WO2010093085A1

WO2010093085A1 - Mood lamp switch for vehicle and control method thereof

Info

Publication number: WO2010093085A1
Application number: PCT/KR2009/002057
Authority: WO
Inventors: 김관연; 김용; 박세현
Original assignee: (주)오로라디자인랩
Priority date: 2009-02-11
Filing date: 2009-04-21
Publication date: 2010-08-19
Also published as: KR100918212B1

Abstract

The present invention relates to a mood lamp switch for a vehicle and a control method thereof which enable lighting of different colors and control of many devices installed in a vehicle with a single switch The mood lamp switch for a vehicle according to an embodiment of the present invention is installed inside a vehicle, comprising: a touch sensor unit which senses the touch of an object and outputs the touch information, a vehicle information receiving unit which receives information on the vehicle from one or more devices installed in the vehicle, a lamp unit capable of producing surface lighting of various colors, and a control unit which controls the lighting of the lamp unit according to the touch information sensed by the touch sensor unit or the vehicle information received by the vehicle information receiving unit and which controls the operation of one or more devices installed in the vehicle according to the touch information.

Description

Vehicle mood light switch and control method

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vehicle mood light switch and a control method thereof, and more particularly to a vehicle mood light switch capable of controlling a plurality of devices mounted in a vehicle with one switch and capable of emitting light in various colors.

Generally, a light switch used in a vehicle is an analog switch for turning on / off a separately formed light separately from the switch.

Therefore, since the light switch is merely used for light control purposes, a separate switch must be provided to control devices in the vehicle, such as a sunroof. That is, in the related art, not only a control switch for each device provided in the vehicle should be provided, but also additional switches for controlling the device whenever new devices are additionally installed in the vehicle. For this reason, the number of switches increases, and a problem arises that it is difficult for one driver to operate all switches. In particular, as the demand for performing complex functions increases, such a problem may be more serious because vehicles are also being developed to perform various functions in the vehicle.

On the other hand, in the past, a lamp is used as a lighting in a vehicle, but in recent years, a light emitting diode (LED) is used as a light instead of a conventional lamp. LEDs have the advantage of higher brightness and lower power consumption than lamps. However, the LED light installed in the conventional vehicle cannot change its color according to the user's arbitrary, and has a disadvantage in that it can emit light in only one color.

Accordingly, an object of the present invention is to provide a vehicle mood light switch capable of controlling a plurality of devices mounted in a vehicle with one switch and capable of emitting light in various colors, and a control method thereof.

In order to achieve the above object, a mood light switch for a vehicle according to an embodiment of the present invention includes a touch sensor unit for detecting the contact of the object to output the touch information; A vehicle information receiver configured to receive information of the vehicle from at least one device mounted to a vehicle; An illumination unit capable of emitting light in a plurality of colors; And controlling light emission of the lighting unit according to touch information detected through the touch sensor unit or the vehicle information received through the vehicle information receiving unit, and controlling an operation of at least one device mounted on the vehicle according to the touch information. It includes a control unit.

The touch sensor unit includes a first touch sensor, and the touch information includes different first touch information sets input to the first touch sensor, and each of the first touch information sets indicates different control commands. do.

The touch sensor unit includes a first touch sensor, wherein the touch information is input to the first touch sensor, and different first touch information sets instructing entry of a function mode, and a function due to the first touch information set. The second touch information sets may include different second touch information sets inputted to the first touch sensor after entering the mode and instructing to select one of the detailed functions in the function mode.

The touch sensor unit includes a plurality of touch sensors separately formed.

The touch sensor unit may include first and second touch sensors, and the touch information may include first touch information sets input to the first touch sensor or the second touch sensor, and among the first touch information sets. Touch information sets inputted to the first touch sensor are set differently, and touch information sets inputted to the second touch sensor among the first touch information sets are set differently and inputted to the first touch sensor. The touch information sets and the touch information sets input to the second touch sensor may be set in duplicate, and the first touch information sets indicate different control commands.

The touch sensor unit includes first and second touch sensors, wherein the touch information is input to the first touch sensor or the second touch sensor, and includes first touch information sets indicating an entry of a function mode, and first And second touch information sets inputted to the first touch sensor or the second touch sensor after entering a function mode due to a touch information set to indicate execution of any one of detailed functions in the function mode. Among the touch information sets, touch information sets input to the first touch sensor are set differently, and touch information sets input to the second touch sensor among the first touch information sets are set differently, and the second Among the touch information sets, touch information sets input to the first touch sensor are set differently, and the second touch among the second touch information sets is set. The touch information sets input to the sensor are set differently from each other, and the first touch information sets input to the first touch sensor and the first touch information sets input to the second touch sensor may be overlapped with each other. The second touch information sets input to the touch sensor and the second touch information sets input to the second touch sensor may be set in duplicate.

