CN111993856A - Intelligent vehicle cooling and heating control method and system - Google Patents

Abstract

The invention discloses a vehicle intelligent cooling and heating control method and a system, comprising the following steps: step 1, a big data center collects user personal information, real vehicle activity data and vehicle position information; step 2, the big data center judges that the user uses the vehicle after T minutes according to the collected data, and when the vehicle stops outdoors, when the outdoor temperature of the position of the vehicle is more than or equal to a first preset temperature threshold T1 or less than or equal to a second preset temperature threshold T2, an instruction for advising to start the intelligent cold and warm vehicle is sent to the vehicle-mounted entertainment system; step 3, if the temperature in the vehicle is greater than or equal to a first preset temperature threshold value T1 or less than or equal to a second preset temperature threshold value T2, sending a signal meeting the opening condition of the intelligent cold and warm vehicle to a vehicle-mounted entertainment system; step 4, the vehicle-mounted entertainment system sends a reminding message of the starting request of the intelligent cold and warm vehicle to the mobile phone APP for reminding; and 5, if the selection is immediate starting, controlling the air conditioner control system to start working. The invention can automatically monitor the environment of the vehicle and actively push and start the air conditioner in advance.

Description

Intelligent vehicle cooling and heating control method and system

Technical Field

The invention belongs to the technical field of automotive electronics, and particularly relates to an intelligent vehicle cooling and heating control method and system.

Background

With the rapid development of modern automobile technology, the comfort and experience of using automobiles gradually become the focus of attention of people, and users hope to build emotion with the automobiles. When a user wants to drive the vehicle in cold winter or hot summer, the interior of the vehicle is too cold or too hot, even fogs, and is extremely uncomfortable. For a vehicle without remote control starting, a user starts the vehicle, turns on the air conditioner for several minutes, and then starts the vehicle, many vehicles have a function of remotely starting the air conditioner, but the user rarely uses the function, as shown in fig. 1, the control logic of the existing remote control or remote starting of the air conditioner is as follows:

(1) the user operates the intelligent key or the mobile phone APP to send a remote control or remote start signal to the vehicle body control module, the vehicle body control module sends a power shift and a signal of a remote control start air conditioner to the input processing module of the air conditioner, and the signal is converted and then sent to the main control unit of the air conditioner, namely the MCU in the figure.

(2) And the vehicle-mounted entertainment module sends the main driving temperature adjusting signal to an input processing module of the air conditioner.

(3) The main control unit reads temperature signals of the in-vehicle temperature sensor and the out-vehicle temperature sensor, and drives the blower motor and each air port motor to realize in-vehicle temperature adjustment after logic judgment.

According to the control logic, the existing remote control or remote start air conditioner mode mainly comprises the steps that a driver actively presses a remote start button or opens a mobile phone APP to select a remote start button, the trigger source is the operation of active consciousness of a user, however, an actual user often forgets to start a vehicle in advance to adjust the temperature in the vehicle in the use process, or the function is started when the actual user is close to the vehicle, and the effect of adjusting the temperature in advance is not achieved. The existing remote control or remote starting of the air conditioning function requires a user to initiate a request actively, so that the actual experience of the user on the function is poor, and the pain point of the user who is too cold or too hot in the vehicle is not solved substantially when the user gets on the vehicle.

Therefore, it is necessary to develop an intelligent cooling and heating control method and system for a vehicle.

Disclosure of Invention

The invention aims to provide an intelligent vehicle cooling and heating control method and system, which can automatically monitor the environment of a vehicle and actively push an air conditioner to be started in advance.

