CN112888114B

CN112888114B - Bluetooth intelligent car lamp system and control method thereof

Info

Publication number: CN112888114B
Application number: CN202110488810.6A
Authority: CN
Inventors: 徐宝洲
Original assignee: Zhongshan Eaststar Optoelectronics Technology Co ltd
Current assignee: Zhongshan Eaststar Optoelectronics Technology Co ltd
Priority date: 2021-05-06
Filing date: 2021-05-06
Publication date: 2022-06-28
Anticipated expiration: 2041-05-06
Also published as: CN114980441B; CN114980441A; CN112888114A

Abstract

The invention provides a Bluetooth intelligent car lamp system and a control method thereof, wherein the control method comprises the following steps: the car light system pairs with mobile terminal through the bluetooth and is connected, is provided with the procedure by mobile terminal and makes the control command that adjusts luminance to car light system, wherein: presetting a plurality of light mode files, and setting indexes in the light mode files to enable the light mode files to be called by the indexes, wherein the indexes at least comprise position coordinates, time and weather keywords; the light mode files are arranged on the mobile terminal or arranged at the cloud end and can be obtained by the mobile terminal from the cloud end; the control of the car light system comprises a default mode, a scene mode, an adaptive mode and a custom mode. The Bluetooth intelligent vehicle lamp system comprises a vehicle lamp system and a mobile terminal loaded with a program for matching and controlling the vehicle lamp system, wherein the vehicle lamp system comprises a controller and a vehicle lamp connected with the controller, and the controller is provided with a Bluetooth communication module; the vehicle lamp system and the mobile terminal execute the control method.

Description

Bluetooth intelligent car lamp system and control method thereof

Technical Field

The invention relates to a Bluetooth intelligent car lamp system and a control method thereof.

Background

The automobile lighting system generally has an automatic gear and a manual control gear, and when a user selects an automatic gear 'AUTO', the lighting system can automatically adjust light according to environment sensing data, so that the driving operation of the user is facilitated. At present, car light automatically regulated's function commonly used is to switch on and off lamp control or brightness control according to the light darkness, the function is comparatively single, the user can only switch according to the gear of car steering wheel action bars simultaneously, like this not only can't realize abundant light control effect, can't satisfy user's visual demand, individual character customization demand and special service environment demand, and even if need establish more abundant light control effect in addition for lighting system, car steering wheel action bars also need redesign, it is very troublesome to have increased design cost and user operation, influence driving safety. In addition, different areas, different weather environment need different lighting effects, the switching of scene modes such as rain and fog, sunny days and the like is lacked in the existing lighting system, the user needs to adjust the lighting according to the judgment of the current environment, the lighting system is not intelligent enough, and the operation experience degree of the user is low.

Disclosure of Invention

In order to overcome the problems in the prior art, the invention provides a Bluetooth intelligent car lamp system and a control method thereof, which adopt the following specific technical means:

The invention discloses a control method of a Bluetooth intelligent car lamp system, which comprises the following steps:

the car light system is connected with the mobile terminal in a pairing mode through the Bluetooth, and a dimming control instruction is made to the car light system through a program arranged on the mobile terminal, wherein:

presetting a plurality of light mode files, and setting indexes in the light mode files to enable the light mode files to be indexed and called, wherein the indexes at least comprise position coordinates, time and weather keywords; the light mode files are arranged on the mobile terminal or arranged on the cloud and can be acquired by the mobile terminal;

the control of the car light system comprises a default mode, a scene mode, a self-adaptive mode and a self-defined mode;

the default mode is: making a dimming control instruction for the car lamp system by using a preset default mode file, and providing an option of a default mode by using an operation interface of the mobile terminal;

the scene mode is: a plurality of scene mode files are preset, an operation interface of the mobile terminal provides options corresponding to the scene mode files, and dimming control instructions are made for the car lamp system according to the options clicked and selected by a user; the scene mode files comprise system presetting or are stored in a user-defined mode;

The adaptive mode is: the mobile terminal acquires the current position coordinates and weather information in real time, extracts weather keywords from the weather information, and indexes corresponding light mode files according to the position coordinates, time and the weather keywords so as to make a dimming control instruction for a vehicle lamp system;

the user-defined mode is: the operation of a user on the options is stored as a user-defined mode file in real time and generates a corresponding dimming control instruction, so that the synchronization of the car lamp system and the user operation is realized.

