KR20120013112A - lighting device using touch method - Google Patents

Abstract

PURPOSE: A touch type lighting device is provided to improve reaction speed and accuracy by reacting according to the change of light accepting modulus of light which is reflected. CONSTITUTION: A lighting part(100) is composed by installing an LED chip(120) in a substrate(140). A touch plate(200) is installed on the upper side of the lighting part. An optical sensor(110) is installed in a location corresponding to a penetration hole(130) which is formed in the lighting part. A controller determines the change of brightness of the light which is detected from the optical sensor and controls the lightning part. The controller is connected to an external device and controls power of the external device.

Description

Lighting device using touch method}

The present invention relates to a touch type lighting device, and more particularly, a control device connected to an LED driver when a LED chip is mounted on a board to attach a sensor to detect a received light amount and to change the received light amount. It relates to a touch type lighting device that can adjust the lighting device through.

Recently, devices that can be used to control external devices, that is, devices that can be adjusted and controlled by the touch of the surface of the device have been introduced. The switching device for the operation of the device by the external touch or the operation and control of the external device is coated with a thin transparent conductive material, sends a minute current, and detects a change in the current when the current flows. There is an electrostatic touch type device for controlling the operation state.

On the contrary, there is a pressurized touch type device that installs two thin transparent plates on the surface of the device and touches the lower plate when pressure is applied to the plate.

However, the electrostatic touch method may cause deformation of the material coated on the surface of the device, and there is a possibility of malfunction due to the change of the current value. Has its drawbacks. In addition, the pressurized touch method has a slow reaction speed and is likely to cause an error in operation due to poor precision. In addition, the electrostatic touch method and the pressurized touch method have a disadvantage in that the manufacturing unit is relatively expensive because the receiving part receiving the external touch in addition to the sensor and the control device must be coated or made of a special material substrate.

Accordingly, an object of the present invention is to solve such a conventional problem, and unlike a device for detecting a change in current generated by flowing a fine current or detecting a contact by external pressure, It is to provide a touch-type lighting device with fast response, high accuracy and low production cost because the sensor is equipped with a sensor to determine the change in the light receiving rate without installing a material panel.

The touch lighting device according to the present invention includes an illumination unit in which the LED chip is installed on the substrate on which the through-hole is formed; A touch plate installed on the lighting unit; An optical sensor installed at a position corresponding to the through hole formed in the lighting unit; And a controller for controlling the lighting unit or controlling an external device by determining a change in brightness of light detected by the optical sensor when there is external contact on the touch plate. Lighting unit; A touch plate installed on the lighting unit; An optical sensor provided on the substrate; And a controller for controlling the lighting unit or controlling an external device by determining a change in brightness of light detected by the optical sensor when there is an external contact on the touch plate.

The control unit controls at least one of the LED drivers to emit light when there is an external contact on the upper part of the touch plate, and adjusts the color of the lighting device by controlling the power supply to the LED drivers of the previously emitting color. And when there is an external contact on the upper portion of the touch plate is characterized in that to adjust the power supply to the driver to adjust the brightness of the light emitted.

The controller may control the LED driver when the external contact on the touch plate, the image playback, the playback image can be switched, and further includes a memory unit to store the image data, and to play the stored image When there is an external contact on the touch plate, the external device may be connected to an external device to control the power of the external device.

According to the present invention, there is provided a touch type lighting device that can function as a switch for measuring the change in the amount of received light to change the operation state of the lighting device when touched or connected to an external device to control the operation of the external device.

In addition, unlike the past touch-type lighting device because it reacts according to the change in the light reception rate of the reflected light, the reaction speed is fast, and a relatively inexpensive touch-type lighting device is provided.

1 is a cross-sectional view of a touch lighting device.
2 is a cross-sectional view of a lighting apparatus including a lower plate in a lighting unit.
3 is a cross-sectional view of a lighting apparatus in which an optical sensor is installed on a substrate without a through hole.
4 is a perspective view of a touch type lighting device.
5 is a view showing an approximate traveling path of light when there is no external contact.
6 is a view showing an approximate traveling path of light when there is external contact.
7 is a cross-sectional view of an LED lighting device that emits various colors.
8 is a block diagram of controlling a lighting device by touching the lighting device.
9 is a block diagram of controlling an external device by touching a lighting device.

The present invention relates to a touch lighting device, in detail below with reference to the accompanying drawings, a touch type lighting device according to a first embodiment of the present invention.