The illumination unit may be separately formed to correspond to each of the separately formed touch sensors, and the separately formed touch sensor and the illumination unit may be formed on the same printed circuit board.

The touch sensor unit may include first to third touch sensors, and the illumination unit may correspond to the first lighting unit corresponding to the first touch sensor, the second lighting unit corresponding to the second touch sensor, and the third touch sensor. And a third lighting unit, wherein the touch information is input to the first touch sensor to control first lighting of the first lighting unit, and is input to the second touch sensor to be mounted on the lighting unit and the vehicle. Second touch information for controlling at least one or more devices, and third touch information input to the third touch sensor to control lighting of the third lighting unit, wherein the second touch information is mounted on the vehicle. Sunroof control touch information for controlling the sunroof, and color control touch information for controlling the lighting color of the lighting unit.

The lighting unit includes a light emitting diode light source capable of emitting a plurality of colors; A light guide sheet for dispersing light incident from the light source in an upward direction; A light diffusion sheet in contact with an upper surface of the light guide sheet for scattering light flowing from the light guide sheet; And a reflection sheet contacting a lower surface of the light guide sheet and reflecting light from the light source and the light guide sheet toward the light diffusion sheet, wherein the light source is disposed on at least one side of the light guide sheet. Pictures or texts are printed on the light guide sheet.

The lighting unit includes a plurality of light emitting diode light sources capable of emitting light in a plurality of colors; A light diffusion sheet disposed on front surfaces of the light sources and scattering light flowing from the light source; And a reflection sheet disposed on a rear surface of the light sources to reflect the light flowing from the light source toward the light diffusion sheet, wherein the light sources are disposed at uniform intervals between the light diffusion sheet and the reflection sheet. .

The touch sensor unit includes a transparent conductive polymer film pattern disposed on the front surface of the lighting unit.

The touch sensor unit may include a touch printed circuit board on which the light display area of the lighting unit is drilled and stacked on the front surface of the lighting unit.

The touch sensor unit includes a touch lead pattern disposed on the front surface of the lighting unit.

The touch sensor unit includes a touch pattern disposed between the light sources.

The control unit controls the light emission of the lighting unit when the rear sensing information, the hands-free information, the door open information, or the fuel shortage information is received through the vehicle information receiving unit, and the sunroof or the hands-free mounted on the vehicle according to the touch information. Control the operation.

The function mode includes at least one of a mood lighting lighting control mode, a mood lighting color changing mode, a sunroof control mode, and a hands free control mode.

A control method of a mood light switch for a vehicle according to an exemplary embodiment of the present invention includes a lighting unit capable of emitting light in a plurality of colors, the method comprising: detecting touch information in controlling a mood light switch for a vehicle installed inside the vehicle; Analyzing the command of the touch information; And controlling light emission of the lighting unit and controlling an operation of at least one device mounted on the vehicle according to the command of the analyzed touch information.

The mood light switch for a vehicle may include a first touch sensor, and the detecting of the touch information may include detecting different first sets of touch information input to the first touch sensor. The touch information indicates different control commands.

The mood light switch for a vehicle may include a first touch sensor, and the detecting of the touch information may include detecting different sets of first touch information input to the first touch sensor to indicate entering a function mode; And detecting different sets of second touch information input to the first touch sensor to instruct to select one of the detailed functions in the function mode.

The mood light switch for a vehicle may include first and second touch sensors, and the detecting of the touch information may include detecting first sets of touch information input to the first touch sensor or the second touch sensor. do.

The mood light switch for a vehicle may include first and second touch sensors, and the detecting of the touch information may include first touch information input to the first touch sensor or the second touch to instruct a function mode to be entered. Sensing sets, and sensing a second set of touch information input to the first touch sensor or the second touch sensor to instruct the user to select one of the detailed functions in the function mode.

The mood light switch for a vehicle may include first to third touch sensors, and the detecting of the touch information may include: controlling a lighting of a first lighting unit which is input to the first touch sensor and connected to the first touch sensor; Detecting first touch information; detecting second touch information input to the second touch sensor to control at least one device mounted on the lighting unit and the vehicle; and input to the third touch sensor; Detecting third touch information for controlling lighting of a third lighting unit connected to a third touch sensor, wherein the second touch information includes sunroof control touch information for controlling a sunroof mounted on the vehicle; and Color control touch information for controlling the lighting color of the lighting unit.

Method of controlling a mood light switch for a vehicle according to an embodiment of the present invention comprises the steps of receiving information of the vehicle from at least one device mounted to the vehicle; And controlling light emission of the lighting unit according to the received vehicle information.

According to the present invention, it is possible to control a plurality of devices mounted in the vehicle with only one switch integrated with the lighting, so that it is not necessary to add each control switch even if several devices are mounted in the vehicle.