In a first aspect, the invention provides an intelligent vehicle cooling and heating control method, comprising the following steps:

step 1, a big data center collects user personal information, real vehicle activity data and vehicle position information;

step 2, the big data center judges that the user uses the vehicle after T minutes according to the collected data, when the vehicle stops outdoors, the weather condition of the position of the vehicle is obtained, including temperature data and illumination intensity, and when the outdoor temperature of the position of the vehicle is greater than or equal to a first preset temperature threshold value T1 or less than or equal to a second preset temperature threshold value T2, an instruction of advising to start the intelligent cold and warm vehicle is sent to the vehicle-mounted entertainment system;

step 3, the vehicle-mounted entertainment system receives an instruction of opening the intelligent cooling and heating vehicle suggested by the big data center and then forwards the instruction to the vehicle body control system, the vehicle body control system acquires illumination data of the sunshine sensor and temperature data of an in-vehicle temperature sensor and an out-vehicle temperature sensor of the air-conditioning control system, and if the in-vehicle temperature is greater than or equal to a first preset temperature threshold value T1 or less than or equal to a second preset temperature threshold value T2, a signal meeting the opening condition of the intelligent cooling and heating vehicle is sent to the vehicle-mounted entertainment system; if not, exiting;

step 4, the vehicle-mounted entertainment system sends a reminding message of the starting request of the intelligent cold and warm vehicle to the mobile phone APP for reminding;

step 5, the vehicle-mounted entertainment system receives the selection of the mobile phone APP, and if the selection is immediate starting, the vehicle-mounted entertainment system sends an intelligent cold and warm starting request to the vehicle body control system, the vehicle body control system starts an engine, and meanwhile, the air conditioner control system starts to work and adjusts according to the temperature set by the last vehicle or the temperature set remotely; if the delay is selected, judging and executing in sequence according to the step 2 after the delay time; if the selection is cancellation or overtime is not processed, the intelligent recommendation is not carried out again;

and 6, after the execution of the vehicle end is finished, sending the feedback information to the mobile phone APP.

Further, in the step 2, if the conditions a to d are all satisfied, the big data center sends a request signal for advising to turn on the intelligent cooling and heating system to the vehicle-mounted entertainment system; otherwise, the recommendation is not carried out again;

condition a: the vehicle is static, and the unmanned vehicle is used for more than t1 minutes;

condition b: the vehicle is parked in a non-garage;

condition c: (temperature at the vehicle position is T1 or higher&The solar irradiance at the location of the vehicle is more than XW/m²) The temperature of the position of the vehicle is less than or equal to T2;

condition d: it is pre-determined that the user will use the vehicle after t minutes.

Further, after the vehicle body control system receives the request signal for suggesting to start the intelligent cooling and heating, judging conditions from e to j:

condition e: power OFF gear;

condition f: currently in a non-start-prohibited engine state;

condition g: engine state Stop or Invalid;

condition h: the hand brake is in a clamping state;

condition i: the gear shifter is in a P/N gear;

condition j: (vehicle interior temperature not lower than T1&Solar irradiance greater than XW/m²) The temperature in the I vehicle is less than or equal to T2;

and if the conditions are met, sending a feedback signal meeting the intelligent cold and warm start, otherwise, sending feedback not meeting the intelligent cold and warm start, and ending the intelligent recommendation.

Further, in the step 5, if the instant start is selected, the vehicle-mounted entertainment system sends a request for starting the intelligent cooling and heating to the vehicle body control system, and the vehicle body control system judges that the condition k is equal to the condition o after receiving the control instruction;

condition k: the power supply is in an OFF gear;

condition l: currently in a non-start-prohibited engine state;

condition m: engine state Stop or Invalid;

condition n: the hand brake is in a clamping state;

condition o: the gear shifter is in a P/N gear;

and if the conditions are met, starting the engine, and simultaneously sending an air conditioner starting instruction to the air conditioner control system, so that the air conditioner control system starts to work.

Further, in step 6, vehicle body control system starts the successful feedback signal with intelligent changes in temperature and sends to on-vehicle entertainment system, and on-vehicle entertainment system forwards to big data center and cell-phone APP, and cell-phone APP plays the frame suggestion: the intelligent cooling and heating of the vehicle are started, and the vehicle is used within t minutes.

Further, in the step 1, the personal information of the user includes name, gender, mobile phone number, mailbox, home address, company address, time of going to and going to work, and whether other fixed regular habits exist;

the real vehicle activity data comprises vehicle using time and vehicle using place;

when the vehicle is not in use, the real vehicle activity data and the personal information of the user are collated, and the user portrait is perfected.

