CN113978328B

CN113978328B - Control method and device, vehicle and storage medium

Info

Publication number: CN113978328B
Application number: CN202111271013.9A
Authority: CN
Inventors: 郑龙
Original assignee: Guangzhou Xiaopeng Motors Technology Co Ltd
Current assignee: Guangzhou Xiaopeng Motors Technology Co Ltd
Priority date: 2021-10-29
Filing date: 2021-10-29
Publication date: 2022-08-16
Anticipated expiration: 2041-10-29
Also published as: CN113978328A

Abstract

The application discloses control method of seat ventilation heating function includes: in response to an access operation of a seat heating and ventilation adjusting function page, creating a seat graphic mapped with a vehicle seat in the background of the function page, reading the configuration of a vehicle to obtain configuration information of each seat heating and ventilation function, creating a corresponding function control at a corresponding position of the seat graphic according to the function configuration information, reading a hardware signal of the seat to obtain an execution state of the ventilation and heating function of each seat, drawing the seat graphic and the function control graphic according to the execution state, monitoring an operation event of the function control, issuing an execution signal aiming at the operation event to enable the vehicle-mounted heating and ventilation system to execute an operation corresponding to the operation event on a target seat, monitoring a change callback of the target seat aiming at the execution signal, and updating the seat graphic and the function control graphic of the target seat. So that the user can visually see the seat to be controlled and the current ventilation and heating state of the seat in the vehicle.

Description

Control method and device, vehicle and storage medium

Technical Field

The present application relates to the field of transportation, and in particular, to a method and an apparatus for controlling a ventilation and heating function of a seat, a vehicle, and a computer-readable storage medium.

Background

At present, in on-vehicle seat heating ventilation technical field, often set up the control of ventilation and heating respectively at the interface of difference, and when the user wants to operate ventilation and heating function simultaneously, need frequently switch the page, user experience is relatively poor. The other type is that a target seat is required to be selected, and then the heating and ventilation closing function and the gear selection of the selected target seat are tiled in parallel in a mode of a plurality of buttons, and the mode is complex in interaction, complex in interface and large in button number.

Disclosure of Invention

In view of the above, the present application provides a control method, a control device, a vehicle and a computer readable storage medium for a seat ventilation heating function.

The application provides a control method for ventilation and heating of a seat, which comprises the following steps:

creating a seat illustration mapped with a vehicle seat in a background of a seat heating and ventilation adjustment function page in response to an access operation of the function page;

reading the configuration of a vehicle to obtain configuration information of each seat heating and ventilating function, and creating a corresponding function control at the corresponding position of the seat diagram according to the function configuration information;

reading hardware signals of the seats to obtain an execution state of a ventilation and heating function of each seat, and drawing a seat diagram and a function control diagram according to the execution state;

monitoring an operation event of the function control;

issuing an execution signal aiming at the operation event so as to enable the vehicle-mounted heating and ventilating system to execute the operation corresponding to the operation event on the target seat;

and monitoring the change callback of the target seat for the execution signal, and updating the seat graphic and the function control graphic of the target seat.

So, compare in current seat ventilation heating respectively at the interface of difference, need switch different pages when the operation, or through selecting certain seat earlier, again with seat heating ventilation's the mode of closing function and gear selection with a plurality of buttons tiling side by side open, and lead to mutual loaded down with trivial details, the interface design is complicated, the condition of button a lot of, this application accessible unified seat heating ventilation regulatory function page for the user can see the seat that oneself needs control directly perceivedly. Meanwhile, the current ventilation and heating state of the seat in the vehicle is visually displayed. Furthermore, the user can operate the function control, determines the update gear according to the operation result of the user, sends the update gear to the vehicle-mounted heating and ventilating system to control and execute the corresponding function, and uses the execution result to update the display state of the function control, so that the user can operate each seat according to the function state of each seat and obtain the feedback of the operation result.

The reading the configuration of the vehicle to obtain configuration information of each seat heating and ventilating function, and creating a corresponding function control at the corresponding position of the seat diagram according to the configuration information comprises:

reading vehicle configuration to obtain functional configuration information of ventilation heating of each seat;

creating a seat heating function control on a seat illustration of a corresponding seat with the heating function configured;

in the event that a ventilation function is configured, creating a seat ventilation function control on a seat illustration of the corresponding seat;

in the case where the heating function and the ventilation function are not configured, the heating function control and the ventilation function control are not created on the seat diagram of the corresponding seat.