1 is a cross-sectional view of a touch type lighting device, and FIG. 2 is a cross-sectional view of a lighting device including a lower plate in a lighting unit. 3 is a cross-sectional view of a lighting apparatus in which an optical sensor is installed on a substrate without a through hole.

As shown in FIG. 1 and FIG. 2, the touch type lighting device according to the present invention includes an illumination unit 100 in which an LED chip 120 is installed on a substrate 140 on which a through hole 130 is formed, and the illumination unit 100. The optical sensor 110 is installed at a position corresponding to the touch plate 200 installed on the upper portion, the through-hole 130 formed in the lighting unit 100, the optical sensor when there is an external contact on the upper portion of the touch plate 200 Of brightness of detected light The controller 300 may be configured to control the lighting unit 100 or to control the external device 500 by determining the change.

The lighting unit 100 is provided with a cavity (not shown) for installing or installing the LED chip 120 on the substrate 140, and the side wall of the cavity (not shown) forms an inclined surface. The substrate is electrically connected to the LED chip 120 through a wire (not shown). The LED chip 120 is fixed by filling a transparent resin (not shown) into the cavity (not shown). In addition, the substrate 140 of the lighting unit 100 is a PCB substrate or a metal core PCB (MCPCB), LED packages are arranged on the substrate to form a surface light source. The metal core PCB is a PCB having an insulator plate formed on upper and lower surfaces of a core of a metal material (for example, aluminum), and has a characteristic of easily dissipating heat when a large number of LED chips 120 are mounted.

In addition, the light sensor is installed on the upper end of the lighting unit or the lower plate is installed in the lower plate position corresponding to the through-hole penetrating the lighting unit.

The LED chip 120 is at least one of red, green, blue, white color elements. In this case, the driver 400 is connected to each color element of the LED chip 120, and a plurality of through holes 130 are formed in the substrate 140 to allow the optical sensor 110 to be installed.

The touch plate 200 is a component that receives an external magnetic pole (touch) on the upper portion of the lighting unit 100 is made of a transparent material, it is preferable that the light diffusion plate. Light emitted from the lighting unit 100 is emitted through the touch plate 200.

When the light sensor 110 irradiates light to the semiconductor by using the photoconductive effect, the carrier density in the semiconductor increases and the conductivity increases. The free electrons of the valence band are excited to the conduction band by light energy from the outside. Use the phenomenon. Such an optical sensor 110 is called a photoconductive effect type optical sensor (CdS), and the photoconductive effect type optical sensor can be used in an AC circuit without polarity and sinters the CdS powder on a small ceramic substrate. CdS forms a resistor by enclosing the photoconductor with the left and right electrodes, and the cadmium sulfide of CdS acts as the photoconductor. When light energy is incident, the photoconductive effect occurs internally and the internal resistance between the two electrodes is reduced. Use

When there is external contact on the upper portion of the touch plate 200, the controller 300 controls at least one of the red, green, blue, and white LED drivers 400 to emit light, and the LED of the color that is previously emitting light is emitted. By adjusting the power supply to the driver 400 to adjust the brightness of the light or to flash. That is, it is connected to the optical sensor 110 to recognize the change in the amount of light detected by the sensor to control the LED driver 400 to adjust the power supply or connected to the external device 500 is connected to the external device 500 It will be in charge of controlling the power of).

In the present invention, the touch type lighting device includes an LED chip 120, a through hole 130 is formed to install the optical sensor 110, and a touch plate 200 is installed above the lighting unit.

As shown in FIG. 3, in the touch-type lighting device of the present invention, an optical sensor 110 is positioned on a plane substrate 140 on which the LED chip 120 is mounted. In this case, the through hole 130 is not provided, and the principle of the brightness control of the lighting device according to the external contact on the upper portion of the touch plate is the same as the touch type lighting device having the through hole.

4 is a perspective view of the above-described touch type lighting device.

5 is a view showing an approximate traveling path of light when there is no external contact.

When there is no contact outside the touch plate 200, the light having the wave propagates to the touch plate 200 and the light incident on the touch plate 200 at the incident angle θ is a light that is refracted while entering a medium having different characteristics. There is reflected light. The reflected light is incident on the through hole 130 formed in the lighting unit substrate 140. In addition, the transmitted light again meets another medium called air, and the light which has been propagated in the touch plate 200 has the light refracted and the reflected light again. At this time, a part of the reflected light enters into the lighting unit 100. As shown in FIG. 4, as a result of examining the traveling path of the light having a constant angle, a certain amount of light is incident to the through hole 130 while continuing reflection and refraction. 110 is detected.

