CN103672493A - Light source device for regulating plant growth - Google Patents

Abstract

A light source device for adjusting plant growth, including a blue light-emitting diode chip or an ultraviolet light-emitting diode chip, a phosphor colloid and a red light-emitting diode chip. The blue light emitting diode chip or the ultraviolet light emitting diode chip is used to generate light with a wavelength range between 350nm and 470nm. The phosphor colloid is arranged on the blue light-emitting diode chip or the ultraviolet light-emitting diode chip, and after the phosphor colloid is excited by the blue light-emitting diode chip or the ultraviolet light-emitting diode chip, it generates light with a wavelength range between 470nm and 600nm. The red light emitting diode chip is used to generate light with a wavelength range between 600nm and 750nm.

Description

Light source device for adjusting plant growth

【Technical field】

A light source device, in particular to a light source device for adjusting plant growth.

【Background technique】

Green plants need to obtain energy through photosynthesis, so sufficient sunlight is a very important element for plant growth. However, natural sunlight cannot be controlled, and the daytime hours vary throughout the year. The daytime hours are longer in summer and shorter in winter. In order to provide plants with uninterrupted light to effectively accelerate the growth rate of plants, artificial light is becoming more and more important in the process of plant cultivation.

Generally speaking, for plants, only the light in certain bands will help plant growth and photosynthesis, and different bands of light will also have different effects on plants. Some bands of light are beneficial to root growth. Help, some bands of light are helpful to the growth of flowers.

As far as the current market is concerned, the common lamps used for plant lighting are high-pressure sodium lamps, which are mainly used as supplementary light sources when there is insufficient sunlight in seasons. However, the high-pressure sodium lamp has a short lifespan, and only a small part of its full-wavelength luminescence is absorbed and utilized by plants, and the remaining wavelengths and energy have little effect on the interaction with crops, resulting in excessive power consumption. Moreover, high-pressure sodium lamps are not energy-saving due to their high power consumption and short service life. Therefore, there is still room for improvement in lamps used for plant lighting.

【Content of invention】

The present application aims to provide a light source device for adjusting plant growth, thereby shortening the time for plant growth, and having the functions of power saving, low pollution and long life.

A light source device for adjusting plant growth of the present application includes a blue light emitting diode chip or an ultraviolet light emitting diode chip, a phosphor gel and a red light emitting diode chip. A blue LED chip or a UV LED chip generates light having a wavelength range between 350nm and 470nm. The fluorescent powder colloid is arranged on the blue light emitting diode chip or the ultraviolet light emitting diode chip, and after the fluorescent powder colloid is excited, light with a wavelength range between 470nm and 600nm is generated. The red LED chip generates light with a wavelength ranging from 600nm to 750nm, wherein the red LED chip is disposed on one side of the blue LED chip or the ultraviolet LED chip.

The light source device for adjusting plant growth of the present application, by producing a blue light-emitting diode chip or an ultraviolet light-emitting diode chip with light in the wavelength range between 350nm and 470nm, and using this light-emitting diode chip to excite can generate The phosphor colloid of light in the wavelength range is combined with the red light-emitting diode chip that produces light in the wavelength range of 600nm to 750nm to produce light in the continuous wavelength range of 350nm to 750nm. In this way, the plant growth time can be shortened effectively, and it has the functions of power saving, low pollution and long life.

Regarding the characteristics and implementation of the present application, it will be described in detail below as an embodiment in conjunction with the drawings.

【Description of drawings】

FIG. 1 is a schematic diagram of a light source device for adjusting plant growth according to the first embodiment of the present application.

FIG. 2 is a spectrum diagram corresponding to the light source device for adjusting plant growth according to the first embodiment of the present application.

FIG. 3 is a CIE chromaticity coordinate diagram corresponding to the light source device for adjusting plant growth according to the first embodiment of the present application.

FIG. 4 is a schematic diagram of a light source device for adjusting plant growth according to a second embodiment of the present application.

FIG. 5 is a schematic diagram of a light source device for adjusting plant growth according to a third embodiment of the present application.

FIG. 6 is a schematic diagram of a light source device for adjusting plant growth according to a fourth embodiment of the present application.

FIG. 7 is a schematic diagram of a light source device for adjusting plant growth according to a fifth embodiment of the present application.

FIG. 8 is a schematic diagram of a light source device for adjusting plant growth according to a sixth embodiment of the present application.

[Description of main reference signs]

【Detailed ways】

In the various embodiments listed below, the same or similar elements will be denoted by the same reference numerals.

