CN105716034A - LED hybrid integrated light source for aquarium illumination - Google Patents
LED hybrid integrated light source for aquarium illumination Download PDFInfo
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- CN105716034A CN105716034A CN201610249562.9A CN201610249562A CN105716034A CN 105716034 A CN105716034 A CN 105716034A CN 201610249562 A CN201610249562 A CN 201610249562A CN 105716034 A CN105716034 A CN 105716034A
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- led
- light
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- led wafer
- wafers
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21S—NON-PORTABLE LIGHTING DEVICES; SYSTEMS THEREOF; VEHICLE LIGHTING DEVICES SPECIALLY ADAPTED FOR VEHICLE EXTERIORS
- F21S10/00—Lighting devices or systems producing a varying lighting effect
- F21S10/02—Lighting devices or systems producing a varying lighting effect changing colors
- F21S10/023—Lighting devices or systems producing a varying lighting effect changing colors by selectively switching fixed light sources
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21V—FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
- F21V19/00—Fastening of light sources or lamp holders
- F21V19/001—Fastening of light sources or lamp holders the light sources being semiconductors devices, e.g. LEDs
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21V—FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
- F21V23/00—Arrangement of electric circuit elements in or on lighting devices
- F21V23/003—Arrangement of electric circuit elements in or on lighting devices the elements being electronics drivers or controllers for operating the light source, e.g. for a LED array
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21V—FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
- F21V29/00—Protecting lighting devices from thermal damage; Cooling or heating arrangements specially adapted for lighting devices or systems
- F21V29/50—Cooling arrangements
- F21V29/502—Cooling arrangements characterised by the adaptation for cooling of specific components
- F21V29/503—Cooling arrangements characterised by the adaptation for cooling of specific components of light sources
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21V—FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
- F21V29/00—Protecting lighting devices from thermal damage; Cooling or heating arrangements specially adapted for lighting devices or systems
- F21V29/85—Protecting lighting devices from thermal damage; Cooling or heating arrangements specially adapted for lighting devices or systems characterised by the material
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21V—FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
- F21V5/00—Refractors for light sources
- F21V5/04—Refractors for light sources of lens shape
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21W—INDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO USES OR APPLICATIONS OF LIGHTING DEVICES OR SYSTEMS
- F21W2131/00—Use or application of lighting devices or systems not provided for in codes F21W2102/00-F21W2121/00
- F21W2131/30—Lighting for domestic or personal use
- F21W2131/308—Lighting for domestic or personal use for aquaria
Abstract
The invention discloses an LED hybrid integrated light source for aquarium illumination. The LED hybrid integrated light source comprises a quartz lens, a metal ring, an LED wafer body, a ceramic board and a copper substrate. The LED wafer body is fixed to the ceramic board through an LED adhesive. The LED wafer body comprises blue-light LED wafers, white-light LED wafers, red-light LED wafers, green-light LED wafers, ultraviolet LED wafers and yellow-light LED wafers. A channel A, a channel B, a channel C and a channel D are formed by jointly combining light emitted by the blue-light LED wafers, the white-light LED wafers, the red-light LED wafers, the green-light LED wafers, the ultraviolet LED wafers and the yellow-light LED wafers. Power source side circuit boards are arranged on the ceramic board and electrically connected with a power source. Control side circuit boards are arranged on the ceramic board and electrically connected with the input end of the LED wafer body. According to the LED hybrid integrated light source for aquarium illumination, a specific arrangement manner is adopted in the LED wafer layout, the combined light is uniform, the view of a fish tank is more natural, organisms in the fish tank can grow under light closer to natural light, and the LED hybrid integrated light source is high in practicality and easy to use and popularize.
Description
Technical field
The present invention relates to lighting lamp for aquatic animals technical field, be specially a kind of Shui nationality illuminating LED hybrid integrated light source.
Background technology
The illumination of the existing Shui nationality is to realize with traditional Halogen light or LED lamp tube pattern.Traditional Halogen light or fluorescent tube energy consumption are relatively larger, although fluorescent tube also has the fluorescent tube that red, green, blue, Huang etc. are monochromatic, but is difficult to they be combined on a lamp light source.And some the LED lamp light sources in recent years occurred, although the shortcoming overcoming conventional lamp light source to a certain extent, but the color that they have is abundant not, and some misalignments are very big, and some light fixture volumes are still relatively larger.To such an extent as at present on the market rich color, misalignment is little, volume is little, power is high integrated optical source or blank.
