CN116679896A - Vehicle multi-screen control method, electronic device, storage medium and vehicle - Google Patents

Abstract

The invention discloses a vehicle multi-screen control method, electronic equipment, a storage medium and a vehicle. The method comprises the following steps: in response to a first operation of the steering wheel display screen, displaying a steering wheel display interface after the first operation is performed on the steering wheel display screen, and displaying a vehicle-to-vehicle screen interface corresponding to the steering wheel display interface on a vehicle screen except for the steering wheel display screen; or in response to the second operation on the vehicle-mounted screen, displaying a vehicle-mounted screen interface after the second operation is performed on the vehicle-mounted screen, and displaying a shortcut switch for controlling the vehicle-mounted screen interface on the steering wheel display screen. The invention receives the operation of a driver through the steering wheel display screen and controls the screen of the vehicle in the vehicle based on the operation of the steering wheel display screen, or displays a shortcut switch for controlling the interface of the screen of the vehicle on the steering wheel display screen. Therefore, a driver can conveniently operate the screen in the vehicle in the driving process, and the driving safety and convenience are improved.

Description

Vehicle multi-screen control method, electronic device, storage medium and vehicle

Technical Field

The invention relates to the technical field of vehicles, in particular to a vehicle multi-screen control method, electronic equipment, a storage medium and a vehicle.

Background

The existing vehicle is provided with a central control screen, and passengers control the vehicle through the central control screen. For example, controlling the body elements, or opening various vehicle Applications (APP), obtaining information, or performing entertainment operations, meeting infotainment demands.

However, the central control screen is mostly arranged in the middle of the instrument desk, is far away from the driver, is inconvenient for the driver to operate in the driving process, and is easy to cause danger.

Disclosure of Invention

Based on the above, it is necessary to provide a vehicle multi-screen control method, an electronic device, a storage medium and a vehicle, aiming at the technical problem that the driver is inconvenient to operate the screen in the vehicle during driving in the prior art.

The invention provides a vehicle multi-screen control method, which comprises the following steps:

responding to a first operation of a steering wheel display screen, displaying a steering wheel display interface after the first operation is executed on the steering wheel display screen, and displaying a vehicle-to-vehicle screen interface corresponding to the steering wheel display interface on a vehicle screen except the steering wheel display screen; or alternatively

And responding to a second operation on the vehicle-mounted screen, displaying a vehicle-mounted screen interface after the second operation is performed on the vehicle-mounted screen, acquiring shortcut display setting of the vehicle-mounted screen interface, and determining whether to display a shortcut switch for controlling the vehicle-mounted screen interface on the steering wheel display screen according to the shortcut display setting.

Further, the vehicle-machine screen display, except for the steering wheel display screen, in the vehicle synchronously displays a vehicle-machine screen interface corresponding to the steering wheel display interface, specifically including:

determining a vehicle machine screen corresponding to the first operation, wherein the vehicle machine screen is a vehicle machine screen except for the steering wheel display screen in a vehicle;

and synchronously displaying a vehicle-machine screen interface corresponding to the steering wheel display interface on the vehicle-machine screen.

Further, the determining the vehicle-mounted screen corresponding to the first operation specifically includes:

if the first operation is the operation of starting the control function interface, determining that the central control screen is a vehicle-mounted screen; or alternatively

And if the first operation is to start the application, acquiring an application display screen corresponding to the application, and determining the application display screen as a vehicle-mounted screen.

Further, after the vehicle screen other than the steering wheel display screen displays the vehicle screen interface corresponding to the steering wheel display interface, the method further includes:

and responding to a third operation on the steering wheel display screen, executing the third operation, displaying an interface after executing the third operation on the steering wheel display interface, and synchronously displaying the interface after executing the third operation on the vehicle-mounted screen interface.

Further, after the vehicle screen other than the steering wheel display screen displays the vehicle screen interface corresponding to the steering wheel display interface, the method further includes:

and responding to the fourth operation on the vehicle-mounted screen, executing the fourth operation, displaying an interface after executing the fourth operation on the vehicle-mounted screen, wherein the interface after executing the fourth operation on the vehicle-mounted screen is independent of the steering wheel display interface.

Further, after the vehicle screen other than the steering wheel display screen displays the vehicle screen interface corresponding to the steering wheel display interface, the method further includes:

executing a fifth operation of the vehicle screen in response to the fifth operation;

forming feedback information according to an execution result of executing the fifth operation, and displaying an interface related to the feedback information on the vehicle-computer screen interface;

and displaying the feedback information on the steering wheel display interface.

Still further, before the responding to the first operation to the wheel display, the method further comprises:

and displaying a shortcut interface on a steering wheel display screen, wherein the shortcut interface comprises one or more shortcut icons, and the first operation is selection of the shortcut icons.

In one embodiment, the responding to the second operation on the vehicle-mounted screen displays the vehicle-mounted screen interface after the second operation is performed on the vehicle-mounted screen, obtains the shortcut display setting of the vehicle-mounted screen interface, and determines whether to display the shortcut switch for controlling the vehicle-mounted screen interface on the steering wheel display screen according to the shortcut display setting, which specifically includes:

responding to a second operation on a vehicle screen, and displaying a vehicle screen interface after the second operation is executed on the vehicle screen;

acquiring shortcut display settings of a vehicle-mounted screen interface after the second operation is executed;

and if the shortcut display is set as a shortcut switch, displaying a shortcut switch for controlling the screen interface of the car machine on the display screen of the steering wheel.