In one or more embodiments of the present invention, when the mobile terminal is connected to the car light system, the current car light control parameter is obtained and used as the setting basis of the custom mode.

In one or more embodiments of the present invention, after the user sets the car light to the default mode, the scene mode or the adaptive mode, the user enters the custom mode by performing any dimming operation on the basis.

In one or more embodiments of the present invention, a light sensor for sensing the darkness of ambient light or/and a humidity sensor for sensing the rain and fog conditions are disposed on the vehicle lamp system to provide real-time sensing parameters for the adaptive mode; and the mobile terminal performs self-adaptive adjustment on the car light system according to the real-time sensing parameters in the current operation mode.

In one or more embodiments of the present invention, the vehicle lamp system is further provided with a temperature sensor for sensing a temperature of the vehicle lamp, and the mobile terminal reduces a brightness of the vehicle lamp to make a cooling instruction when a real-time temperature of the vehicle lamp is higher than a threshold value.

In one or more embodiments of the present invention, the operation interface of the mobile terminal at least provides a color temperature setting option and a brightness setting option in the self-defined mode, wherein the color temperature setting option includes a dimming strip or a dimming ring for stepless adjustment of color temperature, a white light key for switching to the white light lamp, a yellow light key for switching to the yellow light lamp, and a white-yellow light key for switching to the white-yellow light lamp.

In one or more embodiments of the present invention, indication scales for prompting the current dimming position are disposed beside the dimming strip or the dimming ring, the indication scales are sequentially arranged from a lower limit to an upper limit, and all the indication scales between the lower limit and the current dimming position enter an activated state, where the activated state is a lighting state or a color different from the inactivated state.

In one or more embodiments of the present invention, the dimming control command is saved as a custom mode file every N seconds in the custom mode and generated.

In one or more embodiments of the present invention, the bluetooth name of the car light system starts with a preset identification letter, and the mobile terminal automatically discards the bluetooth device to be paired that does not start with the preset identification letter when searching.

In one or more embodiments of the present invention, the mobile terminal sets a password for the successfully paired car light system, and the car light system records the password and requires password verification in the subsequent pairing process.

In one or more embodiments of the present invention, the password reset is implemented for the vehicular lamp system by turning on and off the lamp K times within M seconds.

The invention discloses a Bluetooth intelligent car lamp system, which comprises a car lamp system and a mobile terminal loaded with a program for matching and controlling the car lamp system, wherein the car lamp system comprises a controller and a car lamp connected with the controller, and the controller is provided with a Bluetooth communication module; the vehicle lamp system and the mobile terminal execute the control method of the Bluetooth intelligent vehicle lamp system.

The invention has the beneficial effects that: the car lamp system is set and adjusted by utilizing mobile terminals such as a smart phone, the operation is visual and convenient, a more colorful light effect can be realized, and the visual requirement, the personalized customization requirement and the special use environment requirement of a user are met. Meanwhile, a plurality of light modes including a default mode, a scene mode, a self-adaptive mode and a self-defined mode are set for a user to select, for example, after the user selects the light mode, corresponding light control parameters are directly applied, the light effect cannot be changed at will except for the self-adaptive mode, and the stability of the lighting source required by driving is ensured; a plurality of light control schemes are provided in the scene mode or the light control parameters set in the user-defined mode can be stored as a new scene light control scheme, so that the light control scheme can be used for dealing with various scenes such as rain fog and sunny days, and the light can be adjusted by avoiding the user from thinking about judging the current environment; the current position coordinate and the weather information are acquired in the self-adaptive mode in real time, the weather keywords are extracted from the weather information, and the corresponding light mode files are called by the position coordinate and the weather keyword index, so that the light dimming control instruction intelligence is made for the vehicle lamp system, the real intelligent control is realized, the optimal light scheme is intelligently adapted for a user, and the user experience is good.

Drawings

Fig. 1 is a main function operation interface of the mobile terminal program of the present invention.

Fig. 2 is a scene function operation interface of the mobile terminal program according to the present invention.