In this way, the user can clearly and intuitively see the heating and ventilation supporting condition of each seat of the vehicle and see the different heating and ventilation condition of each seat respectively through the control method. The heating function and the ventilation function do not need to be switched in different pictures, and different pictures of each seat are switched to control the heating and ventilation of different seats.

The reading the hardware signal of the seat to obtain the execution state of the ventilation heating function of each seat, and drawing the seat graph and the function control graph according to the execution state comprises:

reading hardware signals of the seats to acquire the opening and closing state of the ventilation and heating function of each seat;

drawing a seat illustration of each seat in a predetermined color according to the open-closed state.

In this way, when the user operates the function control, the display of the seat diagram can be changed correspondingly according to the operation.

The drawing a diagram of each seat in a predetermined color according to the open-closed state includes:

drawing a seat illustration of the corresponding seat in a first predetermined color with the ventilation function turned on;

drawing a seat illustration of the corresponding seat in a second predetermined color with the heating function turned on;

drawing a seat illustration of the corresponding seat in a third predetermined color with both the energizing function and the heating function turned off.

In this way, the seat is distinguished in the ventilation function, the heating function or the closed state by different color representation modes. Can make the user just can know the on-off state of seat ventilation heating only need look over the colour of seat, can learn current ventilation heating state fast from the vision sense organ, promote user experience.

reading hardware signals of the seats to acquire opening and closing and gear information of a ventilation heating function of each seat;

and drawing the opening and closing of the corresponding function control and a gear diagram according to the gear information.

Therefore, the user can clearly know the current state of the ventilation and heating function through different preset gear diagrams, and the user experience is improved.

The monitoring the operation event of the function control comprises the following steps:

monitoring an operation event of the function control, and determining setting information of corresponding function opening and closing and gears according to the operation event;

the issuing of the execution signal for the operation event to cause the vehicle-mounted heating and ventilation system to execute the operation corresponding to the operation event on the target seat comprises:

issuing an execution signal aiming at the operation event according to the setting information so that the vehicle-mounted heating and ventilating system executes the operation corresponding to the operation event on the target seat.

In this way, the user can effect incremental or decremental adjustment of the gear by suitable operation.

The monitoring state change callback of the target seat for the execution signal, and the updating of the seat diagram and the function control diagram of the target seat comprises:

and monitoring the function opening and closing of the target seat aiming at the execution signal and the change callback of the corresponding function gear, and updating the seat graphic representation of the target seat and the opening and closing and gear graphic representation of the function control.

Therefore, the operation of the user is fed back in real time through the seat graphic representation and the gear graphic representation, and compared with the existing common gear updating, the seat and the gear are updated simultaneously, so that the visual effect is better, and the user can more clearly and quickly obtain the operation result. Meanwhile, the gear switching is controlled in a preset mode, and switching among a plurality of gears can be achieved through a single control, so that the user experience is improved.

The present application further provides a control device for a seat ventilation heating function, the control device comprising:

the creating module is used for creating a seat graphic mapped with the vehicle seat in the background of the function page according to the access operation of the seat heating and ventilation adjusting function page; and

the system comprises a plurality of seats, a control module and a control module, wherein the seats are used for being heated and ventilated, and the control module is used for reading the configuration of a vehicle to acquire the configuration information of each seat heating and ventilating function and creating a corresponding function control at the corresponding seat of the diagram according to the function configuration information; and

the drawing module is used for reading hardware signals of the seats to obtain the execution state of the ventilation and heating function of each seat, and drawing a seat diagram and a function control diagram corresponding to the execution state according to the execution state;

the monitoring module is used for monitoring the operation event of the function control;

the issuing module is used for issuing an execution signal aiming at the operation event so as to enable the vehicle-mounted heating and ventilating system to execute the operation corresponding to the operation event on the target seat;

the monitoring module is further configured to monitor a change callback of the target seat for the execution signal, and the drawing module is further configured to update the seat diagram and the function control diagram of the target seat.

The present application also provides a vehicle comprising a memory and a processor, the memory having stored therein a computer program which, when executed by the processor, implements the control method of any of the above.

The present application also provides a non-transitory computer-readable storage medium, which when executed by one or more processors, implements the control method described in any one of the above embodiments.

