WO2014064893A1 - 照明装置および植物栽培装置 - Google Patents

照明装置および植物栽培装置 Download PDF

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Publication number
WO2014064893A1
WO2014064893A1 PCT/JP2013/005957 JP2013005957W WO2014064893A1 WO 2014064893 A1 WO2014064893 A1 WO 2014064893A1 JP 2013005957 W JP2013005957 W JP 2013005957W WO 2014064893 A1 WO2014064893 A1 WO 2014064893A1
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WO
WIPO (PCT)
Prior art keywords
light
light sources
lighting device
plant
cultivation
Prior art date
Application number
PCT/JP2013/005957
Other languages
English (en)
French (fr)
Japanese (ja)
Inventor
博之 渡邊
萩谷 宏三
山口 哲司
耕造 豊田
幸彦 太田
Original Assignee
学校法人玉川学園
西松建設株式会社
東京冷化機工業株式会社
昭和電工アルミ販売株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Publication date
Application filed by 学校法人玉川学園, 西松建設株式会社, 東京冷化機工業株式会社, 昭和電工アルミ販売株式会社 filed Critical 学校法人玉川学園
Priority to JP2014543134A priority Critical patent/JP5856691B2/ja
Priority to CN201380067910.5A priority patent/CN104981147B/zh
Priority to SG11201503090YA priority patent/SG11201503090YA/en
Publication of WO2014064893A1 publication Critical patent/WO2014064893A1/ja
Priority to HK16104151.9A priority patent/HK1216136A1/zh

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    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G31/00Soilless cultivation, e.g. hydroponics
    • A01G31/02Special apparatus therefor
    • A01G31/06Hydroponic culture on racks or in stacked containers
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01GHORTICULTURE; CULTIVATION OF VEGETABLES, FLOWERS, RICE, FRUIT, VINES, HOPS OR SEAWEED; FORESTRY; WATERING
    • A01G9/00Cultivation in receptacles, forcing-frames or greenhouses; Edging for beds, lawn or the like
    • A01G9/24Devices or systems for heating, ventilating, regulating temperature, illuminating, or watering, in greenhouses, forcing-frames, or the like
    • A01G9/249Lighting means
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P60/00Technologies relating to agriculture, livestock or agroalimentary industries
    • Y02P60/20Reduction of greenhouse gas [GHG] emissions in agriculture, e.g. CO2
    • Y02P60/21Dinitrogen oxide [N2O], e.g. using aquaponics, hydroponics or efficiency measures

Definitions

  • the present invention relates to a lighting device and a plant cultivation device for hydroponics, and more specifically, irradiates light reflected on the surface of a cultivation tray on which plants are planted again toward the cultivation tray with high efficiency.
  • the present invention relates to an illuminating device that can be used and a plant cultivation device that includes the illuminating device.
  • the illumination device of Patent Document 1 includes a reflector having a reflecting surface that is a rotating paraboloid so as to surround the LED, and light is emitted from the transparent cover in a vertical direction.
  • the discharge direction can be set. For this reason, light can be irradiated to a plant with comparatively high efficiency.
  • the cultivation tray is formed of a plastic resin such as polyethylene or polyvinyl chloride, or a material such as ceramic, and has a white glossiness. This is to prevent the cultivation tray from absorbing heat. Then, the light irradiated from the lighting device on the surface of the cultivation tray is reflected, but this reflected light was wasted by irradiating the inside of the housing of the lighting device and being emitted to the surroundings. .
  • LEDs used as light sources are expensive, it has been desired to reduce the number of LEDs as much as possible. This is because if the number of LEDs can be reduced, the amount of refrigerant for cooling the LEDs can be reduced, and the power supplied to the LEDs can be reduced.
  • the present invention has a plurality of light sources, a housing that houses the plurality of light sources, and includes a transparent window for emitting light emitted from the plurality of light sources, and light from outside the housing.
  • a lighting device is provided that includes a reflecting member that is attached so as to cover the window portion for reflection and is formed with a plurality of holes for emitting light emitted from each light source.