Tropical forest insect reef at nature has strong sunlight to irradiate all the year round, especially sublittoral.Corallium Japonicum Kishinouye and algae are required for enough light photosynthesis and manufacture food.At our aquarium, some of which biology or algae to lean on light existence and breeding equally, had this condition of sufficient light just can manufacture a healthy environment and food cycle to the biology in cylinder.Those are needed the biology of intense light, and certainly closer to sunlight, that yes is more good, but existing market can replicate but without a kind of lamp or close to the photochromic LED hybrid integrated light source of seabed sunlight.
Summary of the invention
Prior art is difficult to meet the needs of people, in order to solve above-mentioned Problems existing, the present invention proposes a kind of Shui nationality illuminating LED hybrid integrated light source, LED wafer layout all adopts specific arrangement mode, combination light out is very uniform, compared with conventional light source, make fish jar scenery more natural, the biology in fish jar can be grown under being more nearly available light.
For achieving the above object, the present invention provides following technical scheme: a kind of Shui nationality illuminating LED hybrid integrated light source, including quartz lens, quoit, LED wafer body, ceramic wafer and copper base;Described LED wafer body is fixed on ceramic wafer by LED viscose glue, and LED wafer body includes blue LED wafers, white light LEDs wafer, red-light LED wafer, green light LED wafer, ultraviolet LED wafer and yellow light LED wafer;The light that described blue LED wafers, white light LEDs wafer, red-light LED wafer, green light LED wafer, ultraviolet LED wafer and yellow light LED wafer send is together to form A channel, channel B, C-channel and D passage;Described ceramic wafer is provided with power end wiring board be electrically connected with the power supply;Described ceramic wafer is provided with control end line plate be electrically connected with LED wafer body input;Described quartz lens is fixed on ceramic wafer by quoit, and quartz lens is positioned at directly over LED wafer body;Described ceramic wafer is fixedly installed on copper base.
Further, it is respectively arranged with silica gel between described quartz lens and ceramic wafer and ceramic wafer and copper base.
Further, the number of wafers proportion of described blue LED wafers, white light LEDs wafer, red-light LED wafer, green light LED wafer, ultraviolet LED wafer and yellow light LED wafer is 45:19:20:7:7:2.
Further, described copper base uniformly offers several fixing hole.
Compared with prior art, the invention has the beneficial effects as follows: this Shui nationality illuminating LED hybrid integrated light source, LED wafer layout all adopts specific arrangement mode, combination light out is very uniform, compared with conventional light source, makes fish jar scenery more natural, biology in fish jar can be grown under being more nearly available light, being integrated with the multicolour such as white, blue, red, yellow, and green, UV with LED hybrid integrated light source, be combined into four passages altogether, each passage can separately or simultaneously be controlled;In integrated optical source, white light, blue light are illumination main light source, white light is suitable for most of Shui nationality lighting demand, plus blue light simulated seawater light, adapt to seawater fish and plant illumination in the Shui nationality, the floor light of special fingerling and alcyonarian in the applicable sea water Shui nationality of UV light, red greenish-yellow glory is suitable for Fish and the plant floor light of other demand;Light source surface adds the design of glass lens for optically focused, to increase the light intensity value of LED light source, makes the penetration power of light source higher, does not have the deeper farther of lensed LED or other light sources projection compared with some;In heat radiation, some LED integrated optical sources on the market are due to the commonly used aluminium base of the reason of cost at present, and these Shui nationality illuminating LED hybrid integrated light source adopts novel high heat-conducting ceramic substrate and copper base heat radiation, the heat of each LED wafer can be derived by faster, thus allowing the radiating effect of whole LED integrated optical source be greatly enhanced;Practical, it is easy to promote the use of.
