KR20120120996A - Physiolgy sensitized light emitting diodes lighting apparatus - Google Patents

Abstract

PURPOSE: A physiology sensitized light emitting diode lighting apparatus is provided to encourage germination, inflorescence, and growth of plants by properly mixing light in specific wavelengths. CONSTITUTION: An LED light source(11) generates light of a first wavelength. The LED light source is mounted in a housing(12). An optical conversion part(13) is detachably formed on the housing. The optical conversion part generates light of a second wavelength by absorbing the light of the first wavelength. The optical conversion part includes a fluorescent substance with a quantum dot fluorescent substance.

Description

Physiologically sensitive light emitting diode lighting device {PHYSIOLGY SENSITIZED LIGHT EMITTING DIODES LIGHTING APPARATUS}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a light emitting diode illumination device, and more particularly, to a physiologically sensitive light emitting diode illumination device capable of promoting the germination, flowering, and growth of plants by appropriately mixing and mixing ratios of wavelengths of light emitted from an LED.

Plants have different optimal growth wavelengths. For lighting devices required for plant growth, incandescent lamps, fluorescent lamps, halogen bulbs, high-pressure sodium bulbs, etc. have been conventionally used, but recently, semiconductor light emitting diodes have been used in place of them. Plant cultivation lighting apparatus using a semiconductor light emitting diode can improve the photosynthetic action of plant growth and the economic effect of energy saving and environmental protection can be spread. The lighting device for plant cultivation includes a plant growth and growth cultivation apparatus having a control unit for plant growth and growth by irradiating light having a predetermined brightness.

Conventionally, in order to change the wavelength of light in accordance with the type of plant or the growth situation, there is an illumination device that can change the wavelength by arranging various types of LEDs emitting light of a predetermined wavelength at an appropriate ratio. However, the conventional lighting device for plant cultivation has to be equipped with a complex control unit to form a light source having a wavelength necessary for plant growth, germination, and flowering. Difficult to do In addition, existing lighting devices are theoretically possible but are not only difficult to apply but also inefficient. In addition, because of the complex system structure, not only causes frequent failures, but also the system has a technical limitation that it is difficult to make a profit due to excessive investment costs. In addition, some of the light sources for generating a certain wavelength of the plurality of light sources of the lighting device is driven, the rest of the light sources are not used, and occupies unnecessary space due to the unused light source, so that the size of the lighting device becomes unnecessarily large. There is this. In addition, the space required for plant growth must maintain high humidity, so that the components of the lighting device cannot be free from aging and breakdown.

According to embodiments of the present invention, to provide a physiologically sensitive light emitting diode lighting device that promotes germination, flowering, and growth of plants by appropriately mixing ratios for specific wavelength bands of light.

In addition, it is to provide a physiologically sensitive light emitting diode lighting device that can be applied to an existing lighting device that is already installed even when the type of plant to be cultivated is changed.

The physiologically sensitive light emitting diode lighting apparatus for optimizing plant growth according to the embodiments of the present invention as described above generates light of a first wavelength and is detachably attached to the LED light source unit, a housing to which the LED light source unit is mounted, and the housing. And a light conversion unit that absorbs light of the first wavelength and generates light of the second wavelength. Here, the physiologically sensitive light emitting diode illumination device, the light conversion unit includes a phosphor including at least a quantum dot phosphor.

According to one side, the light of the first wavelength may have an ultraviolet wavelength (200nm ~ 420nm) or blue series wavelength (420nm ~ 490nm). The light having the second wavelength may have a green wavelength, a red wavelength, or an infrared wavelength band.

According to one side, the light conversion unit may adjust the intensity of the relative light between the light of the first wavelength and the light of the second wavelength by adjusting the compounding amount of the phosphor.

According to one side, the LED light source unit may be a lamp type LED or SMD (Surface Mount Devices) type LED.

On the other hand, the above-described physiological sensitive light emitting diode lighting apparatus for optimizing the plant growth according to the other embodiments of the present invention, the LED light source for generating light of the first wavelength, the cover plate surrounding the LED light source to form an appearance And a light converting unit which absorbs light of the first wavelength and generates light having a second wavelength, wherein the light converting unit includes a phosphor including at least a quantum dot.