  • the window is covered with the reflecting member except for the portion where light is emitted from the light source
  • the light reflected on the surface of the cultivation tray is directed to plants planted in the cultivation tray again with high efficiency.
  • a plurality of light sources are housed in the housing, deterioration of the light sources can be prevented and the life can be extended.
  • the figure which showed the structural example of the illuminating device of this invention The figure which showed the relationship between the frequency
  • Sectional drawing which showed the place cut
  • the exploded plan view for demonstrating the combination of the spacer with which the illuminating device shown in FIG. 6 is provided.
  • the front view and side view of the edge part cover material of the illuminating device shown in FIG. Sectional drawing which showed another structural example of the illuminating device provided with the water cooling tube.
  • the illumination device 10 houses a plurality of light sources 11, a plurality of light sources 11, a housing 12 having a transparent window for emitting light emitted from the plurality of light sources 11, and light from the outside of the housing 12. And a reflection sheet 14 as a reflection member which is attached so as to cover the window portion and in which a plurality of holes 13 for emitting light emitted from each light source 11 is formed.
  • the light source 11 a fluorescent lamp, an LED, or the like can be used.
  • the light source 11 is preferably an LED with low power consumption.
  • the light source 11 can be composed of, for example, four LED chips that each emit light of any one color of red, green, and blue. The colors of the four LED chips constituting the light source 11 can be arbitrarily selected. As shown in FIG. 1A, six light sources 11 composed of these four LED chips can be arranged on one substrate. The present invention is not limited to these numbers, and the number of LED chips may be less than 4, or 5 or more. Moreover, five or less light sources 11 may be provided on one substrate, and seven or more light sources 11 may be provided.
  • a dimming control box for adjusting the illuminance of each color LED chip can be further provided.
  • the dimming control box can individually adjust the illuminance for each color, or can uniformly adjust the illuminance of the LED chips of all colors.
  • each light source 11 When the light source 11 emits light, heat is also generated at the same time. When this heat is conducted to the plant, it accumulates in the body of the plant and causes heat damage. For this reason, it is necessary to remove the generated heat.
  • each light source 11 is mounted on the said board
  • the refrigerant flows through the refrigerant conduit, and the heat conducted to the refrigerant conduit through the substrate is absorbed by the refrigerant.
  • the substrate an aluminum plate, a copper plate, or the like can be used.
  • the refrigerant ammonia, isobutane, carbon dioxide, water, or the like can be used. This is given as an example of removing heat, and other configurations such as blowing air into the housing 12 can be adopted.
  • a reflector 15 is provided that enables the light emitted from the light source 11 to be emitted in a predetermined direction.
  • the reflector 15 has a reflecting surface whose diameter increases as the distance from the light source 11 increases.
  • the reflecting surface may have a parabolic surface like a parabolic antenna.
  • the reflector 15 can be made by depositing a metal film such as aluminum or silver on an acrylic resin or the like provided with an opening serving as a reflection surface.
  • FIG. 1A In the embodiment shown in FIG. 1A, six light sources 11 are arranged on one substrate, and a reflector 15 is provided so as to cover the surface of the substrate, and these six light sources 11 are arranged. Sixteen substrates are stored in the housing 12.
  • the housing 12 includes a rectangular upper plate 16, four side plates 17 that continue to each side of the upper plate 16, and a transparent lower plate 18 that forms a window portion. It is a box-shaped object composed.
  • the substrate on which the six light sources 11 are disposed is disposed so as to be sandwiched between the upper plate 16 and the lower plate 18.
  • On the upper plate 16, the illuminance of each color LED chip is adjusted.
  • a terminal block 19 to which the dimming control box is connected is provided.
  • the upper plate 16 and the side plate 17 may be made of any material as long as the lighting device 10 can be rigid and prevented from being deformed.
  • metal materials such as aluminum, stainless steel, copper, and titanium, and plastic materials such as ABS resin can be used.
  • Aluminum and its alloy which are lightweight and excellent in terms of cost are preferable, and those whose surface is anodized to prevent corrosion are more preferable. Further, from the viewpoint of increasing the light reflectivity and effectively using light, it is desirable to anodize with white alumite, or to apply clear coating after anodizing.