The present invention provides an electronic device including:

at least one processor; the method comprises the steps of,

a memory communicatively coupled to at least one of the processors; wherein,,

the memory stores instructions executable by at least one of the processors to enable the at least one processor to perform the vehicle multi-screen control method as previously described.

The present invention provides a storage medium storing computer instructions that, when executed by a computer, are operable to perform all the steps of a vehicle multi-screen control method as described above.

The invention provides a vehicle, which comprises a steering wheel display screen and the electronic equipment as claimed in the previous claim, wherein the steering wheel display screen is fixed on a steering wheel of the vehicle, and the steering wheel display screen is in communication connection with the electronic equipment.

The invention receives the operation of a driver through the steering wheel display screen and controls the screen of the vehicle in the vehicle based on the operation of the steering wheel display screen, or displays a shortcut switch for controlling the interface of the screen of the vehicle on the steering wheel display screen. Therefore, a driver can conveniently operate the screen in the vehicle in the driving process, and the driving safety and convenience are improved.

Drawings

FIG. 1 is a flowchart of a vehicle multi-screen control method according to an embodiment of the present invention;

FIG. 2 is a flowchart illustrating a vehicle multi-screen control method according to another embodiment of the present invention;

FIG. 3 is a schematic view illustrating the installation of a steering wheel display according to an embodiment of the present invention;

FIG. 4 is a schematic illustration of a main interface of a steering wheel display in accordance with an example of the present invention;

FIG. 5 is a schematic diagram of a body control interface for a steering wheel display in accordance with an example of the present invention;

FIG. 6 is a schematic diagram of a control function interface of a steering wheel display in accordance with an example of the present invention;

FIG. 7 is a schematic illustration of an infotainment control interface for an exemplary steering wheel display in accordance with the present invention;

FIG. 8 is a schematic diagram of a multi-application control interface for a steering wheel display in accordance with an example of the present invention;

FIG. 9 is a schematic diagram of an exemplary steering wheel display application interface in accordance with the present invention;

FIG. 10 is a flowchart illustrating the operation of the body control interface by the driver in accordance with the preferred embodiment of the present invention;

FIG. 11 is a flowchart illustrating the operation of the infotainment control interface by the driver in accordance with a preferred embodiment of the present invention;

FIG. 12 is a flowchart of a shortcut interface control method in accordance with a preferred embodiment of the present invention;

FIG. 13 is a diagram illustrating a shortcut interface switching to a main interface in accordance with a preferred embodiment of the present invention;

FIG. 14 is a flowchart of the shortcut switch control operation in the preferred embodiment of the present invention;

fig. 15 is a schematic hardware structure of an electronic device according to the present invention.

Detailed Description

Specific embodiments of the present invention will be further described below with reference to the accompanying drawings. Wherein like parts are designated by like reference numerals. It should be noted that the words "front", "rear", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings, and the words "inner" and "outer" refer to directions toward or away from, respectively, the geometric center of a particular component.

FIG. 1 is a flowchart illustrating a vehicle multi-screen control method according to an embodiment of the present invention, including:

step S101, responding to a first operation of a steering wheel display screen, displaying a steering wheel display interface after the first operation is executed on the steering wheel display screen, and displaying a vehicle-to-vehicle screen interface corresponding to the steering wheel display interface on a vehicle screen except the steering wheel display screen; or alternatively

Step S102, responding to a second operation on a vehicle-mounted screen, displaying a vehicle-mounted screen interface after the second operation is executed on the vehicle-mounted screen, acquiring shortcut display settings of the vehicle-mounted screen interface, and determining whether a shortcut switch for controlling the vehicle-mounted screen interface is displayed on the steering wheel display screen according to the shortcut display settings.

In particular, the invention may be applied to an electronic device, such as an electronic controller unit (Electronic Control Unit, ECU), of a vehicle having processing capabilities.

The steering wheel display screen is arranged on a steering wheel of the vehicle, the steering wheel display screen is in communication connection with the electronic equipment, and the steering wheel display screen is controlled by the electronic equipment through the vehicle multi-screen control method. As shown in fig. 3, a steering wheel display 1 is fixed to a steering wheel 2.

The steering wheel display screen 1 may be a touch screen, and the driver may perform a touch operation on the steering wheel display screen 1. The input to the steering wheel display 1 may also come from a meter control unit 3 in communicative connection with the electronic device. The operation of the meter control unit 3 by the driver, such as pressing, touch control, etc., is an operation of the steering wheel display screen. The driver can send control instructions to the steering wheel display screen 2 through the instrument control unit 3, wherein the control instructions comprise control instructions such as vehicle speed, oil quantity, cruising, warning lamps and the like.

After power up is turned on, the steering wheel display 1 may display the main interface 40. As shown in fig. 4, the main interface may include an instrument display area 41, a body control card 42, and an infotainment control card 43. Wherein the meter display area includes a plurality of meter information. The meter information includes: vehicle speed, oil quantity, endurance warning lights, etc.