Accompanying drawing explanation
Fig. 1 is the explosive view of the present invention;
Fig. 2 is the overall structure schematic diagram of the present invention;
The A channel that Fig. 3 is the present invention opens rear spectrogram;
The channel B that Fig. 4 is the present invention opens rear spectrogram;
The C-channel that Fig. 5 is the present invention opens rear spectrogram;
The D passage that Fig. 6 is the present invention opens rear spectrogram;
The AB passage that Fig. 7 is the present invention opens rear spectrogram;
The AC passage that Fig. 8 is the present invention opens rear spectrogram;
The AD passage that Fig. 9 is the present invention opens rear spectrogram;
The BC passage that Figure 10 is the present invention opens rear spectrogram;
The BD passage that Figure 11 is the present invention opens rear spectrogram;
The CD passage that Figure 12 is the present invention opens rear spectrogram;
The ABC passage that Figure 13 is the present invention opens rear spectrogram;
The ACD passage that Figure 14 is the present invention opens rear spectrogram;
The ABD passage that Figure 15 is the present invention opens rear spectrogram;
The BCD passage that Figure 16 is the present invention opens rear spectrogram;
The ABCD passage that Figure 17 is the present invention opens rear spectrogram;
In figure: 1-quartz lens, 2-quoit, 3-LED wafer body, 4-ceramic wafer, 5-copper base, 6-blue LED wafers, 7-white light LEDs wafer, 8-red-light LED wafer, 9-green light LED wafer, 10-ultraviolet LED wafer, 11-yellow light LED wafer, 12-power end wiring board, 13-control end line plate, 14-fixing hole.
Detailed description of the invention
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of protection of the invention.
Referring to Fig. 1-17, a kind of embodiment provided by the invention: a kind of Shui nationality illuminating LED hybrid integrated light source, including quartz lens 1, quoit 2, LED wafer body 3, ceramic wafer 4 and copper base 5;Described LED wafer body 3 is fixed on ceramic wafer 4 by LED viscose glue, and LED wafer body 3 includes blue LED wafers 6, white light LEDs wafer 7, red-light LED wafer 8, green light LED wafer 9, ultraviolet LED wafer 10 and yellow light LED wafer 11;The light that described blue LED wafers 6, white light LEDs wafer 7, red-light LED wafer 8, green light LED wafer 9, ultraviolet LED wafer 10 and yellow light LED wafer 11 send is together to form A channel, channel B, C-channel and D passage;Described ceramic wafer 4 is provided with power end wiring board 12 be electrically connected with the power supply;Described ceramic wafer 4 is provided with control end line plate 13 be electrically connected with LED wafer body 3 input;Described quartz lens 1 is fixed on ceramic wafer 4 by quoit 2, and quartz lens 1 is positioned at directly over LED wafer body 3;Described ceramic wafer 4 is fixedly installed on copper base 5;It is respectively arranged with silica gel between described quartz lens 1 and ceramic wafer 4 and ceramic wafer 4 and copper base 5;The number of wafers proportion of described blue LED wafers 6, white light LEDs wafer 7, red-light LED wafer 