  • the lower plate 18 may be made of any material as long as it efficiently transmits the light emitted from the light source 11.
  • glass can be used, and in addition, acrylic resin, polycarbonate, polyethylene terephthalate, and the like can be given.
  • an antireflection film for preventing reflection of light may be provided on the light source 11 side of the lower plate 18.
  • the reflection sheet 14 is attached to the lower side surface on the opposite side.
  • the reflection sheet 14 can be affixed using an adhesive mainly composed of epoxy resin, silicon resin, urethane resin, acrylic resin, or the like.
  • the reflection sheet 14 reflects light that enters the housing 12 from the outside to the inside.
  • the reflection sheet 14 is formed with a hole 13 that has the same rectangular shape as the substrate and is hollowed out to almost the same area so that the light emitted from each light source 11 can be emitted to the outside through the window portion. Has been.
  • the hole 13 has a high reflectivity in FIG. 1A and its area is not so large. Therefore, the reflection sheet 14 is cut out so that the surfaces of two continuous substrates can be seen. Is formed.
  • the present invention is not limited to this, and each light source 11 and the reflecting surface around it may be individually cut out in a circular shape.
  • the illuminating device 10 emits the light emitted from each light source 11 in a direction perpendicular to the lower plate 18 constituting the window portion by the reflector 15 and irradiates the plant ahead of the window portion. Part of the irradiated light is used by plants for photosynthesis. The remaining light is reflected on the surface of the cultivation tray and returns toward the lighting device 10. In addition, since the direction in which the light from the light source 11 is emitted by the reflector 15 is set, most of the remaining light is reflected on the surface of the cultivation tray and returns toward the lighting device 10.
  • the light returning toward the illuminating device 10 is reflected again by the reflection sheet 14 affixed to the lower plate 18 to irradiate the plant.
  • the light can be used effectively.
  • the number of light sources 11 is reduced, the amount of power to be supplied is also reduced, and the amount of refrigerant to be supplied can be reduced, so that the running cost can be reduced.
  • the plurality of light sources 11 are housed in the housing 12, the deterioration of the light sources can be prevented and the life can be extended.
  • the reflection sheet 14 preferably has a high reflectance, and a sheet having a reflectance of about 98% or more can be employed. Therefore, the material of the reflection sheet can be white PET (polyethylene terephthalate) having a reflectance of about 98%, which is generally used.
  • the material of the reflection sheet may be a material made of polypropylene as a main material that is lighter than white PET, has high hydrolysis resistance, and is excellent in weather resistance. This polypropylene reflective sheet is preferable in that the light reflectance is about 99% higher than that of white PET.
  • the reflection sheet 14 is preferably attached not only to the lower surface of the transparent lower plate 18 but also to the surface of the cultivation tray. This is because light can be appropriately reflected toward the reflection sheet 14 affixed to the lower plate 18, and light can be used more effectively. In addition, part of the light leaks toward the side periphery. Therefore, a reflecting plate can be provided on the side to prevent light from leaking to the surroundings.
  • a plurality of light sources 11 are housed in the housing 12, but when the humidity in the housing 12 increases, the light source 11 deteriorates severely and its life is shortened, so the humidity in the housing 12 is as much as possible. It is desirable to keep it low. For this reason, it is preferable to enclose a hygroscopic substance (hygroscopic agent) such as a desiccant in the housing 12.
  • hygroscopic agent include activated carbon and silica gel, but any substance having hygroscopicity can be used.
  • the hygroscopic agent can be appropriately replaced and can be regenerated by heating or the like.
  • FIG. 2 is a diagram showing the relationship between the number of reflections and the amount of light (%) in the case where the reflection sheet 14 is attached and in the case where the reflection sheet 14 is not attached.
  • a simulation was performed.
  • the case where the reflection sheet was not attached was simulated in the case (case C) where the reflection sheet 14 was not attached to any case.