The method comprises the steps of responding to access operation of a seat heating and ventilation adjusting function page, creating a seat graphic mapped with a vehicle seat on the background of the function page, reading the configuration of a vehicle to obtain configuration information of each seat heating and ventilation function, creating a corresponding function control at the corresponding position of the seat graphic according to the function configuration information, reading a hardware signal of the seat to obtain an execution state of the ventilation and heating function of each seat, drawing the seat graphic and the function control graphic according to the execution state, monitoring an operation event of the function control, issuing an execution signal aiming at the operation event to enable the vehicle-mounted heating and ventilation system to execute operation corresponding to the operation event on the target seat, monitoring change callback of the target seat aiming at the execution signal, and updating the seat graphic and the function control graphic of the target seat. Compare in current seat ventilation heating respectively at the interface of difference, need switch different pages when the operation, or through selecting certain seat earlier, the mode with a plurality of buttons is tiled side by side with seat ventilation's the function of closing and gear selection again, and lead to alternately loaded down with trivial details, the interface design is complicated, the condition that button is a large number, this application accessible unified seat ventilation regulatory function page for the user can see the seat that oneself needs to control directly perceivedly. Meanwhile, the current ventilation and heating state of the seat in the vehicle is visually displayed. Furthermore, the user can operate the function control, determines the updated gear according to the operation result of the user, sends the updated gear to the vehicle-mounted heating and ventilating system to control and execute the corresponding function, and then uses the execution result to update the display state of the function control, so that the user can operate each seat according to the function state of each seat and obtain the feedback of the operation result.

Additional aspects and advantages of embodiments of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present application.

Drawings

The above and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic flow chart of a control method of the present application;

FIG. 2 is a block schematic diagram of the control apparatus of the present application;

FIG. 3 is an exemplary diagram of a control method of the present application;

FIG. 4 is a schematic flow chart of the control method of the present application;

FIG. 5 is a schematic flow chart of a control method of the present application;

FIG. 6 is a schematic flow chart of a control method of the present application;

FIG. 7 is a schematic flow chart of a control method of the present application;

FIG. 8 is an exemplary diagram of a control method of the present application;

FIG. 9 is a schematic flow chart of a control method of the present application;

fig. 10 is a flowchart illustrating a control method according to the present application.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary only for the purpose of explaining the embodiments of the present application, and are not to be construed as limiting the embodiments of the present application.

Referring to fig. 1, the present application provides a method for controlling a ventilation and heating function of a seat, the method comprising:

01: creating a seat illustration mapped with the vehicle seat in a background of the function page in response to an access operation of the seat heating and ventilation adjustment function page;

02: reading the configuration of the vehicle to obtain the configuration information of each seat heating and ventilating function, and creating a corresponding function control at the corresponding position of the seat diagram according to the function configuration information;

03: reading hardware signals of the seats to obtain the execution state of the ventilation and heating function of each seat, and drawing a seat diagram and a function control diagram according to the execution state;

04: monitoring an operation event of the function control;

05: issuing an execution signal aiming at the operation event so that the vehicle-mounted heating and ventilating system executes the operation corresponding to the operation event on the target seat;

06: and monitoring the change callback of the target seat for the execution signal, and updating the seat graphic and the function control graphic of the target seat.

Correspondingly, referring to fig. 2, the present application also provides a control device 100, and the control method of the present application may be implemented by the control device 100. The control apparatus 100 includes a creation module 110, a drawing module 120, a listening module 130, and a distribution module 140.

Steps

01 and 02 may be implemented by the creation module 110 and step 03 may be implemented by the rendering module 120.

Steps

04 and 06 may be implemented by listening module 130. Step 05 may be implemented by the issuing module 140. In other words, the creation module 110 is configured to create a seat illustration mapped with the vehicle seat in the background of the function page in response to an access operation of the seat heating and ventilation adjustment function page; the configuration of the vehicle is read to obtain the configuration information of each seat heating and ventilating function, and corresponding function controls are created at the corresponding positions of the seat diagram according to the function configuration information. The drawing module 120 is configured to read the configuration of the vehicle to obtain configuration information of each seat heating and ventilating function, and create a corresponding function control at a corresponding position of the seat diagram according to the function configuration information. The monitoring module 130 is configured to monitor an operation event for the function control, monitor a change callback of the target seat for the execution signal, and update the seat diagram and the function control diagram of the target seat. The issuing module 140 is configured to issue an execution signal for the operation event, so that the in-vehicle heating and ventilation system executes an operation corresponding to the operation event on the target seat.