In addition, the mood light switch for a vehicle according to the present invention can emit light in various colors, not only to provide illumination of a desired color, but also to receive various vehicle information and display received vehicle information in each color. Improve the user's awareness of the state of the vehicle.

In addition, the mood light switch for a vehicle according to the present invention is not only possible to be embedded in the ceiling of the vehicle by being thin, but also to insert a pattern in the light guide sheet, which is effective in terms of interior design.

1 is a block diagram schematically showing the configuration of a mood light switch for a vehicle according to an embodiment of the present invention;

2 and 3 is an embodiment showing the appearance of the mood light switch for a vehicle according to the number of touch sensors,

5 is a structural diagram showing a configuration of an illumination unit; and

6 is a flowchart illustrating a control method of a mood light switch for a vehicle according to an exemplary embodiment of the present invention.

Other objects and advantages of the present invention in addition to the above object will be apparent from the description of the preferred embodiment of the present invention with reference to the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 1 to 6.

Prior to this, terms or words used in the specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention. Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

1 is a block diagram schematically illustrating a configuration of a mood light switch for a vehicle according to an exemplary embodiment of the present invention.

Referring to FIG. 1, a mood light switch for a vehicle according to an exemplary embodiment of the present invention includes a touch sensor unit 110, a vehicle information receiver 120, a controller 200, an illumination unit 310, and a vibration unit 320. do.

The touch sensor unit 110 includes at least one touch sensor to detect that the object contacts the switch and to output the detected touch information. That is, the touch sensor unit 110 may detect different touch information through one touch sensor, or detect touch information from each touch sensor through two or more touch sensors. 2 is an embodiment showing the appearance of a vehicle mood light switch formed of one touch sensor, Figure 3 is an embodiment showing the appearance of a vehicle mood light switch formed of two touch sensors, Figure 4 is a three touch sensor ( 111, 112, and 113 show an appearance of a vehicle mood light switch. At this time, the touch sensor is formed on a printed circuit board (PCB), even if the touch sensor unit 110 is composed of two or more touch sensors as shown in Figs. By being formed, the mood light switch for a vehicle of the present invention can be made thin.

In an embodiment of the present invention, a film type touch sensor using a conductive polymer film pattern or the like may be used, and a pressure type touch sensor or an electrostatic touch sensor may be used.

The touch information secured through the touch sensor unit 110 is transferred to the controller 200 and used as basic information for controlling a vehicle mood light switch or devices mounted in the vehicle. For example, the touch sensor unit 110 detects various touch information such as a touch duration time and the number of touches. Therefore, the mood light switch for a vehicle according to the present invention may implement different functions depending on the type of touch information sensed.

In detail, the touch information detected by the touch sensor unit 110 may include a short touch having a duration less than a predetermined time, a long touch having a duration longer than a predetermined time, a continuous touch in which a short touch or a long touch is repeated a predetermined number of times, and a drag method. It may include various kinds of touch. The controller 200 matches a function set according to each touch information and performs a function according to the input touch information. To this end, touch information recognizable as a function execution command may be stored in the controller 200. When touch information other than the stored touch information is detected and input, for example, when a user executes an incorrect touch, a matching function may be provided. Therefore, there is no function accompanying the input touch information.

The vehicle information receiver 120 receives vehicle information from devices mounted on the vehicle and supplies the vehicle information to the controller 200. For example, the vehicle information receiver 120 may include a rear sensing information receiver 121 or a hands free information receiver 122 as illustrated in FIG. 1. The rear sensing information receiver 121 receives rear sensing information detected by the rear sensor, and the hands free information receiving unit 122 receives the hands free information from the hands free device 420 of the mobile phone.

The lighting unit 310 emits light under the control of the controller 200 according to touch information sensed by the touch sensor unit 110 or vehicle information received through the vehicle information receiving unit 120, and may emit light in a plurality of colors.

In one embodiment, the lighting unit 310 is configured as a side view (LED) light of the side view (Side view) as shown in FIG. 5 so that the mood light switch for a vehicle can be implemented in a thin. In this case, the lighting unit 310 may be disposed on the front surface of the touch sensor unit 110 to secure the light emitting area, and when the touch sensor unit 110 is formed of a transparent conductive polymer film pattern or the like, the touch sensor unit may be used. It may also be disposed on the back of the 110.

Referring to FIG. 5, the lighting unit 310 may be largely composed of a reflective sheet 312, a light guide sheet 313, and a light diffusion sheet 314, and a light source 311 may be provided on at least one side thereof. The light generated from the light source 311 is distributed and emitted to the front of the vehicle mood light switch through the three seats, so that the vehicle mood light switch can be surface-emitted.

In detail, the light generated from the light source 311 is introduced into the light guide sheet 313, and the light guide sheet 313 distributes the introduced light in the direction of the light diffusion sheet 314. Here, it can be seen that the light source 311 is particularly disposed adjacent to the light guide sheet 313 so that the light generated from the light source 311 can be introduced into the light guide sheet 313 for the first time.