Please refer to FIG. 1 , which is a schematic diagram of a light source device for adjusting plant growth according to the first embodiment of the present application. The light source device 100 for adjusting plant growth in this embodiment includes a blue light emitting diode chip 110 , a phosphor colloid 120 and a red light emitting diode chip 130 .

The blue LED chip 110 is used to generate light with a wavelength range of 350nm to 470nm. The phosphor colloid 120 is disposed on the blue LED chip 130 . Moreover, after the phosphor colloid 120 is excited by the blue light-emitting diode chip 110 , it generates light with a wavelength ranging from 470 nm to 600 nm. The red LED chip 130 is used to generate light with a wavelength range of 600nm to 750nm.

In this embodiment, the phosphor colloid 120 includes, for example, green phosphor colloid, yellow phosphor colloid, or a combination thereof. Among them, the green phosphor colloid is, for example, SrSi ₂ N ₂ O ₂ :Eu ²⁺ , EuMgAl ₁₀ O ₁₇ :Eu ²⁺ , Mn ²⁺ , Yb ²⁺ , BaMgAl ₁₀ O ₁₇ :Eu ²⁺ ,Mn ²⁺ , SrGa ₂ S ₄ :Eu ²⁺ , (Ca,Sr,Ba)Al ₂ O ₄ :Eu ²⁺ ,Mn ²⁺ , (Ca,Sr,Ba) ₄ Al ₁₄ O ₂₅ :Eu ²⁺ ,Ca ₈ Mg( SiO ₄ ) ₄ Cl ₂ :Eu ²⁺ , Mn ²⁺ , (BaSr) ₂ SiO ₄ :Eu ²⁺ , or a combination of the above. Yellow phosphor colloids are, for example, Y ₃ Al ₅ O ₁₂ :Ce ³⁺ , Tb ₃ Al ₅ O ₁₂ :Ce ³⁺ , (CaBaSr) ₂ SiO ₄ :Eu ²⁺ , Sr ₃ SiO ₅ :Eu ²⁺ , or combination of the above.

Furthermore, the light source device 100 for adjusting plant growth further includes a lead frame 140 and a packaging material 150 . The lead frame 140 has an accommodating groove 141 for accommodating the blue light emitting diode chip 110 , the phosphor colloid 120 and the red light emitting diode chip 130 . Wherein, the red LED chip 130 is disposed on one side of the blue LED chip 110 , for example. The packaging material 150 is disposed on the phosphor gel 120 and the red LED chip 130 , that is, the packaging material 150 covers the phosphor gel 120 and the red LED chip 130 .

In addition, the fluorescent powder colloid 120 can be made into a patch form, so as to be bonded on the blue light emitting diode chip 110 , and generate corresponding light after being excited by the blue light emitting diode chip 110 . In addition, the phosphor colloid 120 made into a patch can also have a microstructure to increase luminous efficiency.

With the above configuration, the light source device 100 for adjusting plant growth in this embodiment can emit light with a continuous wavelength range between 350 nm and 750 nm, so as to effectively shorten the time for plant growth. Moreover, the spectral diagram and the chromaticity contrast diagram corresponding to the light source device 100 for adjusting the growth of plants can be shown in "FIG. 2" and "FIG. 3" respectively.

Please refer to FIG. 2 , which is a spectral diagram corresponding to the light source device for adjusting plant growth according to the first embodiment of the present application. In "Figure 2", the X-axis is the wavelength (Wavelength), and the Y-axis is the intensity (Intensity). Wherein, the interval T1 is the corresponding relationship between the wavelength and the intensity of the light emitted by the blue LED chip 110; the interval T2 is the corresponding relationship between the wavelength and the intensity of the emitted light after the phosphor colloid 120 is excited by the blue LED chip 110 relationship; interval T3 is the corresponding relationship between the wavelength and the intensity of the light emitted by the red LED chip 130 .

Please refer to FIG. 3 , which is a CIE chromaticity coordinate diagram corresponding to the light source device for adjusting plant growth according to the first embodiment of the present application. In "FIG. 3", the chromaticity produced by the light source device 100 for adjusting plant growth is located at the CIE chromaticity coordinates connected by (0.17,0), (0.11,0.08), (0.19,0.77) and (0.38,0.60). within the range surrounded by the line.

Please refer to FIG. 4 , which is a schematic diagram of a light source device for adjusting plant growth according to a second embodiment of the present application. The light source device 400 for adjusting plant growth includes a blue light-emitting diode chip 110 , a phosphor colloid 120 , a red light-emitting diode chip 130 , a lead frame 140 and a packaging material 150 . Wherein, the configuration relationship of these components and related descriptions can refer to the description of the embodiment in FIG. 1 , so details are not repeated here.