8, green light LED wafer 9, ultraviolet LED wafer 10 and yellow light LED wafer 11 is 45:19:20:7:7:2;Described copper base 5 uniformly offers several fixing hole 14;Described A channel opens rear color parameter: chromaticity coordinate: x=0.2071;Y=0.1619;Chromaticity coordinate:=0.2071;=0.1619(duv=-5.15e-0.2);Correlated color temperature: Tc=100000K;Dominant wavelength: λ d=468.9mm;Excitation: pur=61.2%;Centroid wavelength: 470.0nm;Color ratio: R=11.1%;G=68.6%;B=20.3%;Peak wavelength: λ p=460.0nm;Half width: Δ λ p=32.3nm;Color rendering index: Ra=55.7;R1=94;R2=55;R3=20;R4=35;R5=88;R6=61;R7=43;R8=49;R9=50;R10=0;R11=33;R12=48;R13=78;R14=59;R5=81;Photometric parameter: luminous flux: 1424.7lm;Radiant flux: 8.2631w;Light efficiency: 33.91m/w;Described channel B opens rear color parameter: chromaticity coordinate: x=0.1423;Y=0.0444;Chromaticity coordinate:=0.1234;=0.0.0444(duv=1.84e-0.1);Correlated color temperature: Tc=100000K;Dominant wavelength: λ d=463.9mm;Excitation: pur=97.6%;Centroid wavelength: 459.0nm;Color ratio: R=0.0%;G=13.9%;B=86.1%;Peak wavelength: λ p=460.0nm;Half width: Δ λ p=27.3nm;Color rendering index: Ra=54;R1=-22;R2=-48;R3=-138;R4=-48;R5=-4;R6=-59;R7=-43;R8=-34;R9=-298;R10=-236;R11=-118;R12=-124;R13=-40;R14=-30;R5=-4;Photometric parameter: luminous flux: 566.86lm;Radiant flux: 11.347w;Light efficiency: 14.17m/w;Described C-channel opens rear color parameter: chromaticity coordinate: x=0.6905;Y=0.3092;Chromaticity coordinate:=0.6905;=0.3092(duv=-0.06e-0.2);Correlated color temperature: Tc=1001K;Dominant wavelength: λ d=619.5mm;Excitation: pur=100%;Centroid wavelength: 631nm;Color ratio: R=91.1%;G=8.9%;B=0.0%;Peak wavelength: λ p=635nm;Half width: Δ λ p=17.5nm;Color rendering index: Ra=29.5;R1=18;R2=78;R3=45;R4=-8;R5=16;R6=87;R7=28;R8=-29;R9=-151;R10=72;R11=80;R12=48;R13=78;R14=69;R5=-6;Photometric parameter: luminous flux: 228.79m;Radiant flux: 1.1692w;Light efficiency: 2.093m/w;Described D passage opens rear color parameter: chromaticity coordinate: x=0.1667;Y=0.2081;Chromaticity coordinate:=0.1667;=0.2081(duv=5.69e-0.2);Correlated color temperature: Tc=100000K;Dominant wavelength: λ d=481.9mm;Excitation: pur=61.2%;Centroid wavelength: 470.0nm;Color ratio: R=0.5%;G=68.6%;B=20.3%;Peak wavelength: λ p=395.0nm;Half width: Δ λ p=45.0nm;Color rendering index: Ra=33.9;R1=-4;R2=42;R3=76;R4=35;R5=-2;R6=41;R7=77;R8=49;R9=-272;R10=-14;R11=-29;R12=34;R13=-0;R14=80;R15=4;Photometric parameter: luminous flux: 232.43m;Radiant flux: 2.6293w;Light efficiency: 21.77m/w;Described AB passage opens rear color parameter: chromaticity coordinate: x=0.1674;Y=0.0941 chromaticity coordinate:=0.1674;=0.0941(duv=-1.17e-0.2);Correlated color temperature: Tc=100000K;Dominant wavelength: λ d=446.9mm;Excitation: pur=82.7%;Centroid wavelength: 470.0nm;Color ratio: R=11.1%;G=68.6%;B=20.3%;Peak wavelength: λ p=460.0nm;Half width: Δ λ p=32.3nm;Color rendering index: Ra=8.9;R1=81;R2=8;R3=-86;R4=35;R5=88;R6=61;R7=43;R8=49;R9=-22;R10=-131;R11=-28;R12=22;R13=53;R14=4;R15=68;Photometric parameter: luminous flux: 1935.4m;Radiant flux: 19.022w;Light efficiency: 24.56m/w;Described AC passage opens rear color parameter: chromaticity