CN213442404U - Novel control system for automobile electro-liquid crystal dimming glass - Google Patents

Abstract

The utility model relates to a novel electrically-induced liquid crystal dimming glass control system of car, accuse board and multimedia system in glass controller, car, accuse board and multimedia system all install and the car in glass controller, car on, through CAN bus communication connection between the accuse board in glass controller and the car, through CAN bus communication connection between accuse board and the multimedia system in the car, back window glass, skylight glass and door glass on the car all with the glass controller is connected. This application convenient to use person operates for car electroluminescent light control glass is safer, reliable, energy-conserving, reaches the effect that promotes user's use and experiences.

Description

Novel control system for automobile electro-liquid crystal dimming glass

Technical Field

The application relates to the field of electrochromic glass, in particular to a novel control system for automobile electrochromic liquid crystal dimming glass.

Background

Electroluminescent glazings are typically composed of a common glass and several layers of thin film materials deposited on the glass. The layers are respectively a transparent conductive layer (TC), an electrochromic layer (EC), an ion conductor layer (IC), a counter electrode layer (CE) or an ion storage layer and another transparent conductive layer (TC) in sequence. Wherein the EC layer is the core part of the electro-switchable glass. The TC layer serves as an extraction electrode, and the CE layer is used for providing and storing ions required by color change. The IC layer is used for conducting ions in the color changing process, and no electrons are conducted, otherwise, self-discharge can be caused to cause self color changing. Aiming at the safety and technical requirements in the automobile field, the light modulation of the electro-liquid crystal light modulation glass needs an independent controller.

Aiming at the related technologies, the inventor thinks that the existing electro-dimming glass is only installed on an automobile or is modified, and the operation of regulating and controlling the electro-dimming glass by a user is complex, so that the user experience is poor.

SUMMERY OF THE UTILITY MODEL

In order to improve that the operation of user regulation and control electroluminescent light-adjusting glass is comparatively complicated for user experience is relatively poor, this application provides a novel car electroluminescent liquid crystal light-adjusting glass control system.

The application provides a novel car is electroluminescent liquid crystal light control glass control system adopts following technical scheme:

the utility model provides a novel electrically-induced liquid crystal dimming glass control system of car, accuse board and multimedia system in glass controller, car, accuse board and multimedia system all install and the car in glass controller, car, through CAN bus communication connection between the accuse board in glass controller and the car, through CAN bus communication connection between accuse board and the multimedia system in the car, rear window glass, skylight glass and door glass on the car all with the glass controller is connected.

Through adopting above-mentioned technical scheme, pass through CAN bus connection with inherent well accuse board and multimedia system on the car with the glass controller, realize the whole car installation of car electrogenerated dimming glass on the car, be convenient for control car electrogenerated dimming glass through the accuse board in the car, convenient to use person operates to CAN realize carrying out the interlock with other operations of car, make car electrogenerated dimming glass safer, reliable, energy-conserving, reach the effect that promotes user's use and experience.

Preferably, the multimedia system and the glass controller are in communication connection through a CAN bus.

By adopting the technical scheme, a user can directly send a control instruction to the glass controller through the multimedia system so as to control the automobile electro-dimming glass, and the operation experience of the user is effectively improved.

Preferably, the automobile central control board is connected with a power supply control board through a CAN bus, and the power supply control board is connected with the glass controller.

Through adopting above-mentioned technical scheme, the central control board of car comes through the opening and close of power supply control board control glass controller through accepting user's instruction.

Preferably, the automobile central control panel is connected with a rear windscreen wiper switch, a skylight switch and a door glass lifting switch.

By adopting the technical scheme, when a user controls the position of the electric dimming glass on the automobile to operate through the automobile central control panel, the user can also send an instruction to control the dimming of the electric dimming glass at the corresponding position like a glass controller, and multi-system linkage is realized, so that the electric dimming glass of the automobile is safer, more reliable, more energy-saving and more private.

Preferably, the automobile central control panel is connected with a detection device, and the detection device comprises a temperature sensor, an illumination intensity sensor, an infrared sensor, an ultraviolet sensor and a pressure sensor.

By adopting the technical scheme, the detection of various environmental values at the automobile is facilitated, and environmental data are provided for a user.

Preferably, the multimedia system is connected with a touch display screen and a plurality of operation buttons.

By adopting the technical scheme, a user can conveniently control the multimedia system and send instructions to the automobile central control panel and the glass controller through the multimedia system.