The difference between the light source device 400 for adjusting plant growth in this embodiment and the light source device 100 for adjusting plant growth in "Fig. On the chip 130 , that is, the phosphor colloid 120 is disposed on the blue LED chip 110 and the red LED chip 130 at the same time. In this way, the light source device 400 for adjusting plant growth can also effectively shorten the time for plant growth.

Please refer to FIG. 5 , which is a schematic diagram of a light source device for adjusting plant growth according to a third embodiment of the present application. The light source device 500 for adjusting plant growth includes a blue light-emitting diode chip 110 , a phosphor colloid 120 , a red light-emitting diode chip 130 , a lead frame 510 and a packaging material 150 . Wherein, the configuration and related description of the blue LED chip 110, the phosphor colloid 120, and the red LED chip 130 can refer to the description of the embodiment in FIG. 1 , so details are not repeated here.

In this embodiment, the lead frame 510 has a first accommodating groove 511 and a second accommodating groove 512, wherein the first accommodating groove 511 is used for accommodating the blue light emitting diode chip 110 and the fluorescent powder colloid 120, and the second accommodating The groove 512 is used for accommodating the red LED chip 130 . The packaging material 150 is disposed on the phosphor colloid 120 and the red light emitting diode chip 130 . In this way, the light source device 500 for adjusting plant growth can also effectively shorten the time for plant growth.

Please refer to FIG. 6 , which is a schematic diagram of a light source device for adjusting plant growth according to a fourth embodiment of the present application. The light source device 600 for adjusting plant growth in this embodiment includes an ultraviolet light emitting diode chip 610 , a phosphor colloid 620 and a red light emitting diode chip 630 .

The UV LED chip 610 is used to generate light with a wavelength ranging from 350nm to 470nm. The phosphor colloid 620 is disposed on the UV LED chip 610 . Moreover, after the phosphor colloid 620 is excited by the ultraviolet light emitting diode chip 610 , it generates light with a wavelength ranging from 470 nm to 600 nm. The red LED chip 630 is used to generate light with a wavelength range of 600nm to 750nm. In this way, the light source device 600 for adjusting plant growth in this embodiment can emit light with a continuous wavelength range between 350 nm and 750 nm, so as to effectively shorten the time for plant growth.

In this embodiment, the phosphor colloid 620 includes, for example, blue phosphor colloid, green phosphor colloid, yellow phosphor colloid, or a combination thereof. Among them, the blue phosphor colloids are, for example, BaMgAl ₁₀ O ₁₇ :Eu ²⁺ , EuMgAl ₁₀ O ₁₇ :Eu ²⁺ , Yb ²⁺ , (Ba,Sr,Ca) ₅ (PO ₄ ) ₃ (F,Cl,Br, OH):Eu ²⁺ , 2SrO*0.84P ₂ O ₅ *0.16B ₂ O ₃ :Eu ²⁺ , Sr ₂ Si ₃ O ₈ *2SrCl ₂ :Eu ²⁺ , (Mg,Ca,Sr,Ba,Zn) ₃ B ₂ O ₆ :Eu ²⁺ , or a combination of the above.

Green phosphor colloids are, for example, SrSi ₂ N ₂ O ₂ :Eu ²⁺ , EuMgAl ₁₀ O ₁₇ :Eu ²⁺ , Mn ²⁺ ,Yb ²⁺ , BaMgAl ₁₀ O ₁₇ :Eu ²⁺ ,Mn ²⁺ , SrGa ₂ S ₄ :Eu ²⁺ , (Ca,Sr,Ba)Al ₂ O ₄ :Eu ²⁺ ,Mn ²⁺ , (Ca,Sr,Ba) ₄ Al ₁₄ O ₂₅ :Eu ²⁺ ,Ca ₈ Mg(SiO ₄ ) ₄ Cl ₂ :Eu ²⁺ , Mn ²⁺ , (BaSr) ₂ SiO ₄ :Eu ²⁺ , or a combination of the above. Yellow phosphor colloids are, for example, Y ₃ Al ₅ O ₁₂ :Ce ³⁺ , Tb ₃ Al ₅ O ₁₂ :Ce ³⁺ , (CaBaSr) ₂ SiO ₄ :Eu ²⁺ , Sr ₃ SiO ₅ :Eu ²⁺ , or combination of the above.

