CN113895353B - Instrument interface skin changing method and system following automobile atmosphere lamp change and vehicle - Google Patents

Abstract

The invention discloses an instrument interface skin-changing method and system following the change of an automobile atmosphere lamp and a vehicle, and belongs to the technical field of vehicle instruments. The method comprises the following steps: generating an atmosphere lamp control command and controlling the color and brightness of the atmosphere lamp; receiving an atmosphere lamp control command, and acquiring the current working voltage of the atmosphere lamp by combining the corresponding relation between the control command and the working voltage of the atmosphere lamp; according to the current working voltage of the atmosphere lamp, the corresponding relation between the working voltage of the atmosphere lamp and the color and brightness of the atmosphere lamp is combined, and the color and brightness information of the current atmosphere lamp is obtained through data comparison; the instrument control part controls the instrument interface according to the color and brightness information of the atmosphere lamp, so that the background color of the instrument interface is consistent with the atmosphere lamp. When a user switches a color atmosphere lamp, the instrument can acquire the color value of the color atmosphere lamp, and then the whole color tone of the interface is adjusted to be consistent with that of the atmosphere lamp, so that the requirement of increasing diversification of the user is met, the development cost is reduced, and the color atmosphere lamp is suitable for market change.

Description

Instrument interface skin changing method and system following automobile atmosphere lamp change and vehicle

Technical Field

The invention belongs to the technical field of vehicle instruments, and particularly relates to an instrument interface skin changing method and system following the change of an automobile atmosphere lamp and a vehicle.

Background

Automotive atmosphere lamps are now widely used as interior trim lamps for automobiles. The automobile lamp can realize various colors and brightness, and a user can set different colors and brightness effects according to personal preference and needs, so that the effects of in-car decoration and atmosphere baking are achieved.

With the rapid development of liquid crystal large screen instruments, the interface design of the automobile instrument is becoming important in the overall design of the interior trim. The instrument is used as a part embedded in the vehicle interior, the interface design of the liquid crystal instrument is matched with lines, texture, colors and the like of the vehicle interior, and therefore the whole vehicle interior can be harmoniously engaged, and better visual and sensory experience is brought to a user.

However, with the increasing demands of users for automobile atmosphere lamps, the conventional single-color or three-color atmosphere lamps cannot meet the demands of users, and the design of the liquid crystal instrument interface is more three-color style interfaces. Even if the instrument three color interface energy matches the three color atmosphere lamp, the user is required to manually adjust the interface style selection, or adjust the atmosphere lamp color. The instrument interface of the non-same color system and the atmosphere lamp in the vehicle can be quite discordant, and the unified visual perception can not be brought to the user.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a method, a system and a vehicle for changing the skin of an instrument interface along with the change of an automobile atmosphere lamp, which can preset more colors and automatically change the skin of the instrument interface along with the change of the automobile atmosphere lamp.

In order to achieve the above purpose, the invention provides an instrument interface skin-changing method following the change of an automobile atmosphere lamp, which comprises the following steps:

s1, generating an atmosphere lamp control command and controlling the color and brightness of the atmosphere lamp;

s2, receiving an atmosphere lamp control command, and acquiring the current working voltage of the atmosphere lamp by combining the corresponding relation between the control command and the working voltage of the atmosphere lamp;

s3, according to the current working voltage of the atmosphere lamp, combining the corresponding relation between the working voltage of the atmosphere lamp and the color and brightness of the atmosphere lamp, and obtaining the color and brightness information of the current atmosphere lamp through data comparison;

and S4, the instrument control part controls the instrument interface according to the color and brightness information of the atmosphere lamp, so that the background color of the instrument interface is consistent with the atmosphere lamp.

In some alternative embodiments, in step S3, N colors are preset for the automotive atmosphere lamp, each color corresponds to an operating voltage, and the data comparison is performed with the operating voltage to obtain the color of the atmosphere lamp.

In some alternative embodiments, in step S4, the meter control portion reserves R, G, B three interface signals for the meter adjustment color, and correspondingly modifies R, G, B values for the atmosphere lamp color, so that the background color of the meter interface is consistent with the atmosphere lamp.

In some alternative embodiments, the meter control section is preconfigured with a correspondence between the colors of all atmosphere lamps and the R, G, B interface signals of the meter.

In some alternative embodiments, step S2 further comprises: memorizing the last atmosphere lamp control command when the automobile is powered down;

when a new atmosphere lamp control command is received, judging whether the two control commands are identical; if yes, the new atmosphere lamp control command is ignored, and if not, the current working voltage of the atmosphere lamp is obtained according to the corresponding relation between the control command and the working voltage of the atmosphere lamp.