Preferably, the multimedia system is connected with a positioning radar for positioning the vehicle.

By adopting the technical scheme, the user can conveniently know the self vehicle positioning at any time, and the user use experience is improved.

Preferably, the multimedia system is connected with a face recognition module and a voice control module.

Through adopting above-mentioned technical scheme, face identification module effectively promotes the security of car operation, and the quick authentication identity of convenient to use person simultaneously, the setting up convenient to use person of acoustic control module controls multimedia system, promotes user's operation and experiences.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the central control board and the multimedia system which are inherent on the automobile are connected with the glass controller through the CAN bus, so that the whole automobile installation of the automobile electro-dimming glass on the automobile is realized, the automobile electro-dimming glass is convenient to control through the automobile central control board, the operation of a user is convenient, the automobile electro-dimming glass is safer, more reliable and more energy-saving, and the effect of improving the use experience of the user is achieved;

2. a user can directly send a control instruction to the glass controller through the multimedia system so as to control the automobile electro-dimming glass, and the operation experience of the user is effectively improved;

3. when a user controls the position of the electric dimming glass on the automobile to operate through the automobile central control panel, the user can also control the dimming of the electric dimming glass at the corresponding position like a glass controller sends an instruction, and multi-system linkage is realized, so that the electric dimming glass of the automobile is safer, more reliable, more energy-saving and more private.

Drawings

FIG. 1 is a system block diagram of an automotive electro-liquid crystal light control system according to an embodiment of the present application.

Description of reference numerals: 1. a glass controller; 2. a vehicle center control panel; 21. a power supply control board; 22. a rear wiper switch; 23. a skylight switch; 24. a vehicle door glass lifting switch; 3. a multimedia system; 31. a temperature sensor; 32. an illumination intensity sensor; 33. an infrared sensor; 34. an ultraviolet sensor; 35. a pressure sensor; 36. an operation button; 37. a touch display screen; 38. positioning a radar; 39. a voice control module; 391. and a face recognition module.

Detailed Description

The present application is described in further detail below with reference to fig. 1.

The embodiment of the application discloses a novel control system for automobile electro-liquid crystal dimming glass. Referring to fig. 1, a novel automobile electro-liquid crystal dimming glass control system comprises a glass controller 1, an automobile central control panel 2 and a multimedia system 3. The glass controller 1, the automobile central control panel 2 and the multimedia system 3 are all installed on an automobile, and the automobile central control panel 2 and the multimedia system 3 are all of automobile inherent configuration. Through CAN bus communication connection between glass controller 1 and the car central control board 2, through CAN bus communication connection between car central control board 2 and the multimedia system 3, help realizing the whole car installation of car electroluminescent dimming glass on the car, be convenient for control car electroluminescent dimming glass through car central control board 2, the person of being convenient for use operates for car electroluminescent dimming glass is safer, reliable and energy-conserving, reaches the effect that promotes user's use and experience. In addition, multimedia system 3 also through CAN bus communication connection between the glass controller 1, help realizing that the user directly sends control command to glass controller 1 through multimedia system 3 in order to control the electro dimming glass of car to effectively promote user's operation experience.

Referring to fig. 1, a power supply control board 21 is connected to an automobile center control board 2 through a CAN bus, and the power supply control board 21 is connected to a glass controller 1. The automobile central control board 2 sends a control signal to the power supply control board 21 according to the received instruction of the user, so that the power supply control board 21 controls the on-off of the power supply of the glass controller 1.

Referring to fig. 1, a rear wiper switch 22, a sunroof switch 23, and a door glass up-down switch 24 are connected to the vehicle center console 2. When the central control panel 2 of the automobile receives signals of the rear windscreen wiper switch 22, the skylight switch 23 and the door glass lifting switch 24, the central control panel 2 of the automobile can also send instructions to the central control panel 1 of the automobile to control the dimming of the electro-dimmer glass at the corresponding position on the automobile because the central control panel 1 of the automobile is connected with the central control panel 2 of the automobile. For example, when a user presses the door glass lifting switch 24, the electro-dimming glass on the door descends, and meanwhile, the automobile central control panel 2 controls the descending door glass to close and change color through the glass controller 1, so that multi-system linkage is realized, and the electro-dimming glass of the automobile is safer, more reliable and more energy-saving.

