be automatically controlled to enter an automatic adjustment state, the user operation is not needed, the adjustment on the air conditioner can be realized, the user experience is improved, and meanwhile, the safety of the vehicle driven by the user is improved.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented in accordance with the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more clearly understood, the following preferred embodiments are described in detail with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic flow chart illustrating an automatic adjusting method for an automobile-based air conditioner according to a first embodiment of the present invention;

FIG. 2 is a schematic flow chart illustrating an automatic adjusting method for an automobile-based air conditioner according to a second embodiment of the present invention;

fig. 3 is a flowchart illustrating an automatic adjusting method of an automobile-based air conditioner according to a third embodiment of the present invention;

fig. 4 is a schematic flowchart illustrating an automatic adjusting method for an air conditioner based on a vehicle according to a fourth embodiment of the present invention;

fig. 5 is a block diagram of a cloud server according to a fifth embodiment of the present invention.

Detailed Description

To further explain the technical means and effects of the present invention adopted to achieve the predetermined objects, the present invention will be described in detail below with reference to the accompanying drawings and preferred embodiments.

Fig. 1 is a flowchart illustrating an automatic adjusting method for an air conditioner based on an automobile according to a first embodiment of the present invention. The embodiment is an automatic air conditioner adjusting method based on an automobile and executed by a cloud server. As shown in fig. 1, the automatic adjusting method of the vehicle-based air conditioner of the present embodiment may include the steps of:

step S11: and judging whether the air conditioner starting signal sent by the first vehicle is received at least twice within a preset time interval in real time.

Specifically, if yes, step S12 is executed: and sending a first control signal to the first vehicle to control an air conditioner of the first vehicle to enter an automatic adjusting state. If not, the process returns to step S11.

Specifically, in this embodiment, the in-vehicle machine in the first vehicle will gather the operation of user to the air conditioner in real time to transmit the operation of user to the air conditioner to the cloud server in the mode of signal, for example, when the user starts the air conditioner, the in-vehicle machine will send the air conditioner start signal to the cloud server. And when the user closes the air conditioner, the vehicle machine sends an air conditioner closing signal to the cloud server. Specifically, the car machine of the first vehicle sends each operation of the user on the air conditioner to the cloud server, and the cloud server records the blowing mode of the air conditioner of the first vehicle after each starting in the air conditioner use habit list corresponding to the first vehicle.

Specifically, in the present embodiment, the preset time interval may be, but is not limited to, 30min, for example, the preset time interval may also be longer or shorter than 30min, for example, the preset time interval may be 15min or 60min, and so on. Specifically, whether the cloud server receives an air conditioner starting signal sent by the first vehicle at least twice within a preset time interval, for example, a user of the first vehicle starts an air conditioner twice within the preset time interval, at this time, the cloud server determines that the air conditioner of the first vehicle is performing repeated operation according to the air conditioner starting signal received twice within the preset time interval, and sends a first control signal to a vehicle machine of the first vehicle. After receiving the first control signal, the vehicle-mounted device of the first vehicle controls the air conditioner to enter the automatic adjustment state through the vehicle-mounted controller, so that the user does not need to manually adjust the air conditioner, for example, in rainy weather, especially in rainy weather in winter, the front windshield of the vehicle is easy to atomize, the air conditioner needs to be frequently started, and the air outlet direction of the air conditioner is blown to the front windshield to blow to the front windshield for defogging, at this time, the air conditioner enters the automatic adjustment state, the user does not need to manually start the air conditioner again in the subsequent driving process, and the air blowing direction is adjusted, so that the air conditioner can be automatically started for defogging when the front windshield is atomized, and further the driving safety is improved, but not limited thereto, for example, in one embodiment, the air blowing mode of the air conditioner can be automatically controlled to be a strong wind middle wind outlet mode, cold wind or warm wind, and the like, so as to rapidly cool or warm the first vehicle, and after the temperature in the first vehicle reaches the preset temperature, the air conditioner is controlled to be automatically closed, and after a period of time, when the indoor temperature of the first vehicle is increased or reduced to the preset value, the air conditioner is controlled to be automatically started through the control signal, so that the indoor temperature of the first vehicle is kept at a comfortable temperature, and the energy consumption of the air conditioner of the first vehicle can be reduced. Specifically, the automatic adjustment state may include, but is not limited to, adjustment of a blowing direction of the air conditioner, adjustment of a wind power magnitude, adjustment of an outlet air temperature, and the like.