Furthermore, the light source device 600 for adjusting plant growth further includes a lead frame 640 and a packaging material 650 . The lead frame 640 has an accommodating groove 641 for accommodating the ultraviolet light emitting diode chip 610 , the phosphor colloid 620 and the red light emitting diode chip 630 . Wherein, the red light emitting diode chip 630 is disposed on one side of the ultraviolet light emitting diode chip 610 , for example. The packaging material 650 is disposed on the phosphor gel 620 and the red LED chip 630 , that is, the packaging material 650 covers the phosphor gel 620 and the red LED chip 630 .

Please refer to FIG. 7 , which is a schematic diagram of a light source device for adjusting plant growth according to a fifth embodiment of the present application. The light source device 700 for adjusting plant growth includes an ultraviolet light emitting diode chip 610 , phosphor colloid 620 , red light emitting diode chip 630 , lead frame 640 and packaging material 650 . Wherein, the configuration relationship of these components and related descriptions can refer to the description of the embodiment of “ FIG. 6 ”, so details will not be repeated here.

The difference between the light source device 700 for adjusting plant growth in this embodiment and the light source device 600 for adjusting plant growth in FIG. On the diode chip 630 , that is, the phosphor colloid 620 is disposed on the ultraviolet light emitting diode chip 610 and the red light emitting diode chip 630 at the same time. In this way, the light source device 700 for adjusting plant growth can also effectively shorten the time for plant growth.

Please refer to FIG. 8 , which is a schematic diagram of a light source device for adjusting plant growth according to a sixth embodiment of the present application. The light source device 800 for adjusting plant growth includes an ultraviolet light emitting diode chip 610 , phosphor colloid 620 , red light emitting diode chip 630 , lead frame 810 and packaging material 650 . Wherein, the configuration and related description of the ultraviolet light emitting diode chip 610, the phosphor colloid 620, and the red light emitting diode chip 630 can refer to the description of the embodiment in FIG.

In this embodiment, the lead frame 810 has a first accommodating groove 811 and a second accommodating groove 812, wherein the first accommodating groove 811 is used for accommodating the ultraviolet light diode chip 610 and the phosphor colloid 620, and the second accommodating The groove 812 is used for accommodating the red LED chip 630 . The packaging material 650 is disposed on the phosphor colloid 620 and the red light emitting diode chip 630 . In this way, the light source device 800 for adjusting plant growth can also effectively shorten the time for plant growth.

The light source device for adjusting the growth of plants according to the embodiment of the present application, which generates blue light-emitting diode chip or ultraviolet light-emitting diode chip with light in the wavelength range between 350nm and 470nm, and uses this light-emitting diode chip to excite to generate Phosphor colloid for light in the wavelength range of 470nm to 600nm is combined with a red light emitting diode chip for generating light in the wavelength range of 600nm to 750nm to generate light in the continuous wavelength range of 350nm to 750nm. In this way, the plant growth time can be shortened effectively, and it has the functions of power saving, low pollution and long life.

Claims (12)

1. a light supply apparatus of adjusting plant growth, is characterized in that, comprising:

Blue light-emitting diode wafer or ultraviolet light-emitting diodes wafer, have the light between the wave-length coverage of 350nm to 470nm in order to produce;

Fluorescent powder colloid, be disposed on this blue light-emitting diode wafer or this ultraviolet light-emitting diodes wafer, and after this fluorescent powder colloid excites via this blue light-emitting diode wafer or this ultraviolet light-emitting diodes wafer, produce and there is the light between the wave-length coverage of 470nm to 600nm; And

Red light-emitting diode wafer, has the light between the wave-length coverage of 600nm to 750nm in order to produce, and wherein this red light-emitting diode wafer configuration is in a side of this blue light-emitting diode wafer or this ultraviolet light-emitting diodes wafer;

So, the light supply apparatus of this adjustment plant growth can send the light having between the continuous wavelength scope of 350nm to 750nm.

2. the light supply apparatus of adjustment plant growth as claimed in claim 1, is characterized in that, wherein this fluorescent powder colloid is also disposed on this red light-emitting diode wafer.

3. the light supply apparatus of adjustment plant growth as claimed in claim 1, is characterized in that, wherein, when this light supply apparatus comprises this blue light-emitting diode wafer, this fluorescent powder colloid comprises green light fluorescent powder colloid, gold-tinted fluorescent powder colloid or above-mentioned combination.