coordinate: x=0.2394;Y=0.1719;Chromaticity coordinate:=0.2394;=0.1719(duv=-4.97e-0.2);Correlated color temperature: Tc=100000K;Dominant wavelength: λ d=454.9mm;Excitation: pur=51.8%;Centroid wavelength: 470.0nm;Color ratio: R=11.1%;G=68.6%;B=20.3%;Peak wavelength: λ p=460.0nm;Half width: Δ λ p=32.3nm;Color rendering index: Ra=55.7;R1=94;R2=55;R3=20;R4=35;R5=88;R6=61;R7=43;R8=49;R9=50;R10=-139;R11=-48;R12=22;R13=27;R14=76;R15=17;Photometric parameter: luminous flux: 1597m;Radiant flux: 9.2143w;Light efficiency: 31.82m/w;Described AD passage opens rear color parameter: chromaticity coordinate: x=0.2394;Y=0.1719;Chromaticity coordinate:=0.2394;=0.1719(duv=-4.97e-0.2);Correlated color temperature: Tc=100000K;Dominant wavelength: λ d=454.9mm;Excitation: pur=51.8%;Centroid wavelength: 470.0nm;Color ratio: R=11.1%;G=68.6%;B=20.3%;Peak wavelength: λ p=460.0nm;Half width: Δ λ p=32.3nm;Color rendering index: Ra=55.7;R1=94;R2=55;R3=20;R4=35;R5=88;R6=61;R7=43;R8=49;R9=50;R10=-139;R11=-48;R12=22;R13=27;R14=76;R15=17;Photometric parameter: luminous flux: 1597m;Radiant flux: 9.2143w;Light efficiency: 31.82m/w;Described BC passage opens rear color parameter: chromaticity coordinate: x=0.1672;Y=0.569;Chromaticity coordinate:=0.1672;=0.569(duv=-4.65e-0.2);Correlated color temperature: Tc=100000K;Dominant wavelength: λ d=454.9mm;Excitation: pur=51.8%;Centroid wavelength: 470.0nm;Color ratio: R=11.1%;G=68.6%;B=20.3%;Peak wavelength: λ p=460.0nm;Half width: Δ λ p=32.3nm;Color rendering index: Ra=55.7;R1=94;R2=55;R3=20;R4=35;R5=88;R6=61;R7=43;R8=49;R9=50;R10=--470;R11=-11;R12=-168;R13=-62;R14=-50;R15=-5;Photometric parameter: luminous flux: 754.73m;Radiant flux: 12.358w;Light efficiency: 16.17m/w;Described BD passage opens rear color parameter: chromaticity coordinate: x=0.1445;Y=0.0576;Chromaticity coordinate:=0.1445;=0.0576(duv=-4.65e-0.1);Correlated color temperature: Tc=100000K;Dominant wavelength: λ d=454.9mm;Excitation: pur=51.8%;Centroid wavelength: 470.0nm;Color ratio: R=11.1%;G=68.6%;B=20.3%;Peak wavelength: λ p=460.0nm;Half width: Δ λ p=32.3nm;Color rendering index: Ra=55.7;R1=94;R2=55;R3=20;R4=35;R5=88;R6=61;R7=43;R8=49;R9=50;R10=-139;R11=-48;R12=22;R13=-66;R14=-11;R15=11;Photometric parameter: luminous flux: 779.10m;Radiant flux: 13.662w;Light efficiency: 15.14m/w;Described CD passage opens rear color parameter: chromaticity coordinate: x=0.3669;Y=0.2443;Chromaticity coordinate:=0.3669;=0.2443(duv=-7.24e-0.2);Correlated color temperature: Tc=100000K;Dominant wavelength: λ d=454.9mm;Excitation: pur=51.8%;Centroid wavelength: 470.0nm;Color ratio: R=11.1%;G=68.6%;B=20.3%;Peak wavelength: λ p=460.0nm;Half width: Δ λ p=32.3nm;Color rendering index: Ra=55.7;R1=94;R2=55;R3=20;R4=35;R5=98;R6=61;R7=43;R8=49;R9=33;R10=-139;R11=-48;R12=28;R13=87;R14=86;R15=28;Photometric parameter: luminous flux: 448.75m;Radiant flux: 3.8252w;Light efficiency: 22.29m/w;Described ABC passage opens rear color parameter: chromaticity coordinate: x=0.1815;Y=0.0.0990;Chromaticity coordinate:=0.1815;=0.0.0990(duv=-4.97e-0.2);Correlated color temperature: Tc=100000K;Dominant wavelength: λ d=454.9mm;Excitation: pur=51.8%;Centroid wavelength: 470.0nm;Color