The embodiment of the application also provides a vehicle. The vehicle includes a memory and a processor. The memory has stored therein a computer program, the processor for creating a seat illustration mapped with a vehicle seat in a background of a function page in response to an access operation of the seat heating and ventilation adjustment function page; reading the configuration of the vehicle to obtain the configuration information of each seat heating and ventilating function, and creating a corresponding function control at the corresponding position of the seat diagram according to the function configuration information; reading hardware signals of the seats to obtain the execution state of the ventilation and heating function of each seat, and drawing a seat diagram and a function control diagram according to the execution state; monitoring an operation event of the function control; issuing an execution signal aiming at the operation event so that the vehicle-mounted heating and ventilating system executes the operation corresponding to the operation event on the target seat; and monitoring the change callback of the target seat for the execution signal, and updating the seat graphic and the function control graphic of the target seat.

Specifically, the control method of the seat ventilation heating function can be used for vehicles such as automobiles, electric vehicles, high-speed trains and the like supporting the seat ventilation heating function in the vehicles.

In step 01, in response to an access operation of the seat heating and ventilation adjustment function page, a seat illustration mapped with the vehicle seat is created in the background of the function page. The vehicle seat may include a partial vehicle seat, or a full vehicle seat.

The vehicle portion seats may display the primary and secondary seats according to system default settings, such as settings.

And when the user selects all the seats, the seat ventilation function interface displays a seat diagram comprising all the seats of the vehicle when being started subsequently.

The seat illustration includes a seat in which the vehicle fully supports the ventilation heating function, and is not optional.

The method for displaying the seat graphic on the seat heating and ventilation adjusting function page comprises a plane view, a three-dimensional top view, a special effect view and the like, so that a user can visually see the seat which needs to be controlled. The display mode is not limited in the present application, and other display methods for this purpose can be regarded as simple alternatives to the present application.

Referring to fig. 3, the vehicle seat includes four seats, which are shown in a drawn top view, displayed on the background of a page.

The control method is a special effect diagram, the seat is displayed as a 3D rendering effect, and the seat is set to rotate towards the direction according to the operation of a user.

In step 02, the configuration of the vehicle is read to obtain configuration information of each seat heating and ventilating function, and a corresponding function control is created at the corresponding position of the seat diagram according to the function configuration information. Specifically, upon entering the seat heating and ventilation adjustment function page, configuration information for the heating and ventilation function of each seat of the vehicle may be obtained from the vehicle. The ventilation and heating function configuration information may include whether the seat supports the heating function or not and whether the seat supports the ventilation function or not.

And after the configuration information of the ventilation and heating function of each seat is acquired, displaying the corresponding function control on each seat graphic representation according to the acquired configuration information. For example, if the configuration information of the main driving seat includes a ventilation supporting function and a heating supporting function, the ventilation function control and the heating function control are displayed in the corresponding area of the main driving seat. Wherein a single seat may include one or more functionality controls.

Referring to fig. 4, step 02 includes:

021: reading a vehicle configuration to obtain functional configuration information of ventilation heating of each seat;

022: creating a seat heating function control on a seat illustration of a corresponding seat with the heating function configured;

023: creating a seat ventilation function control on a seat illustration of a corresponding seat with the ventilation function configured;

024: in the case where the heating function and the ventilation function are not configured, the heating function control and the ventilation function control are not created on the seat diagram of the corresponding seat.

Step 021-. In other words, the creation module 110 is configured to read the vehicle configuration to obtain the functional configuration information of the ventilation heating of each seat; creating a seat heating function control on a seat illustration of a corresponding seat with the heating function configured; creating a seat ventilation function control on a seat illustration of a corresponding seat with the ventilation function configured; in the case where the heating function and the ventilation function are not configured, the heating function control and the ventilation function control are not created on the seat diagram of the corresponding seat.

The processor is used for reading the vehicle configuration to acquire the function configuration information of ventilation heating of each seat; creating a seat heating function control on a seat illustration of a corresponding seat with the heating function configured; creating a seat ventilation function control on a seat illustration of a corresponding seat with the ventilation function configured; in the case where the heating function and the ventilation function are not configured, the heating function control and the ventilation function control are not created on the seat diagram of the corresponding seat.

Specifically, the ventilation heating function configuration includes whether the seat supports the heating function and whether the ventilation function. When a seat supports the heating function, a heating function control is displayed on the seat illustration that supports seat heating. When one seat supports the ventilation function, a ventilation function control that supports ventilation of the seat is displayed on the seat illustration. When one seat supports both heating and ventilation functions, the heating function control and the ventilation function control are displayed simultaneously on the seat illustration. When one seat does not support the heating function and the ventilation function, the function control is not displayed on the seat, and the seat can be put with ash or not displayed.

