CN114001298A - Vehicle atmosphere lamp structure, control method, and computer storage medium - Google Patents

Abstract

The application provides an atmosphere lamp structure of a vehicle and a control method, wherein the atmosphere lamp structure comprises at least two lamp belts and a control module, the lamp belts are arranged at different positions outside the vehicle and/or in a cabin and comprise a strip-shaped light guide, a first light-emitting part and a second light-emitting part, and the first light-emitting part and the second light-emitting part are respectively arranged at two ends of the strip-shaped light guide; the control template is used for controlling the first light-emitting component and the second light-emitting component to work according to the vehicle state information. The control method comprises the following steps: acquiring vehicle state information; determining a target lamp strip to be operated in the at least two lamp strips and working parameters of the target lamp strip according to the vehicle state information; and controlling the first light-emitting piece and the second light-emitting piece in the target lamp strip to work according to the working parameters so as to prompt the vehicle state information. The atmosphere lamp of this application has realized the effect in lamp area through the luminescent part at bar light guide and both ends, simple structure, with low costs to can be used for instructing vehicle state information, improve driving safety.

Description

Vehicle atmosphere lamp structure, control method, and computer storage medium

Technical Field

The present application relates to the field of vehicle technologies, and in particular, to an atmosphere lamp structure, a control method, and a computer storage medium for a vehicle.

Background

At present, light emitting modules are arranged at different positions of vehicles of many middle and high-end vehicle types to serve as atmosphere lamps, so that the purpose of improving the atmosphere in the vehicle is achieved. Compared with the illumination of a single luminous piece, the strip-shaped atmosphere lamp can realize more dazzling and rich atmosphere effect, but needs to use more LEDs and chips, and causes cost increase. Simultaneously, current atmosphere lamp mainly plays the effect that promotes the atmosphere, and the function is single, can't play the warning or carry out driver assistance to the passenger.

Disclosure of Invention

An object of the present application is to provide an atmosphere lamp structure, a control method, and a computer storage medium for a vehicle, which have a simple structure and a low cost, and can be used to indicate vehicle state information and improve driving safety.

In order to solve the technical problem, the application discloses atmosphere lamp structure of vehicle includes:

the lamp strips comprise a strip-shaped light guide, a first light-emitting piece and a second light-emitting piece, and the first light-emitting piece and the second light-emitting piece are respectively arranged at two ends of the strip-shaped light guide;

and the control module is used for controlling the first light-emitting piece and the second light-emitting piece to work according to the vehicle state information.

Optionally, the lengths between the light strips at different locations outside the vehicle and/or within the cabin are equal or unequal.

Optionally, the at least two light strips comprise a light strip located in an instrument area in the cabin and located outside each vehicle door, and the length of the light strip located in an instrument panel area in the cabin is not equal to the length of the light strip located outside each vehicle door.

The present application also provides a control method based on the vehicle atmosphere lamp structure as described above, the control method comprising the steps of:

acquiring vehicle state information;

determining a target lamp strip to be operated in the at least two lamp strips and working parameters of the target lamp strip according to the vehicle state information;

and controlling the first light-emitting piece and the second light-emitting piece in the target lamp strip to work according to the working parameters so as to prompt the vehicle state information.

Optionally, the determining, according to the vehicle state information, a target light band to be operated in the at least two light bands and operating parameters of the target light band include at least one of:

when the vehicle state information is preset state information, determining at least two target lamp belts, and determining working parameters of the at least two target lamp belts as running parameters;

and when the vehicle state information is not the preset state information, determining at least one target lamp strip, and determining that the working parameters of the at least one target lamp strip are non-running parameters.

Optionally, the lengths of the at least two target light belts are not equal, and the determining that the operating parameter of the at least two target light belts is a running water parameter includes at least one of:

determining a first flow parameter for synchronizing the flow change of each target lamp strip according to the lengths of the at least two target lamp strips and the vehicle state information;

and determining a second running water parameter for enabling each target lamp strip to sequentially change the running water according to the lengths of the at least two target lamp strips and the vehicle state information.

Optionally, at least one of the at least two target light strips is within the cabin.

Optionally, the determining that the operating parameter of the at least one target light strip is a non-flowing parameter includes at least one of:

when the number of the target lamp belts is one, determining a first non-flowing parameter of the target lamp belt according to the vehicle state information;

and when the number of the target lamp belts is more than one, determining second non-flowing parameters enabling non-flowing combinations to be formed among the target lamp belts according to the number of the target lamp belts and the vehicle state information.