Fig. 3 is a setting menu interface of the mobile terminal program of the present invention.

Fig. 4 is a schematic block diagram of the bluetooth intelligent vehicle lamp system of the present invention.

Detailed Description

The scheme of the application is further described as follows:

the control method of the Bluetooth intelligent vehicle lamp system comprises the following steps:

presetting a plurality of light mode files, and setting indexes in the light mode files to enable the light mode files to be indexed and called, wherein the indexes at least comprise position coordinates, time and weather keywords; the light pattern files are arranged on the mobile terminal or arranged on the cloud side and can be acquired by the mobile terminal from the cloud side, the light pattern files comprise preset illumination parameters such as color temperature and brightness and can also comprise a delay or fault-tolerant instruction for switching the light and dark environment, and the phenomenon that the visual field of a user is influenced due to the fact that the frequency of a vehicle lamp is switched on and off due to light and dark changes when a vehicle passes under a tree or under the shadow of a building is avoided; the light pattern file may also contain a switch command, a color temperature change command or a brightness change command in combination with time, for example: before the vehicle lamp is turned off due to the change of the environment from dark to bright, the vehicle lamp is set to be gradually darkened and finally turned off within a certain time (3-5 seconds), and the vehicle lamp is also gradually lightened from the current state (non-off state) during the change of the brightness to the dark;

the adaptive mode is: the mobile terminal acquires the current position coordinate and weather information in real time, extracts weather keywords from the weather information, and indexes the weather keywords by the position coordinate, time and the weather keywords to call a corresponding light mode file, so that a light modulation control instruction is made for a vehicle lamp system; for example, local sunshine duration (namely sunrise and sunset time) and time section are obtained according to longitude and latitude information and time information of the vehicle location, so that light pattern files with corresponding index contents are matched from the light pattern files, a plurality of files are available, further accurate selection is carried out through weather keywords, and an optimal scheme suitable for the current environment is selected; the manufacturer can realize more car lamp functions only by continuously enriching or improving the light mode files in the database, and the car lamp functions are more easily matched with the use habits and areas of users;

The user-defined mode is: the operation of the user on the options is stored in real time as a user-defined mode file and generates a corresponding dimming control instruction, so that the synchronization of the vehicle lamp system and the user operation is realized.

Preferably, the mobile terminal acquires the current vehicle lamp control parameter when being connected with the vehicle lamp system, and the current vehicle lamp control parameter is used as the setting basis of the custom mode. After a user sets the vehicle lamp to be in a default mode, a scene mode or an adaptive mode, any dimming operation is carried out on the basis, and then the vehicle lamp enters a self-defined mode.

Referring to fig. 1, the key position setting of the main function operation interface specifically includes: a return key 1, a mode interface switching key 2, a car light connection state identifier 3, a weather information display position 4, a dimming ring 5, a brightness adjusting strip 6, a white light key position 7, a white and yellow light key position 8, a yellow light key position 9, a setting menu call-out key 10, a scene editing storage key 11, a daytime running light switch key 12 and an automatic light control key 13. The mode interface switch key 2 comprises two alternative activation options of Home and sequence, wherein Home is used for returning to the main function operation interface shown in the attached drawing 1, and sequence is used for returning to the scene function operation interface shown in the attached drawing 2; the car light connection state mark 3 is used for indicating the connection state of the car headlight, and when the connection condition is not matched, an X number is marked on the lamp mark on the corresponding side; the dimming ring 5 is used for carrying out stepless regulation on the color temperature of the car lamp, a knob type indicating position 5-1 is arranged in the dimming ring 5, an indicating scale 5-2 for prompting the current dimming position is arranged outside the dimming ring 5, the indicating scale 5-2 is sequentially distributed from the lower limit position to the upper limit position (namely clockwise direction), and all indicating scales between the lower limit position and the current dimming position enter an activated state, wherein the activated state is a lighting state or a color which is switched to be different from the non-activated state; the brightness adjusting strip 6 is used for carrying out stepless adjustment on the brightness of the car lamp through a sliding block; the white light key 7, the white-yellow light key 8 and the yellow light key 9 are respectively used for selecting a selected car light color, for example, the white light key 7 is switched to a white light when the white light key 7 is clicked and activated, the white light key 7 indicates a lighting state, and the white-yellow light key 8 and the yellow light key 9 indicate a lighting-out state; after the light adjustment setting is carried out through the key positions, a scene mode file can be generated by clicking the scene editing and storing key 11 for calling in a scene mode; the automatic light control key 13 is used for activating the self-adaptive mode, and the mobile terminal makes a dimming control instruction for the car light system according to the position coordinate and the weather information acquired in real time. Referring to fig. 2, the sequence option of the click mode interface switching key 2 enters a scene function operation interface, the scene mode keys 13 corresponding to the scene mode files are listed in the interface, and the user can select and activate the corresponding scene modes as required, so that the user can deal with various scenes such as rain fog and sunny days, and the user is prevented from thinking about the judgment of the current environment to adjust the light.