The vehicle speed control card 42 is used to control vehicle body components such as seat adjustment, sunroof, air conditioner, fuel tank cap, tail gate opening, etc.

The infotainment control card 43 is used to control entertainment equipment, such as applications for navigation, music, radio, video, etc.

When the driver operates the steering wheel display screen, triggering step S101, and in response to a first operation of the steering wheel display screen, displaying a steering wheel display interface on the steering wheel display screen after the first operation is performed. The first operation may be a direct operation on the display screen of the steering wheel, such as a touch operation, or an operation of the meter control unit 3, such as a pressing operation, a touch operation, or the like.

After the first operation is executed, the steering wheel display screen displays a steering wheel display interface after the first operation is executed.

The specific first operation may be preset by the system.

For example, when the driver clicks on the body control card 42, the steering wheel display displays the body control interface 50 as shown in fig. 5. The body control interface 50 may include, among other things, an instrument display area 51, and a plurality of control function cards 52. The driver then clicks on one of the control function cards 52 and the steering wheel display displays a control function interface 60 as shown in fig. 6. The control function interface includes an instrument display area 61, and an operation interface 62 for the control function.

Wherein the first operation may be the driver clicking on the control function card.

For another example, the driver clicks on the infotainment control card 43 and the steering wheel display displays the infotainment control interface 70 as shown in FIG. 7. The infotainment control interface may include, among other things, an instrument display area 71, and a plurality of display cards 72. The driver clicks on one of the display cards 72 and the steering wheel display displays a multi-application control interface 80 as shown in fig. 8. Wherein the multi-application control interface may include an instrument display area 81, and a plurality of application cards 82. The driver then clicks on one of the application cards 82 and the steering wheel display displays an application interface 90 as shown in fig. 9. The application interface includes an instrument display area 91, and an application operation interface 92 of the application.

Wherein the first operation may be the driver clicking on the application function card.

Then, a vehicle-machine screen interface corresponding to the steering wheel display interface is displayed on a vehicle-machine screen other than the steering wheel display screen.

Specifically, the vehicle screen includes, but is not limited to, a center control screen, a secondary drive screen, a seat screen, and the like.

The vehicle-to-vehicle screen interface corresponding to the steering wheel display interface may be different from the steering wheel display interface, but the application or control function operated by the steering wheel display interface is the same as the application or control function operated by the corresponding vehicle-to-vehicle screen interface. The vehicle screen interface has the same functional operating elements and/or display elements as the steering wheel display interface.

For example, when the driver clicks the control function card shown in fig. 5, step S101 is triggered, and the control function interface shown in fig. 6 is displayed on the steering wheel display screen, where the control function interface is the steering wheel display interface. And then displaying a vehicle-machine screen interface of the same control function corresponding to the control function interface on a vehicle-machine screen except the steering wheel display screen. Because of limited space, the control function interface in the steering wheel display screen may not be consistent with the corresponding interface on the vehicle-to-vehicle screen, but the related operating elements and/or main display elements in the vehicle-to-vehicle screen interface corresponding to the control function interface are in one-to-one correspondence with the control function interface.

For another example, when the driver clicks the application function card shown in fig. 8, step S101 is triggered, and the steering wheel display screen displays the application interface shown in fig. 9, and the application interface is the steering wheel display interface. And then displaying a vehicle-machine screen interface of the same application corresponding to the application interface on a vehicle-machine screen except the steering wheel display screen in the vehicle. Because of limited space, the application interface in the steering wheel display screen may not be consistent with the corresponding interface on the vehicle-to-vehicle screen, but the relevant operating elements and/or primary display elements in the vehicle-to-vehicle screen interface corresponding to the application interface are in one-to-one correspondence with the application interface.

Then, the driver updates the steering wheel display interface and synchronously updates the vehicle screen interface in accordance with the third operation of the steering wheel display. The operation of the steering wheel display screen by the driver can be synchronously displayed on the vehicle-mounted screen.

For example, when the driver operates the control function interface, the driver performs a corresponding operation and updates the control function interface, and simultaneously updates the corresponding vehicle-machine screen interface on the vehicle-machine screen synchronously.

For another example, when the driver operates the application interface, the driver performs the corresponding operation and updates the application interface, and simultaneously updates the corresponding vehicle-machine screen interface synchronously on the vehicle-machine screen.

On the other hand, if the driver or other users in the vehicle execute the second operation on the vehicle screen, step S102 is triggered, and the vehicle screen interface after executing the second operation is displayed on the vehicle screen, and meanwhile, the shortcut display setting of the vehicle screen interface is obtained, and according to the shortcut display setting, whether the shortcut switch for controlling the vehicle screen interface is displayed on the steering wheel display screen is determined.

The second operation is an operation on the car machine screen. The specific second operation may be preset by the system.

In some embodiments, the second operation is opening an application interface of the application at the in-vehicle screen or opening a control function interface at the in-vehicle screen.