In a second aspect, the vehicle intelligent cooling and heating control system comprises a mobile phone APP, a big data center, a vehicle-mounted entertainment system, a vehicle body control system, an air conditioner control system and a 360-degree panoramic system; the big data center is respectively connected with a mobile phone APP, a vehicle-mounted entertainment system and a 360-degree panoramic system, and the vehicle body control system is respectively connected with the vehicle-mounted entertainment system and an air conditioner control system; the 360-degree panoramic system is used for uploading images to a big data center when the vehicle parks and identifying the position of the vehicle; the vehicle intelligent cooling and heating control system is configured to be capable of executing the steps of the vehicle intelligent cooling and heating control method.

The invention has the following advantages: the environmental condition that the user is about to use the vehicle at the moment is judged through the big data center and the vehicle body control system, the situation that the user is in the position of the vehicle meets the situation that the user actively pushes the mobile phone APP after the scene of 'too cold or too hot in the vehicle', the user opens the air conditioner in advance according to the demand operation, the user is prevented from forgetting to start the air conditioner in advance and the user gets on the vehicle extremely uncomfortably, and the user can be enabled to feel the intelligent vehicle experience of 'the driver of the vehicle'.

Drawings

FIG. 1 is a schematic diagram of a prior art remote turn-on air conditioning system;

fig. 2 is a schematic block diagram of the vehicle intelligent cooling and heating control system in the present embodiment;

fig. 3 is a flowchart of the vehicle intelligent cooling and heating control method in the embodiment.

Detailed Description

The invention will be further explained with reference to the drawings.

As shown in fig. 2, in the present embodiment, an intelligent vehicle cooling and heating control system includes a mobile phone APP, a big data center, a vehicle-mounted entertainment system, a vehicle body control system, an air conditioner control system, and a 360-degree panorama system; big data center is connected with cell-phone APP, on-vehicle entertainment system, 360 panorama systems respectively, automobile body control system is connected with on-vehicle entertainment system and air conditioner control system respectively.

The 360-degree panoramic system is used for uploading images to a big data center when the vehicle is parked and used for identifying the position of the vehicle.

The big data center obtains user personal information, real vehicle activity data (user portrait data are arranged and updated when a user does not use a vehicle every day) and environment data of a mobile phone APP, judges whether intelligent vehicle cooling and heating are needed or not t minutes before the user uses the vehicle, and sends an instruction of advising to start the intelligent vehicle cooling and heating to a vehicle-mounted entertainment system at a vehicle end if the intelligent vehicle cooling and heating are needed;

and the vehicle-mounted entertainment system forwards the instruction of advising to start the intelligent cold and warm vehicle to the vehicle body control system.

The vehicle body control system acquires the current illumination value of the sunlight sensor and the temperature data inside and outside the vehicle of the air conditioner control system, judges whether the intelligent cooling and heating of the vehicle are met, and feeds back and sends a signal meeting the opening condition of the intelligent cooling and heating vehicle to the vehicle-mounted entertainment system if the intelligent cooling and heating of the vehicle are met.

On-vehicle entertainment system will intelligent cold warm car start-up request's warning message send to cell-phone APP, in this embodiment, cell-phone APP plays the frame suggestion: according to the current environment of the position of the lovely car and the demand of the upcoming car, the lovely owner recommends to start an air conditioner in the car in advance and to execute the process, and options include: prompt immediately, prompt delayed by 10 minutes, prompt delayed by 1 hour and cancel.

Cell-phone APP sends the operating command of user's selection to big data center and on-vehicle entertainment system, if carry out vehicle intelligence changes in temperature, then automobile body control system starts the engine, sends simultaneously and starts air conditioner instruction to air conditioner control system, and air conditioner control system begins work, adjusts according to the temperature that the last car of user set for or the temperature of long-range setting.

After the intelligent cooling and heating function of the vehicle is successfully executed, the vehicle-mounted entertainment system successfully feeds back the intelligent cooling and heating start to the mobile phone APP and the big data center.

