CN114537269A - Control method for light in automobile and automobile - Google Patents

Abstract

A control method of light in an automobile and the automobile are provided, the control method comprises the following steps: associating operation signals corresponding to various operations with lighting effects; and receiving the operation signal, acquiring the light effect corresponding to the operation signal and driving the lamp bank in the vehicle to execute the light effect. After receiving the corresponding operating signal that the user generated when operating the car, acquire the light effect rather than corresponding according to this operating signal, the banks is with this light effect operation in the interior of driving car again, and like this, the user can provide corresponding interactive light effect in the interior of car when operating the car, provides abundant visual cue interactive effect.

Description

Control method for light in automobile and automobile

Technical Field

The present invention relates to automobile technology, and is especially the control method of light inside automobile.

Background

With the continuous development of the automobile industry, networking and intellectualization have become the current development trend for improving the identification and difference of products. The market share of intelligent automobile promotes fast, and available scene, user experience and the trip service that the vehicle provided also constantly enlarge, and the vehicle has not only been the instrument of riding instead of walk of user's point-to-point trip, and more is a trip experience and amusement, can provide more various life and creation amusement space even for the user, otherwise, the user is also increasing to the demand that the vehicle was gone on a journey.

At present, in the vehicles on the market, functions such as vehicle operation and the like of a user cannot be provided for the user to enrich visual interactive prompts or interactive prompts are single and invariable, personalized requirements of the user cannot be met, the visual interactive prompts are not provided for the user to select diversity, and product personalization is insufficient.

Disclosure of Invention

For solving the problem that the existing automobile can not provide the interactive prompt on the rich vision for the user, the application provides a control method of the light in the automobile, which comprises the following steps:

associating operation signals corresponding to various operations with lighting effects;

and receiving the operation signal, acquiring the light effect corresponding to the operation signal and driving the lamp bank in the vehicle to execute the light effect.

In an exemplary embodiment, the lighting effects are multiple, and the multiple lighting effects are a breathing effect, a flickering effect, a water flowing effect, and a color gradient effect.

In an exemplary embodiment, the operation signals are multiple, and the multiple operation signals are respectively an opening and closing operation signal of a central lock, an opening and closing operation signal of a child lock, a gear switching operation signal, an air conditioner operation signal, a steering operation signal, a voice recognition operation signal, a gesture recognition operation signal and an electric reminding operation signal.

In one exemplary embodiment, the control method further includes:

before the inner lamp group executes the light effect, measuring the intensity of ambient light, and acquiring the light brightness corresponding to the intensity of the ambient light, wherein the intensity of the ambient light and the light brightness are positively correlated;

and executing the light effect with the light brightness when the inner lamp group executes the light effect.

In an exemplary embodiment, at least a portion of the light effects are configured to be associated with the operating signal only when the vehicle has reached a first predetermined number of miles traveled.

In an exemplary embodiment, at least a portion of the operating signals are configured to be associated with the light effect only when the vehicle has reached a second predetermined number of miles traveled.

In an exemplary embodiment, a user associates an operation signal corresponding to each type of operation with a light effect by operating the mobile terminal or the touch screen.

This embodiment has still proposed an automobile, and it includes:

the lamp group in the vehicle comprises a plurality of lamp beads;

the control unit is electrically connected with the interior lamp group;

and the control unit is configured to obtain the light effect corresponding to the operation signal and drive the in-vehicle lamp group to execute the light effect after receiving the operation signal.

In an exemplary embodiment, an operating assembly is also included;

the operating assembly includes:

the central lock and child lock module is used for sending an opening and closing operation signal of the central lock and an opening and closing operation signal of the child lock to the control unit;

the gear module is used for sending a gear switching operation signal to the control unit;

the air conditioning module is used for sending an air conditioning operation signal to the control unit;

the steering module is used for sending a steering operation signal to the control unit;

the voice recognition module is used for sending a voice recognition operation signal to the control unit; and

the gesture recognition module is used for sending a gesture recognition operation signal to the control unit.