The invention receives the operation of a driver through the steering wheel display screen and controls the screen of the vehicle in the vehicle based on the operation of the steering wheel display screen, or displays a shortcut switch for controlling the interface of the screen of the vehicle on the steering wheel display screen. Therefore, a driver can conveniently operate the screen in the vehicle in the driving process, and the driving safety and convenience are improved.

Fig. 2 is a flowchart of a vehicle multi-screen control method according to another embodiment of the present invention, including:

Step S201, in response to a first operation of a steering wheel display, displaying a steering wheel display interface on the steering wheel display after the first operation is performed.

In one embodiment, before the responding to the first operation to the wheel display, the method further comprises:

and displaying a shortcut interface on a steering wheel display screen, wherein the shortcut interface comprises one or more shortcut icons, and the first operation is selection of the shortcut icons.

Step S202, determining a vehicle machine screen corresponding to the first operation, wherein the vehicle machine screen is a vehicle machine screen except for the steering wheel display screen in a vehicle.

In one embodiment, the determining the vehicle-mounted screen corresponding to the first operation specifically includes:

if the first operation is the operation of starting the control function interface, determining that the central control screen is a vehicle-mounted screen; or alternatively

And if the first operation is to start the application, acquiring an application display screen corresponding to the application, and determining the application display screen as a vehicle-mounted screen.

And step S203, synchronously displaying a vehicle-machine screen interface corresponding to the steering wheel display interface on the vehicle-machine screen.

Step S204, in response to a third operation on the steering wheel display screen, executing the third operation, displaying an interface after executing the third operation on the steering wheel display interface, and synchronously displaying the interface after executing the third operation on the vehicle-computer screen interface.

In one embodiment, after the on-board screen other than the steering wheel display screen displays the on-board screen interface corresponding to the steering wheel display interface in the vehicle, the method further includes:

and responding to the fourth operation on the vehicle-mounted screen, executing the fourth operation, displaying an interface after executing the fourth operation on the vehicle-mounted screen, wherein the interface after executing the fourth operation on the vehicle-mounted screen is independent of the steering wheel display interface.

In one embodiment, after the on-board screen other than the steering wheel display screen displays the on-board screen interface corresponding to the steering wheel display interface in the vehicle, the method further includes:

executing a fifth operation of the vehicle screen in response to the fifth operation;

forming feedback information according to an execution result of executing the fifth operation, and displaying an interface related to the feedback information on the vehicle-computer screen interface;

and displaying the feedback information on the steering wheel display interface.

In one embodiment, the third operation is an interface exit operation, and the responding to the third operation on the steering wheel display screen updates the steering wheel display interface and synchronously updates the vehicle-computer screen interface specifically includes:

And responding to the operation of exiting the interface of the steering wheel display screen, updating the steering wheel display interface into the shortcut interface, and closing the screen interface of the vehicle.

Step S205, in response to a second operation on the vehicle-mounted screen, displaying a vehicle-mounted screen interface after the second operation is performed on the vehicle-mounted screen, acquiring shortcut display settings of the vehicle-mounted screen interface, and determining whether to display a shortcut switch for controlling the vehicle-mounted screen interface on the steering wheel display screen according to the shortcut display settings.

In one embodiment, the responding to the second operation on the vehicle-mounted screen displays the vehicle-mounted screen interface after the second operation is performed on the vehicle-mounted screen, obtains the shortcut display setting of the vehicle-mounted screen interface, and determines whether to display the shortcut switch for controlling the vehicle-mounted screen interface on the steering wheel display screen according to the shortcut display setting, which specifically includes:

responding to a second operation on a vehicle screen, and displaying a vehicle screen interface after the second operation is executed on the vehicle screen;

acquiring shortcut display settings of a vehicle-mounted screen interface after the second operation is executed;

And if the shortcut display is set as a shortcut switch, displaying a shortcut switch for controlling the screen interface of the car machine on the display screen of the steering wheel.

Specifically, the present embodiment executes step S201, in which, in response to a first operation of a steering wheel display, a steering wheel display interface after executing the first operation is displayed on the steering wheel display.

Wherein the first operation may be predefined by the system, and when the first operation defined by the system is detected, the step S201 is triggered to be performed.

In one embodiment, before the responding to the first operation to the wheel display, the method further comprises:

and displaying a shortcut interface on a steering wheel display screen, wherein the shortcut interface comprises one or more shortcut icons, and the first operation is selection of the shortcut icons.

Specifically, since more applications are available in the vehicle and machine at present, some applications are not very common, in order to facilitate the user to find the common applications quickly in the driving process, a shortcut interface is added, and one or more shortcut icons are included in the shortcut interface. Shortcut icons are used to identify applications or control functions. Clicking on the shortcut icon by the driver triggers step S201, where an application interface of the application identified by the shortcut icon or a control function interface of the identified control function is displayed on the steering wheel display. And sequentially executing the steps S202 to S204, and displaying and synchronizing the vehicle-computer screen interface on the vehicle-computer screen.

Then, step S202 is executed to determine a vehicle-mounted screen corresponding to the first operation. And executing step S203, and synchronously displaying the vehicle-computer screen interface corresponding to the steering wheel display interface on the vehicle-computer screen.

Since the in-vehicle screen may be plural, the different first operations will correspond to different in-vehicle screens.