Meanwhile, the control method for displaying the heating function control and/or the ventilation function control on the seat comprises any control method capable of enabling the heating function control and/or the ventilation function control to correspond to the seat.

Referring to fig. 3, the heating function control and/or the ventilation function control are displayed in a seat area of a top view of the seat, a seat cushion area is used as a ventilation function control display area, and a seat back area is used as a heating function control display area. And different icons are used for displaying the heating function control and the ventilation function control. The primary driver seat shown in the figure supports both heating and ventilation functions, displaying heating and ventilation function controls. The assistant driver seat only supports the ventilation function and displays the ventilation function control. The rear left and right seats only support the ventilation function, displaying ventilation function controls.

In step 03, hardware signals of the seats are read to obtain an execution state of the ventilation and heating function of each seat, and a seat diagram and a function control diagram are drawn according to the execution state.

Referring to fig. 5, step 03 includes:

031: reading hardware signals of the seats to acquire the opening and closing states of the ventilation and heating functions of each seat;

032: the seat illustration of each seat is drawn in a predetermined color according to the open-closed state.

Steps

031 and 032 may be implemented by the rendering module 120. In other words, the drawing module 120 is configured to read hardware signals of the seats to obtain an open/close state of the ventilation and heating function of each seat; the seat illustration of each seat is drawn in a predetermined color according to the open-close state.

The processor is used for reading hardware signals of the seats to acquire the opening and closing state of the ventilation and heating function of each seat; the seat illustration of each seat is drawn in a predetermined color according to the open-close state.

When a vehicle enters a seat heating and ventilation adjusting function page, each seat heating and ventilation signal is obtained, and the seat heating and ventilation signals are displayed in a preset color strategy according to the current seat heating and ventilation opening state in a seat diagram.

The color strategy comprises the types of colors, the areas of color display and the effects of color display. The seat is distinguished in two functional states of ventilation and heating by different colors, and the seat can be displayed in a local area of a certain seat or highlighted in the whole area of the certain seat.

When the user operates the function control, the display of the seat diagram can be changed correspondingly according to the operation. For example, the user turns off the heating function, the color of the seat may change from red, which originally indicated the heating function, to gray. When the user turns on the ventilation function, the seat can change from grey to blue.

Referring to fig. 6, step 032 includes:

0321: drawing a seat illustration of the corresponding seat in a first predetermined color with the ventilation function turned on;

0322: drawing a seat illustration of the corresponding seat in a second predetermined color with the heating function turned on;

0323: drawing a seat illustration of the corresponding seat in a third predetermined color with both the energizing function and the heating function turned off.

Step 0321-0323 may be implemented by the rendering module 120. In other words, the drawing module 120 is configured to draw the seat illustration of the corresponding seat in a first predetermined color when the ventilation function is turned on; drawing a seat illustration of the corresponding seat in a second predetermined color with the heating function turned on; drawing a seat illustration of the corresponding seat in a third predetermined color with both the energizing function and the heating function turned off.

The processor is used for drawing a seat graphic of a corresponding seat in a first preset color under the condition that the ventilation function is started; drawing a seat illustration of the corresponding seat in a second predetermined color with the heating function turned on; drawing a seat illustration of the corresponding seat in a third predetermined color with both the energizing function and the heating function turned off.

Specifically, drawing is performed in respective different predetermined colors with the ventilation function on, the heating function on, and with both the energization function and the heating function off.

For example, when the seat heating function is switched on to any shift position, the seat icon is displayed in red. And when the seat ventilation function is acquired and any gear is turned on, the seat graphic is displayed in blue. When both the seat ventilation function and the heating function are off, the seat illustration is shown in grey.

In this way, the seat is distinguished in a ventilation function, a heating function or a closed state by different color representation modes. Can make the user just can know the on-off state of seat ventilation heating only need look over the colour of seat, can learn current ventilation heating state fast from the vision sense organ, promote user experience.

Referring to fig. 7, step 03 further includes:

033: reading hardware signals of the seats to acquire opening and closing and gear information of a ventilation heating function of each seat;

034: and drawing the opening and closing of the corresponding function control and a gear diagram according to the gear information.

Steps

033 and 034 may be implemented by the rendering module 120. Or, the drawing module 120 is configured to read hardware signals of the seats to obtain opening/closing and gear information of the ventilation heating function of each seat; and drawing the opening and closing of the corresponding function control and a gear diagram according to the gear information.