In an exemplary embodiment, the system further comprises an ambient light sensor electrically connected to the control unit for measuring an ambient light intensity;

before the control unit drives the lamp bank in the vehicle to execute the light effect, the ambient light intensity is measured through the ambient light sensor, the light brightness corresponding to the ambient light intensity is obtained, and then the light effect is executed according to the light brightness, wherein positive correlation is formed between the ambient light intensity and the light brightness.

After receiving the corresponding operating signal that the user generated when operating the car, acquire the light effect rather than corresponding according to this operating signal, the banks is with this light effect operation in the interior of driving car again, and like this, the user can provide corresponding interactive light effect in the interior of car when operating the car, provides abundant visual cue interactive effect. And because the user can set the incidence relation between the operation signal and the lighting effect by himself, the personalized requirements of the user can be met.

Additional features and advantages of the application will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the application. Other advantages of the present application may be realized and attained by the instrumentalities and combinations particularly pointed out in the specification and the drawings.

Drawings

The accompanying drawings are included to provide an understanding of the present disclosure and are incorporated in and constitute a part of this specification, illustrate embodiments of the disclosure and together with the examples serve to explain the principles of the disclosure and not to limit the disclosure.

FIG. 1 is a schematic diagram of the connection of the various modules of the vehicle in the embodiment of the present application;

fig. 2 is a flowchart of a control method in the embodiment of the present application.

Detailed Description

As shown in fig. 1, fig. 1 shows a schematic connection diagram of a part of modules of an automobile in the present embodiment. The automobile comprises an interior light group 6, a control unit 3, a gateway 2, a wireless communication module 1, an operating assembly 5 and an ambient light sensor 4. The vehicle may be a passenger vehicle.

The interior light group 6 is provided on the inner wall of the cab. The in-vehicle Light group 6 includes a plurality of Light beads, and the Light beads may be LED (Light Emitting Diode) lamps. The plurality of lamp beads can be arranged in a strip shape. The lamp beads can emit light of various colors, such as red light, blue light and yellow light.

The control unit 3 includes an interior light system module 33, a vehicle body controller 32, and an in-vehicle host 31. A body controller 32 (BCM), also called a body computer (body computer), is connected to the body controller 32 via a bus.

The interior light system module 33 is a logic control unit 3 for controlling the operation of the interior light group 6. The interior light system module 33 is electrically connected to the body controller 32 through a bus. The inner lamp system module 33 is also electrically connected to each lamp bead through a cable. The interior light system module 33 is configured to drive the interior light group 6 to execute a light effect corresponding to an operation instruction according to the operation instruction currently executed in the vehicle body controller 32.

The in-vehicle host 31 is the core of the in-vehicle audio/video system. The in-vehicle host 31 is electrically connected to the body controller 32. The in-vehicle host 31 can play audio and video files such as audio source files and video files. The user can operate the in-vehicle host 31 through a physical or virtual key on the in-vehicle host 31. The in-vehicle host 31 includes a bluetooth module. The user's handset may be bluetooth connected to the in-vehicle host 31. When the mobile phone of the user is called, the incoming call information is transmitted to the in-vehicle host 31, and after receiving the incoming call information, the in-vehicle host 31 transmits an incoming call prompt operation signal to the vehicle body controller 32.

The gateway 2 is electrically connected to the in-vehicle host 31, and the wireless communication module 1 is electrically connected to the gateway 2. The wireless communication module 1 can be connected with the mobile terminal 100 and the cloud server 200 through a wireless communication network. The mobile terminal 100 may be a mobile phone or a tablet computer. After the cloud server 200 and the mobile terminal 100 establish communication connection with the wireless communication module 1 through the wireless communication network, the cloud server 200 and the mobile terminal 100 can send the operation instruction to the wireless communication module 1, and the wireless communication module 1 sends the operation instruction to the vehicle-mounted host 31 through the gateway 2, so that the mobile terminal 100 and the cloud server 200 can remotely control the vehicle-mounted host 31.

In-vehicle host 31 also includes upgrade module 311, which may be an Over-the-Air Technology (OVER-the-AIR Technology) based client. Ota (over The air) is a technology for remotely managing SIM card data and applications over The air interface of mobile communication. The upgrade module 311 may remotely connect to a server, and the server transmits the update contents to the upgrade module 311, thereby implementing the update of the application or management system. The upgrade module 311 is electrically connected to the vehicle body controller 32, and the upgrade module 311 can download new light effect data from the server and add the new light effect data to the vehicle body controller 32.