ratio: R=11.1%;G=68.6%;B=20.3%;Peak wavelength: λ p=460.0nm;Half width: Δ λ p=32.3nm;Color rendering index: Ra=55.7;R1=94;R2=55;R3=20;R4=35;R5=88;R6=61;R7=43;R8=49;R9=50;R10=-139;R11=-48;R12=22;R13=27;R14=76;R15=17;Photometric parameter: luminous flux: 2089.4m;Radiant flux: 19.912w;Light efficiency: 24.25m/w;Described ACD passage opens rear color parameter: chromaticity coordinate: x=0.2313;Y=0.1749;Chromaticity coordinate:=0.2313;=0.1749(duv=-4.97e-0.2);Correlated color temperature: Tc=100000K;Dominant wavelength: λ d=454.9mm;Excitation: pur=51.8%;Centroid wavelength: 470.0nm;Color ratio: R=11.1%;G=68.6%;B=20.3%;Peak wavelength: λ p=460.0nm;Half width: Δ λ p=32.3nm;Color rendering index: Ra=55.7;R1=94;R2=55;R3=20;R4=35;R5=88;R6=61;R7=43;R8=49;R9=-92;R10=-139;R11=-48;R12=22;R13=44;R14=81;R15=36;Photometric parameter: luminous flux: 1807.1m;Radiant flux: 11.779w;Light efficiency: 32.60m/w;Described ABD passage opens rear color parameter: chromaticity coordinate: x=0.1677;Y=0.0989;Chromaticity coordinate:=0.1677;=0.0989(duv=-4.97e-0.2);Correlated color temperature: Tc=100000K;Dominant wavelength: λ d=454.9mm;Excitation: pur=51.8%;Centroid wavelength: 470.0nm;Color ratio: R=11.1%;G=68.6%;B=20.3%;Peak wavelength: λ p=460.0nm;Half width: Δ λ p=32.3nm;Color rendering index: Ra=55.7;R1=94;R2=55;R3=20;R4=35;R5=88;R6=61;R7=43;R8=49;R9=50;R10=-139;R11=-48;R12=22;R13=27;R14=76;R15=17;Photometric parameter: luminous flux: 2131.5m;Radiant flux: 21.317w;Light efficiency: 23.88m/w;Described BCD passage opens rear color parameter: chromaticity coordinate: x=0.1667;Y=0.0681;Chromaticity coordinate:=0.1667;=0.0681(duv=-4.97e-0.2);Correlated color temperature: Tc=100000K;Dominant wavelength: λ d=454.9mm;Excitation: pur=51.8%;Centroid wavelength: 470.0nm;Color ratio: R=11.1%;G=68.6%;B=20.3%;Peak wavelength: λ p=460.0nm;Half width: Δ λ p=32.3nm;Color rendering index: Ra=55.7;R1=94;R2=55;R3=20;R4=35;R5=88;R6=61;R7=43;R8=49;R9=50;R10=-139;R11=-48;R12=22;R13=-11;R14=-17;R15=-4;Photometric parameter: luminous flux: 969.35m;Radiant flux: 14.787w;Light efficiency: 17.77m/w;Described ABCD passage opens rear color parameter: chromaticity coordinate: x=0.1798;Y=0.1043;Chromaticity coordinate:=0.1798;=0.1043(duv=-4.97e-0.2);Correlated color temperature: Tc=100000K;Dominant wavelength: λ d=454.9mm;Excitation: pur=51.8%;Centroid wavelength: 470.0nm;Color ratio: R=11.1%;G=68.6%;B=20.3%;Peak wavelength: λ p=460.0nm;Half width: Δ λ p=32.3nm;Color rendering index: Ra=21.0;R1=73;R2=-0;R3=14;R4=35;R5=88;R6=61;R7=43;R8=49;R9=9;R10=-139;R11=-48;R12=22;R13=36;R14=17;R15=54;Photometric parameter: luminous flux: 2288.4m;Radiant flux: 22.30w;Light efficiency: 23.06m/w.
Ceramic wafer 4 in use, is first tightly fixed on copper base 5 by Shui nationality illuminating LED hybrid integrated light source of the present invention, and copper base 5 is fixed by fixing hole 14 and fish jar;Opening switch can make aquatic animals lamp send the light of different colours, by A channel, channel B, C-channel and D passage being mutually combined so that it is meet seawater fish and plant illumination in the Shui nationality so that it is effect reaches the best.