According to one side, the light conversion unit may be mounted on either or both of the cover plate or the LED light source. For example, the light conversion unit may be detachably attached to the cover plate, and the light conversion unit may adjust the relative light intensity between the light of the first wavelength and the light of the second wavelength by adjusting the compounding amount of the phosphor. .

According to one side, the LED light source unit may be a lamp type LED or SMD (Surface Mount Devices) type LED.

According to one side, an auxiliary plate may be provided between the LED light source and the cover plate.

As described above, according to the embodiments of the present invention, the desired wavelength can be selectively used by using the light conversion unit coated with the phosphor including the LED and the quantum dot phosphor, and the optimum growth wavelength of each plant can be realized. have.

In addition, according to the present embodiment, since the light conversion unit coated with the quantum dots is used to generate light having a predetermined wavelength, only the light conversion unit needs to be replaced to change the wavelength, thereby making it easy to replace and reduce the size of the lighting device. Can be.

In addition, even when the type of plant to be cultivated is changed, since the lighting apparatus according to the present embodiment can be used without changing the lighting apparatus, various kinds of plants can be grown through one lighting apparatus.

1 is a perspective view of a LED lighting apparatus according to an embodiment of the present invention.
2 is a schematic diagram schematically showing a light emitting diode lighting apparatus according to another embodiment of the present invention.
3 is an exploded perspective view of a LED lighting apparatus according to another embodiment of the present invention.
4 is an exploded perspective view illustrating a modified embodiment of the LED lighting apparatus of FIG. 3.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the present invention is not limited to or limited by the embodiments. In describing the present invention, a detailed description of well-known functions or constructions may be omitted for clarity of the present invention.

Hereinafter, a physiologically sensitive LED lighting apparatus 10 according to embodiments of the present invention will be described in detail with reference to FIG. 1. For reference, FIG. 1 is a perspective view of a lighting device 10 having a LED light source in the form of a lamp as a light emitting diode lighting device 10 according to an embodiment of the present invention.

The LED lighting apparatus 10 includes a light emitting diode (hereinafter, referred to as an “LED light source unit 11”) that generates light having a first wavelength and a quantum dot to generate light having a second wavelength. It comprises a light conversion unit 13 coated with a phosphor containing QD).

For example, the LED lighting apparatus 10 includes a housing 12 having a lamp-shaped LED light source unit 11 mounted thereon and forming an exterior to emit light emitted from the LED light source unit 11. do. In the housing 12, a light conversion unit 13 detachably formed is mounted. In the present embodiment, the lamp-shaped LED light source and the lampshade-shaped housing 12 have been described as an example, but the present invention is not limited to the drawings, the shape of the housing 12 and the shape of the LED lighting device 10 May vary substantially. The shape of the light conversion unit 13 may also be variously changed as long as it is detachable from the LED lighting apparatus 10.

The LED light source unit 11 generates light in the wavelength band of the ultraviolet region or the visible ray region. For example, the LED light source unit 11 is formed of an LED having an ultraviolet wavelength (200 nm to 420 nm) or a blue series wavelength (420 nm to 490 nm).

The light conversion unit 13 is coated with a quantum dot to generate light of a second wavelength band different from the LED light source unit 11, the coated quantum dot has a property of a phosphor, having a wavelength of a desired color according to the applied power Can implement light. For example, the light conversion unit 13 may generate light of a wavelength band capable of absorbing wavelengths of green to red and the entire visible light region. In addition, the light conversion unit 13 may adjust the relative light intensity between the light of the first wavelength and the light of the second wavelength by adjusting the compounding amount of the applied phosphor.

In addition, the LED lighting apparatus 10 includes a plurality of light conversion units 13 for generating light of various wavelength bands, and a light conversion unit 13 for forming a desired wavelength band among the plurality of light conversion units 13. ), You can easily generate the desired wavelength of light at any time. In addition, since the light conversion unit 13 has a form to be mounted on the housing 12, it is easily replaceable. That is, the light emitting diode illumination device 10 is sufficient to replace the light conversion unit 13 in order to change the wavelength of light, and since the control unit for changing the wavelength of light is not necessary, the configuration of the light emitting diode illumination device 10 Can be simplified, and the size can be reduced.