Specifically, in an embodiment, when the air conditioner of the first vehicle enters the automatic adjustment state, the car machine further displays a prompt message to remind the user that the air conditioner enters the automatic adjustment state, for example, the car machine may remind the user through a voice mode or a display mode.

Specifically, in an embodiment, the method for automatically adjusting an air conditioner based on an automobile further includes, before the step of determining whether an air conditioner start signal sent by a first vehicle is received at least twice within a preset time interval in real time, the steps of: and receiving a vehicle air conditioner starting signal sent by a first vehicle.

Specifically, in this embodiment, the cloud server may record, but is not limited to, after receiving a vehicle air conditioner start signal generated by a first vehicle, whether the air conditioner start signal sent by the first vehicle twice is received within a preset time interval, so as to trigger the air conditioner of the first vehicle to enter an automatic adjustment state, but is not limited thereto.

Referring to fig. 2, fig. 2 is a flowchart illustrating an automatic adjusting method for an automotive-based air conditioner according to a second embodiment of the present invention. As shown in fig. 1 and fig. 2, the method for automatically adjusting an air conditioner based on an automobile according to this embodiment, if yes, further includes the following steps after the step of sending a first control signal to the first vehicle to control the air conditioner of the first vehicle to enter an automatic adjustment state:

Step S21: and acquiring a blowing mode and an air conditioner closing signal of the air conditioner of the first vehicle after the air conditioner is started for the previous time.

Specifically, in this embodiment, the cloud server records and stores each start and stop of the air conditioner of the first vehicle, for example, when the cloud server receives an air conditioner start signal sent by the first vehicle, the cloud server stores the start time of the air conditioner and the start time of the air conditioner into an air conditioner record list corresponding to the first vehicle, and when the cloud server receives an air conditioner stop signal, the cloud server records the stop time of the air conditioner of the first vehicle and the corresponding time in a corresponding place in the air conditioner record list corresponding to the first vehicle, for example, the start time corresponding to the stop of the air conditioner is stored in association with each other.

Step S22: and obtaining the running time of the air conditioner of the first vehicle after the previous starting according to the previous air conditioner starting signal and the previous air conditioner closing signal.

Specifically, in this embodiment, when the air conditioner of the first vehicle enters the automatic adjustment state, the cloud server will obtain the time point when the air conditioner of the first vehicle was started and the time point when the air conditioner was closed last time, so that the corresponding operation duration can be obtained according to the time point when the air conditioner of the first vehicle was started and the time point when the air conditioner was closed last time, for example, after the air conditioner of the first vehicle was started, the operation duration in the corresponding blowing mode is long, and thus, how long the air conditioner needs to be able to remove the atomization of the front windshield of the first vehicle in the corresponding blowing mode when the air conditioner is started next time.

Step S22: the air blowing mode and the running time are processed to obtain a first adjusting signal, and the first adjusting signal is sent to the first vehicle, so that the first vehicle automatically controls the air conditioner to adjust the current working mode of the air conditioner according to the air blowing mode, and the air conditioner is automatically controlled to be closed when the running time is reached.