The ambient light sensor 4 may be disposed outside the vehicle body. The ambient light sensor 4 is used to measure the ambient light intensity. The ambient light sensor 4 is electrically connected to the interior light system module 33. The ambient light sensor 4 sends its measured ambient light intensity to the interior light system module 33. The ambient light may be natural light or light.

The operation assembly 5 includes a touch screen 52, a central lock and child lock module 53, a gear module 54, an air conditioning module 55, a steering module 56, a voice recognition module 57, and a gesture recognition module 58.

The touch screen 52 may be located at the center console of the automobile. The touch screen 52 may be an infrared touch screen, a resistive touch screen, a surface acoustic wave touch screen, or a capacitive touch screen. The touch screen 52 can transmit an operation signal to the touch screen 52 to the body controller 32, and the body controller 32 can perform a corresponding operation.

The central lock and child lock module 53 is an electronic control unit 3(ECU) of the central lock and child lock. The center lock and child lock module 53 is electrically connected to the body controller 32. The center lock and child lock module 53 can transmit an operation signal to the vehicle body controller 32. For example, when the user opens and closes the central lock, the central lock and child lock module 53 can send an opening and closing operation signal of the central lock to the vehicle body controller 32; when the user opens or closes the child lock, the central lock and child lock module 53 can send an opening/closing operation signal of the child lock to the vehicle body controller 32. The central lock is usually arranged on a driver seat door and can control the closing and the opening of the whole vehicle door at the same time. The central control lock can be divided into an electromagnetic type, a direct current motor type and a permanent magnet motor type. The child lock is usually arranged on a rear door lock of the automobile, the rear door lock of the automobile can be normally opened and closed in the closing state of the child lock, and a person cannot open the rear door lock in the automobile in the opening state of the child lock.

The gear module 54 is the electronic control unit 3 of the gearbox. The range module 54 is electrically connected to the body controller 32. The gear module 54 can generate an operating signal upon operation of the transmission and transmit the operating signal to the body controller 32. For example, the shift module 54 sends a shift range operation signal to the body controller 32 when the user completes a shift range shift of the transmission.

The air conditioning module 55 is an electronic control unit of the vehicle air conditioner. The air conditioning module 55 is electrically connected to the body controller 32. The air conditioning module 55 transmits an air conditioning operation signal to the vehicle body controller 32 when the user operates the in-vehicle air conditioner. The air conditioner operation signal may be a cooling mode activation operation signal, a heating mode activation operation signal, or a temperature setting operation signal. For example, the user sends a cooling mode operation start signal to the vehicle body controller 32 when the cooling mode is selected; the user transmits a temperature setting operation signal to the vehicle body controller 32 when setting the temperature.

The steering module 56 is the electronic control unit 3 of the steering system. The steering module 56 is electrically connected to the body controller 32. The steering module 56 sends a steering operation signal to the body controller 32 when the user operates the steering of the automobile.

The voice recognition module 57 includes a microphone disposed within the cab for receiving voice commands. The voice recognition module 57 is electrically connected to the body controller 32. The voice recognition module 57 can convert voice commands into computer-readable information and transmit the information to the in-vehicle host 31 or the body controller 32, thereby operating the car. The voice recognition operation signal is sent to the vehicle body controller 32 when the voice recognition module 57 performs voice recognition.

The gesture recognition module 58 includes a camera. The camera may be arranged in the cab, for example inside the a-pillar of the car, with its lens shooting towards the user or the copilot. The gesture recognition module 58 may convert the non-contact gesture instructions in the video captured by the camera into computer-readable information and send the information to the body controller 32 to operate the vehicle. The gesture recognition operation signal is sent to the vehicle body controller 32 when the gesture recognition module 58 performs gesture recognition.

As shown in fig. 2, the present embodiment further provides a method for controlling lights in an automobile. The control method comprises the following steps:

step S1: and associating the operation signals corresponding to the various types of operation with the light effect.