As shown in fig. 3, in this embodiment, an intelligent cooling and heating control method for a vehicle includes the following steps:

step 1, a big data center collects user personal information, real vehicle activity data and vehicle position information; wherein: the personal information of the user comprises name, gender, mobile phone number, mailbox, home address, company address, work attendance time and whether other habits with fixed rules exist (such as fitness arrangement, family education and the like); the real vehicle activity data comprises vehicle using time and vehicle using place; when the vehicle is not in use, the real vehicle activity data and the personal information of the user are collated, and the user portrait is perfected.

And 2, the big data center pre-judges that the user uses the vehicle after T minutes (for example, 10 minutes) according to the collected data, acquires the weather condition of the position of the vehicle including temperature data and illumination intensity when the vehicle is stopped outdoors, and sends a command for advising to start the intelligent vehicle cooling and heating to the vehicle-mounted entertainment system when the outdoor temperature of the position of the vehicle is greater than or equal to a first preset temperature threshold T1 or less than or equal to a second preset temperature threshold T2.

In the embodiment, if the conditions a to d are all met, the big data center sends a request signal for advising to start the intelligent cooling and heating system to the vehicle-mounted entertainment system; otherwise, the recommendation is not carried out again;

condition a: the vehicle is static, and the unmanned vehicle is used for more than t1 minutes; in this example, t1 was 30 minutes.

Condition b: the vehicle is parked in a non-garage;

condition c: (temperature at the vehicle position is T1 or higher&Sunlight irradiation at vehicle locationDegree greater than XW/m²) The temperature of the position of the vehicle is less than or equal to T2. In this example, T1 was 35 ℃ and XW/m²Is 200W/m²And T2 is 5 ℃. People in each region have different comfort levels, and T1, T2 and X are different and are identified by a large data center and pushed one by one;

condition d: it is pre-determined that the user will use the vehicle after t minutes.

Step 3, the vehicle-mounted entertainment system receives an instruction of opening the intelligent cooling and heating vehicle suggested by the big data center and then forwards the instruction to the vehicle body control system, the vehicle body control system acquires illumination data of the sunshine sensor and temperature data of an in-vehicle temperature sensor and an out-vehicle temperature sensor of the air-conditioning control system, and if the in-vehicle temperature is greater than or equal to a first preset temperature threshold value T1 or less than or equal to a second preset temperature threshold value T2, a signal meeting the opening condition of the intelligent cooling and heating vehicle is sent to the vehicle-mounted entertainment system; if not, exit.

In this embodiment, after the vehicle body control system receives the request signal for advising to turn on the intelligent cooling and heating system, the vehicle body control system determines that the conditions from e to j are as follows:

condition e: power OFF gear;

condition f: currently in a non-start-prohibited engine state;

condition g: engine state Stop or Invalid;

condition h: the hand brake is in a clamping state;

condition i: the gear shifter is in a P/N gear;

condition j: (vehicle interior temperature not lower than T1&Solar irradiance greater than XW/m²) The temperature in the I vehicle is less than or equal to T2;

and if the conditions are met, sending a feedback signal meeting the intelligent cold and warm start, otherwise, sending feedback not meeting the intelligent cold and warm start, and ending the intelligent recommendation.

And 4, the vehicle-mounted entertainment system sends the reminding message of the intelligent cold and warm vehicle starting request to the mobile phone APP for reminding.

In this embodiment, the mobile phone APP performs a pop frame prompt: according to the current environment of the position of the lovely car and the demand of the upcoming car, the lovely owner recommends to start an air conditioner in the car in advance and to execute the process, and options include: prompt immediately, prompt delayed by 10 minutes, prompt delayed by 1 hour and cancel.

Step 5, the vehicle-mounted entertainment system receives the selection of the mobile phone APP, and if the selection is immediate starting, the vehicle-mounted entertainment system sends an intelligent cold and warm starting request to the vehicle body control system, the vehicle body control system starts an engine, and meanwhile, the air conditioner control system starts to work and adjusts according to the temperature set by the last vehicle or the temperature set remotely; if the delay is selected, judging and executing in sequence according to the step 2 after the delay time; if the selection is cancellation or overtime is not processed, intelligent recommendation is not performed again.