In one embodiment, the determining the vehicle-mounted screen corresponding to the first operation specifically includes:

if the first operation is the operation of starting the control function interface, determining that the central control screen is a vehicle-mounted screen; or alternatively

And if the first operation is to start the application, acquiring an application display screen corresponding to the application, and determining the application display screen as a vehicle-mounted screen.

Specifically, if the first operation is to start the control function interface operation, the central control screen is taken as the vehicle machine screen.

For example, when the driver clicks the car body control card 42 on the main interface and clicks the control function card 52 on the car body control interface 50 displayed later, step S201 is triggered, the control function interface is displayed on the steering wheel display screen, step S202 is executed, and the car machine screen is determined to be the center control screen. Then, step S203 is executed, and the vehicle-computer screen interface corresponding to the control function interface is synchronously displayed on the central control screen.

And if the first operation is to start the application, acquiring an application display screen corresponding to the application, and determining the application display screen as a vehicle-mounted screen.

The application display screen to which the application corresponds may be saved by the system in advance with the application to which the corresponding screen is associated. Or may be selected by the user himself.

For example, if the driver clicks on the infotainment control card 43 on the main interface and clicks on one of the display screen cards 72 on the infotainment control interface displayed later, the system will record the display screen corresponding to the display screen card 72 selected by the driver clicked as the application display screen corresponding to the subsequent application. And then the driver clicks one of the application cards 82 in the multi-application control interface, triggering step S201, displaying the application interface on the display screen of the steering wheel, and executing step S202 to determine that the display screen corresponding to the display screen card 72 selected by the driver click is the car machine screen. Then, step S203 is executed, in which the driver clicks the display screen corresponding to the selected display screen card 72 to synchronously display the car machine screen interface corresponding to the application interface.

According to the embodiment, different vehicle screens are determined according to different operation types, so that a driver can conveniently and conveniently use different passenger vehicle screens.

And then, a third operation executed by the driver on the steering wheel display screen is triggered to execute step S204, the third operation is executed in response to the third operation on the steering wheel display screen, an interface after the third operation is executed is displayed on the steering wheel display interface, and the interface after the third operation is executed is synchronously displayed on the vehicle-computer screen interface.

After step S203, the operation performed by the driver on the steering wheel display is a third operation. After the system executes the third operation, the steering wheel display interface is updated according to the third operation, and meanwhile, the interface of the vehicle-mounted screen interface is updated synchronously according to the third operation, and after the third operation is executed, the interface of the vehicle-mounted screen interface is displayed.

The specific third operation may be preset by the system.

For example, the operation of the driver on the control function interface shown in fig. 6 is a third operation, and the third operation of the driver on the control function interface, for example, performs some control operations, where the control function interface is updated according to the performed control operations, and the on-vehicle screen interface is updated according to the corresponding control operations. For example, if the driver adjusts the backrest position on the control function interface, the control function interface displays the dynamic effect of backrest adjustment, and at the same time, the vehicle screen interface also displays the dynamic effect of backrest adjustment.

For example, the operation of the driver on the application interface shown in fig. 9 is a third operation, and the third operation of the driver on the application interface, such as a use operation for some applications, is performed, where the application interface is updated according to the performed use operation, and meanwhile, the vehicle screen interface is updated according to the corresponding use operation. For example, when the driver turns up the volume on the music application interface of the steering wheel display screen, the music application interface of the steering wheel display screen displays the dynamic effect of turning up the volume, and at the same time, the music application interface of the car machine screen also displays the dynamic effect of turning up the volume.

According to the embodiment, the steering wheel display screen is added on the steering wheel, so that the central control screen and other display screens in the vehicle can be operated. The steering wheel display screen can also integrate instrument functions, and the original instrument is canceled. Through selecting different car machine screens, the operation of a driver in the driving process is facilitated, the screen is shared with other passengers, and the driving safety and convenience are improved.

In one embodiment, after the on-board screen other than the steering wheel display screen displays the on-board screen interface corresponding to the steering wheel display interface in the vehicle, the method further includes:

And responding to the fourth operation on the vehicle-mounted screen, executing the fourth operation, displaying an interface after executing the fourth operation on the vehicle-mounted screen, wherein the interface after executing the fourth operation on the vehicle-mounted screen is independent of the steering wheel display interface.

Specifically, the passenger, including the driver and other passengers, performs the fourth operation on the vehicle screen, where the fourth operation only changes the vehicle screen interface, and the interface of the vehicle screen after the fourth operation is performed is independent of the steering wheel display interface, that is, the updating of the vehicle screen interface by the fourth operation is not synchronized to the steering wheel display interface.

The specific fourth operation may be preset by the system.

According to the embodiment, the operation interface of the steering wheel display screen can be synchronized with other display screen equipment, but the operation of the other display screen equipment cannot be reversely synchronized with the steering wheel display screen, so that the interference to a driver is avoided.

In one embodiment, after the on-board screen other than the steering wheel display screen displays the on-board screen interface corresponding to the steering wheel display interface in the vehicle, the method further includes:

executing a fifth operation of the vehicle screen in response to the fifth operation;

Forming feedback information according to an execution result of executing the fifth operation, and displaying an interface related to the feedback information on the vehicle-computer screen interface;

and displaying the feedback information on the steering wheel display interface.