Specifically, in this embodiment, the following description is given by taking defogging of the first vehicle as an example, but not limited thereto, the cloud server may be but is not limited to process the wind power of the front windshield and the operation duration according to the last time of the first vehicle to obtain a first adjustment signal, and send the first adjustment signal to the first vehicle, so that the first vehicle automatically controls the air conditioner to start, adjusts the wind power, the air outlet direction, the air outlet temperature and the like according to the first adjustment signal, and controls the air conditioner to automatically close when the air conditioner reaches the operation duration after the air conditioner starts. Further, in an embodiment, the cloud server can further obtain the air outlet temperature of the air conditioner of the first vehicle at the previous time, and then can control the first vehicle to adjust the air outlet temperature of the air conditioner after the current air conditioner is started, so as to accelerate the atomization of the front windshield.

Referring to fig. 3, fig. 3 is a flowchart illustrating an automatic adjusting method for an automotive-based air conditioner according to a third embodiment of the present invention. As shown in fig. 2 and fig. 3, the method for automatically adjusting an air conditioner based on an automobile according to the present embodiment further includes the following steps after the step of obtaining a first adjustment signal according to the blowing mode and the blowing duration, and sending the first adjustment signal to the first vehicle:

step S31: and when a wiper starting signal sent by the first vehicle is received, acquiring a weather forecast corresponding to the current position of the first vehicle according to the wiper starting signal.

Specifically, in this embodiment, the cloud server further determines in real time whether a wiper start signal sent by the first vehicle is received, so as to obtain a weather forecast corresponding to the current location of the first vehicle according to the wiper start signal when the wiper start signal sent by the first vehicle is received.

Step S32: and obtaining the weather condition of the position of the first vehicle according to the wiper frequency of the first vehicle and the weather forecast.

Specifically, in this embodiment, the cloud server processes the wiper frequency and the weather forecast of the first vehicle to obtain the weather condition of the location of the first vehicle, for example, the location of the first vehicle is the weather condition of rain in winter, rain in spring, rain in summer, snow in winter, or the like, and then determines whether the front windshield of the first vehicle is often atomized in the current time period according to a first blowing mode, the weather condition, the season, and the like in which the user adjusts the blowing direction of the air conditioner to blow on the front windshield, so as to automatically control the air conditioner to enter the first blowing mode when the front windshield is atomized, and further remove the fog in the front windshield.

Step S33: the method includes the steps of obtaining a first weather condition and a current weather condition of an air conditioner of a first vehicle when the air conditioner of the first vehicle is started last time.

Specifically, in an embodiment, the following description takes the weather condition as rainy weather, but the invention is not limited thereto, and specifically, when the weather condition is rainy weather, the cloud server may compare the wiper frequency corresponding to the current start of the air conditioner of the first vehicle with the first wiper frequency corresponding to the last start of the air conditioner to determine whether the weather conditions of the air conditioner of the first vehicle at the current start and the air conditioner at the last start are changed.

Step S34: and processing according to the first weather condition and the current weather condition to obtain an adjusting coefficient of the air conditioner of the first vehicle.

Specifically, in an embodiment, the cloud server may, but is not limited to, perform weighting processing according to the acquired wiper frequency corresponding to the current start of the air conditioner of the first vehicle and the first wiper frequency corresponding to the last start of the air conditioner to obtain an adjustment coefficient of the current start of the air conditioner of the first vehicle.

Step S35: and adjusting the blowing mode according to the adjusting coefficient to obtain the current blowing mode.

Specifically, in this embodiment, the cloud server adjusts the current blowing mode of the air conditioner according to the current blowing mode of the air conditioner, so that the current blowing mode of the air conditioner is obtained.

Step S36: and obtaining a first adjusting signal according to the current blowing mode and the running time, and sending the first adjusting signal to the first vehicle, so that the first vehicle automatically controls the air conditioner to adjust the current working mode of the air conditioner according to the current blowing mode, and automatically controls the air conditioner to be closed when the running time is reached.