An instrument interface skin-changing system that follows changes in automotive atmosphere lamps, comprising:

the control command module is used for generating an atmosphere lamp control command and controlling the color and the brightness of the atmosphere lamp;

the working voltage module is used for receiving an atmosphere lamp control command and acquiring the current working voltage of the atmosphere lamp by combining the corresponding relation between the control command and the working voltage of the atmosphere lamp;

the signal processing module is used for obtaining the color and brightness information of the current atmosphere lamp through data comparison according to the current working voltage of the atmosphere lamp and the corresponding relation between the working voltage of the atmosphere lamp and the color and brightness of the atmosphere lamp;

and the instrument control module is used for controlling the instrument interface according to the color and brightness information of the atmosphere lamp so that the background color of the instrument interface is consistent with the atmosphere lamp.

In some alternative embodiments, the meter control module includes an HMI logic processing sub-module and a display sub-module;

the HMI logic processing sub-module is configured with the corresponding relation between all atmosphere lamp colors and R, G, B interface signals of the instrument and is used for transmitting R, G, B values corresponding to the atmosphere lamp colors to the display sub-module;

and the display sub-module is used for reserving R, G, B interface signals of the instrument adjusting color, correspondingly modifying the signals into R, G, B values corresponding to the color of the atmosphere lamp, and enabling the background color of the instrument interface to be consistent with the color of the atmosphere lamp.

In some alternative embodiments, the system further comprises a memory judging module, configured to memorize the last atmosphere lamp control command when the automobile is powered down, and judge whether the two control commands are the same when a new atmosphere lamp control command is received; if yes, the new atmosphere lamp control command is ignored, and if not, the current working voltage of the atmosphere lamp is obtained according to the corresponding relation between the control command and the working voltage of the atmosphere lamp.

A vehicle comprises the instrument interface skin-changing system following the change of the automobile atmosphere lamp.

Compared with the prior art, the invention has the following advantages:

(1) After the atmosphere lamp is switched by the user, the instrument background interface is enabled to change into a consistent color along with the change, and the consistent color of the interior trim and the mode of active interaction bring better driving experience to the user.

(2) The requirements of users on automobile atmosphere lamps are increasingly diversified, and the requirements on instrument interfaces are also increasingly diversified. Therefore, more atmosphere lamp colors can be built in, the problem that the colors of instrument interfaces cannot be unified does not need to be worried about, and conversely, the instrument interfaces can be provided for users along with the increase of the colors of the atmosphere lamps, so that the current requirement of increasing diversification of users is met, the development cost is reduced, and the market change is adapted.

Drawings

FIG. 1 is a flow chart of an instrument interface skin change method following a change of an automobile atmosphere lamp according to an embodiment of the invention.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention. In addition, the technical features of the embodiments of the present invention described below may be combined with each other as long as they do not collide with each other.

The invention provides an intelligent skin changing method of an instrument interface, which changes along with an automobile atmosphere lamp, when a user switches the color atmosphere lamp, the instrument can acquire the color value of the color atmosphere lamp, and then the overall color of the interface is adjusted to be consistent with that of the atmosphere lamp, so that the problem that the color of the instrument interface cannot be unified is avoided when the color of the atmosphere lamp is more, and on the contrary, the instrument interface can be provided with more color interfaces for the user along with the increase of the color of the atmosphere lamp, thereby meeting the current increasingly diversified demands of the user, reducing the development cost and adapting to market changes.

In this embodiment, the user can freely control atmosphere lamp colour through car master controller, adjusts the intensity of light, and the different driving atmosphere of automotive interior is set aside in the baking. Meanwhile, the instrument can acquire the current working voltage of the LED lamp through the control command of the automobile main controller, and the color of the atmosphere lamp is obtained through data comparison. And then, the software of the instrument reserves R, G, B interface signals for adjusting the color, correspondingly modifies R, G, B values of the color of the atmosphere lamp, and the main color of the instrument interface is changed into a color phase consistent with the color of the atmosphere lamp.

As shown in fig. 1, the present invention specifically includes the following steps:

s1: receiving an adjusting signal from an automobile main controller, calculating according to the voltage value of the LED lamp with the corresponding color of the adjusting signal to obtain the current working voltage value of the LED lamp, and transmitting the working voltage value to an instrument signal processing module through a CAN line signal.

And the atmosphere lamp and the background color of the instrument are linked by using the transmission of the CAN signal. The instrument is intelligent to change background color along with the atmosphere lamp without manual adjustment.