4. the light supply apparatus of adjustment plant growth as claimed in claim 3, is characterized in that, wherein this green light fluorescent powder colloid is SrSi ₂n ₂o ₂: Eu ²⁺, EuMgAl ₁₀o ₁₇: Eu ²⁺, Mn ²⁺, Yb ²⁺, BaMgAl ₁₀o ₁₇: Eu ²⁺, Mn ²⁺, SrGa ₂s ₄: Eu ²⁺, (Ca, Sr, Ba) Al ₂o ₄: Eu ²⁺, Mn ²⁺, (Ca, Sr, Ba) ₄al ₁₄o ₂₅: Eu ²⁺, Ca ₈mg (SiO ₄) ₄cl ₂: Eu ²⁺, Mn ²⁺, (BaSr) ₂siO ₄: Eu ²⁺, or above-mentioned combination.

5. the light supply apparatus of adjustment plant growth as claimed in claim 3, is characterized in that, wherein this gold-tinted fluorescent powder colloid is Y ₃al ₅o ₁₂: Ce ³⁺, Tb ₃al ₅o ₁₂: Ce ³⁺, (CaBaSr) ₂siO ₄: Eu ²⁺, Sr ₃siO ₅: Eu ²⁺, or above-mentioned combination.

6. the light supply apparatus of adjustment plant growth as claimed in claim 1, it is characterized in that, wherein, when this light supply apparatus comprises this ultraviolet light-emitting diodes wafer, this fluorescent powder colloid comprises blue light fluorescent powder colloid, green light fluorescent powder colloid, gold-tinted fluorescent powder colloid or above-mentioned combination.

7. the light supply apparatus of adjustment plant growth as claimed in claim 6, is characterized in that, wherein this blue light fluorescent powder colloid is BaMgAl ₁₀o ₁₇: Eu ²⁺, EuMgAl ₁₀o ₁₇: Eu ²⁺, Yb ²⁺, (Ba, Sr, Ca) ₅(PO ₄) ₃(F, Cl, Br, OH): Eu ²⁺, 2SrO*0.84P ₂o ₅* 0.16B ₂o ₃: Eu ²⁺, Sr ₂si ₃o8*2SrCl ₂: Eu ²⁺, (Mg, Ca, Sr, Ba, Zn) ₃b ₂o ₆: Eu ²⁺, or above-mentioned combination.

8. the light supply apparatus of adjustment plant growth as claimed in claim 6, is characterized in that, wherein this green light fluorescent powder colloid is SrSi ₂n ₂o ₂: Eu ²⁺, EuMgAl ₁₀o ₁₇: Eu ²⁺, Mn ²⁺, Yb ²⁺, BaMgAl ₁₀o ₁₇: Eu ²⁺, Mn ²⁺, SrGa ₂s ₄: Eu ²⁺, (Ca, Sr, Ba) Al ₂o ₄: Eu ²⁺, Mn ²⁺, (Ca, Sr, Ba) ₄al ₁₄o ₂₅: Eu ²⁺, Ca ₈mg (SiO ₄) ₄cl ₂: Eu ²⁺, Mn ²⁺, (BaSr) ₂siO ₄: Eu ²⁺, or above-mentioned combination.

9. the light supply apparatus of adjustment plant growth as claimed in claim 6, is characterized in that, wherein this gold-tinted fluorescent powder colloid is Y ₃al ₅o ₁₂: Ce ³⁺, Tb ₃al ₅o ₁₂: Ce ³⁺, (CaBaSr) ₂siO ₄: Eu ²⁺, Sr ₃siO ₅: Eu ²⁺, or above-mentioned combination.

10. the light supply apparatus of adjustment plant growth as claimed in claim 1, is characterized in that, also comprises:

Lead frame, has storage tank, and wherein this storage tank is in order to accommodating this blue light-emitting diode wafer or this ultraviolet light-emitting diodes wafer, this fluorescent powder colloid and this red light-emitting diode wafer; And

Encapsulating material, is disposed on this fluorescent powder colloid and this red light-emitting diode wafer.

The light supply apparatus of 11. adjustment plant growths as claimed in claim 1, is characterized in that, also comprises:

Lead frame, has the first storage tank and the second storage tank, and wherein this first storage tank is in order to accommodating this blue light-emitting diode wafer or this ultraviolet light-emitting diodes wafer and this fluorescent powder colloid, and this second storage tank is in order to accommodating this red light-emitting diode wafer; And

Encapsulating material, is disposed on this fluorescent powder colloid and this red light-emitting diode wafer.

The light supply apparatus of 12. adjustment plant growths as claimed in claim 1, it is characterized in that, the colourity that wherein this light supply apparatus produces is arranged in cie color coordinate by coordinate (0.17,0), (0.11,0.08), (0.19,0.77) with the line of (0.38,0.60) around scope in.

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