As a preferred implementation, a light sensor used for sensing the ambient light darkness and a humidity sensor used for sensing the rain and fog conditions are arranged on the car light system, real-time sensing parameters are provided for the self-adaptive mode, and the mobile terminal performs self-adaptive adjustment on the car light system according to the real-time sensing parameters in the current running mode. The automobile lamp system is further provided with a temperature sensor used for sensing the temperature of the automobile lamp, and the mobile terminal reduces the brightness of the automobile lamp to make a cooling instruction when the real-time temperature of the automobile lamp is higher than a threshold value.

As a preferred implementation, the dimming control command is saved as a custom mode file every 2 seconds in the custom mode and is generated.

In order to facilitate the user to quickly and accurately carry out Bluetooth pairing, the Bluetooth name of the car lamp system starts with a preset identification letter, and the mobile terminal automatically discards the Bluetooth equipment to be paired which does not start with the preset identification letter during searching.

In order to avoid the wrong connection of others, the mobile terminal sets a password for the successfully paired car lamp system, and the car lamp system records the password and requires password verification in the subsequent pairing process. In consideration of the situation that the user forgets the password, a password resetting mechanism is implemented in the vehicle lamp system, for example, the password resetting is implemented by turning on and off the lamp 20 times in 5 seconds. Referring to fig. 3, after pairing with the car light system is successful, the user clicks the setting menu call-out key 10 to call out the menu, selects password modification to set, and sends the password to the car light system for recording after setting; the user quickly switches the light 20 times in 5 seconds to reset the password to "666666".

Referring to fig. 4, the bluetooth intelligent vehicle lamp system comprises a vehicle lamp system and a mobile terminal loaded with a program for matching and controlling the vehicle lamp system, wherein the vehicle lamp system comprises a controller and a vehicle lamp connected with the controller, and the controller is provided with a bluetooth communication module; the vehicle lamp system and the mobile terminal execute the control method of the Bluetooth intelligent vehicle lamp system.

The invention utilizes the mobile terminals such as the smart phone and the like to set and adjust the car light system, has intuitive and convenient operation, can realize more colorful light effect, and meets the visual requirement, the individual customization requirement and the special use environment requirement of the user. Meanwhile, various light modes including a default mode, a scene mode, a self-adaptive mode and a self-defined mode are set for a user to select, for example, after the user selects the light mode, corresponding light control parameters are directly applied, the light effect cannot be changed at will except for the self-adaptive mode, and the stability of the lighting source required by driving is ensured; a plurality of light control schemes are provided in the scene mode or light control parameters set in the user-defined mode can be stored as a new scene light control scheme, so that the light can be adjusted by responding to various scenes such as rain, fog and sunny days without the need of thinking of a user to judge the current environment; the current position coordinates and the weather information are acquired in the self-adaptive mode in real time, the weather keywords are extracted from the weather information, and the corresponding light mode files are called by the position coordinates and the weather keywords in an indexing mode, so that the light dimming control instruction intelligence is made for the vehicle lamp system, the real intelligent control is realized, the optimal light scheme is intelligently adapted for a user, and the user experience degree is good.

The above-described preferred embodiments should be considered as examples of the embodiments of the present application, and any technical deductions, substitutions, improvements and the like, which are similar, approximate or based on the present application, should be considered as the protection scope of the present patent.