Specifically, when the passenger operates the vehicle screen and the execution result has feedback information, the feedback information is displayed on the vehicle screen interface and the steering wheel display interface at the same time, so that the driver can obtain information feedback in time.

In one embodiment, the third operation is an interface exit operation, and the responding to the third operation on the steering wheel display screen updates the steering wheel display interface and synchronously updates the vehicle-computer screen interface specifically includes:

and responding to the operation of exiting the interface of the steering wheel display screen, updating the steering wheel display interface into the shortcut interface, and closing the screen interface of the vehicle.

And when the driver performs the operation of exiting the interface on the display screen of the steering wheel under the condition that the shortcut interface is used, the display interface of the steering wheel is restored to be the shortcut interface, and the screen interface of the vehicle is closed.

In some embodiments, closing the vehicle screen interface is closing the vehicle screen or restoring the vehicle screen to the original interface.

If the driver or other users in the vehicle execute the second operation on the vehicle screen, triggering step S205, displaying the vehicle screen interface after executing the second operation on the vehicle screen, acquiring the shortcut display setting of the vehicle screen interface, and determining whether to display a shortcut switch for controlling the vehicle screen interface on the steering wheel display screen according to the shortcut display setting.

In one embodiment, the responding to the second operation on the vehicle-mounted screen displays the vehicle-mounted screen interface after the second operation is performed on the vehicle-mounted screen, obtains the shortcut display setting of the vehicle-mounted screen interface, and determines whether to display the shortcut switch for controlling the vehicle-mounted screen interface on the steering wheel display screen according to the shortcut display setting, which specifically includes:

responding to a second operation on a vehicle screen, and displaying a vehicle screen interface after the second operation is executed on the vehicle screen;

acquiring shortcut display settings of a vehicle-mounted screen interface after the second operation is executed;

and if the shortcut display is set as a shortcut switch, displaying a shortcut switch for controlling the screen interface of the car machine on the display screen of the steering wheel.

Specifically, if the driver or other user in the vehicle performs the second operation on the vehicle screen, a vehicle screen interface after the second operation is performed is displayed on the vehicle screen. And then, acquiring shortcut display settings of the screen interface of the vehicle-mounted device after the second operation is executed.

Specifically, the shortcut display setting includes setting a shortcut switch or not setting a shortcut switch.

And if the shortcut display is set as the shortcut switch, displaying the shortcut switch for controlling the screen interface of the car machine on the display screen of the steering wheel.

In some embodiments, if the steering wheel display displays a shortcut interface, the shortcut switch is displayed on the shortcut interface.

According to the embodiment, the shortcut switch for controlling the screen interface of the vehicle is displayed on the steering wheel display screen, so that a driver can conveniently operate the screen in the vehicle in the driving process, and the driving safety and convenience are improved.

FIG. 10 is a flowchart showing the operation of the body control interface by the driver in accordance with the preferred embodiment of the present invention, comprising:

step S1001, a driver clicks a car body control card on a steering wheel display screen;

step S1002, a driver clicks a control function A card on a steering wheel display screen;

Step S1003, a control instruction is sent to a central control display screen;

step S1004, synchronously popping up a control function A interface by the central control display screen;

step S1005, the driver operates the control function A interface on the steering wheel display screen;

step S1006, a control instruction is sent to a central control display screen;

step S1007, interface display after the central control display screen synchronous related operation;

step S1008, the passenger executes corresponding actions on the central control display screen;

step S1009, the central control display screen forms feedback information according to the execution result;

step S1010, sending feedback information to a steering wheel display screen;

in step S1011, the steering wheel display displays a related text or interface according to the feedback information.

FIG. 11 is a workflow diagram illustrating the operation of the infotainment control interface by the driver in accordance with a preferred embodiment of the present invention, including:

step 1101, the driver clicks the infotainment card on the steering wheel display;

step S1102, the driver clicks the first display screen on the steering wheel display screen;

step S1103, a control instruction is sent to the display screen;

step S1104, in the first display screen, if the screen is not started, the screen is started; if the device is started, no special response exists;

step S1105, a driver clicks an APP card on a display screen of a steering wheel;

Step S1106, a control instruction is sent to the display screen;

step S1107, the display screen synchronously pops up an APP interface;

step S1108, a driver operates an APP interface on a steering wheel display screen;

step S1109, sending a control instruction to the display screen;

in step S1110, the display screen displays the interface after the synchronization related operation.

FIG. 12 is a flowchart showing a shortcut interface control method in accordance with a preferred embodiment of the present invention, comprising:

step S1201, powering up the vehicle ACC or IGN;

step S1202, a steering wheel display screen is lightened and a shortcut interface is displayed by default;

step S1203, if the user clicks the blank area of the screen, the shortcut interface exits, enters the main interface, and executes step S1204, otherwise, the current shortcut interface is kept, and the step S1204 is executed;

step S1204, the user clicks and displays an application icon, and then enters an application interface;

step S1205, the user clicks to exit the application interface;

step S1206, judging whether the user clicks the screen again within 10 seconds, if so, displaying the corresponding interface according to the user operation, otherwise, resuming displaying the shortcut interface.