6 is a view showing an approximate traveling path of light when there is external contact.

When there is a contact outside the touch plate 200, the light incident on the touch plate 200 at the incident angle θ, as described above, has light that is refracted and reflected light while entering a different medium. The reflected light is incident on the through hole 130 formed in the lighting unit substrate 140. The transmitted light again encounters another object such as a human hand, but also extinguishes light. However, some reflected light exists, and the reflected light passes through the touch plate 200 to be incident into the lighting unit 100. At this time, the incident light is incident into the through hole 130 as shown in FIG. 6. When the incident light is subjected to a constant stimulus of light when there is no contact with the outside, the amount of free electrons excited by the conduction band is changed to detect that there is a constant stimulus on the outer surface of the touch plate 200.

7 is a cross-sectional view of an LED lighting device that emits various colors.

8 is a block diagram of controlling a lighting device by touching the lighting device.

9 is a block diagram of controlling an external device by touching a lighting device.

As shown in FIGS. 8 and 9, when there is an external stimulus (touch) in the lighting device, the controller 300 controls the LED driver 400 to supply the lighting device by the change in the light receiving rate of the optical sensor 110. By controlling the power supply, the brightness of the light can be adjusted or blocked and the color of the lighting device can be changed. In addition, by playing or changing an image or by controlling the power supply of the external device by controlling the power supply of the external device, the control unit 300 can control or block the brightness of the light so that the actual lighting device can serve as a brightness control switch. Make sure

More specifically, the control unit that detects a change in the amount of current flowing in the optical sensor 110 cuts off the power supplied through the LED driver 400 to extinguish the light, or change the power supply to the brightness of the light Adjust Alternatively, as shown in FIG. 8, power is supplied to the LED devices of different colors to change the color of light to the lighting device.

In addition, the controller 300 may control the LED driver when the external contact on the touch plate 200, the image playback, the playback image can be switched, and further includes a memory unit (not shown) to store the image data And playing the stored video. When the relevant image is played in the LED billboard and the upper surface of the touch plate 200 is touched, the advertisement image or the phrase is changed.

The control unit 300 may control the power of the other external device 500 so that the power supply from the external device 500 may be cut off when the amount of light detected by the optical sensor 110 changes. do. In other words, it may serve as a power switch of an external device.

The scope of the present invention is not limited to the above-described embodiment, but may be embodied in various forms of embodiments within the scope of the appended claims. Without departing from the gist of the invention claimed in the claims, it is intended that any person skilled in the art to which the present invention pertains falls within the scope of the claims described in the present invention to various extents which can be modified.

100 lighting 110 light sensor
120 LED Chip 130 Through Hole
140 Substrate 150 Bottom Plate
200 touchplate 300 control unit
400 Device 500 External device

Claims (6)

An illumination unit in which an LED chip is installed on a substrate on which a through hole is formed;
A touch plate installed on the lighting unit;
An optical sensor installed at a position corresponding to the through hole formed in the lighting unit;
And a controller for controlling the lighting unit or controlling an external device by determining a brightness change of the light detected by the optical sensor when there is an external contact on the touch plate.
An illumination unit provided with an LED chip on the substrate;
A touch plate installed on the lighting unit;
An optical sensor provided on the substrate;
And a controller for controlling the lighting unit or controlling an external device by determining a brightness change of the light detected by the optical sensor when there is an external contact on the touch plate. The method according to claim 1 or 2,
The control unit controls at least one of the LED drivers to emit light when there is an external contact on the upper part of the touch plate, and adjusts the color of the lighting device by controlling the power supply to the LED drivers of the previously emitting color. Touch lighting device. The method according to claim 1 or 2,
The control unit is a touch type lighting device, characterized in that when there is an external contact on the touch plate to adjust the power supply to the driver to adjust the brightness of the emitted light. The method according to claim 1 or 2,
The controller may control an LED driver when the external contact is located on the upper portion of the touch plate, and may be used to play back and switch video. The memory may further include a memory to store video data and play back the stored video. Touch lighting device. The method according to claim 1 or 2,
The control unit is a touch type lighting device, characterized in that when there is an external contact on the touch plate can be connected to an external device to control the power of the external device.

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