The light diffusion sheet 314 is disposed in contact with one side of the light guide sheet 313 and is made of a light transmissive material in order to scatter light flowing from the light guide sheet 313.

The reflective sheet 312 is disposed in contact with the other side of the light guide sheet 313, that is, the opposite surface of the light diffusion sheet 314, and is diffused in the opposite direction without being output to the outside through the light diffusion sheet 314. The light introduced through 313 or the light introduced through the light source 311 is reflected back to the light diffusion sheet 314 to further improve the light output efficiency.

As the light source 311, at least four colors of LEDs, for example, red, green, and blue LEDs, may be used together to enable various colors.

On the other hand, the light guide sheet 313 may be inserted into a variety of patterns, such as a picture or a letter. For example, when a specific logo or a specific phrase is printed on the light guide sheet 313, a logo or a phrase printed on the light guide sheet 313 is displayed in the mood light form when the mood light of the vehicle is emitted.

In another embodiment, the lighting unit 310 may be configured as a direct-type LED light, although not shown in the figure.

The side view type LED lighting is a light source, that is, the LED is disposed on at least one side of the lighting unit 310, while the direct type LED lighting is an LED is arranged at even intervals over the entire surface of the lighting unit 310 As an advantage, the luminance is higher than that of the side view method.

For example, the lighting unit 310 may be composed of a reflective sheet and a light diffusion sheet, the light source may be provided on the entire surface of the reflective sheet. Here, the reflective sheet and the light diffusion sheet perform the same role as described above, and in the direct type method, since the light source is evenly distributed between the reflective sheet and the light diffusion sheet and expressed in a direct method, the light guide plate is not required.

In the direct type as described above, the touch sensor unit 110 may be disposed on the front surface of the lighting unit 310 in order to prevent mutual frequency interference between the touch sensor and the LEDs. For example, the touch sensor unit 110 may include a touch pattern of a transparent conductive polymer film disposed on the front surface of the lighting unit 310, or a touch PCB in which an illumination display area is perforated and stacked on the front surface of the lighting unit 310. Or a touch lead pattern disposed on the lighting unit 310. Alternatively, the touch sensor unit 110 may include a touch pattern disposed between the LEDs of the lighting unit 310.

Due to the thin structure of the lighting unit 310, the vehicle mood light switch according to the present invention can be embedded in the ceiling of the vehicle so that only one side is exposed, there is an advantage in terms of interior design. In addition, when the touch sensor unit 110 is formed of a plurality of touch sensors, the illumination unit 310 may also be separately formed so as to correspond to each touch sensor formed separately. In this case, all of the separated lighting units 310 may be formed on one PCB so that the vehicle mood light switch may be formed in a thin shape.

The controller 200 controls the lighting unit 310 according to the touch information detected through the touch sensor unit 110 or the vehicle information received through the vehicle information receiver 120, and also controls the lighting unit 310 in the vehicle connected to the controller 200. Control the devices. For example, the controller 200 emits the lighting unit 310 when the touch information indicating the lighting is turned on through the touch sensor unit 110 and controls the LEDs when the touch information indicating the lighting color is detected. The emission color of the lighting unit 310 is sequentially changed, and when touch information indicating device control is detected, the devices in the vehicle are controlled. According to an embodiment, the controller 200 may operate the sunroof 410 or the hands-free device 420 according to the touch information. In addition, the control unit 200 receives the sensing information indicating that there is an object near the rear through the vehicle information receiving unit 120, when the incoming call information is received, when the door of the vehicle is opened, or when fuel supply is required In addition, the lighting unit 310 may emit or flash in a specific color, and in addition, all vehicle information that can be supplied to the controller 200 may be displayed through the lighting unit 310.

As described above in the description of the touch sensor unit 110, the touch sensor unit 110 may include at least one or more touch sensors, and the controller 200 may be input from each touch sensor of the touch sensor unit 110. The touch information is analyzed and a function matching the touch information is performed.

The mood light switch for a vehicle according to the embodiment of the present invention may further include a vibration unit 320. The vibrator 320 includes a vibrating element and generates a vibration under the control of the controller 200 whenever a touch of an object is detected through the touch sensor unit 110, thereby providing a sense of touch to the user. In one embodiment, the vibrator 320 may generate vibrations having different repetition times and durations according to the type of touch information.

On the other hand, the mood light switch for a vehicle of the present invention is driven using the power of the vehicle.