In the embodiment, 5.1, if the vehicle-mounted entertainment system is selected to be started immediately, the vehicle-mounted entertainment system sends an intelligent cold and warm starting request to the vehicle body control system, and the vehicle body control system judges that the condition k is in the condition o after receiving a control instruction;

condition k: the power supply is in an OFF gear;

condition l: currently in a non-start-prohibited engine state;

condition m: engine state Stop or Invalid;

condition n: the hand brake (electronic hand brake or mechanical hand brake) is in a clamping state;

condition o: the gear shifter is in a P/N gear;

and if the conditions are met, starting the engine, and simultaneously sending an air conditioner starting instruction to the air conditioner control system, so that the air conditioner control system starts to work.

5.2, if the selection is the delay, then on-vehicle entertainment system receives delay request signal and does not do processing, after big data center received delay request, after the delay time arrived, judge again whether need carry out intelligent changes in temperature function, if satisfy, then repeat above-mentioned step, if unsatisfied, then send the signal for cell-phone APP, the suggestion user: according to the current environment, intelligent cooling and heating are not needed, and you are asked to confirm. The options include: and confirming and still starting.

And 5.2.1, if the user selects 'confirmation', finishing the intelligent recommendation.

5.2.1, if the user selects "still on", then it is performed as per 5.1.

And 5.3, if the user selects 'cancel', ending the intelligent recommendation.

And 5.4, if the user does not select any operation for more than 3 minutes, ending the intelligent recommendation.

And 6, after the execution of the vehicle end is finished, sending the feedback information to the mobile phone APP.

In this embodiment, automobile body control system will intelligent cold and warm start success feedback signal send to on-vehicle entertainment system, and on-vehicle entertainment system forwards to big data center and cell-phone APP, and cell-phone APP plays the frame suggestion: the intelligent vehicle cooling and heating system is used for turning on the intelligent vehicle cooling and heating, and people use the intelligent vehicle cooling and heating system in t minutes (such as 10 minutes).

Claims (7)

1. An intelligent vehicle cooling and heating control method is characterized in that: the method comprises the following steps:

step 1, a big data center collects user personal information, real vehicle activity data and vehicle position information;

step 2, the big data center judges that the user uses the vehicle after T minutes according to the collected data, when the vehicle stops outdoors, the weather condition of the position of the vehicle is obtained, including temperature data and illumination intensity, and when the outdoor temperature of the position of the vehicle is greater than or equal to a first preset temperature threshold value T1 or less than or equal to a second preset temperature threshold value T2, an instruction of advising to start the intelligent cold and warm vehicle is sent to the vehicle-mounted entertainment system;

step 3, the vehicle-mounted entertainment system receives an instruction of opening the intelligent cooling and heating vehicle suggested by the big data center and then forwards the instruction to the vehicle body control system, the vehicle body control system acquires illumination data of the sunshine sensor and temperature data of an in-vehicle temperature sensor and an out-vehicle temperature sensor of the air-conditioning control system, and if the in-vehicle temperature is greater than or equal to a first preset temperature threshold value T1 or less than or equal to a second preset temperature threshold value T2, a signal meeting the opening condition of the intelligent cooling and heating vehicle is sent to the vehicle-mounted entertainment system; if not, exiting;

step 4, the vehicle-mounted entertainment system sends a reminding message of the starting request of the intelligent cold and warm vehicle to the mobile phone APP for reminding;

step 5, the vehicle-mounted entertainment system receives the selection of the mobile phone APP, and if the selection is immediate starting, the vehicle-mounted entertainment system sends an intelligent cold and warm starting request to the vehicle body control system, the vehicle body control system starts an engine, and meanwhile, the air conditioner control system starts to work and adjusts according to the temperature set by the last vehicle or the temperature set remotely; if the delay is selected, judging and executing in sequence according to the step 2 after the delay time; if the selection is cancellation or overtime is not processed, the intelligent recommendation is not carried out again;

and 6, after the execution of the vehicle end is finished, sending the feedback information to the mobile phone APP.