Optionally, the running water parameter includes at least one of color, brightness, running water change rate and running water duration of the first light-emitting element and the second light-emitting element; and/or the non-flowing water parameter comprises at least one of color, brightness, flashing frequency and breathing frequency of the first luminous element and the second luminous element.

The present application further provides a computer storage medium having computer program instructions stored thereon; which when executed by a processor implement the control method as described above.

The atmosphere lamp structure comprises at least two lamp belts and a control module, wherein the two lamp belts and the control module are arranged at different positions outside the vehicle and/or in a cabin, each lamp belt comprises a strip-shaped light guide, a first light-emitting piece and a second light-emitting piece, and the first light-emitting piece and the second light-emitting piece are respectively arranged at two ends of the strip-shaped light guide; the control template is used for controlling the first light-emitting component and the second light-emitting component to work according to the vehicle state information. The control method comprises the following steps: acquiring vehicle state information; determining a target lamp strip to be operated in the at least two lamp strips and working parameters of the target lamp strip according to the vehicle state information; and controlling the first light-emitting piece and the second light-emitting piece in the target lamp strip to work according to the working parameters so as to prompt the vehicle state information. The atmosphere lamp of this application has realized the effect in lamp area through the luminescent part at bar light guide and both ends, simple structure, with low costs to can be used for instructing vehicle state information, improve driving safety.

Drawings

Fig. 1 is a schematic view of a vehicle atmosphere lamp structure shown in a first embodiment.

Fig. 2 is a schematic view of a light strip shown in the first embodiment.

Fig. 3 is a schematic flow chart of a control method of an atmosphere lamp structure according to a second embodiment.

Detailed Description

To further clarify the technical measures and effects taken by the present application to achieve the intended purpose, the following detailed description of preferred embodiments, methods, steps, structures, features and effects according to the present application will be made with reference to the accompanying drawings. The following detailed description is not to be taken in a limiting sense, and the terminology used herein and the accompanying drawings are for the purpose of describing particular embodiments only and are not intended to be limiting of the application.

First embodiment

Fig. 1 is a schematic view of a vehicle atmosphere lamp structure shown in a first embodiment. As shown in fig. 1, the present application provides an ambience light structure of a vehicle, including a control module and at least two light strips arranged at different locations outside the vehicle and/or in a cabin. Preferably, the at least two light strips comprise a light strip located in the instrument area in the cabin and outside each door, the light strip arranged in the cabin is a first light strip 10, and the light strip arranged outside each door is a second light strip 20. The lamp belts are arranged at different positions outside the vehicle and/or in the cockpit, the function of prompting a driver, passengers, pedestrians or other vehicles can be achieved, the lamp belts are arranged outside the vehicle and in the cockpit simultaneously, and the function of synchronously reminding the driver and the pedestrians or other vehicles can be achieved.

Optionally, the lengths of the light strips at different positions outside the vehicle and/or inside the cabin are equal or unequal, so that the installation and use requirements of vehicles with different sizes and models can be met. The positions in the cockpit comprise the interior of a vehicle door, the position of an instrument panel, the periphery of a ceiling in the vehicle and the like, so that the installation position can be flexibly designed according to different vehicle types and user habits. Preferably, the length of the light strip located in the dashboard area in the cabin is not equal to the length of the light strip located outside each vehicle door, that is, the length between the first light strip 10 and the second light strip 20 is not equal, so that the requirements of installation and reminding at different positions of the vehicle can be met.

Fig. 2 is a schematic view of a light strip shown in the first embodiment. As shown in fig. 2, the light strip includes a strip-shaped light guide 2, a first light emitting element 11 and a second light emitting element 12, where the first light emitting element 11 and the second light emitting element 12 are respectively disposed at two ends of the strip-shaped light guide 2. The first light emitting component 11 and the second light emitting component 12 may include electronic components such as a light emitting body, a PCB, a timer, a diode, a resistor, etc., and a connector housing, and the light emitting body may be an LED lamp. The PCB board in the first light-emitting component 11 and the second light-emitting component 12 is connected with the connector through the lead wire, the connector is 3PIN and comprises a positive electrode, a negative electrode and an LIN interface, color and brightness signals are input through the LIN interface to change the functions of color, brightness and the like, and the first light-emitting component 11 and the second light-emitting component 12 are controlled. The strip-shaped light guide 2 is of a light guide structure, can conduct light emitted by the first light emitting piece 11 and the second light emitting piece 12 to form a light emitting effect of a strip, so that the strip effect can be realized without a plurality of light emitting bodies, the cost is effectively reduced, and the installation is simple.