  • the number of reflections indicates the number of reflections by the reflection sheet 14 affixed to the lower plate 18, and the amount of light (%) is the percentage of the amount of light at each number of reflections when the amount of light emitted from the light source 11 is 100%. It is the expressed value. That is, it is a value obtained by adding 100% of the light amount emitted from the light source 11 and the light amount% of the reflected light.
  • the ratio of the amount of light absorbed by the plant is 20%
  • the reflectance of the reflecting sheet 14 is 99%
  • the reflectance of the cultivation tray surface is 80%
  • the reflector 15 is used when the reflecting sheet 14 is not attached.
  • the reflectance when light is reflected is set to 50%.
  • the cultivation tray is a glossy white vinyl chloride tray
  • the casing 12 is an aluminum plate for the upper plate 16 and the side plate 17 and a transparent glass plate for the lower plate 18.
  • case B As indicated by the triangular mark in FIG. 2, the number of reflections was about twice that of case C, and the amount of light was approximately constant 270%, reaching an equilibrium state. Since the light amount of Case B is about 270% is about twice the light amount of Case C, it is possible to obtain a light amount of about 2 by simply attaching the reflection sheet 14 only to the lower plate 18. The number of light sources 11 can be reduced to about half.
  • case A even if the number of reflections is 14, the equilibrium state is not reached. Further, the amount of light when the number of reflections is 14 is about 450%, which is about three times that of caseC. From this, it is possible to significantly increase the amount of light by sticking the reflection sheet 14 to the surface of the cultivation tray. As a result, the number of light sources 11 required to obtain the same amount of light is greatly reduced. be able to. In other words, if the same amount of light as in case C is sufficient, the number of light sources 11 can be reduced to about 1/3.
  • the present invention can also provide a plant cultivation device 20 including the lighting device 10.
  • the plant cultivation device 20 is a cultivation tray 22 that is placed adjacent to each other on one or more rod-shaped members 21 and one or more rod-shaped members 21 through which a nutrient solution flows.
  • One or more basket-like members 21 are installed while being inclined in the longitudinal direction, and a cultivation shelf 23 to which the lighting device 10 is attached is provided.
  • the plant cultivation apparatus 20 has the circulation pump 24 as a nutrient solution supply means which supplies a nutrient solution in each rod-shaped member 21, the nutrient solution tank 25 as a storage tank which stores a nutrient solution, and air in a nutrient solution
  • An air pump 26 is provided as a gas supply means for feeding.
  • the cage member 21 is, for example, a commercially available rain gutter and is installed to have a gradient of about 1%. For this reason, when the nutrient solution is supplied to the higher side of one end of the bowl-shaped member 21 by the circulation pump 24, the nutrient solution flows along the inner surface of the bowl-shaped member 21 toward the lower side of the other end.
  • the other end of the bowl-shaped member 21 is provided with a discharge port for discharging excess nutrient solution, and a liquid collector is provided below the discharge port and collected in the liquid collector.
  • the nutrient solution is returned to the nutrient solution tank 25.
  • the bowl-shaped member 21 is installed so that a plurality may be arranged in parallel.
  • the cultivation tray 22 is placed on a plurality of rod-shaped members 21 arranged in parallel so as to straddle the plurality of rod-shaped members 21. Moreover, the cultivation tray 22 is provided with holes for planting plants at regular intervals, and a seeded sponge is fitted into the holes. Plant leaves spread on the cultivation tray 22, and plant roots spread on the lower side of the cultivation tray 22. This root is accommodated in the bowl-shaped member 21, and the tip of the root is immersed in a nutrient solution that flows along the inner surface of the bowl-shaped member 21.
  • Plants absorb nutrients and moisture in the nutrient solution from the tip of the root, take them into the body, and the leaves absorb light to perform photosynthesis and grow.
  • the nutrient solution contains water, oxygen, nitrogen, phosphoric acid, potassium, calcium and the like necessary for plant growth.
  • the lighting device 10 is attached to the upper part of the cultivation tray 22.
  • the reflective sheet 14 is affixed on the lower board which comprises a window part, and it is desirable for the reflective sheet to be affixed also on the cultivation tray 22 surface.