Referring to fig. 1, a detection device including a temperature sensor 31, an illumination intensity sensor 32, an infrared sensor 33, an ultraviolet sensor 34, and a pressure sensor 35 is connected to the vehicle center console 2. The detection device is convenient for detecting various environment values of the automobile, and provides environment data for a user. On the other hand, the control panel of the automobile is also helpful for controlling the operation of the glass controller 1 in cooperation with the temperature sensor 31, the illumination intensity sensor 32, the infrared sensor 33, the ultraviolet sensor 34 and the pressure sensor 35, and is helpful for realizing heat insulation and protecting privacy.

Referring to fig. 1, the multimedia system 3 is connected to a touch display screen 37 and a plurality of operation buttons 36, so that a user can conveniently operate the multimedia system 3 and send instructions to the central control panel 2 and the glass controller 1 of the automobile through the multimedia system 3. The multimedia system 3 is connected with a positioning radar 38 for positioning the vehicle, so that a user can know the positioning of the vehicle at any time, and the user experience is improved. The multimedia system 3 is further connected with a face recognition module 391 and a voice control module 39. The face recognition module 391 and the voice recognition module are both in the prior art and are not described herein again. The face recognition module 391 helps to improve the safety of automobile operation, and is convenient for quickly authenticating the identity of a user, and the voice control module 39 facilitates the user to perform voice control on the multimedia system 3, so that the operation experience of the user is improved.

The implementation principle of the novel automobile electro-liquid crystal dimming glass control system provided by the embodiment of the application is as follows: inherent well accuse board and multimedia system 3 pass through CAN bus connection with glass controller 1 on the car to directly pass through CAN bus connection with multimedia system 3 and glass controller 1, realize the whole car installation of car electrogenerated dimming glass on the car, be convenient for control car electrogenerated dimming glass through accuse board 2 and multimedia system 3 in the car, convenient to use person operates, make car electrogenerated dimming glass safer, reliable, energy-conserving, reach the effect that promotes user's use and experience.

It should be noted that, as the technical solution of the present invention, the hardware setting provided is only for the convenience of implementing a novel car electro-liquid crystal dimming glass control system on the basis of hardware facilities, and specifically how to implement a method of a novel car electro-liquid crystal dimming glass control system, and is not taken as the object of the technical problem and protection to be solved by the present invention. Meanwhile, the existing communication methods are adopted for the communication methods among the hardware, which is not the invention point of the application.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a novel car is electroluminescent liquid crystal and is adjusted luminance glass control system, accuse board (2) and multimedia system (3) in glass controller (1), car, accuse board (2) and multimedia system (3) are all installed and on the car in glass controller (1), car, its characterized in that: the glass controller (1) is in communication connection with the automobile central control panel (2) through a CAN bus, the automobile central control panel (2) is in communication connection with the multimedia system (3) through the CAN bus, and rear window glass, skylight glass and door glass on an automobile are all connected with the glass controller (1).

2. The novel control system for the automotive electro-liquid crystal dimming glass according to claim 1, is characterized in that: the multimedia system (3) is in communication connection with the glass controller (1) through a CAN bus.

3. The novel control system for the automotive electro-liquid crystal dimming glass according to claim 1, is characterized in that: the automobile central control board (2) is connected with a power supply control board (21) through a CAN bus, and the power supply control board (21) is connected with the glass controller (1).

4. The novel control system for the automotive electro-liquid crystal dimming glass according to claim 1, is characterized in that: the automobile central control panel (2) is connected with a rear windscreen wiper switch (22), a skylight switch (23) and a door glass lifting switch (24).

5. The novel control system for the automotive electro-liquid crystal dimming glass according to claim 1, is characterized in that: the automobile central control panel (2) is connected with a detection device, and the detection device comprises a temperature sensor (31), an illumination intensity sensor (32), an infrared sensor (33), an ultraviolet sensor (34) and a pressure sensor (35).

6. The novel control system for the automotive electro-liquid crystal dimming glass according to claim 1, is characterized in that: the multimedia system (3) is connected with a touch display screen (37) and a plurality of operating buttons (36).

7. The novel control system for the automotive electro-liquid crystal dimming glass according to claim 1, is characterized in that: the multimedia system (3) is connected with a positioning radar (38) for positioning the vehicle.

8. The novel control system for the automotive electro-liquid crystal dimming glass according to claim 1, is characterized in that: the multimedia system (3) is connected with a face recognition module (391) and a sound control module (39).

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