As described above, according to the present invention, not only a single switch can control the devices installed in the vehicle, but also various vehicle information can be received to generate mood lighting of different colors according to the vehicle information, You can choose according to your preference. In addition, the mood light switch for a vehicle according to the present invention has a light structure and a switch integrated, and the entire structure including the case is a thin structure that can be integrated in a film bonding form, even if the device inside the vehicle is configured in a complex configuration interface to minimize It can be effective. In addition, such an integrated structure improves the stability of the mood light switch for a vehicle, whereas a conventional vehicle lamp has an outer case made of a plastic material or the like outside the light source, while in the present invention, there is a risk of fragments or the like in the event of an accident. The cracking phenomenon does not occur at all.

Referring to FIG. 6, in the standby state, vehicle information is received through the vehicle information receiver 120 (S1), and when the vehicle information is received, the received vehicle information is displayed (S2). At this time, the vehicle information is displayed through the light emission of the illumination unit 310, the illumination unit 310 may be emitted for a predetermined time or flashing repeatedly in a specific color set according to each vehicle information. This allows the user to recognize the vehicle information only by the light color.

For example, when the approach of the object is detected behind the vehicle through the rear sensing information receiving unit 121, the lighting blinks red for 1 minute, and when the incoming call information is received by the mobile phone through the hands-free information receiving unit 122, the lighting Can be lit in green. In addition, when it is confirmed that the door of the vehicle is not closed, the lights may blink blue until the door is closed, and when the fuel injection request time is reached, the lights may blink yellow every 10 minutes.

Meanwhile, when vehicle information is not received, the standby state is maintained until vehicle information is received or touch information is detected. Here, the standby state refers to a state in which the mood light switch for a vehicle is turned off or remains lit at the last setting.

Thereafter, the touch information is sensed through the touch sensor unit 110 (S3), and when the touch information is detected, the detected touch information is analyzed (S4), and the command meaning of the touch information is performed (S5). .

For example, if the analyzed touch information means the lighting or turning off command of the lamp, the lighting unit 310 is turned on or off, and if the analyzed touch information refers to the operation command of the sunroof 410, the sunroof 410. Open or close).

If the analyzed touch information means an instruction to change the illumination color, the color of the illumination unit 310 is changed. At this time, the color of the lighting unit 310 may be changed in the set order according to the user's touch, the color is determined by the user's final touch. The determined color may be applied immediately upon storage or may be stored and applied at the next lighting up.

On the other hand, when the touch information is not detected, as in the case where the vehicle information is not received, the standby state until the vehicle information is received or the touch information is detected.

In the control method of the mood light switch for a vehicle according to the embodiment of the present invention, the vehicle information display step (S1, S2) and the vehicle control step (S3 ~ S5) does not necessarily have to be performed by a batch procedure, each separately It may also proceed to the stage of.

Of the control method of the vehicle mood light switch, the vehicle control step will be described in more detail through four embodiments.

The mood light switch for a vehicle according to the first embodiment of the present invention includes one touch sensor as in the example shown in FIG. 2 and operates through one set of touch information.

Here, the one set of touch information is touch information that matches one of the functions stored in the vehicle mood light switch, and means touch information that is a command for enabling the vehicle mood light switch to perform a set function.

For example, when the vehicle mood light switch has a mood light on, a mood light off, a mood light color change, a sunroof open, and a sunroof close function, touch information for performing each function is all set differently. That is, in the first embodiment, since one touch sensor unit 110 includes only one touch sensor, each set of touch information input to the one touch sensor is a command for performing different functions. . Therefore, when the user inputs only one set of touch information, the function of the vehicle mood light switch according to the touch information set can be immediately used.

In this case, in order to recognize one set of touch information, in the present invention, when a predetermined time has passed since the last touch, the input of one set of touch information may be recognized as being finished. For example, if the touch information set for turning on mood lighting is one touch and the touch information set for turning off mood lighting is set to two consecutive touches, an error of recognizing the first touch of two consecutive touches as the mood lighting on command is generated. May occur. However, when 3 seconds or more have elapsed since the last touch in the present invention, if one set of input of touch information is set to be finished, the function of turning off the mood lighting is executed due to two consecutive touches within 3 seconds, and once When 3 seconds have elapsed since the touch, a function of turning on mood lighting is executed. The set recognition setting of the touch information and the meaning of the one-touch information set described above are applied not only to the first embodiment but also to the second to fourth embodiments to be described later.

Meanwhile, mood lighting on / off or sunroof opening / closing may be set as one function. That is, the mood light can be turned on and off or the sunroof can be opened and closed through one set of touch information. For example, when the touch information set for controlling mood lighting on / off is one touch, when the touch sensor is touched once while the mood light is turned off, the mood light is turned on and the touch sensor is turned on when the mood light is turned on. Touch it once to turn off mood lighting. Similarly, if the touch information set for controlling the opening / closing of the sunroof is two touches, touching the touch sensor twice with the sunroof closed will open the sunroof and open the sunroof with the touch sensor 2 Touch it once to close the sunroof.