2. The intelligent vehicle cooling and heating control method according to claim 1, characterized in that: in the step 2, if the conditions a to d are all met, the big data center sends a request signal for advising to start the intelligent cooling and heating system to the vehicle-mounted entertainment system; otherwise, the recommendation is not carried out again;

condition a: the vehicle is static, and the unmanned vehicle is used for more than t1 minutes;

condition b: the vehicle is parked in a non-garage;

condition c: (temperature at the vehicle position is T1 or higher&The solar irradiance at the location of the vehicle is more than XW/m²) The temperature of the position of the vehicle is less than or equal to T2;

condition d: it is pre-determined that the user will use the vehicle after t minutes.

3. The intelligent vehicle cooling and heating control method according to claim 2, characterized in that: after the vehicle body control system receives the request signal for suggesting to start the intelligent cooling and heating, judging a condition from e to j:

condition e: power OFF gear;

condition f: currently in a non-start-prohibited engine state;

condition g: engine state Stop or Invalid;

condition h: the hand brake is in a clamping state;

condition i: the gear shifter is in a P/N gear;

condition j: (The temperature in the vehicle is not lower than T1&Solar irradiance greater than XW/m²) The temperature in the I vehicle is less than or equal to T2;

and if the conditions are met, sending a feedback signal meeting the intelligent cold and warm start, otherwise, sending feedback not meeting the intelligent cold and warm start, and ending the intelligent recommendation.

4. The intelligent vehicle cooling and heating control method according to claim 3, wherein: in the step 5, if the vehicle-mounted entertainment system is selected to be started immediately, the vehicle-mounted entertainment system sends an intelligent cold and warm starting request to the vehicle body control system, and the vehicle body control system judges that the condition k is in the range from the condition o after receiving a control instruction;

condition k: the power supply is in an OFF gear;

condition l: currently in a non-start-prohibited engine state;

condition m: engine state Stop or Invalid;

condition n: the hand brake is in a clamping state;

condition o: the gear shifter is in a P/N gear;

and if the conditions are met, starting the engine, and simultaneously sending an air conditioner starting instruction to the air conditioner control system, so that the air conditioner control system starts to work.

5. The intelligent vehicle cooling and heating control method according to claim 4, wherein: in step 6, the vehicle body control system sends the intelligent cold and warm start success feedback signal to the vehicle-mounted entertainment system, the vehicle-mounted entertainment system forwards the intelligent cold and warm start success feedback signal to the big data center and the mobile phone APP, and the mobile phone APP plays a frame prompt: the intelligent cooling and heating of the vehicle are started, and the vehicle is used within t minutes.

6. The intelligent vehicle cooling and heating control method according to any one of claims 1 to 5, characterized in that: in the step 1, the personal information of the user comprises name, gender, mobile phone number, mailbox, home address, company address, work attendance time and whether other habits with fixed rules exist;

the real vehicle activity data comprises vehicle using time and vehicle using place;

when the vehicle is not in use, the real vehicle activity data and the personal information of the user are collated, so that the portrait of the user is improved.

7. The utility model provides a vehicle intelligence changes in temperature control system which characterized in that: the system comprises a mobile phone APP, a big data center, a vehicle-mounted entertainment system, a vehicle body control system, an air conditioner control system and a 360-degree panoramic system; the big data center is respectively connected with a mobile phone APP, a vehicle-mounted entertainment system and a 360-degree panoramic system, and the vehicle body control system is respectively connected with the vehicle-mounted entertainment system and an air conditioner control system;

the 360-degree panoramic system is used for uploading images to a big data center when the vehicle parks and identifying the position of the vehicle;

the vehicle intelligent cooling and heating control system is configured to be capable of executing the steps of the vehicle intelligent cooling and heating control method according to any one of claims 1 to 6.

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