When the light conversion unit 13 is inserted and operated in the LED light source unit 11, the light of the first wavelength generated by the LED light source unit 11 or the light of the second wavelength generated from the quantum dots is generated alone, or Light of the first and second wavelengths is mixed to generate light of a specific wavelength band. In addition, the light emitting diode illumination device 10 includes a physiologically sensitive light emitting diode illumination device 10 capable of promoting the germination, flowering, and growth of plants by appropriately mixing light of the first wavelength and light of the second wavelength. Can be configured.

For example, mixing blue, red and near-infrared wavelengths is effective for the growth of certain plants. Alternatively, light having a wavelength effective for germinating plant seeds can be generated and used for plant seed germination.

Unlike the above-described embodiment, the LED lighting device 20 may be an LED light source 211 of SMD (Surface Mount Devices) type equipped with a plurality of LED light source units 21. Hereinafter, the SMD type light emitting diode lighting apparatus 20 will be described in detail with reference to FIGS. 2 to 4.

Referring to the drawings, the LED lighting device 20 includes a plurality of LED light sources therein so that the LED lighting device 20 generates light of a predetermined wavelength band for plant growth and irradiates light to a relatively large area. 21 has a substantially flat plate shape. For example, as shown in FIG. 2, it has a flat form of predetermined width, and irradiates light from the upper part in which the target plant is growing. In FIG. 2, reference numeral 200 denotes a power supply unit 200.

The LED lighting device 20 includes a cover plate 22 forming an exterior and an LED light source unit 21 in which a plurality of LED light sources 211 are arranged and arranged in a planar shape inside the base plate 26.

Between the LED light source unit 21 and the base plate 22, a heat generating unit 25 including a heat sink 251 for cooling the heat emitted from the LED light source unit 21 is provided. In addition, an auxiliary plate 24 may be provided between the LED light source unit 21 and the cover plate 22 to uniformly irradiate the plants with light generated by the LED light source unit 21. In this embodiment, the auxiliary plate 24 is provided between the LED light source unit 21 and the cover plate 22 as an example, but the auxiliary plate 24 is disposed between the LED light source unit 21 and the base plate 26. It may also be provided.

Here, the LED light source unit 21 generates light in the wavelength range of the ultraviolet region or visible light region, and the light conversion unit 23 for generating light of the second wavelength band different from the light generated by the LED light source unit 21 is It is provided.

For example, the LED light source unit 21 includes a plurality of LED light sources 211 having an ultraviolet wavelength or a blue series wavelength. The light conversion unit 23 includes a phosphor including a quantum dot to generate light of a second wavelength band different from that of the LED light source unit 21. For example, the light conversion unit 23 may generate light of a wavelength band capable of absorbing wavelengths of green to red and the entire visible light region. Here, the light conversion unit 23 may adjust the relative light intensity between the light of the first wavelength and the light of the second wavelength by adjusting the compounding amount of the included phosphor.

As shown in FIG. 3, the light conversion unit 23 is formed by coating a phosphor including a phosphor having a quantum dot on the inner surface of the cover plate 22 to a inner surface of the cover plate 22 to a predetermined thickness. Or in the form of a film. Alternatively, unlike the above example, the light conversion unit 23 may have a form detachably mounted inside or outside the cover plate 22. However, the shape of the light conversion unit 23 is not limited by the drawings, and may have substantially various shapes capable of absorbing light emitted from the LED light source unit 21 and generating light having a second wavelength.

On the other hand, as shown in Figure 4, the light conversion unit 33 may be provided in a form that can wrap the individual LED light source 331 in the LED light source unit 33. For example, the light conversion unit 33 may have a form of a box or a case having a predetermined size surrounding the outside of each LED light source 331. However, the present invention is not limited by the drawings, and the size and shape of the light conversion unit 33 may be changed in various ways. In addition, the light conversion unit 33 illustrated in FIG. 4 is also detachably formed in the LED lighting apparatus 30 similarly to the light conversion units 13 and 23 according to the above-described embodiments.

