KR20150000086U - lighting installations for vehicles based on touch switch - Google Patents

Abstract

More particularly, the present invention relates to an indoor lighting device for a vehicle, and more particularly, it is possible to implement on / off driving of indoor lighting or adjustment of luminance intensity by a touch method. The present invention relates to an indoor lighting device for a vehicle.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

More particularly, the present invention relates to an indoor lighting device for a vehicle, and more particularly, it is possible to implement on / off driving of indoor lighting or adjustment of luminance intensity by a touch method. The present invention relates to an indoor lighting device for a vehicle.

Inside the vehicle, an interior lamp capable of illuminating the interior of the vehicle is installed. The vehicle interior light is installed in at least one of the front surface of the roof and the center of the roof. The conventional operation switch for driving the on / off operation of the interior lamp has a mechanical structure in which the switch contact is turned on / off by the operation of the button, so that a surge voltage is generated when the switch contact is turned on and off, It is necessary to add a protection circuit for protecting the other electronic elements from the power source.

In addition, in the case of the mechanical switch, since the user is required to apply a certain amount of force or more, there is inconvenience in operation, wear occurs due to use, and a complicated mechanical design for mounting the mechanical switch is required. The time, effort, and cost involved in the development of the apparatus are disadvantageous. Furthermore, in the case of a mechanical switch, the operation button is protruded from the outside, which causes a problem of deterioration of external appearance.

In order to overcome the problems of such a mechanical switch, a touch-type switch is used which detects the touch input of the user and controls the on / off operation of the interior light. However, in the conventional touch-type switch, the brightness of the interior lamp is controlled based on only the touch or on the basis of only the number of times of touch input. Therefore, in order to select the intensity intensity desired by the user, A large number of touches have to be touched.

The object of the present invention is to provide a touch sensor unit having a plurality of touch sensing cells for controlling on / off operation of an interior lamp, Which is capable of easily controlling an indoor lighting device for a vehicle.

It is another object of the present invention to provide a vehicle interior lighting apparatus capable of increasing and decreasing the intensity of illumination of a lighting unit based on a relative movement distance of a user regardless of a touch position of a plurality of touch sensing cells.

Another object of the present invention is to control the intensity of illumination of the illumination unit at the lowest luminance intensity set irrespective of the touch position of a plurality of touch sensing cells and to control the luminance intensity of the illumination unit based on the relative movement distance of the user So that it does not interfere with a nearby user who is aboard the vehicle due to sudden lighting.

According to an aspect of the present invention, there is provided an illumination device for a vehicle, comprising: an illumination unit including a light source for illuminating an interior of a vehicle; a touch sensor unit having a plurality of touch sensing cells and outputting touch information of a user; And a control unit for controlling on / off driving or controlling the brightness of the illumination unit.

Here, the touch sensor unit senses the position of a touch sensing cell in which a touch is made among a plurality of touch sensing cells, whether or not there is a touch and a plurality of touch sensing cells, and outputs touch information. And controls the driving of the motor.

According to an embodiment of the present invention, the control unit includes a start position determination unit for determining position information of a first touch sensing cell of a first touch sensing cell among the plurality of touch sensing cells, A touch direction determination unit for determining a touch direction of the user based on the position information of the first touch sense cell and the position information of the second touch sense cell, A movement distance determination unit for determining a touch movement distance of the user based on the position information of the first touch sensing cell and the position information of the second touch sensing cell; And a drive control unit for controlling the illumination unit to drive the illumination unit and controlling the intensity of the illumination unit based on the touch movement direction and the touch movement distance of the user from the first brightness intensity .

Another embodiment of the control unit according to the present invention includes a start position determination unit for determining position information of a first touch sensing cell in which a first user touches among a plurality of touch sensing cells, A touch distance calculation unit for calculating a touch movement distance of the user based on the position information of the first touch sensing cell and the position information of the second touch sensing cell, An available distance calculating unit for calculating an available moving distance between a first touch sensing cell and a first touch sensing cell located in a direction of a second touch sensing cell in a first touch sensing cell among the plurality of touch sensing cells, And a drive control unit for calculating a relative movement distance of the touch based on the available travel distance and controlling the intensity of the illumination unit to be increased or decreased based on the relative distance of the touch movement And that is characterized. Wherein the driving control unit controls the luminance intensity of the illumination unit to be increased in proportion to the relative moving distance at the lowest luminance intensity.

Preferably, the illumination unit comprises a plurality of light emitting diode (LED) modules.

The vehicle interior lighting apparatus according to the present invention has various effects as follows.

First, the vehicle interior lighting device according to the present invention can easily control a brightness intensity desired by a user as well as on / off driving control of an interior light through a touch sensor unit having a plurality of touch sensing cells.

Second, the vehicle interior lighting device according to the present invention can control the intensity of the illumination unit to be increased or decreased based on the relative movement distance of the user irrespective of the touch position of the plurality of touch sensing cells.

Third, the vehicle interior lighting device according to the present invention drives and controls the luminance intensity of the illumination unit with the lowest luminance intensity set regardless of the touch positions of the plurality of touch sensing cells, and calculates the luminance intensity of the illumination unit based on the relative touch movement distance of the user It is possible to adjust the luminance intensity of the interior lamp without interfering with the surrounding users aboard the vehicle.