Second Embodiment

The mood light switch for a vehicle according to the second embodiment of the present invention, like the above-described first embodiment, includes one touch sensor and is operated through two sets of touch information.

For example, when the vehicle mood light switch can be driven in the mood light lighting control mode, the mood light color changing mode, and the sunroof control mode, the first set of first touch information inputs among the two sets of touch information indicates information for entering the function mode. The second touch information set used after the first touch information set is used as information indicating a detailed function in the mode. Therefore, in the second embodiment, the touch information indicating each detailed function does not need to be set differently as in the first embodiment. That is, only the first touch information sets for entering the function mode do not overlap, and only the second touch information sets for performing the detailed functions in the mode do not overlap.

For example, when the first touch information set for instructing to enter the mood lighting control mode is one touch, the second touch information set for turning on the mood light is one touch and the second touch information set for turning off the mood light is It can be set to two touches. In addition, when the first touch information set for instructing to enter the mood light color changing mode is two touches, the second touch information set for changing the mood light color is set to one touch, every time one touch after entering the mode. The mood light color can be changed. On the other hand, when the first touch information set for instructing to enter the sunroof control mode is three touches, the second touch information set for opening the sunroof is touched once, and the second touch information set for closing the sunroof is twice. It can be set by touch.

Here, the mood lighting on / off or sunroof opening / closing may be set to one function as described above in the first embodiment.

Third Embodiment

The mood light switch for a vehicle according to the third embodiment of the present invention includes two or more touch sensors as shown in FIGS. 3 and 4, and operates through one set of touch information.

For example, if the vehicle mood light switch has mood lighting on, mood lighting off, changing mood lighting color, sunroof opening, sunroof closing, the first touch sensor performs mood lighting on, sunroof opening. And a second touch sensor configured to sense a touch information set for performing a mood light off and sunroof close function. In addition, even though both the first and second touch sensors sense a touch information set for changing the mood lighting color, the touch information sets respectively detected by the first and second touch sensors are sequentially arranged according to different order or different settings. It is set to change the mood lighting color. For example, if the color of the mood light is set to be sequentially changed in a specific order, the color of the mood light is changed in a forward order by touching the first touch sensor, and in a reverse order by touching the second touch sensor. Can be set to change the mood light color.

As described above, in the third embodiment, since one touch sensor unit 110 includes two or more touch sensors, a command for performing a different function for each set of touch information input to each touch sensor is provided. do. Therefore, if the user inputs only one set of touch information by dividing the touch sensor, the function of the vehicle's mood light switch according to the touch information set can be used immediately, and the mood light can be turned on or off or the sunroof can be turned on. Diversified functions such as opening and closing can be commanded through different touch sensors, making them easy to use. That is, in the third embodiment, each set of touch information input to one touch sensor is set differently so as not to overlap each other, and a touch information set input to the first touch sensor and a touch information set input to the second touch sensor. May be set to overlap each other.

Fourth Embodiment

The mood light switch for a vehicle according to the fourth embodiment of the present invention includes two or more touch sensors in the same manner as in the above-described third embodiment, and through two sets of touch information as in the above-described second embodiment. It works.

In detail, the first touch information set is information indicating entry into a function mode, and the second touch information set is used as information indicating detailed functions in a mode. In this case, the first touch information set is sensed by one touch sensor of the first touch sensor or the second touch sensor, and the second touch information set indicates different detailed functions according to which touch sensor is input.

For example, if touching the first touch sensor once is touch information for instructing to enter the mood lighting control mode, touching the first touch sensor once after entering the mode instructs the mood lighting on function, and then touches the second touch sensor. Touching the touch sensor once can be set to indicate the mood light off function. In addition, if the first touch of the second touch sensor is touch information indicating to enter the sunroof control mode, the first touch of the first touch sensor after entering the mode indicates the sunroof opening function and the second touch sensor One touch can be set to indicate the sunroof close function.

That is, in the fourth embodiment, the first touch information sets input by one touch sensor are set to be different from each other without overlapping each other, and the first touch information set input by the first touch sensor and the second touch sensors input by the second touch sensor are different from each other. One touch information set may be set in duplicate. In addition, only the second touch information sets input by one touch sensor do not overlap each other, and the second touch information set input by the first touch sensor and the second touch information set input by the second touch sensor may be overlapped. .

The mood light switch for a vehicle according to the fifth embodiment of the present invention includes two or more touch sensors, at least one touch sensor receives touch information on the mood light, and the at least one touch sensor is mounted on the vehicle. At least one touch information for instructing the operation of the device may be received. That is, touch information for turning on or off the mood lighting and touch information for operating the device of the vehicle may be input to each touch sensor. At this time, one touch sensor may be set to receive both touch information for the mood light and touch information for commanding the operation of the device as described above in the first to fourth embodiments.