The lighting effect has multiple, and multiple lighting effect can be respiratory effect, scintillation effect, flowing water effect and colour gradual change effect respectively. The breathing effect is that the light of the lamp bead gradually changes from bright to dark and then gradually changes from dark to bright, and the lamp bead has rhythmic change like breathing. The flicker effect is the light of lamp pearl is the switching between dark bright fast. The flowing water effect is that a plurality of lamp pearls arranged into a strip are sequentially lightened along the arrangement direction and then extinguished, and the flowing water effect looks like light flowing along the plurality of lamp pearls visually. The color gradual change effect is that the color of the light of the lamp bead gradually changes among a plurality of colors.

The multiple operation signals are respectively an opening and closing operation signal of the central control lock, an opening and closing operation signal of the child lock, a gear switching operation signal, an air conditioner operation signal, a steering operation signal, a voice recognition operation signal, a gesture recognition operation signal and an electric reminding operation signal.

Each of the operation signals that the vehicle is capable of performing is associated with one of a plurality of light effects. Each operation signal may correspond to different light effects, for example, the opening and closing operation signal of the central lock, the opening and closing operation signal of the child lock, the switching gear operation signal, and the air conditioner operation signal sequentially correspond to a breathing effect, a flashing effect, a water flowing effect, and a color gradient effect, respectively. It is also possible to correspond several operation types to one light effect, for example, to correspond a turn operation signal, a voice recognition operation signal, a gesture recognition operation signal, and an electric alert operation signal to a blinking effect.

The correspondence relationship between the operation signal and the light effect may be stored in the vehicle body controller 32 in the form of a correspondence list.

In this embodiment, the user may set the corresponding relationship between the operation signal and the light effect through the touch screen 52 or the mobile terminal 100. The user can operate the touch screen 52 in the automobile to set the corresponding relationship between the operation signal and the light effect, the touch screen 52 sends the corresponding relationship between the operation signal and the light effect set by the user to the body controller 32, and the body controller 32 stores the corresponding relationship. The user can also remotely connect to the wireless communication module 1 of the automobile through the mobile terminal 100, the user can set the corresponding relationship between the operation signal and the light effect on the Application program (APP, Application) on the mobile terminal 100, after the setting is completed, the mobile terminal 100 sends the corresponding relationship to the wireless communication module 1, the wireless communication module 1 sends the corresponding relationship to the gateway 2, the gateway 2 sends the corresponding relationship to the on-board host 31, the on-board host 31 sends the corresponding relationship to the body controller 32, and the body controller 32 stores the corresponding relationship.

When the user touch screen 52 or the mobile terminal 100 sets the corresponding relationship between the operation signal and the light effect, when one light effect is selected, the animation effect of the light effect can be displayed on the touch screen 52 or the mobile terminal 100, so that the user can view the light effect more intuitively.

Step S2: the vehicle body controller 32 of the control unit 3 receives the operation signal;

the body controller 32 receives the operation signal from the bus. The operation signal may be an open/close operation signal of the central lock sent by the central lock and child lock module 53 when the user operates the central lock, or an open/close operation signal of the child lock sent by the central lock and child lock module 53 when the user operates the child lock, or may be a shift switching operation signal sent by the shift module 54 when the user switches the shift, or may be an air conditioner operation signal sent by the air conditioner module 55 when the user operates the air conditioner, or may be a steering operation signal sent by the steering module 56 when the user operates the vehicle to steer, or may be a voice recognition operation signal sent by the voice recognition module 57 when the user performs voice interaction, or may be a gesture recognition operation signal sent by the gesture recognition module 58 when the user performs gesture interaction, the operation signal may also be an incoming call reminding operation signal sent by the in-vehicle host 31 when the user has an incoming call.

Step S3: the vehicle body controller 32 obtains the light effect corresponding to the operation signal, and drives the interior light group 6 to execute the light effect through the interior light system module 33.