Fourth, the vehicle interior lighting device according to the present invention can realize a high brightness illumination with a small power consumption by using a light emitting diode (LED) as an illumination unit instead of a conventional lamp unit as an illumination unit.

1 shows a front portion of a vehicle interior lighting apparatus according to an embodiment of the present invention arranged on a ceiling of a vehicle.
2 is a functional block diagram of a vehicle interior lighting apparatus according to the present invention.
3 is a functional block diagram for explaining an embodiment of a control unit according to the present invention.
4 is a diagram for explaining an example of inputting a user command according to an embodiment of the control unit according to the present invention.
5 is a functional block diagram for explaining another embodiment of the control unit according to the present invention.
6 is a diagram for explaining an example of inputting a user command according to another embodiment of the control unit according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a vehicle interior lighting device according to the present invention will be described in detail with reference to the accompanying drawings.

1 shows a front portion of a vehicle interior lighting apparatus according to an embodiment of the present invention arranged on a ceiling of a vehicle.

1, the vehicle interior lighting apparatus 1 includes a case 10, an illumination unit (not shown) provided inside the case 10 for providing illumination inside the vehicle cabin, and a control unit (Not shown), and the like.

A transparent window (20) and a transparent window (20) are formed in a front portion of the vehicle interior lighting apparatus (10) exposed to the outside. And a touch sensor unit 30 for inputting a user command for controlling the operation of the illuminating unit for illuminating the inside of the vehicle.

The touch sensor unit 30 includes a plurality of touch sensing cells for recognizing a touch operation of the user. The user may input a user command for on / off control of the operation of the illumination unit through a touch operation of the touch sensor unit 30 Or inputs a user command for controlling the brightness of the illumination unit, that is, the brightness intensity.

2 is a functional block diagram of a vehicle interior lighting apparatus according to the present invention.

2, the touch sensor unit 110 includes a plurality of touch sensing cells. The touch sensing unit 110 may include a touch sensing unit for sensing whether a user command for controlling the on / Whether or not a user command for selecting or changing the brightness intensity is input, or the like. Preferably, the touch sensor unit 110 includes a plurality of touch sensing cells arranged in a line in the left-right direction or the upper-left direction.

The control unit 120 receives the touch information generated by the touch sensor unit 110 and controls the size of the power applied to the illumination unit 130 to turn on and off the illumination unit 130, Respectively.

Here, the lighting unit 130 may be a variety of light sources for providing illumination to the interior of the vehicle. In the present invention, a light emitting diode (LED) having a small power consumption and a long lifetime is used.

FIG. 3 is a functional block diagram for explaining an embodiment of the control unit according to the present invention, and FIG. 4 is a view for explaining an example of inputting a user command according to an embodiment of the control unit according to the present invention.

3, the start position determination unit 121 determines the position information of the start touch sensing cell in which the touch starts, by identifying the touch sensing cell in which the user's touch is started among the plurality of sensing cells, The end position determination unit 123 identifies the touch sensing cell in which the user's touch is terminated among the plurality of sensing cells, and determines the position information of the end touch sensing cell where the touch ends. The user touches the start touch sensing cell among the plurality of touch sensing cells arranged in a line to turn on the illumination unit and sequentially touches the plurality of touch sensing cells arranged in a line to adjust the intensity of the illumination unit.

The movement direction determination unit 125 determines a touch movement direction of the user on the basis of the position information of the start touch sensing cell and the position information of the end touch sensing cell. When the plurality of touch sensing cells are arranged horizontally, Or whether the touch direction has moved from right to left, or if the plurality of touch sensing cells are arranged vertically, it is determined whether the touch sensor moves upward or downward.

The movement distance calculation unit 127 calculates a touch movement distance of the user based on the position information of the start touch sensing cell and the position information of the end touch sensing cell. The touch movement distance is calculated based on the number of touch sensing cells arranged between the end touch sensing cells or the touch movement distance is calculated by subtracting the position information of the start touch sensing cell and the end touch sensing cell.

The driving control unit 129 starts on-driving the illumination unit with the luminance magnitude mapped to the starting touch sensing cell based on the position information of the starting touch sensing cell, And controlling the magnitude of the brightness of the illumination unit.

Referring to FIG. 4A, a control unit according to an embodiment of the present invention includes a plurality of touch sensing cells arranged horizontally, When the touch is performed to increase the brightness of the illumination unit, the illumination unit is initially turned on at a brightness intensity mapped to the start touch sensing cell. When the user touches the touch unit, the brightness of the illumination unit is increased in proportion to the touch movement distance Increase power control.

Referring to FIG. 4 (b), the control unit according to another embodiment of the present invention includes a plurality of touch sensing cells arranged horizontally, When the touch is performed by the cell, the illumination unit is initially turned on with the intensity intensity mapped to the start touch sensing cell. When the user touch moves to reduce the brightness of the illumination unit, the illumination unit Thereby controlling the applied power.