Here, the LED lighting device 30 illustrated in FIG. 4 has substantially the same shape except for the LED lighting device 20 shown in FIG. 3 and the light conversion unit, and the same name is used for the same component. , 30 reference numerals are used, and duplicate descriptions are omitted.

According to the present embodiment, the light of the first wavelength irradiated from the LED light source units 11, 21, 31 is used as the main light source, and the light of the second wavelength irradiated from the light conversion units 13, 23, 33 is combined. It is possible to simply generate light of a specific wavelength, and to selectively change the wavelength of the light. In addition, it is possible to adjust the relative intensity of light between the light of the first wavelength and the second wavelength by adjusting the mixing ratio of the phosphors included in the light conversion units 13, 23, 33. In addition, by replacing the light conversion unit 13, 23, 33 can easily generate the light of the desired wavelength band, the germination, flowering and growth of the plant by irradiating the light of the specific wavelength band according to the plant to be cultivated Can be promoted. In addition, since the configuration of the light emitting diode lighting device (10, 20, 30) is simple, anyone can easily increase plant cultivation efficiency, reduce energy use, and solve environmental protection and safety problems during plant cultivation.

In addition, the system for plant growth is due to the supply of moisture required for plant growth, the light emitting diode lighting device is installed and operated in a high humidity environment, the humidity can shorten the life of the LED light source and the LED lighting device. However, according to the present exemplary embodiments, the light conversion parts 23 and 33 may be coated or mounted inside the cover plates 22 and 32, thereby protecting the LED light source parts 21 and 31 at ambient humidity. And life can be prevented from being shortened.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. In addition, the present invention is not limited to the above-described embodiments, and various modifications and variations are possible to those skilled in the art to which the present invention pertains. Therefore, the spirit of the present invention should not be limited to the above-described embodiments, and all the things that are equivalent to or equivalent to the scope of the claims as well as the claims to be described later belong to the scope of the present invention.

10: LED lighting device
11: LED light source
12: housing
13: light conversion unit
20: LED lighting device
200: power supply
21: LED light source
211: LED light source
22: cover plate
23: phosphor coating layer
24: auxiliary plate
25: heating unit
251: heat sink
26: base plate

Claims (10)

An LED light source unit generating light of a first wavelength;
A housing in which the LED light source unit is mounted; And
A light conversion unit detachably formed in the housing and configured to absorb light having a first wavelength and generate light having a second wavelength;
Including,
The light conversion unit is a physiologically sensitive light emitting diode lighting apparatus comprising a phosphor comprising at least a quantum dot phosphor.
The method of claim 1,
The light of the first wavelength has an ultraviolet light wavelength (200nm ~ 420nm) or a blue-based wavelength (420nm ~ 490nm).
The method of claim 1,
The light of the second wavelength is a light emitting diode lighting device having a green series wavelength, red series or infrared wavelength band.
The method of claim 1,
The light conversion unit is a light emitting diode lighting device, characterized in that for adjusting the amount of the phosphor is adjusted relative light intensity between the light of the first wavelength and the light of the second wavelength.
The method of claim 1,
The LED light source unit is a light emitting diode lighting device using a lamp type LED or SMD (Surface Mount Devices) type LED.
An LED light source unit generating light of a first wavelength;
A cover plate and a base plate surrounding the LED light source to form an exterior; And
A light conversion unit that absorbs light of a first wavelength and generates light of a second wavelength;
Including,
The light conversion unit is a physiologically sensitive light emitting diode lighting device having a phosphor containing at least a quantum dot (quantum dot).
The method according to claim 6,
The light conversion unit is a physiologically sensitive light emitting diode lighting device which is mounted on either or both of the cover plate or the LED light source.
The method according to claim 6,
The light conversion unit is provided detachably from the cover plate,
The light conversion unit is a light emitting diode lighting device, characterized in that for adjusting the amount of the phosphor is adjusted relative light intensity between the light of the first wavelength and the light of the second wavelength.
The method according to claim 6,
The LED light source unit is a light emitting diode lighting device using a lamp type LED or SMD (Surface Mount Devices) type LED.
The method according to claim 6,
Physiologically sensitive light emitting diode lighting device provided with an auxiliary plate between the LED light source and the cover plate.

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