S2: and the instrument signal processing module is used for obtaining that the current color of the atmosphere lamp is a signal 1 through comparing with the preset color of the atmosphere lamp (see table one), and transmitting the signal 1 to the instrument HMI logic processing module.

Table one preset atmosphere lamp color

Color of	R	G	B
				1	R1	G1	B1
2	R2	G2	B2
				3	R3	G3	B3
4	R4	G4	B4
				·	·	·	·
·	·	·	·
				·	·	·	·
N	RN	GN	BN

The table corresponds to all the RGB values of the colors configured for the atmosphere lamp, for example, 100 colors configured for the atmosphere lamp, i.e. N is 100.

S3: the HMI logic processing module transmits R1, G1 and B1 values corresponding to the signal 1 to the HMI display module, the display module reserves three interface signals of RGB for adjusting colors, the three interface signals are configured to be rewritable, corresponding interface data are changed into R1, G1 and B1 values corresponding to the signal 1, then software is used for carrying out operation, and the background color of the instrument is changed into the same color phase as that of the atmosphere lamp 1.

RGB colors are the optical three primary colors, R representing Red (Red), G representing Green (Green), and B representing Blue (Blue). The RGB mode is an additive color mode, and any color can be described by the radiation amounts of R, G, and B. When the color is defined by a computer, the range of values of the three components R, G and B is 0-255,0 indicates no stimulation, and 255 indicates that the stimulation reaches the maximum value.

The embodiment is based on the flow of instrument development software Kanzi, and a designer imports materials into Kanzi Studio to perform visual, interactive and dynamic effect design and data binding; the programmer develops the data plug-in and uses the script to develop business logic. The automobile atmosphere lamp is configured with N colors, each color LED lamp has a corresponding working voltage, and the instrument judges which color atmosphere lamp is regulated by a user through detecting the voltage value. Before this, the programmer has written all configured atmosphere lamp color RGB values into the software. Therefore, after the instrument logic processing module sends the color signal value to the display module, the RGB three interfaces for adjusting color reservation are changed into numerical values of corresponding colors, and then the numerical values are processed by software operation, so that the background color is changed into the corresponding color of the atmosphere lamp.

In some alternative embodiments, before performing S1, further comprising the steps of:

s01: and synchronizing the voltage values corresponding to the N colors of the atmosphere lamp configuration into the CAN line protocol.

S02: and when a data signal of the automobile main controller is received, judging whether the data is an adjusting signal, if so, executing S2, otherwise, repeating the step.

Firstly, after the program is powered on, the colors of the last powered-off atmosphere lamp and the liquid crystal instrument UI are memorized, and if a user does not want to switch the colors, no data are transmitted from the automobile main controller. After the serial data is detected, whether the data is synchronous signals in the CAN bus protocol, namely adjusting signals, CAN be judged.

In some alternative embodiments, before performing S2, further comprising the steps of:

s11: and recording and storing RGB values corresponding to all the configured atmosphere lamp colors in a signal processing module, wherein the signal values correspond to all the configured atmosphere lamp colors.

The invention also provides an instrument interface skin-changing system following the change of the automobile atmosphere lamp, which comprises:

the control command module is used for generating an atmosphere lamp control command and controlling the color and the brightness of the atmosphere lamp;

the working voltage module is used for receiving an atmosphere lamp control command and acquiring the current working voltage of the atmosphere lamp by combining the corresponding relation between the control command and the working voltage of the atmosphere lamp;

the signal processing module is used for obtaining the color and brightness information of the current atmosphere lamp through data comparison according to the current working voltage of the atmosphere lamp and the corresponding relation between the working voltage of the atmosphere lamp and the color and brightness of the atmosphere lamp;

and the instrument control module is used for controlling the instrument interface according to the color and brightness information of the atmosphere lamp so that the background color of the instrument interface is consistent with the atmosphere lamp.

In some alternative embodiments, the meter control module includes an HMI logic processing sub-module and a display sub-module;

the HMI logic processing sub-module is configured with the corresponding relation between all atmosphere lamp colors and R, G, B interface signals of the instrument and is used for transmitting R, G, B values corresponding to the atmosphere lamp colors to the display sub-module;

and the display sub-module is used for reserving R, G, B interface signals of the instrument adjusting color, correspondingly modifying the signals into R, G, B values corresponding to the color of the atmosphere lamp, and enabling the background color of the instrument interface to be consistent with the color of the atmosphere lamp.