The control module is used for controlling the first light-emitting component 11 and the second light-emitting component 12 to work according to the vehicle state information. During actual implementation, vehicle state information is transmitted to the control module through a hard wire in a CAN signal mode, the control module converts corresponding signals into LIN signals according to the vehicle state information and transmits the LIN signals to the first light-emitting part 11 and the second light-emitting part 12, and the first light-emitting part 11 and the second light-emitting part 12 work according to the corresponding LIN signals, so that linkage of an atmosphere lamp effect and the vehicle state information is achieved, the function of prompting passengers is achieved, and meanwhile the atmosphere of the vehicle CAN be rendered. In the present embodiment, the LIN signal may be used to control at least one of the color, brightness, water flow rate, water flow duration, flashing frequency, and breathing frequency of the first and second light emitting members 11 and 12, so that the indicating function of the vehicle state information may be enriched.

The atmosphere lamp structure of the vehicle comprises at least two lamp belts and a control module, wherein the two lamp belts and the control module are arranged at different positions outside the vehicle and/or in a cabin, each lamp belt comprises a strip-shaped light guide, a first light-emitting piece and a second light-emitting piece, and the first light-emitting piece and the second light-emitting piece are respectively arranged at two ends of the strip-shaped light guide; the control template is used for controlling the first light-emitting component and the second light-emitting component to work according to the vehicle state information. The atmosphere lamp of this application has realized the effect in lamp area through the luminescent part at bar light guide and both ends, simple structure, with low costs to can be used for instructing vehicle state information, improve driving safety.

Second embodiment

Fig. 3 is a schematic flow chart of a control method of an atmosphere lamp structure according to a second embodiment. As shown in fig. 3, the present application also provides a control method based on the atmosphere lamp structure of the vehicle according to the first embodiment, the control method comprising the steps of:

at step 310, vehicle state information is obtained.

Optionally, the vehicle state information includes at least one of vehicle door opening information, starting information, steering information, backing information, acceleration information, and rear vehicle coming information. The door opening information, the starting information, the steering information, the acceleration information and the like of the vehicle can be acquired through the sensor, and the rear barrier information and the like in the rear vehicle information and the backing information can be acquired through the radar, the camera and the like.

And step 320, determining a target lamp strip to be operated in the at least two lamp strips and working parameters of the target lamp strip according to the vehicle state information.

Optionally, determining, according to the vehicle state information, a target light band to be operated in the at least two light bands and operating parameters of the target light band, where the determining includes at least one of:

when the vehicle state information is preset state information, determining at least two target lamp belts, and determining working parameters of the at least two target lamp belts as running parameters;

and when the vehicle state information is not the preset state information, determining at least one target lamp strip, and determining that the working parameters of the at least one target lamp strip are non-running parameters.

The preset state information is specified state information in the vehicle state information, for example, the preset state information is vehicle door opening information, acceleration information and starting information, and the state information except the vehicle door opening information, the acceleration information and the starting information in the vehicle state information is not the preset state information. For different vehicle state information, the target lamp belts with different quantities can be controlled to work in different modes, including working in a running water change mode and working in a non-running water change mode, so that the prompt information can be more easily understood, and the quantity of the vehicle state information capable of being prompted can be enriched. During actual implementation, when the vehicle state information contains preset state information and non-preset state information, different target lamp belts can be controlled to work in respective modes, so that the mode of the existing running water change and the mode of the non-running water change are achieved, and the function of combining and prompting different state information is met.

The flowing water parameter comprises at least one of color, brightness, flowing water change rate and flowing water duration of the first luminous element and the second luminous element. The flowing water parameters are used for controlling the target lamp strip to change flowing water, and the flowing water change comprises synchronous flowing water change and sequential flowing water change. When the target lamp strip changes in running water, the first light-emitting part is lightened in the first preset color, the brightness value changes gradually from the first preset brightness to the second preset brightness, the first light-emitting part is lightened in the second preset color, and the brightness value changes gradually from the second preset brightness to the first preset brightness, so that circulation is realized, and a running water change effect is formed under the conduction of the strip-shaped light guide. The running water change synchronization means that all the target lamp belts synchronously change running water, that is, as shown in fig. 1, the first lamp belt 10 and the second lamp belt 20 respectively complete a running water effect, and the first lamp belt 10 and the second lamp belt 20 are synchronously operated; the sequential running water change means that the target lamp strips sequentially run water, and a running water change effect is jointly completed by all the target lamp strips, that is, after the first lamp strip 10 completes running water, the second lamp strip 20 starts running water again, and by such circulation, the running water effects of the first lamp strip 10 and the second lamp strip 20 form a complete running water effect.