  • the side of the cultivation shelf 23 is open
  • the reflecting plate closes the side of the plurality of plants planted on each of the plurality of cultivation trays 22 placed adjacent to each other in the longitudinal direction of the bowl-shaped member 21, and the upper lighting device 10. It has a reflective surface that reflects light so that it can be irradiated again toward the plant, while preventing light from being reflected from the surface and light reflected from the surfaces of the plurality of cultivation trays 22 from leaking out.
  • the reflection sheet 27 is attached to the surface of the cultivation tray 22 facing the reflection surface of the reflection sheet 14 attached to the lower plate 18 of the lighting device 10, and the cultivation tray 22 is planted.
  • the reflector 28 can be disposed so as to close the side of the plant.
  • the reflecting plate 28 can be a plate, such as wood, plastic resin, or ceramic, with the reflecting sheet 14 attached thereto, and can be disposed on the cultivation shelf 23 using fastening means such as bolts and nuts. it can.
  • the plant cultivation apparatus 20 can be provided with a circulation fan as an air circulation means that is installed indoors and circulates air in order to keep the indoor temperature constant.
  • a dehumidifying device as humidity adjusting means can be provided in order to adjust the humidity to be constant.
  • a ventilation fan as a ventilation means for taking in outside air and discharging the internal air to the outside, a filter as a floating substance removal means for removing germs and dust floating in the air when taking in the outside air, etc. Can be provided.
  • the plant cultivation device 20 can arrange a plurality of cultivation trays 22 placed on the rod-shaped member 21 in order from the closest harvest time according to the growth of the plant. Thereby, the cultivation tray which the harvest time of one side came can be transferred to a harvesting place, a new cultivation tray can be added to the other side, and continuous harvesting can be realized.
  • the light source as shown in FIG. 1 (a) is divided into three regions in the longitudinal direction of the rod-shaped member 21 and the region on one side where the cultivation tray on which plants having small leaves are planted is placed.
  • the number of the light sources 11 as shown in FIG. 5 (a) is shown in FIG. 1 (a) in the central area on which the cultivation tray planted with a plant grown to some extent is placed. More lighting devices 10 can be attached.
  • the light source 11 rather than FIG.5 (a).
  • the illuminating device 10 having a large amount can be attached.
  • the arrangement of the light source 11 shown in FIG. 5 shows an example, and other arrangements may be used. Further, the number of the light sources 11 may be larger or smaller than the numbers shown in FIG. 1A, FIG. 5A, and FIG. Furthermore, instead of increasing or decreasing the number of light sources 11, all of them may be the same number of light sources 11, and the amount of light emitted by one light source 11 may be adjusted.
  • the number of regions divided in the longitudinal direction of the bowl-shaped member 21 is not limited to the above three, and may be two or four or more. In addition, fine light quantity control becomes possible with respect to a plant by dividing into four or more.
  • the lighting device of the present invention can include means such as a heat dissipation substrate and a refrigerant conduit for removing heat generated by the light source 11.
  • a heat dissipation substrate for removing heat
  • an illuminating device provided with a means for removing such heat an illuminating device provided with a water-cooled tube and an illuminating device provided with a radiation fin can be cited.
  • FIGS. 6 to 12 detailed configurations of these illumination devices will be described. First, an illuminating device including a cooling pipe will be described with reference to FIGS.
  • FIG. 6 is a cross-sectional view showing a section cut along the width direction of a lighting device provided with a cooling tube.
  • FIG. 7 is a cross-sectional view showing a section cut along a longitudinal direction perpendicular to the width direction of the illumination device.
  • the illumination device includes a substantially rectangular cooling panel 30.
  • the cooling panel 30 includes a flat heat dissipation substrate 31 and a hollow portion 32 integrally provided on the upper surface of the central portion in the width direction of the heat dissipation substrate 31 so as to extend in the longitudinal direction.
  • the cooling panel 30 is manufactured by extrusion molding using a metal material having high thermal conductivity such as aluminum or copper.