For example, when the vehicle mood light switch of the present invention includes three

touch sensors

111, 112, and 113 as shown in FIG. 4, the first and

third touch sensors

111 and 113 may be The first and third touch information for controlling lighting of the mood light may be received, and the second touch sensor 112 may receive second touch information for controlling the operation of a device mounted in the vehicle.

In this case, the first and third touch information input through the first and

third touch sensors

111 and 113 may be commands to control the operation of the lighting unit, that is, the lighting unit 310, connected to each touch sensor. That is, when the first lighting unit connected to the first touch sensor 111 is turned off, when the first touch sensor 111 is touched once, the first lighting unit is turned on, and when the first lighting unit is turned on, the first touch is turned on. When the sensor 111 is touched once again, the first lighting unit may be turned off. Similarly, when the third lighting unit connected to the third touch sensor 113 is turned off, when the third touch sensor 113 is touched once, the third lighting unit is turned on, and when the third lighting unit is turned on, the third touch is turned on. When the sensor 113 is touched once again, the third lighting unit is turned off. As a result, it is possible to separately supply the driver's seat and the driver's seat.

On the other hand, the second touch information input through the second touch sensor 112 is used as a command for controlling the operation of the sunroof or changing the color of the mood light. For example, when one side of the second touch sensor 112, for example, the area A, is touched once, the sunroof may be opened. If the area C is touched once, the sunroof may be closed and the touch duration or the number of touches of the area B may be closed. Therefore, the tilt of the sunroof can be adjusted. In addition, when the second touch sensor 112 is dragged in the A-B-C order or the C-B-A order, the color of the mood light may be sequentially changed.

That is, in the fifth embodiment, the touch sensor for controlling the operation of the vehicle is provided separately from the touch sensor used for the mood lighting, and the touch sensor is configured to have a smaller area than the touch sensor used for the mood lighting, thereby controlling mood lighting and device control. The effect can be independently implemented.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims

A touch sensor unit which detects an object contact and outputs touch information;

A vehicle information receiver configured to receive information of the vehicle from at least one device mounted to a vehicle;

An illumination unit capable of emitting light in a plurality of colors; And

Controlling light emission of the lighting unit according to touch information sensed through the touch sensor unit or the vehicle information received through the vehicle information receiving unit, and controlling an operation of at least one device mounted on the vehicle according to the touch information; Control

Mood light switch for a vehicle installed inside the vehicle including a.
The method of claim 1,

The touch sensor unit includes a first touch sensor,

The touch information includes different first touch information sets input to the first touch sensor.

And each of said first sets of touch information indicates a different control command.
The method of claim 1,

The touch sensor unit includes a first touch sensor,

The touch information is input to the first touch sensor and is input to different first touch information sets indicating the entry of a function mode, and to the first touch sensor after entering the function mode due to the first touch information set. 2. A mood light switch for a vehicle, comprising different sets of second touch information for indicating the performance of any of the detailed functions in the function mode.
The method of claim 1,

The touch sensor unit for a vehicle mood light switch, characterized in that it comprises a plurality of touch sensors formed separately.
The method of claim 4, wherein

The touch sensor unit includes first and second touch sensors,

The touch information includes first touch information sets input to the first touch sensor or the second touch sensor.

Among the first touch information sets, the touch information sets input to the first touch sensor are set differently from each other.

Among the first touch information sets, touch information sets input to the second touch sensor are set differently from each other.

The touch information sets input to the first touch sensor and the touch information sets input to the second touch sensor may be set in duplicate.

And the first touch information sets indicate different control commands.
The method of claim 4, wherein

The touch sensor unit includes first and second touch sensors,

The touch information may be input to the first touch sensor or the second touch sensor to set first touch information indicating the entry of a function mode, and the first touch sensor after entering the function mode due to the first touch information set or Second touch information sets inputted to the second touch sensor to instruct to select one of the detailed functions in the function mode;

Among the first touch information sets, the touch information sets input to the first touch sensor are set differently from each other.

Among the first touch information sets, touch information sets input to the second touch sensor are set differently from each other.

Among the second touch information sets, touch information sets input to the first touch sensor are set differently from each other.

Among the second touch information sets, the touch information sets input to the second touch sensor are set differently from each other.

The first touch information sets inputted to the first touch sensor and the first touch information sets inputted to the second touch sensor may be overlapped with each other.