After receiving the operation signal, the vehicle body controller 32 queries the light effect corresponding to the operation signal from the corresponding list of the operation signal and the light effect, and sends the light effect to the interior light system module 33, and the interior light system module 33 drives the vehicle interior light group 6 to operate with the light effect. When the user operates the touch screen 52, the voice interaction, the gesture interaction, the child lock is turned on or off, the central control lock is turned on or off, the steering, the gear shifting and the air conditioner adjustment are performed, the lamp set 6 in the automobile can display the corresponding light effect to prompt, and meanwhile, when the mobile phone calls, the lamp set 6 in the automobile can also display the corresponding light effect to prompt. According to the technical scheme, the whole vehicle prompt function can be enriched at low cost, and the vehicle body controller 32 is only required to grab an operation signal on the bus and drive the vehicle interior lamp group 6 to execute the light effect through the interior lamp system module 33.

In the technical scheme, after the vehicle body controller 32 receives a corresponding operation signal generated when the user operates the vehicle, the corresponding light effect is obtained according to the operation signal, and then the lamp bank 6 in the vehicle is driven to operate with the light effect through the lamp system module 33, so that the lamp bank 6 in the vehicle can provide the corresponding interactive light effect when the user operates the vehicle, and rich visual prompt interactive effect is provided. And because the user can set the incidence relation between the operation signal and the lighting effect by himself, the personalized requirements of the user can be met.

In an exemplary embodiment, in step S3, before the interior light system module 33 drives the interior light group 6 to execute the light effect, the intensity of the ambient light is measured by the ambient light sensor 4, and the brightness of the light corresponding to the intensity of the ambient light is obtained, and then the light effect is executed at the brightness of the light. Wherein, the ambient light intensity and the light brightness are in positive correlation.

The interior light system module 33 stores a corresponding relationship list of the ambient light intensity and the light brightness in advance. In this embodiment, the correspondence relationship list is shown in the following table:

table 1: light brightness and environment light intensity corresponding table

The interior light system module 33 measures real-time ambient light intensity through the ambient light sensor 4, then inquires the light brightness corresponding to the ambient light intensity according to the corresponding relationship list of the ambient light intensity and the light brightness, and finally lights the interior light group 6 with the light brightness to execute the light effect. The higher the ambient light intensity is, the higher the light brightness is, so that the light brightness is matched with the ambient light intensity to ensure that the light intensity is not too bright or too dark, and the comfort and the safety are improved.

In an exemplary embodiment, at least a portion of the light effects are configured to be associated with the operating signal until the mileage traveled by the vehicle reaches the first predetermined requirement at step S1.

In the embodiment, a part of the light effects are preset to be grey, and the part of the light effects cannot be selected before the mileage of the automobile reaches a first preset requirement, so that the part of the light effects cannot be associated with the operation signal; and after the mileage of the automobile reaches a first preset requirement, the part of the light effect is cancelled and grayed, and at the moment, the part of the light effect can be associated with the operation signal.

Preferably, the number of light effects that can be used increases with the number of miles driven by the vehicle, e.g., one part of the light effects is unlocked when the number of miles driven by the vehicle reaches 5000km, and the other part of the light effects is unlocked when the number of miles driven by the vehicle reaches 10000 km.

The light effect is unlocked according to the mileage of the automobile, so that the driving pleasure can be added. The unlocked light effect can be prompted by the mobile terminal 100 or the touch screen 52 when the driving mileage of the automobile reaches the first preset requirement.

In an exemplary embodiment, at least a portion of the operation signals are set to be associated with the light effect only when the mileage of the vehicle reaches the second predetermined requirement in step S1.

In the embodiment, a part of operation types are preset to be gray, and the part of operation types cannot be selected before the mileage of the automobile reaches a second preset requirement, so that the operation signals of the operation types cannot be associated with the lighting effect; and after the mileage of the automobile reaches a second preset requirement, the part of operation types are cancelled to be grayed, and at the moment, the operation signals of the part of operation types can be associated with the light effect.

Preferably, the number of operation signals of the operation types that can be used increases as the mileage of the vehicle increases, for example, an operation signal for unlocking a part of the operation types when the mileage of the vehicle reaches 5000km, and an operation signal for unlocking another part of the operation types when the mileage of the vehicle reaches 10000 km.

The unlocking operation signal can increase the driving pleasure according to the running mileage of the automobile. The operation signal may be an operation signal for reminding the unlocked operation type through the mobile terminal 100 or the touch screen 52 when the driving range of the automobile reaches the second preset requirement.