Specifically, in this embodiment, when the current position of the first vehicle is different from the weather condition of the position where the air conditioner was last started, for example, the weather changes, which is that the cloud server compares the current position of the first vehicle with the weather condition of the position where the air conditioner was last started, so as to obtain a corresponding adjustment coefficient, for example, when the rainfall at the current position of the first vehicle becomes large and the temperature decreases, the cloud server obtains the larger adjustment coefficient, for example, the cloud server may determine, but is not limited to, the weather change between the current position and the position where the air conditioner was last started according to the received wiper frequency of the first vehicle. Specifically, in this embodiment, the high in the clouds server handles according to the current mode of blowing that obtains and length of operation and obtains first regulation signal, and with first regulation signal transmission to first vehicle, after the car machine of first vehicle received first regulation signal, through automobile body controller automatic start air conditioner, and adjust the current mode of air conditioner according to the current mode of blowing, so that the air conditioner is long when reaching the length of operation at the during operation, can get rid of the fog of the front windshield of first vehicle, carry out the automatic shutdown air conditioner after reaching length of operation, need not user's manual start air conditioner and close the air conditioner, promote user's driving experience, and can make the user can be absorbed in the driving, promote the security of driving the vehicle.

Referring to fig. 4, fig. 4 is a flowchart illustrating an automatic adjusting method for an automotive air conditioner according to a fourth embodiment of the present invention. As shown in fig. 2 to 4, the method for automatically adjusting an air conditioner based on an automobile according to the present embodiment further includes the following steps after the step of turning off the air conditioner of the first vehicle:

step S41: and according to the time interval between the air conditioner closing signal of the air conditioner of the first vehicle at the previous time and the air conditioner starting signal at the next time.

Specifically, in this embodiment, the cloud server may be, but not limited to, obtain a time interval between two adjacent starts of the air conditioner of the first vehicle after the air conditioner of the first vehicle is turned off, for example, when the cloud server receives an air conditioner turn-off signal sent by the first vehicle, the time interval between two previous starts of the air conditioner of the first vehicle may be searched in an air conditioner record list corresponding to the first vehicle.

Step S42: and when the time length of the air conditioner of the first vehicle after being closed reaches a time interval, sending a second control signal to the first vehicle so that the first vehicle controls the air conditioner to be started again according to the second control signal.

Specifically, in this embodiment, the cloud server starts timing after receiving the air conditioner shutdown signal of the first vehicle, and generates the second control signal when a time duration of the air conditioner of the first vehicle after shutdown reaches a time interval. The cloud server sends the generated second control signal to the first vehicle, and after the vehicle machine of the first vehicle receives the second control signal, the vehicle machine of the first vehicle controls the air conditioner to automatically start again through the vehicle body controller so as to carry out defogging treatment on the front windshield of the first vehicle, or carry out cooling or heating treatment on the first vehicle so as to keep the temperature in the vehicle proper.

Referring to fig. 5, fig. 5 is a block diagram illustrating a cloud server 200 according to a fifth embodiment of the present invention. As shown in fig. 5, the cloud server 200 provided in this embodiment is used for executing an automatic air conditioner adjusting method based on an automobile, and the cloud server 200 provided in this embodiment includes a memory 210 and a processor 220.

Specifically, in the present embodiment, the memory 210 is used to store executable program code. The processor 220 is configured to call the executable program code in the memory 210 to implement the steps of automatically adjusting the vehicle-based air conditioner: judging whether an air conditioner starting signal sent by a first vehicle is received at least twice within a preset time interval in real time; if so, sending a first control signal to the first vehicle to control an air conditioner of the first vehicle to enter an automatic adjusting state; if not, returning to the step of judging whether the air conditioner starting signal sent by the first vehicle is received at least twice within the preset time interval.

Specifically, in an embodiment, the processor 220, before the step of determining whether the air conditioner starting signal sent by the first vehicle is received at least twice within the preset time interval in real time, executes the following steps: and receiving a vehicle air conditioner starting signal sent by the first vehicle.