And a second set of touch information input to the first touch sensor and a second set of touch information input to the second touch sensor.
The method of claim 4, wherein

The lighting unit is separated to correspond to each of the separated formed touch sensor,

The separately formed touch sensor and the lighting unit is a mood light switch for a vehicle, characterized in that formed on the same printed circuit board.
The method of claim 7, wherein

The touch sensor unit includes first to third touch sensors,

The lighting unit includes a first lighting unit corresponding to the first touch sensor, a second lighting unit corresponding to the second touch sensor, and a third lighting unit corresponding to the third touch sensor,

The touch information is input to the first touch sensor to control the first touch information for controlling the lighting of the first lighting unit, the second touch sensor to control at least one or more devices mounted on the lighting unit and the vehicle. Second touch information for input, and third touch information input to the third touch sensor to control lighting of the third lighting unit;

The second touch information includes a sunroof control touch information for controlling the sunroof mounted on the vehicle, and color control touch information for controlling the lighting color of the lighting unit.
The method of claim 1,

The lighting unit,

A light emitting diode light source capable of emitting light in a plurality of colors;

A light guide sheet for dispersing light incident from the light source in an upward direction;

A light diffusion sheet in contact with an upper surface of the light guide sheet for scattering light flowing from the light guide sheet; And

A reflection sheet in contact with a lower surface of the light guide sheet and for reflecting light from the light source and the light guide sheet toward the light diffusion sheet;

Including,

The light source is disposed on at least one side of the light guide sheet,

Mood lighting switch for the vehicle characterized in that the light guide sheet is printed pictures or characters.
The method of claim 1,

The lighting unit,

A plurality of light emitting diode light sources capable of emitting light in a plurality of colors;

A light diffusion sheet disposed on front surfaces of the light sources and scattering light flowing from the light source; And

A reflection sheet disposed on a rear surface of the light sources to reflect light flowing from the light source toward the light diffusion sheet;

Including,

And the light sources are uniformly disposed between the light diffusion sheet and the reflective sheet.
The method of claim 9 or 10,

The touch sensor unit is a mood light switch for a vehicle, characterized in that it comprises a transparent conductive polymer film pattern disposed on the front of the lighting unit.
The method of claim 10,

And the touch sensor unit comprises a touch printed circuit board having a perforated illumination display area of the illumination unit stacked on the front surface of the illumination unit.
The method of claim 10,

The touch sensor unit is a mood light switch for a vehicle, characterized in that it comprises a touch lead pattern disposed on the front surface of the lighting unit.
The method of claim 10,

The touch sensor unit is a vehicle mood light switch, characterized in that it comprises a touch pattern disposed between the light sources.
The method of claim 1,

The control unit controls the light emission of the lighting unit when the rear sensing information, the hands-free information, the door open information, or the fuel shortage information is received through the vehicle information receiving unit, and the sunroof or the hands-free mounted on the vehicle according to the touch information. Vehicle mood light switch, characterized in that for controlling the operation.
The method according to claim 3 or 6, wherein

The function mode includes at least one of a mood lighting control mode, mood lighting color change mode, sunroof control mode, and hands-free control mode.
In controlling a mood light switch for a vehicle installed inside the vehicle, including a lighting unit capable of emitting light in a plurality of colors,

Sensing touch information;

Analyzing the command of the touch information; And

Controlling light emission of the lighting unit and controlling an operation of at least one device mounted on the vehicle according to the command of the analyzed touch information;

Method of controlling a mood light switch for a vehicle comprising a.
The method of claim 17,

The mood light switch for a vehicle includes a first touch sensor,

The sensing of the touch information may include detecting different first sets of touch information input to the first touch sensor.
The method of claim 17,

The mood light switch for a vehicle includes a first touch sensor,

The detecting of the touch information may include detecting different sets of first touch information input to the first touch sensor to indicate the entry of a function mode, and details input to the first touch sensor in the function mode. Detecting a second set of different touch information indicating to select one of the functions.
The method of claim 17,

The mood light switch for a vehicle includes first and second touch sensors,

The sensing of the touch information may include detecting first sets of touch information input to the first touch sensor or the second touch sensor.
The method of claim 17,

The mood light switch for a vehicle includes first and second touch sensors,

The detecting of the touch information may include detecting first sets of touch information input by the first touch sensor or the second touch to indicate entry of a function mode, and detecting the first touch sensor or the second touch. And detecting a second set of touch information input to a sensor to instruct to select to perform one of the detailed functions in the function mode.
The method of claim 17,

The mood light switch for a vehicle includes first to third touch sensors,

The detecting of the touch information may include detecting first touch information input to the first touch sensor to control lighting of a first lighting unit connected to the first touch sensor, and input to the second touch sensor. Sensing second touch information for controlling an illumination unit and at least one or more devices mounted on the vehicle, and a third touch input to the third touch sensor to control lighting of a third illumination unit connected to the third touch sensor. Detecting information;

The second touch information includes sunroof control touch information for controlling the sunroof mounted on the vehicle, and color control touch information for controlling the lighting color of the lighting unit. Way.
The method of claim 17,

Receiving information of the vehicle from at least one device mounted to the vehicle; And

Controlling light emission of the lighting unit according to the received vehicle information;

Method of controlling a mood light switch for a vehicle further comprising.