The processor is used for reading hardware signals of the seats to acquire opening and closing of the ventilation heating function and gear information of each seat; and drawing the opening and closing and gear diagram of the corresponding function control according to the gear information.

Specifically, hardware signals of the seats are read to acquire opening and closing and gear information of a ventilation heating function of each seat. The ventilation function can comprise an opening and closing state and gear information, and the gear information can comprise a first ventilation gear, a second ventilation gear and a third ventilation gear. Also, the heating function may include an off state and gear information, which may include a first heating gear, a second heating gear, and a third heating gear. More gears can be displayed according to the configuration of the vehicle-mounted ventilation heating system. The gear position graphic representation can be displayed for each gear position of the closing state and the gear position information, and the gear position graphic representation can be updated and displayed after a user operates the gear position to replace the gear position.

Please refer to fig. 8, which shows a ventilation function control, which is in a closed state, a first ventilation gear, a second ventilation gear and a third ventilation gear from left to right. The various states are displayed in predetermined gear diagrams, respectively.

In

steps

04 and 05, an operation event to the function control is monitored, and an execution signal aiming at the operation event is issued, so that the vehicle-mounted heating and ventilating system executes an operation corresponding to the operation event to the target seat.

When a user needs to operate heating and/or ventilation, corresponding operation can be performed through the function control displayed on the seat heating and ventilation adjusting function page, so that the vehicle-mounted heating and ventilation system is controlled to execute a function corresponding to the user operation.

The user need open the heating function, can click the heating function controlling part and open, and simultaneously, the function controlling part of the corresponding gear of adjustment of user's accessible increases or reduces the heating dynamics to the selection.

And when the vehicle-mounted heating and ventilation system adjusts the heating or ventilation function to an update gear, returning an adjustment result, and updating the display state of the function control according to the adjustment result on the seat heating and ventilation adjustment function page. For example, if the updated gear is the heating second gear, the vehicle-mounted heating and ventilating system adjusts the heating to the second gear, and returns the execution result of successfully adjusting the heating function to the second gear, and the display state of the corresponding function control of the seat heating and ventilating adjusting function page is the heating second gear.

Referring to fig. 9, step 04 includes:

041: and monitoring an operation event of the function control, and determining the setting information of the corresponding function opening and closing and the gear according to the operation event.

Accordingly, step 05 comprises:

051: issuing an execution signal for the operation event according to the setting information so that the vehicle-mounted heating and ventilation system executes the operation corresponding to the operation event on the target seat.

Step 041 may be implemented by listening module 130. Step 051 may be implemented by the issuing module 140. Or, the monitoring module 130 is configured to monitor an operation event of the function control, and determine setting information of the corresponding function switch and the gear according to the operation event. The issuing module 140 is configured to issue an execution signal for the operation event according to the setting information, so that the vehicle-mounted heating and ventilation system executes an operation corresponding to the operation event on the target seat.

The processor is used for monitoring an operation event of the function control and determining the setting information of the corresponding function opening and closing and the gear according to the operation event; issuing an execution signal for the operation event according to the setting information so that the vehicle-mounted heating and ventilation system executes the operation corresponding to the operation event on the target seat.

Specifically, the operating event includes a user turning heating and/or ventilation on, off, or adjusting gears as desired. And the user can perform corresponding operation through the functional control displayed on the seat heating and ventilation adjusting functional page. And when the user performs a certain operation for setting, issuing an execution signal aiming at the operation event according to the setting information so that the vehicle-mounted heating and ventilating system executes the operation corresponding to the operation event on the target seat. And if the user adds a first gear to heat into a second gear according to the update gear which is determined to be executed by the vehicle-mounted heating and ventilation system, the second gear is heated into the update gear.

And sending the heating gear to a vehicle-mounted heating and ventilating system if the heating gear is the second gear, and adjusting the heating and ventilating system according to the updated gear by the vehicle-mounted heating and ventilating system, if the heating function is adjusted to the second gear.

The heating gear comprises closing, heating first gear, heating second gear and heating third gear, and the preset gear cycling mode is 'closing-heating third gear-heating second gear-heating first gear-closing … …'. The current heating function control is in a closed state, a user clicks the heating function control, a updating gear can be calculated to be a heating third gear according to the user clicking and the closed state, the heating third gear is sent to the vehicle-mounted heating and ventilating system, and the vehicle-mounted heating and ventilating system adjusts the heating function to the heating third gear. In this manner, the user can make incremental or incremental adjustments of the gear by a simple click.