Specifically, in this embodiment, the cloud server 200 may record, but is not limited to, whether the air conditioner start signal sent by the first vehicle is received twice within a preset time interval after receiving the air conditioner start signal sent by the first vehicle, so as to trigger the air conditioner of the first vehicle to enter the automatic adjustment state, but is not limited thereto.

Specifically, in this embodiment, if the execution of the step by the processor 220 is yes, the step further executed after the step of sending the first control signal to the first vehicle to control the air conditioner of the first vehicle to enter the automatic adjustment state includes: acquiring a blowing mode and an air conditioner closing signal of an air conditioner of a first vehicle after the air conditioner is started for the previous time; obtaining the running time of the air conditioner of the first vehicle after the previous starting according to the previous air conditioner starting signal and the previous air conditioner closing signal; processing the blowing mode and the running time to obtain a first adjusting signal, and sending the first adjusting signal to a first vehicle, so that the first vehicle automatically controls the air conditioner to adjust the current working mode of the air conditioner according to the blowing mode, and automatically controls the air conditioner to be closed when the running time is reached; the blowing mode comprises the air outlet direction of the air conditioner, the wind power and cold and hot air.

Specifically, in this embodiment, the processor 220, after performing the steps of obtaining the first adjustment signal according to the blowing mode and the blowing time length, and sending the first adjustment signal to the first vehicle, further performs the steps of: when a wiper starting signal sent by a first vehicle is received, acquiring a weather forecast corresponding to the current position of the first vehicle according to the wiper starting signal; obtaining the weather condition of the position of the first vehicle according to the wiper frequency of the first vehicle and the weather forecast; acquiring a first weather condition and a current weather condition of an air conditioner of a first vehicle when the air conditioner is started for the previous time; processing according to the first weather condition and the current weather condition to obtain an adjusting coefficient of an air conditioner of the first vehicle; adjusting the blowing mode according to the adjustment coefficient to obtain a current blowing mode; and obtaining a first adjusting signal according to the current blowing mode and the running time, and sending the first adjusting signal to the first vehicle, so that the first vehicle automatically controls the air conditioner to adjust the current working mode of the air conditioner according to the current blowing mode, and automatically controls the air conditioner to be closed when the running time is reached.

Specifically, in this embodiment, the processor 220, after performing the step of turning off the air conditioner, further performs the steps including: according to the time interval between the air conditioner closing signal of the air conditioner of the first vehicle at the previous time and the air conditioner starting signal at the next time; and when the time length of the air conditioner of the first vehicle after being closed reaches a time interval, sending a second control signal to the first vehicle so that the first vehicle controls the air conditioner to be started again according to the second control signal.

For the specific process of implementing each function of each functional unit of the cloud server 200 in this embodiment, please refer to the specific contents described in the embodiments shown in fig. 1 to fig. 4, which is not described herein again.

Specifically, according to the automatic air conditioner adjustment method based on the automobile and the cloud server provided by the embodiment, the operation behavior of the air conditioner in the vehicle driven by the user is judged, so that when the user repeats the same operation behavior on the air conditioner, the air conditioner of the vehicle can be automatically controlled to enter an automatic adjustment state, the user operation is not needed, the adjustment of the air conditioner can be realized, the user experience is improved, and meanwhile, the safety of the vehicle driven by the user is improved.

In addition, an embodiment of the present invention further provides a computer-readable storage medium, in which computer-executable instructions are stored, where the computer-readable storage medium is, for example, a non-volatile memory such as an optical disc, a hard disc, or a flash memory. The computer-executable instructions are used for causing a computer or similar computing device to perform various operations in the automatic adjusting method of the automobile-based air conditioner.

It should be noted that, in the present specification, the embodiments are all described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments may be referred to each other. For the terminal class embodiment, since it is basically similar to the method embodiment, the description is relatively simple, and for relevant points, reference may be made to part of the description of the method embodiment.