Optionally, when the lengths of the at least two target light strips are not equal, determining that the operating parameters of the at least two target light strips are running water parameters, including at least one of:

determining a first flow parameter for synchronizing the flow change of each target lamp strip according to the lengths of at least two target lamp strips and the vehicle state information;

and determining a second running water parameter which enables the target lamp belts to sequentially run water to change according to the lengths of the at least two target lamp belts and the vehicle state information.

When the lengths of the at least two target lamp belts are unequal, determining running water parameters according to the lengths of the at least two target lamp belts and the vehicle state information, wherein the vehicle state information is used for determining at least one of color, brightness, running water change rate and running water duration of the first luminous part and the second luminous part, and the lengths of the target lamp belts are used for controlling synchronization of the running water change rate between different target lamp belts, including synchronization of the color change rate and the brightness change rate. For example, when the vehicle is accelerated, the lamp strips outside the instrument panel and the vehicle door are both target lamp strips and adopt a running water synchronization mode, the color and brightness, the running water change rate and the running water duration of the first light-emitting part and the second light-emitting part are determined according to the interval of the acceleration value, then the running water change rate is adjusted according to the lengths of different target lamp strips to obtain the running water change rate of each target lamp strip, preferably the running water change rate of each other target lamp strip is adjusted by taking the length of the target lamp strip on the instrument panel as a reference, so as to achieve the effect of enabling each target lamp strip to run water synchronously, for example, the length of the target lamp strip on the instrument panel is a, the length of the target lamp strip on each vehicle door is b, the running water change rate of the target lamp strip on the instrument panel is determined to be V according to the interval of the acceleration value, and the running water change rate of each vehicle door is V (a/b), therefore, each target lamp strip can finish one-time running water change within the same time length, synchronization is achieved, and running water change is not carried out when the running water duration time is over. Or when the vehicle is started, the lamp belts outside the vehicle door are all the target lamp belts and adopt a mode of sequential running water change, the colors and the brightness of the first light-emitting part and the second light-emitting part, the running water change rate and the running water duration can be preset values, and the running water change rate is adjusted according to the lengths of different target lamp belts to obtain the running water change rate of each target lamp belt, so that each target lamp belt can finish one running water change within the same duration, and accordingly, each target lamp belt can be controlled to sequentially perform running water change at the same time interval, for example, each target lamp belt finishes one running water within 2s, and then the first target lamp belt, the second target lamp belt, the third target lamp belt and the fourth target lamp belt start to light at 0s, 2s, 4s and 6s in sequence, and 8s finish one integral running water effect.

The non-flowing water parameter comprises at least one of color, brightness, flashing frequency and breathing frequency of the first luminous element and the second luminous element. The non-flowing water parameter is used for controlling the target light strip to change in a non-flowing water mode, for example, the first light emitting piece and the second light emitting piece are synchronously lighted with the same color and brightness to form the light strip, and meanwhile, the first light emitting piece and the second light emitting piece can be controlled to flicker or breathe at the same frequency to form a non-flowing water effect.

Optionally, determining the operating parameter of the at least one target light strip as a non-flowing parameter includes at least one of:

when the number of the target lamp belts is one, determining a first non-flowing parameter of the target lamp belt according to the vehicle state information;

and when the number of the target lamp belts is more than one, determining second non-flowing parameters enabling non-flowing combinations to be formed among the target lamp belts according to the number of the target lamp belts and the vehicle state information.

The non-flowing water combination refers to the combination between the non-flowing water effects of different target lamp belts, for example, when backing a car, the target lamp belt located on an instrument panel breathes, the target lamp belt located outside a car door flickers, and the breathing and flickering frequency is changed along with the change of the distance between the car and an obstacle, so that a combination effect is formed, a driver, pedestrians and surrounding vehicles can be synchronously prompted, in addition, the driver can be prevented from being influenced by milder prompting in a breathing change mode, the pedestrians and the surrounding vehicles are prompted in a flickering mode, and a better warning effect is achieved.