The heating gear comprises closing, heating first gear, heating second gear and heating third gear, and the preset gear cycling mode is 'closing-heating third gear-heating second gear-heating first gear-closing … …'. And when the current heating function control is in an off state, and the user presses the heating function control for a long time, continuous cyclic adjustment is carried out according to a preset cyclic mode of 'off-heating three-gear-heating two-gear-heating one-gear-off … …' within the long-time pressing time of the user until the user stops, and the cyclic gear when the user stops is an updated gear. In this way, the user can realize continuous change between gears by long pressing.

In step 06, a status change callback of the target seat for the execution signal is monitored, and the seat graphic and the function control graphic of the target seat are updated.

Preferably, referring to fig. 10, step 06 includes:

061: and monitoring the function opening and closing of the target seat aiming at the execution signal and the change callback of the corresponding function gear, and updating the seat graphic representation of the target seat and the opening and closing and gear graphic representation of the function control.

Step 061 may be implemented by listening module 130. Or, the monitoring module 130 is configured to monitor the function opening and closing of the target seat for the execution signal and the change and call-back of the corresponding function gear, and update the seat diagram of the target seat and the opening and closing and gear diagram of the function control.

The processor is used for monitoring the function opening and closing of the target seat aiming at the execution signal and the change callback of the corresponding function gear, and updating the seat graphic representation of the target seat and the opening and closing and gear graphic representation of the function control.

And when the vehicle-mounted heating and ventilation system adjusts the heating or ventilation function to the updated gear, returning the adjustment result, and updating the seat graphic representation of the target seat, the opening and closing of the function control and the gear graphic representation according to the adjustment result on the seat heating and ventilation adjustment function page.

The heating gear comprises closing, heating first gear, heating second gear and heating third gear, and the preset gear cycling mode is 'closing-heating third gear-heating second gear-heating first gear-closing … …'. The current heating function control is in a closed state, a user clicks the heating function control, a updating gear can be calculated to be a heating third gear according to the user clicking and the closed state, the heating third gear is sent to the vehicle-mounted heating and ventilating system, and the vehicle-mounted heating and ventilating system adjusts the heating function to the heating third gear. And monitoring the change callback of the heating third gear, and if the heating third gear is successfully executed, updating the seat diagram from gray to red according to the adjustment result, and meanwhile, updating the gear diagram to be the heating third gear diagram.

When the user operates the function control, the ventilation function is started as a result of the operation.

And when the current state is a ventilation closed state, the user clicks the ventilation function control, and the operation result can be a ventilation third gear. And at the moment, if the ventilation function is determined to be started, the heating function control is controlled to be closed, and a closing signal for closing the heating function is sent to the vehicle-mounted ventilation heating system to execute the heating function closing.

And when the current state is a heating closing state, the user clicks the heating function control, and the operation result can be heating third gear. At the moment, if the heating function is determined to be started, the ventilation function control is controlled to be closed, and a closing signal for closing the ventilation function is sent to the vehicle-mounted ventilation heating system to close the ventilation function.

So, can realize single seat heating function and ventilation function mutex automatically in display interface and function, need not user's manual closing, avoid the safety problem to a certain extent.

And displaying a control closed by one key and a switch control for controlling the ventilation and heating functions of all the seats to be closed in a corresponding area of the heating and ventilation adjusting function page of the seat. Under special circumstances, the user need not manual seat one by one and closes, closes through a key and can close all ventilation heating functions, promotes user experience.

The embodiment of the application also provides a computer readable storage medium. One or more non-transitory computer-readable storage media storing a computer program that, when executed by one or more processors, implements the control method of any of the above embodiments. It will be understood by those skilled in the art that all or part of the processes in the method for implementing the above embodiments may be implemented by a computer program instructing relevant software. The program may be stored in a non-volatile computer readable storage medium, which when executed, may include the flows of embodiments of the methods described above. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), or the like.