It is obvious to a person skilled in the art that the invention is not restricted to the details of above-mentioned one exemplary embodiment, and when without departing substantially from the spirit of the present invention or basic feature, it is possible to realize the present invention in other specific forms.Therefore, no matter from which point, embodiment all should be regarded as exemplary, and be nonrestrictive, the scope of the invention rather than described above limits, it is intended that all changes in the implication of the equivalency dropping on claim and scope included in the present invention.Any accompanying drawing labelling in claim should be considered as the claim that restriction is involved.
Claims (4)
1. a Shui nationality illuminating LED hybrid integrated light source, is characterized in that: include quartz lens (1), quoit (2), LED wafer body (3), ceramic wafer (4) and copper base (5);Described LED wafer body (3) is fixed on ceramic wafer (4) by LED viscose glue, and LED wafer body (3) includes blue LED wafers (6), white light LEDs wafer (7), red-light LED wafer (8), green light LED wafer (9), ultraviolet LED wafer (10) and yellow light LED wafer (11);The light that described blue LED wafers (6), white light LEDs wafer (7), red-light LED wafer (8), green light LED wafer (9), ultraviolet LED wafer (10) and yellow light LED wafer (11) send is together to form A channel, channel B, C-channel and D passage;Described ceramic wafer (4) is provided with power end wiring board (12) be electrically connected with the power supply;Described ceramic wafer (4) is provided with control end line plate (13) be electrically connected with LED wafer body (3) input;Described quartz lens (1) is fixed on ceramic wafer (4) by quoit (2), and quartz lens (1) is positioned at directly over LED wafer body (3);Described ceramic wafer (4) is fixedly installed on copper base (5).
2. a kind of Shui nationality illuminating LED hybrid integrated light source according to claim 1, is characterized in that: be respectively arranged with silica gel between described quartz lens (1) and ceramic wafer (4) and ceramic wafer (4) and copper base (5).
3. a kind of Shui nationality illuminating LED hybrid integrated light source according to claim 1, is characterized in that: the number of wafers proportion of described blue LED wafers (6), white light LEDs wafer (7), red-light LED wafer (8), green light LED wafer (9), ultraviolet LED wafer (10) and yellow light LED wafer (11) is 45:19:20:7:7:2.
4. a kind of Shui nationality illuminating LED hybrid integrated light source according to claim 1, is characterized in that: uniformly offer several fixing hole (14) on described copper base (5).
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CN109404865A (en) * | 2018-11-16 | 2019-03-01 | 西安交通大学 | Modular multi-function quartz lamp carry frame |
CN114532287A (en) * | 2022-01-17 | 2022-05-27 | 深圳市镭明士科技有限公司 | Marine biological lamps and lanterns of shop |
US20220393079A1 (en) * | 2019-10-18 | 2022-12-08 | Kyocera Corporation | Light-emitting device and illumination apparatus |
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CN204029855U (en) * | 2014-08-06 | 2014-12-17 | 东莞市港照照明科技有限公司 | A kind of LED lamp |
CN105098031A (en) * | 2015-07-09 | 2015-11-25 | 深圳市格天光电有限公司 | Chip-on-board (COB) light source of flip chip mining lamp |
CN205746571U (en) * | 2016-04-21 | 2016-11-30 | 广州市积光电子有限公司 | A kind of Shui nationality illuminating LED hybrid integrated light source |
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CN202958495U (en) * | 2012-11-09 | 2013-06-05 | 广州市积光电子有限公司 | Fish tank lighting device |
CN204029855U (en) * | 2014-08-06 | 2014-12-17 | 东莞市港照照明科技有限公司 | A kind of LED lamp |
CN105098031A (en) * | 2015-07-09 | 2015-11-25 | 深圳市格天光电有限公司 | Chip-on-board (COB) light source of flip chip mining lamp |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN107105553A (en) * | 2017-07-07 | 2017-08-29 | 李会林 | Imitative natural lighting cultivation apparatus, system and method |
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CN114532287A (en) * | 2022-01-17 | 2022-05-27 | 深圳市镭明士科技有限公司 | Marine biological lamps and lanterns of shop |
CN114532287B (en) * | 2022-01-17 | 2023-11-10 | 深圳市镭明士科技有限公司 | Marine organism lamp |
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