Fig. 13 is a schematic diagram showing a shortcut interface being switched to a main interface. Shortcut interface 1300 includes an instrument display interface 1301 and a plurality of shortcut pictures 1302. Shortcut icon 1302 is used to identify an application or control function. For example, shortcut icon 1302 may be used to identify commonly used applications such as music, navigation, radio, air conditioning, etc. Shortcut icon 1302 may also directly display key switches or buttons for facilitating the user to directly operate the usual functions.

When the user clicks on the blank area of the screen, the shortcut interface 1300 exits and enters the main interface 40.

Fig. 14 is a flowchart showing a shortcut switch control operation in accordance with a preferred embodiment of the present invention, including:

step S1401, a display screen APP is started;

step S1402, the system determines whether the APP has a preset shortcut switch, if yes, step S1403 is executed, otherwise no action is executed;

step S1403, activating a shortcut switch of a steering wheel display screen;

step S1404, the system judges whether a shortcut interface of a display screen of the steering wheel is displayed, if yes, step S1405 is executed, otherwise step S1406 is executed;

step S1405, displaying a corresponding shortcut switch on the shortcut interface;

step S1406, determining whether to display the shortcut switch according to the setting of the steering wheel display interface.

Specifically, if the driver or other user in the vehicle opens an APP application on the display screen, step S1401 is triggered, and the APP application on the display screen is opened. Then, step S1402 is executed, and the system determines whether the APP has a preset shortcut switch, and if so, step S1403 is executed, and the steering wheel display shortcut switch is activated. Then, step S1404 is executed, the system determines whether the shortcut interface of the steering wheel display screen is displayed, if yes, step S1405 is executed, and the corresponding shortcut switch is displayed on the shortcut interface, if no, step S1406 is executed, and whether the shortcut switch is displayed is determined according to the setting of the steering wheel display interface. Specifically, if the steering wheel display interface is a preset permission shortcut switch interface, displaying the shortcut switch on the steering wheel display interface, and if the steering wheel display interface does not permit the shortcut switch interface to be displayed, not executing the action.

Fig. 15 is a schematic diagram of a hardware structure of an electronic device according to the present application, including:

at least one processor 1501; the method comprises the steps of,

a memory 1502 communicatively coupled to at least one of the processors 1501; wherein,,

the memory 1502 stores instructions executable by at least one of the processors to enable the at least one processor to perform a vehicle multi-screen control method as previously described.

In fig. 15, a processor 1501 is taken as an example.

The electronic device may further include: an input device 1503 and a display device 1504.

The processor 1501, memory 1502, input device 1503, and display device 1504 may be connected by a bus or other means, for example.

The memory 1502 is used as a non-volatile computer readable storage medium, and may be used to store non-volatile software programs, non-volatile computer executable programs, and modules, such as program instructions/modules corresponding to the vehicle multi-screen control method in the embodiment of the present application, for example, the method flows shown in fig. 1 and 2. The processor 1501 executes various functional applications and data processing by executing nonvolatile software programs, instructions and modules stored in the memory 1502, i.e., implements the vehicle multi-screen control method in the above-described embodiment.

The memory 1502 may include a storage program area and a storage data area, wherein the storage program area may store a first operating system, at least one application program required for a function; the storage data area may store data created according to the use of the vehicle multi-screen control method, or the like. In addition, the memory 1502 may include high-speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid-state storage device. In some embodiments, the memory 1502 may optionally include memory remotely located from the processor 1501, which may be connected via a network to a device performing the vehicle multi-screen control method. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The input device 1503 may receive user clicks of inputs and generate signal inputs related to user settings and function controls of the vehicle multi-screen control method. The display 1504 may include a display device such as a display screen.

The vehicle multi-screen control method of any of the method embodiments described above is performed when the one or more modules are stored in the memory 1502 and when executed by the one or more processors 1501.

The invention receives the operation of a driver through the steering wheel display screen and controls the screen of the vehicle in the vehicle based on the operation of the steering wheel display screen, or displays a shortcut switch for controlling the interface of the screen of the vehicle on the steering wheel display screen. Therefore, a driver can conveniently operate the screen in the vehicle in the driving process, and the driving safety and convenience are improved.

An embodiment of the invention provides a storage medium storing computer instructions that, when executed by a computer, perform all the steps of a vehicle multi-screen control method as described above.

An embodiment of the invention provides a vehicle, which comprises a steering wheel display screen and the electronic equipment, wherein the steering wheel display screen is fixed on a steering wheel of the vehicle, and the steering wheel display screen is in communication connection with the electronic equipment.

The steering wheel display screen is arranged on a steering wheel of the vehicle, the steering wheel display screen is in communication connection with the electronic equipment, and the steering wheel display screen is controlled by the electronic equipment through the vehicle multi-screen control method. As shown in fig. 3, a steering wheel display 1 is fixed to a steering wheel 2.