In this way, the method includes creating a seat diagram mapped with the vehicle seat in the background of the function page by responding to the access operation of the seat heating and ventilation adjusting function page, reading the configuration of the vehicle to obtain the configuration information of each seat heating and ventilation function, creating a corresponding function control at the corresponding position of the seat diagram according to the function configuration information, reading the hardware signal of the seat to obtain the execution state of the ventilation heating function of each seat, drawing the seat diagram and the function control diagram according to the execution state, monitoring the operation event of the function control, issuing the execution signal aiming at the operation event to enable the vehicle-mounted heating and ventilation system to execute the operation corresponding to the operation event on the target seat, monitoring the change callback of the target seat aiming at the execution signal, and updating the seat diagram and the function control diagram of the target seat. Compare in current seat ventilation heating respectively at the interface of difference, need switch different pages when the operation, or through selecting certain seat earlier, the mode with a plurality of buttons is tiled side by side with seat heating ventilation's the function of closing and gear selection again, and lead to alternately loaded down with trivial details, the interface design is complicated, and the condition that button quantity is many has following beneficial effect at least:

first, this application accessible unified seat heating ventilation regulatory function page for the user can see the seat that oneself needs to be controlled directly perceivedly, and the ventilation heating state of seat in the current car.

And secondly, the user can operate the function control, determines an updated gear according to the operation result of the user and sends the updated gear to the vehicle-mounted heating and ventilating system to control and execute the corresponding function, and then uses the executed result to update the display state of the function control, so that the user can operate each seat according to the function state of each seat and obtain the feedback of the operation result.

And thirdly, distinguishing the ventilation function, the heating function or the closing state of the seat in different color representation modes. Can make the user just can know the on off state of seat ventilation heating only need look over the colour of seat, can learn current ventilation heating state fast from the vision sense organ, promote user experience.

And fourthly, the operation of the user is fed back instantly through the seat diagram and the gear diagram, and the user can clearly know the current state of the ventilation and heating function through different preset gear diagrams. Meanwhile, compared with the existing common gear updating, the seat and the gear are updated simultaneously, so that the visual effect is better, and a user can more clearly and rapidly obtain an operation result.

Fifthly, the heating function and the ventilation function of a single seat can be mutually exclusive automatically on the display interface and the functions, manual closing by a user is not needed, and the safety problem is avoided to a certain extent.

Sixthly, the user does not need to manually close the seats one by one, all ventilation and heating functions can be closed through one-key closing, and user experience is improved.

In the description of the present specification, reference to the description of "one embodiment", "some embodiments", "illustrative embodiments", "examples", "specific examples" or "some examples", etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Any process or method descriptions in flow charts or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps of the process, and the scope of the preferred embodiments of the present application includes other implementations in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the present application.

Although embodiments of the present application have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present application and that variations, modifications, substitutions and alterations in the above embodiments may be made by those of ordinary skill in the art within the scope of the present application.

Claims

1. A control method for ventilation and heating of a seat, the control method comprising:

reading hardware signals of the seats to obtain an execution state of a ventilation and heating function of each seat, and drawing a seat graph and a function control graph according to the execution state;

monitoring an operation event of the function control;

2. The control method of claim 1, wherein reading the configuration of the vehicle to obtain configuration information for each seat heating and ventilating function, and creating a corresponding function control corresponding to the seat illustration according to the configuration information comprises:

creating a seat ventilation function control on a seat illustration of a corresponding seat with the ventilation function configured;

3. The control method according to claim 1, wherein the reading the hardware signal of the seat to obtain the execution state of the ventilation heating function of each seat, and the drawing the seat diagram and the function control diagram according to the execution state comprises:

4. The control method according to claim 3, wherein the drawing a diagram of each seat in a predetermined color according to the open-close state includes:

5. The control method according to claim 1, wherein the reading the hardware signal of the seat to obtain the execution state of the ventilation heating function of each seat, and the drawing the seat diagram and the function control diagram according to the execution state comprises:

reading hardware signals of the seats to obtain opening and closing and gear information of a ventilation and heating function of each seat;

6. The control method of claim 1, wherein the listening for the operational event of the functionality control comprises:

7. The control method according to claim 6, wherein the monitoring the state change callback of the target seat for the execution signal, and the updating the seat diagram and the function control diagram of the target seat comprises:

8. A control device for a seat ventilation heating function, the control device comprising:

the drawing module is used for reading hardware signals of the seats to acquire the execution state of the ventilation and heating function of each seat, and drawing a seat graphic and a function control graphic corresponding to the execution state according to the execution state;

9. A vehicle comprising a memory and a processor, the memory having stored thereon a computer program which, when executed by the processor, implements the control method of any one of claims 1 to 7.

10. A non-transitory computer-readable storage medium of a computer program, wherein the computer program, when executed by one or more processors, implements the control method of any one of claims 1-7.