Optionally, at least one of the at least two target light belts is in the cabin, and the driver, the pedestrian and the surrounding vehicle can be synchronously prompted about the same vehicle state or different vehicle states.

And 330, controlling the first light-emitting piece and the second light-emitting piece in the target lamp strip to work according to the working parameters so as to prompt the vehicle state information.

After the target lamp band and the corresponding working parameters are determined, the first light-emitting part and the second light-emitting part in the target lamp band are controlled to work according to the working parameters, and therefore the function of prompting vehicle state information can be achieved.

The present application further provides a computer storage medium having computer program instructions stored thereon; which when executed by a processor implement the control method as described above.

The control method of the application comprises the following steps: acquiring vehicle state information; determining a target lamp strip to be operated in the at least two lamp strips and working parameters of the target lamp strip according to the vehicle state information; and controlling the first light-emitting piece and the second light-emitting piece in the target lamp strip to work according to the working parameters so as to prompt the vehicle state information. The atmosphere lamp of this application has realized the effect in lamp area through the luminescent part at bar light guide and both ends, simple structure, with low costs to can be used for instructing vehicle state information, improve driving safety.

All the above embodiments are only specific embodiments of the present application for illustrating the technical solutions of the present application, but not limiting the same, the scope of the present application is not limited thereto, and any person skilled in the art can make equivalent modifications or substitutions to the technical solutions described in the above embodiments within the scope defined by the claims of the present application.

Claims (10)

1. An atmosphere lamp structure of a vehicle, comprising:

the lamp strips comprise a strip-shaped light guide, a first light-emitting piece and a second light-emitting piece, and the first light-emitting piece and the second light-emitting piece are respectively arranged at two ends of the strip-shaped light guide;

and the control module is used for controlling the first light-emitting piece and the second light-emitting piece to work according to the vehicle state information.

2. The ambience lamp structure according to claim 1, wherein the lengths between the lamp strips at different positions outside the vehicle and/or in the cabin are equal or unequal.

3. The ambience lamp structure of claim 1, wherein the at least two light strips comprise a light strip located in the instrument region in the cabin and outside the doors, the length of the light strip located in the instrument panel region in the cabin being unequal to the length of the light strip located outside the doors.

4. A control method applied to the atmosphere lamp structure of the vehicle according to any one of claims 1 to 3, characterized by comprising the steps of:

acquiring vehicle state information;

determining a target lamp strip to be operated in the at least two lamp strips and working parameters of the target lamp strip according to the vehicle state information;

and controlling the first light-emitting piece and the second light-emitting piece in the target lamp strip to work according to the working parameters so as to prompt the vehicle state information.

5. The control method according to claim 4, wherein the determining of the target light strip to be operated and the operation parameters of the target light strip according to the vehicle status information includes at least one of:

when the vehicle state information is preset state information, determining at least two target lamp belts, and determining working parameters of the at least two target lamp belts as running parameters;

and when the vehicle state information is not the preset state information, determining at least one target lamp strip, and determining that the working parameters of the at least one target lamp strip are non-running parameters.

6. The method according to claim 5, wherein the lengths of the at least two target light strips are not equal, and the determining that the operating parameter of the at least two target light strips is a running water parameter comprises at least one of:

determining a first flow parameter for synchronizing the flow change of each target lamp strip according to the lengths of the at least two target lamp strips and the vehicle state information;

and determining a second running water parameter for enabling each target lamp strip to sequentially change the running water according to the lengths of the at least two target lamp strips and the vehicle state information.

7. The control method of claim 6, wherein at least one of the at least two target light strips is within a cabin.

8. The control method according to claim 5, wherein the determining that the operating parameter of the at least one target light strip is a non-flowing water parameter comprises at least one of:

when the number of the target lamp belts is one, determining a first non-flowing parameter of the target lamp belt according to the vehicle state information;

and when the number of the target lamp belts is more than one, determining second non-flowing parameters enabling non-flowing combinations to be formed among the target lamp belts according to the number of the target lamp belts and the vehicle state information.

9. The control method of claim 5, wherein the water flow parameter comprises at least one of a color, a brightness, a water flow rate, a water flow duration of the first and second light emitting elements; and/or the non-flowing water parameter comprises at least one of color, brightness, flashing frequency and breathing frequency of the first luminous element and the second luminous element.

10. A computer storage medium having computer program instructions stored thereon; the computer program instructions, when executed by a processor, implement the control method of any one of claims 4 to 9.

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