In some alternative embodiments, the system further comprises a memory judging module, configured to memorize the last atmosphere lamp control command when the automobile is powered down, and judge whether the two control commands are the same when a new atmosphere lamp control command is received; if yes, the new atmosphere lamp control command is ignored, and if not, the current working voltage of the atmosphere lamp is obtained according to the corresponding relation between the control command and the working voltage of the atmosphere lamp.

The invention also provides a vehicle, which comprises the instrument interface skin-changing system following the change of the automobile atmosphere lamp.

It should be noted that each step/component described in the present application may be split into more steps/components, or two or more steps/components or part of the operations of the steps/components may be combined into new steps/components, as needed for implementation, to achieve the object of the present invention.

It will be readily appreciated by those skilled in the art that the foregoing is merely a preferred embodiment of the invention and is not intended to limit the invention, but any modifications, equivalents, improvements or alternatives falling within the spirit and principles of the invention are intended to be included within the scope of the invention.

Claims (5)

1. The instrument interface skin-changing method following the change of the automobile atmosphere lamp is characterized by comprising the following steps of:

s1, generating an atmosphere lamp control command and controlling the color and brightness of the atmosphere lamp;

s2, receiving an atmosphere lamp control command, and acquiring the current working voltage of the atmosphere lamp by combining the corresponding relation between the control command and the working voltage of the atmosphere lamp;

s3, according to the current working voltage of the atmosphere lamp, combining the corresponding relation between the working voltage of the atmosphere lamp and the color and brightness of the atmosphere lamp, and obtaining the color and brightness information of the current atmosphere lamp through data comparison; presetting N colors of an automobile atmosphere lamp, wherein each color corresponds to one working voltage, and comparing data with the working voltage to obtain the color of the atmosphere lamp;

s4, the instrument control part controls an instrument interface according to the color and brightness information of the atmosphere lamp, so that the background color of the instrument interface is consistent with the atmosphere lamp; the meter control part reserves R, G, B interface signals of the meter adjusting color, correspondingly modifies the signals into R, G, B values corresponding to the colors of the atmosphere lamps, and enables the background color of the meter interface to be consistent with the colors of the atmosphere lamps; the meter control section is preconfigured with the correspondence between the colors of all the atmosphere lamps and the R, G, B interface signals of the meter.

2. The method for skin-changing an instrument interface following a change of an automobile atmosphere lamp according to claim 1, wherein step S2 further comprises: memorizing the last atmosphere lamp control command when the automobile is powered down;

when a new atmosphere lamp control command is received, judging whether the two control commands are identical; if yes, the new atmosphere lamp control command is ignored, and if not, the current working voltage of the atmosphere lamp is obtained according to the corresponding relation between the control command and the working voltage of the atmosphere lamp.

3. An instrument interface skin-changing system following a change of an automobile atmosphere lamp, comprising:

the control command module is used for generating an atmosphere lamp control command and controlling the color and the brightness of the atmosphere lamp;

the working voltage module is used for receiving an atmosphere lamp control command and acquiring the current working voltage of the atmosphere lamp by combining the corresponding relation between the control command and the working voltage of the atmosphere lamp;

the signal processing module is used for obtaining the color and brightness information of the current atmosphere lamp through data comparison according to the current working voltage of the atmosphere lamp and the corresponding relation between the working voltage of the atmosphere lamp and the color and brightness of the atmosphere lamp;

the instrument control module is used for controlling an instrument interface according to the color and brightness information of the atmosphere lamp so that the background color of the instrument interface is consistent with the atmosphere lamp; the instrument control module comprises an HMI logic processing sub-module and a display sub-module;

the HMI logic processing sub-module is configured with the corresponding relation between all atmosphere lamp colors and R, G, B interface signals of the instrument and is used for transmitting R, G, B values corresponding to the atmosphere lamp colors to the display sub-module;

and the display sub-module is used for reserving R, G, B interface signals of the instrument adjusting color, correspondingly modifying the signals into R, G, B values corresponding to the color of the atmosphere lamp, and enabling the background color of the instrument interface to be consistent with the color of the atmosphere lamp.

4. The instrument interface skin changing system following the change of the automobile atmosphere lamp according to claim 3, wherein the system further comprises a memory judging module for memorizing the last atmosphere lamp control command when the automobile is powered down and judging whether the two control commands are identical when receiving a new atmosphere lamp control command; if yes, the new atmosphere lamp control command is ignored, and if not, the current working voltage of the atmosphere lamp is obtained according to the corresponding relation between the control command and the working voltage of the atmosphere lamp.

5. A vehicle comprising the instrument interface skin changing system following a change in an automotive atmosphere lamp of claim 3 or 4.

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