FIG. 5 is a functional block diagram for explaining another embodiment of the control unit according to the present invention, and FIG. 6 is a view for explaining an example of inputting a user command according to another embodiment of the control unit according to the present invention.

5, the start position determination unit 221 determines the position information of the start touch sensing cell in which the touch starts, by identifying the touch sensing cell in which the user's touch is started among the plurality of sensing cells, The end position determination unit 223 identifies the touch sensing cell in which the touch of the user is terminated among the plurality of sensing cells and determines the position information of the end touch sensing cell where the touch ends. The user touches the start touch sensing cell among the plurality of touch sensing cells arranged in a row to turn on the illumination of the illumination unit and sequentially touches the plurality of touch sensing cells arranged in a line to adjust the intensity of the illumination unit .

The travel distance calculation unit 225 calculates the touch travel distance d _R of the user based on the position information of the start touch sensing cell and the end touch sensing cell, (D) between the last touch sensing cell located in the direction of the end touch sensing cell and the start touch sensing cell located at the start touch sensing cell among the sensing cells.

The driving control unit 229 calculates the relative movement distance of the touch based on the touch movement distance and the available movement distance, and starts the on-driving of the illumination unit at the lowest intensity and increases the size of the power applied to the illumination unit based on the relative movement distance Thereby controlling the brightness of the illumination unit. The drive control unit 229 calculates the relative touch movement distance d _C and the power source size V using the following equations (1) and (2)

[Equation 1]

&Quot; (2) "

Here, V _MAX denotes a power source size for outputting the set maximum luminance intensity.

Referring to FIG. 6, when the user touches one touch sensing cell among a plurality of horizontally arranged touch sensing cells, When the user touch moves to increase the luminance of the illumination unit, the relative touch movement distance between the usable movement distance and the touch movement distance actually moved by the user is calculated, and the relative touch movement distance is calculated in proportion to the relative touch movement distance. And controls the power supplied to the illumination unit to increase the luminance.

In the present invention, when touching one touch sensing cell arbitrarily among a plurality of touch sensing cells, it is possible to prevent the disturbance due to illumination from the peripheral users aboard the vehicle by controlling the lighting unit on-driving with the lowest luminance intensity, The brightness of the illumination unit can be controlled quickly and conveniently using the touch movement distance.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of protection of the present invention should be determined by the technical idea of the appended claims.

1: vehicle interior lighting device 10: case
20: transparent window 110: touch sensor part
120: control unit 130:
121, 221: start position determination unit 123, 223: end position determination unit
125: direction determination unit 127: distance calculation unit
129, 229: drive control unit 225: movement distance calculation unit
227: available distance calculation unit

Claims (6)

1. An indoor lighting device installed in an interior of a vehicle,
An illumination unit provided with a light source for illuminating the interior of the vehicle;
A touch sensor unit having a plurality of touch sensing cells and outputting touch information of a user; And
And a control unit for controlling on / off driving of the illumination unit or controlling the brightness of the illumination unit based on the touch information. The method according to claim 1,
The touch sensor unit senses the position of the touch sensing cell in which the user touches the touch sensing cell among the plurality of touch sensing cells through the plurality of touch sensing cells,
Wherein the control unit drives and controls the intensity of the illumination unit based on the touch information. 3. The apparatus of claim 2, wherein the control unit
A start position determination unit for determining position information of a first touch sensing cell in which the first user touches the touch sensing cell among the plurality of touch sensing cells;
An end position determination unit for determining position information of a second touch sensing cell of the plurality of touch sensing cells whose user's touch ends;
A movement direction determination unit for determining a touch movement direction of the user based on the position information of the first touch sense cell and the position information of the second touch sense cell;
A movement distance determination unit for determining a touch movement distance of the user based on the position information of the first touch sense cell and the position information of the second touch sense cell; And
Wherein the control unit controls the illumination unit to be driven at a first brightness intensity mapped to the first touch sensing cell and controls the brightness of the illumination unit based on the touch movement direction and the touch movement distance of the user from the first brightness intensity And a driving control unit for controlling the driving of the vehicle. 3. The apparatus of claim 2, wherein the control unit
A start position determination unit for determining position information of a first touch sensing cell in which the first user touches the touch sensing cell among the plurality of touch sensing cells;
An end position determination unit for determining position information of a second touch sensing cell of the plurality of touch sensing cells whose user's touch ends;
A movement distance calculation unit for calculating a touch movement distance of the user based on the position information of the first touch sense cell and the position information of the second touch sense cell;
An available distance calculating unit for calculating an available moving distance between the first touch sensing cell and the last touch sensing cell located in the direction of the second touch sensing cell among the plurality of touch sensing cells;
And a drive controller for calculating a relative movement distance based on the touch movement distance and the available movement distance and controlling the intensity of the illumination unit based on the relative movement distance, . 5. The apparatus of claim 4, wherein the drive control unit
And controls the luminance intensity of the illumination unit to increase in proportion to the relative movement distance at the lowest luminance intensity. 6. The method according to any one of claims 1 to 5,
Wherein the illumination unit comprises a plurality of light emitting diode (LED) modules.

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