Claims

1. A control method of a Bluetooth intelligent car lamp system is characterized by comprising the following steps:

the car light system pairs with mobile terminal through the bluetooth and is connected, is provided with the procedure by mobile terminal and makes the control command that adjusts luminance to car light system, wherein:

presetting a plurality of light mode files, and setting indexes in the light mode files to enable the light mode files to be called by the indexes, wherein the indexes at least comprise position coordinates, time and weather keywords; the light mode files are arranged on the mobile terminal or arranged at the cloud end and can be obtained by the mobile terminal from the cloud end;

the scene mode is: a plurality of scene mode files are preset, options corresponding to the scene mode files are provided by an operation interface of the mobile terminal, and dimming control instructions are made for the car light system according to the corresponding options clicked and selected by a user; the scene mode files comprise system presetting or are stored in a user-defined mode;

the user-defined mode is: the method comprises the following steps that a plurality of options for adjusting the light effect are provided by an operation interface of the mobile terminal, the operation of a user on the options is stored as a user-defined mode file in real time, and a corresponding dimming control instruction is generated, so that the synchronization of a vehicle lamp system and the operation of the user is realized; the method comprises the steps that an operation interface of the mobile terminal at least provides a color temperature setting option and a brightness setting option in a self-defined mode, wherein the color temperature setting option comprises a dimming strip or a dimming ring for stepless adjustment of color temperature, a white light key position for switching to a white light lamp, a yellow light key position for switching to the yellow light lamp and a white-yellow light key position for switching to the white-yellow light lamp; after a user sets a vehicle lamp to be in a default mode, a scene mode or an adaptive mode, any dimming operation is carried out on the basis, and then the vehicle lamp enters a self-defined mode;

the side of the dimming strip or the dimming ring is provided with indication scales for prompting the current dimming position, the indication scales are sequentially distributed from a lower limit to an upper limit, and all the indication scales from the lower limit to the current dimming position enter an activated state, and the activated state is a lighting state or a color different from the inactivated state by switching.

2. The control method of the Bluetooth intelligent vehicle lamp system according to claim 1, characterized in that: and when the mobile terminal is connected with the car light system, the current car light control parameters are obtained and are used as the setting basis of the user-defined mode.

3. The control method of the Bluetooth intelligent vehicle lamp system according to claim 1, characterized in that: the vehicle lamp system is provided with a light sensor for sensing the ambient light darkness or/and a humidity sensor for sensing the rain and fog conditions, and provides real-time sensing parameters for the self-adaptive mode; and the mobile terminal performs self-adaptive adjustment on the car light system according to the real-time sensing parameters in the current operation mode.

4. The control method of the Bluetooth intelligent vehicle lamp system according to claim 3, characterized in that: the automobile lamp system is further provided with a temperature sensor used for sensing the temperature of the automobile lamp, and the mobile terminal reduces the brightness of the automobile lamp to make a cooling instruction when the real-time temperature of the automobile lamp is higher than a threshold value.

5. The control method of the Bluetooth intelligent car lamp system according to any one of claims 1-4, characterized in that: and saving the data as a custom mode file every N seconds in a custom mode and generating a corresponding dimming control instruction.

6. The control method of the Bluetooth intelligent car lamp system according to any one of claims 1-4, characterized in that: the Bluetooth name of the car lamp system starts with a preset identification letter, and the mobile terminal automatically discards the Bluetooth equipment to be paired which does not start with the preset identification letter during searching.

7. The control method of the Bluetooth intelligent car lamp system according to any one of claims 1-4, characterized in that: and the mobile terminal sets a password for the successfully paired car lamp system, and the car lamp system records the password and requires password verification in the subsequent pairing process.

8. The control method of the Bluetooth intelligent vehicle lamp system according to claim 7, characterized in that: and switching on and off the lamp for K times within M seconds for the vehicle lamp system to realize password resetting.

9. The utility model provides a bluetooth intelligence car light system which characterized in that: the vehicle lamp system comprises a controller and a vehicle lamp connected with the controller, wherein the controller is provided with a Bluetooth communication module; the vehicle lamp system and the mobile terminal execute the control method of the Bluetooth intelligent vehicle lamp system according to any one of claims 1 to 8.