The steering wheel display screen 1 may be a touch screen, and the driver may perform a touch operation on the steering wheel display screen 1. The input to the steering wheel display 1 may also come from a meter control unit 3 in communicative connection with the electronic device. The operation of the meter control unit 3 by the driver, such as pressing, touch control, etc., is an operation of the steering wheel display screen. The driver can send control instructions to the steering wheel display screen 2 through the instrument control unit 3, wherein the control instructions comprise control instructions such as vehicle speed, oil quantity, cruising, warning lamps and the like.

According to the invention, the operation of the driver is received through the steering wheel display screen, and the screen of the vehicle in the vehicle is controlled based on the operation of the steering wheel display screen, so that the driver can conveniently operate the screen in the vehicle in the driving process, and the driving safety and convenience are improved.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (11)

1. A vehicle multi-screen control method, characterized by comprising:

responding to a first operation of a steering wheel display screen, displaying a steering wheel display interface after the first operation is executed on the steering wheel display screen, and displaying a vehicle-to-vehicle screen interface corresponding to the steering wheel display interface on a vehicle screen except the steering wheel display screen; or alternatively

And responding to a second operation on the vehicle-mounted screen, displaying a vehicle-mounted screen interface after the second operation is performed on the vehicle-mounted screen, acquiring shortcut display setting of the vehicle-mounted screen interface, and determining whether to display a shortcut switch for controlling the vehicle-mounted screen interface on the steering wheel display screen according to the shortcut display setting.

2. The vehicle multi-screen control method according to claim 1, wherein the vehicle screen other than the steering wheel display screen in the vehicle synchronously displays a vehicle screen interface corresponding to the steering wheel display interface, specifically comprising:

determining a vehicle machine screen corresponding to the first operation, wherein the vehicle machine screen is a vehicle machine screen except for the steering wheel display screen in a vehicle;

and synchronously displaying a vehicle-machine screen interface corresponding to the steering wheel display interface on the vehicle-machine screen.

3. The vehicle multi-screen control method according to claim 2, wherein the determining the vehicle-mounted screen corresponding to the first operation specifically includes:

if the first operation is the operation of starting the control function interface, determining that the central control screen is a vehicle-mounted screen; or alternatively

And if the first operation is to start the application, acquiring an application display screen corresponding to the application, and determining the application display screen as a vehicle-mounted screen.

4. The vehicle multi-screen control method according to claim 1, wherein after the in-vehicle screen other than the steering wheel display screen displays an in-vehicle screen interface corresponding to the steering wheel display interface, the method further comprises:

And responding to a third operation on the steering wheel display screen, executing the third operation, displaying an interface after executing the third operation on the steering wheel display interface, and synchronously displaying the interface after executing the third operation on the vehicle-mounted screen interface.

5. The vehicle multi-screen control method according to claim 1, wherein after the in-vehicle screen other than the steering wheel display screen displays an in-vehicle screen interface corresponding to the steering wheel display interface, the method further comprises:

and responding to the fourth operation on the vehicle-mounted screen, executing the fourth operation, displaying an interface after executing the fourth operation on the vehicle-mounted screen interface, wherein the interface after executing the fourth operation on the vehicle-mounted screen interface is independent of the steering wheel display interface.

6. The vehicle multi-screen control method according to claim 1, wherein after the in-vehicle screen other than the steering wheel display screen displays an in-vehicle screen interface corresponding to the steering wheel display interface, the method further comprises:

executing a fifth operation of the vehicle screen in response to the fifth operation;

Forming feedback information according to an execution result of executing the fifth operation, and displaying an interface related to the feedback information on the vehicle-computer screen interface;

and displaying the feedback information on the steering wheel display interface.

7. The vehicle multi-screen control method according to any one of claims 1 to 6, characterized in that before the first operation in response to the steering display screen, the method further comprises:

and displaying a shortcut interface on a steering wheel display screen, wherein the shortcut interface comprises one or more shortcut icons, and the first operation is selection of the shortcut icons.

8. The vehicle multi-screen control method according to claim 1, wherein the displaying, on the vehicle screen, a vehicle screen interface after the second operation is performed in response to the second operation on the vehicle screen, and acquiring a shortcut display setting of the vehicle screen interface, and determining whether to display, on the steering wheel display screen, a shortcut switch for controlling the vehicle screen interface according to the shortcut display setting specifically includes:

responding to a second operation on a vehicle screen, and displaying a vehicle screen interface after the second operation is executed on the vehicle screen;

Acquiring shortcut display settings of a vehicle-mounted screen interface after the second operation is executed;

and if the shortcut display is set as a shortcut switch, displaying a shortcut switch for controlling the screen interface of the car machine on the display screen of the steering wheel.

9. An electronic device, comprising:

at least one processor; the method comprises the steps of,

a memory communicatively coupled to at least one of the processors; wherein,,

the memory stores instructions executable by at least one of the processors to enable the at least one of the processors to perform the vehicle multi-screen control method according to any one of claims 1 to 8.

10. A storage medium storing computer instructions which, when executed by a computer, are adapted to carry out all the steps of a vehicle multi-screen control method according to any one of claims 1 to 8.

11. A vehicle comprising a steering wheel display secured to a steering wheel of the vehicle and an electronic device as claimed in claim 9, the steering wheel display being in communication with the electronic device.