Claims

1. The automatic air conditioner adjusting method based on the automobile is applied to a cloud server and comprises the following steps:

judging whether an air conditioner starting signal sent by a first vehicle is received at least twice within a preset time interval in real time;

if so, sending a first control signal to the first vehicle to control an air conditioner of the first vehicle to enter an automatic adjusting state;

if so, sending a first control signal to the first vehicle to control the air conditioner of the first vehicle to enter an automatic adjusting state, and then:

acquiring a blowing mode and an air conditioner closing signal of the air conditioner of the first vehicle after the air conditioner is started for the previous time;

obtaining the running time of the air conditioner of the first vehicle after the previous starting according to the previous air conditioner starting signal and the previous air conditioner closing signal;

processing the blowing mode and the running time to obtain a first adjusting signal, and sending the first adjusting signal to the first vehicle, so that the first vehicle automatically controls the air conditioner to adjust the current working mode of the air conditioner according to the blowing mode, and automatically controls the air conditioner to be closed when the running time is reached;

Wherein the step of obtaining a first adjustment signal according to the blowing mode and the operating duration and sending the first adjustment signal to the first vehicle comprises:

when a wiper starting signal sent by a first vehicle is received, acquiring a weather forecast corresponding to the current position of the first vehicle according to the wiper starting signal;

obtaining the weather condition of the position of the first vehicle according to the wiper frequency of the first vehicle and the weather forecast;

acquiring a first weather condition and a current weather condition of an air conditioner of the first vehicle when the air conditioner is started at the previous time;

processing according to the first weather condition and the current weather condition to obtain an adjusting coefficient of an air conditioner of the first vehicle;

adjusting the blowing mode according to the adjusting coefficient to obtain a current blowing mode;

obtaining a first adjusting signal according to the current blowing mode and the running time length, and sending the first adjusting signal to the first vehicle, so that the first vehicle automatically controls the air conditioner to adjust the current working mode of the air conditioner according to the current blowing mode, and automatically controls the air conditioner to be turned off when the running time length is reached;

If not, returning to the step of judging whether the air conditioner starting signal sent by the first vehicle is received at least twice within the preset time interval or not in real time.

2. The automatic adjusting method of an automobile-based air conditioner according to claim 1, further comprising:

according to the time interval between the air conditioner closing signal of the previous time and the air conditioner starting signal of the next time in the two adjacent times of starting of the air conditioner of the first vehicle;

and when the time length of the air conditioner of the first vehicle after being closed reaches the time interval, sending a second control signal to the first vehicle so that the first vehicle controls the air conditioner to be started again according to the second control signal.

3. The automatic adjusting method for the automobile-based air conditioner according to claim 1, wherein the blowing mode comprises an air outlet direction of the air conditioner, a wind power magnitude and cold and warm wind.

4. The automatic adjusting method for air conditioners based on automobiles according to claim 1, wherein the step of judging in real time whether the air conditioner starting signal sent by the first vehicle is received at least twice within the preset time interval further comprises:

And receiving a vehicle air conditioner starting signal sent by the first vehicle.

5. A cloud server, the cloud server comprising:

a memory for storing executable program code; and

a processor for invoking the executable program code in the memory to implement the steps of auto-tuning of an automotive-based air conditioner:

judging whether an air conditioner starting signal sent by a first vehicle is received at least twice within a preset time interval or not in real time;

processing the blowing mode and the running time to obtain a first adjusting signal, and sending the first adjusting signal to the first vehicle, so that the first vehicle automatically controls the air conditioner to adjust the current working mode of the air conditioner according to the blowing mode, and automatically controls the air conditioner to be closed when the running time is reached; the blowing mode comprises the air outlet direction of the air conditioner, the wind power and cold and hot air;

If not, returning to the step of judging whether the air conditioner starting signal sent by the first vehicle is received at least twice within the preset time interval.

6. The cloud server of claim 5, wherein said processor further performs the step of: