KR20130055899A - Led lighting apparatus improved rendering and that method - Google Patents

Abstract

PURPOSE: A color rendering correction type LED(Light Emitting Diode) lighting device and a correction method thereof are provided to improve color rendering of a lighting device by enabling the wavelength size of an LED light source to be maintained at a predetermined wavelength size value. CONSTITUTION: A lighting device(1) is composed of LED light sources(10) and a circuit part(20). The circuit part detects whether there is a change in the wavelength size of one among multiple LED light sources and enables the wavelength size to be increased or decreased to an initial state or a size desired by a user. An increase/decrease part(21) is connected to each of the multiple LED light sources and enables the wavelength size of the LED light source to be individually increased.

Description

Color rendering corrected LED lighting device and its correction method {LED lighting apparatus improved rendering and that method}

The present invention relates to a color rendering correction type LED lighting device and a method for correcting the same, the color rendering property that can be improved color rendering property by sensing the wavelength size change of the plurality of LED light sources mounted on the lighting device, and then compensates for the increased or decreased wavelength size value It relates to a correction type LED lighting device and a correction method thereof.

In general, the lighting device uses an artificial light source to perform the lighting function.

That is, in the case of indoor or nighttime, since sunlight cannot be used, various types of artificial light sources are used to perform lighting functions. However, the lighting device using the artificial light source is less color rendering than the sunlight can not perform a variety of lighting. For example, when the incandescent lamp is used as a light source of the lighting device, the color of the object is highlighted with red or yellow, and when the fluorescent lamp is used, the blue is highlighted.

Korean Patent Laid-Open Publication No. 10-0106945 discloses a wavelength conversion light emitting device having excellent color temperature and color rendering property as described in the prior art for solving the above problems. And at least one light emitting device that primarily generates light of different wavelengths, and means for converting the primary light into secondary light in a visible light spectrum region.

However, the prior art as described above should use only fixed illumination according to the characteristics of the light source, and thus only the illumination emitting only the standardized wavelength is used. That is, the light source performs a fixed illumination, and thus there is a problem in that color rendering is poor due to the failure of some light source elements in the illumination.

KR 10-0106945 A November 11, 2005

In order to solve the problems as described above, in the present invention, when the wavelength size increase or decrease phenomenon occurs in any one of the LED light source used in the illumination device, the wavelength size of the LED light source whose wavelength size value is reduced is set It is an object of the present invention to provide a color rendering correction type LED lighting apparatus and a method of correcting the sensitized portion is formed to be maintained.

The present invention provides a plurality of LED light source; And a circuit portion for increasing or decreasing the wavelength of the LED light source when the size of the wavelength of the at least one LED light source is changed.

In addition, the circuit portion further includes a sensitizer for increasing or decreasing the wavelength size of each LED light source individually.

In addition, the sensitizer is provided in a number corresponding to the LED light source.

In addition, the sensitizer is formed of a variable resistor.

In addition, the circuit unit is provided on one side of the lighting device is a wavelength sensing unit for automatically detecting a change in the wavelength size of the LED light source, and a sensitizing portion for increasing or decreasing the wavelength size of the LED light source according to the signal of the wavelength detection unit is formed.

In addition, the circuit unit is formed to increase or decrease to the set wavelength through the sensitizer when a change value that is increased or decreased to the reference change value relative to the set wavelength size of each LED light source.

The present invention includes a driving step of driving a plurality of LED light sources by a power input; A sensing step of detecting a change in the wavelength of the LED light source; When the change in the detected wavelength size is increased or decreased at the reference change value, a correction step of correcting the wavelength size of the LED light source is performed.

In addition, the sensing step includes increasing or decreasing the wavelength size of each LED light source individually.

In addition, the sensing step controls the signal input to the LED light source with a variable resistor.

In addition, the sensing step is measured by the user.

In addition, the sensing step is automatically detected by the wavelength detection unit provided in the lighting device.

Color rendering correction type LED lighting apparatus and a method for correcting the same according to the present invention, a wavelength size value determined by using the sensitizer according to the sensing and control signals provided on one side of the circuit unit or separately provided with a sensitizer is connected to a plurality of LED light source individually As the wavelength of the LED light source can be maintained, the color rendering property of the lighting device is improved, so that an object can be perceived more clearly to the user.

1 is a reference diagram of the invention cited
2 is a cross-sectional view of the color rendering correction type LED lighting apparatus of the present invention
3 is a block diagram of the color rendering correction type LED lighting apparatus of the present invention
4 and 5 is another embodiment of the color rendering correction type LED lighting apparatus of the present invention
6 is a wavelength graph of the color rendering correction type LED lighting apparatus of the present invention
7 is a flowchart of a method for correcting color rendering of the present invention

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the color rendering correction type LED lighting apparatus according to the present invention. For convenience of explanation, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

2 is a cross-sectional view of the color rendering correction type LED lighting apparatus of the present invention, Figure 3 is a block diagram of the color rendering correction type LED lighting apparatus of the present invention, Figures 4 and 5 is another embodiment of the color rendering correction LED lighting apparatus of the present invention 6 is a wavelength graph of the color rendering correction type LED lighting apparatus of the present invention, and FIG. 7 is a flowchart illustrating a color rendering method of the present invention, and reference numeral 1 denotes a lighting apparatus according to the present invention.

As shown in FIGS. 2 and 3, the lighting apparatus 1 according to the exemplary embodiment of the present invention has a plurality of LED light sources 10 emitting various wavelengths, and a plurality of LED light sources 10 are fixed to the bottom surface. It consists of a structure that includes the circuit portion 20.

The circuit unit 20 detects a change in the wavelength of any one of the plurality of LED light sources 10 to increase or decrease the wavelength to an initial state or a size desired by the user. Of course, the wavelength sensor used can be detected manually.

For example, after installation of the lighting apparatus 1 in which the LED light source 10 of the present invention is installed, the wavelength measurement value of each LED light source 10 is manually measured by a user using a wavelength sensor. The wavelength of the LED light source 10 is shown as a different size of wavelength according to the use time of the lighting device 1 or the state of the LED light source 10, as shown in FIG. You can adjust the size of the wavelength to the initial state or the size you want.

In addition, the circuit unit 20 may allow the wavelength size of the LED light source 10 to be individually increased through the increase and decrease units 21 connected to the plurality of LED light sources 10, respectively. It is formed to be able to change the wavelength size of the LED light source 10 individually by changing the voltage or current value input to the LED light source 10 by adjusting the resistance value.

In the lighting apparatus 1 according to another embodiment of the present invention, as shown in FIGS. 4 and 5, a plurality of LED light sources 10 and a circuit unit 20 to which the LED light sources are fixed are formed.

The circuit unit 20 detects the wavelength size values of the plurality of LED light sources 10 respectively formed as described above, and then sets or sets the wavelength size initially set for the LED light source 10 having increased or decreased. In order to increase or decrease the wavelength, the wavelength detection unit 22 is formed on one side of the lighting device 1 or the circuit unit 20 to continuously detect the wavelength of the LED light source 10 and the signal of the wavelength detection unit 22. As a result, a sensitizer 21 for increasing or decreasing the wavelength size value of the LED light source 10 is formed.

In addition, the circuit unit 20 is to be increased or decreased to the wavelength set by the sensitizer 21 when a change value out of the reference change value is detected in comparison with the magnitude of the wavelength set in each LED light source 10, When a change in the wavelength size occurs in the range of 2 to 10%, the wavelength detection unit 22 transmits a sensitization signal to the sensitizer 21.

In particular, the wavelength detection unit 22 provided on one side of the lighting device 1 or the circuit unit 20 automatically detects the change in the wavelength and delivers the change to the user, or through the well-known automatic control algorithm to the sensitization unit 21. By transmitting a signal, the wavelength of the LED light source 10 can be automatically controlled.

As shown in FIG. 6, in the wavelength graph of the lighting apparatus 1 in which the LED light source 10 is used, the wavelength of some light sources is lowered by various factors as in the A diagram. This phenomenon may be difficult for human eye cells to detect, which may reduce eyesight, increase eye strain, and make it difficult to clearly distinguish colors. However, by correcting the wavelength of the LED light source 10, which is increased or decreased through the sensitizer 21 connected to each light source as shown in the B diagram, the color rendering property can be improved by maintaining a constant wavelength like natural light. .

Although not shown in the drawing, when the wavelength is increased, the wavelength may be adjusted to reduce the wavelength by adjusting the sensitizer 21 according to the signal of the wavelength detector 22.

In the color rendering correction method according to the present invention, as shown in Figure 7, when the LED is turned on in the driving step of driving the LED light source 10 by an external power source, the detection for detecting the change in the wavelength of the LED light source 10 In the step, the wavelength is measured.

Here, the change in the size of the wavelength may be measured manually by a commercially available person through a wavelength sensor from the outside, or automatically detected by a wavelength detector 22 provided on one side of the circuit unit 20 or the lighting device 1. 21) can generate the increase and decrease signals.

Measuring the change in the wavelength of the LED light source 10, if the increase and decrease of the detected wavelength size change based on the reference change value is generated by the increase and decrease section 21 generates a wavelength size of the LED light source 10 The calibration step of adjusting the initial setting value or the desired setting value is carried out, and if the change in the wavelength does not occur, the LED light source 10 may be kept lit or the power may be turned off.

On the other hand, the wavelength size control of the LED light source 10 is to allow the sensitizer 21 is automatically controlled through a general automatic control circuit, the wavelength size of the LED light source 10 can be individually controlled through a variable resistor. .

The LED lighting apparatus and the method for correcting the color rendering according to the present invention, the wavelength is determined by using the sensitizer according to the sensing and control signals provided on one side of the circuit unit or separately provided with a sensitizer is connected to a plurality of LED light source individually By allowing the wavelength of the LED light source to be maintained as a value, the color rendering property of the lighting device is improved, so that an object can be perceived more clearly to the user.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand. Therefore, the true technical protection scope of the present invention will be defined by the claims below.

10: LED light source 20: circuit portion
21: sensitization section 22: wavelength detection section

Claims (11)

A plurality of LED light sources; And
The color rendering correction type LED lighting apparatus is provided with a circuit portion for increasing or decreasing the wavelength of the LED light source when the size of the wavelength of at least one LED light source is changed. The method of claim 1,
The circuit unit further comprises a chrominance correcting LED illumination device, characterized in that the increase and decrease the wavelength size of each LED light source individually. The method of claim 2,
The color rendering correction type LED lighting apparatus, characterized in that the increase and decrease is provided in a number corresponding to the LED light source. The method of claim 2,
The color rendering correction type LED lighting device, characterized in that the sensitizer is formed of a variable resistor. The method of claim 1,
The circuit unit is provided on one side of the lighting device to automatically detect the wavelength change of the wavelength of the LED light source, and the color rendering correction type characterized in that the increase and decrease of the wavelength of the LED light source in accordance with the signal of the wavelength detection unit formed LED lighting device. The method of claim 5,
The circuit unit is a color rendering correction type LED lighting device, characterized in that for each LED light source is detected by the wavelength detection unit when the change value is increased or decreased to the reference change value compared to the set wavelength size. A driving step of driving a plurality of LED light sources by a power input;
A sensing step of detecting a change in the wavelength of the LED light source;
And a correction step of correcting the wavelength size of the LED light source when the change in the wavelength size detected in the step is increased or decreased from the reference change value. The method of claim 7, wherein
The detecting step includes the step of increasing or decreasing the wavelength size of each LED light source individually. The method of claim 7, wherein
The detecting step is a color rendering correction method, characterized in that for controlling the signal input to the LED light source with a variable resistor. The method of claim 7, wherein
The detecting step is a color rendering correction method, characterized in that measured by the user. The method of claim 7, wherein
The detecting step is a color rendering correction method, characterized in that automatically detected by the wavelength detection unit provided in the illumination device.

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