In this embodiment, through the function of car mileage unblock light effect and operation type, can also update the iteration through long-range download light effect data, richen user's demand, let the car machine commonly used new.

It will be understood by those of ordinary skill in the art that all or some of the steps of the methods, systems, functional modules/units in the devices disclosed above may be implemented as software, firmware, hardware, and suitable combinations thereof. In a hardware implementation, the division between functional modules/units mentioned in the above description does not necessarily correspond to the division of physical components; for example, one physical component may have multiple functions, or one function or step may be performed by several physical components in cooperation. Some or all of the components may be implemented as software executed by a processor, such as a digital signal processor or microprocessor, or as hardware, or as an integrated circuit, such as an application specific integrated circuit. Such software may be distributed on computer readable media, which may include computer storage media (or non-transitory media) and communication media (or transitory media). The term computer storage media includes volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer readable instructions, data structures, program modules or other data, as is well known to those of ordinary skill in the art. Computer storage media includes, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, Digital Versatile Disks (DVD) or other optical disk storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and which can accessed by a computer. In addition, communication media typically embodies computer readable instructions, data structures, program modules or other data in a modulated data signal such as a carrier wave or other transport mechanism and includes any information delivery media as known to those skilled in the art.

Claims (10)

1. A control method of light in an automobile is characterized by comprising the following steps:

associating operation signals corresponding to various operations with lighting effects;

and receiving the operation signal, acquiring the light effect corresponding to the operation signal and driving the lamp bank in the vehicle to execute the light effect.

2. The control method according to claim 1, wherein the operation signal has a plurality of kinds, and the plurality of kinds of operation signals are respectively an opening and closing operation signal of a central lock, an opening and closing operation signal of a child lock, a gear switching operation signal, an air conditioner operation signal, a steering operation signal, a voice recognition operation signal, a gesture recognition operation signal, and an electric reminding operation signal.

3. The control method according to claim 2, wherein the light effects are plural, and the plural light effects are a breathing effect, a flickering effect, a running water effect, and a color gradation effect, respectively.

4. The control method according to claim 1, characterized by further comprising:

before the inner lamp group executes the light effect, measuring the intensity of ambient light, and acquiring the light brightness corresponding to the intensity of the ambient light, wherein the intensity of the ambient light and the light brightness are positively correlated;

and executing the light effect with the light brightness when the inner lamp group executes the light effect.

5. A control method according to claim 1, wherein at least some of the light effects are arranged to be associated with the operating signal only if the vehicle has reached a first predetermined number of miles driven.

6. A control method according to claim 1, wherein at least a part of the operating signals are arranged to be associated with the light effect only when the mileage of the vehicle reaches a second predetermined requirement.

7. The control method according to claim 1, wherein the user associates the operation signal corresponding to each type of operation with the light effect by operating the mobile terminal or the touch screen.

8. An automobile, comprising:

the lamp group in the vehicle comprises a plurality of lamp beads;

the control unit is electrically connected with the interior lamp group;

and the control unit is configured to obtain the light effect corresponding to the operation signal and drive the in-vehicle lamp group to execute the light effect after receiving the operation signal.

9. The automobile of claim 8, further comprising an operating assembly;

the operating assembly includes:

the central lock and child lock module is used for sending an opening and closing operation signal of the central lock and an opening and closing operation signal of the child lock to the control unit;

the gear module is used for sending a gear switching operation signal to the control unit;

the air conditioning module is used for sending an air conditioning operation signal to the control unit;

the steering module is used for sending a steering operation signal to the control unit;

the voice recognition module is used for sending a voice recognition operation signal to the control unit; and

the gesture recognition module is used for sending a gesture recognition operation signal to the control unit.

10. The vehicle of claim 8, further comprising an ambient light sensor electrically connected to the control unit for measuring an ambient light intensity;

before the control unit drives the lamp bank in the vehicle to execute the light effect, the ambient light intensity is measured through the ambient light sensor, the light brightness corresponding to the ambient light intensity is obtained, and then the light effect is executed according to the light brightness, wherein positive correlation is formed between the ambient light intensity and the light brightness.

Images