  • a water passage 33 made of a metal material having a high thermal conductivity such as aluminum or copper is inserted into the hollow portion 32, and the water passage 33 is fixed in the hollow portion 32 by being expanded.
  • a cooling fluid such as water is circulated in the water conduit 33.
  • water, gas such as air or carbon dioxide, brine mainly composed of ethylene glycol, propylene glycol, or the like can be used as the cooling fluid.
  • this lighting device includes a plurality of LED light emitting units 34 attached to the lower surface of the cooling panel 30 so as to be arranged in two rows.
  • the lower surface is a surface on the side where the hollow portion 32 does not protrude
  • the upper surface is a surface on the back side of the lower surface.
  • the LED light emitting unit 34 includes a plurality of LED chips 35 as the light source 11 and a secondary reflector 36 having a specular reflection part 36 a attached so as to surround each LED chip 35.
  • the LED light emitting units 34 are not limited to two rows, and may be one row or three or more rows.
  • the plurality of LED chips 35 are directly bonded to the lower surface of the cooling panel 30, that is, the lower surface of the heat dissipation substrate 31 without interposing an insulating layer.
  • a silicon-based adhesive or silver paste having high thermal conductivity can be used for bonding.
  • the heat radiating board 31 is absorbed by the cooling water flowing through the water conduit 33 and cooled. For this reason, the heat generated from the LED chip 35 is quickly absorbed into the heat dissipation substrate 31, and the heat generation of the LED chip 35 is suppressed.
  • the LED chip 35 for example, an LED chip in which a gallium nitride-based light emitting portion is formed on a sapphire substrate can be used.
  • the LED chip 35 preferably has a red light having a peak wavelength of 660 nm, which has the highest utilization efficiency for a plant photosynthesis reaction.
  • this lighting device has a primary sealant 37 on the lower portion of the cooling panel 30 near the periphery, that is, the lower surface of both sides of the flat heat dissipation board 31 in the width direction and the side of the longitudinal side.
  • a spacer 38 is provided.
  • the spacer 38 is manufactured, for example, by extrusion molding a metal material such as aluminum or copper having high thermal conductivity.
  • the primary seal material 37 is, for example, an adhesive seal tape.
  • This lighting device includes a transparent light-transmitting plate 39 disposed so as to face the LED chip mounting surface to which the LED chip of the cooling panel 30 is mounted.
  • the translucent plate 39 is joined to the spacer 38 via the primary sealant 37 on the peripheral portion thereof, that is, on the upper surface of the translucent plate 39 on both side edges in the width direction and on both sides in the longitudinal direction.
  • the translucent plate 39 may be anything as long as it is a transparent rectangular plate, and for example, a synthetic resin plate made of a glass plate, a polycarbonate resin, or the like can be used.
  • a reflection sheet 40 as a reflection member is attached to the lower surface of the translucent plate 39 or the like.
  • the reflection sheet 40 can be attached using an adhesive mainly composed of an epoxy resin, a silicon resin, a urethane resin, an acrylic resin, or the like as described above.
  • the reflection sheet 40 reflects light that is about to enter the inside from the outside of the lighting device.
  • the reflection sheet 40 is formed by the secondary reflector 36 in the same rectangle as the light transmitting plate 39 so that the light emitted from each LED chip 35 can be emitted to the outside through the light transmitting plate 39.
  • a hole 41 is formed by hollowing out to approximately the same area as the area of the light exit opening whose diameter is increased to emit the light.
  • the reflection sheet 40 preferably has a high reflectance, and a sheet having a reflectance of about 98% or more can be used.
  • the material of the reflection sheet is generally used white PET having a reflectance of about 98%. be able to.
  • the reflective sheet 40 may be made of polypropylene as a main raw material that is lighter than white PET, has high hydrolysis resistance, and is excellent in weather resistance. This polypropylene reflective sheet is preferable in that the light reflectance is about 99% higher than that of white PET.
  • the housing 12 is provided so as to surround the periphery of the plurality of light sources 11 and the cooling panel 30 to which the plurality of light sources 11 are attached, and is joined to the cooling panel 30 via the primary sealing material 37.
  • a transparent light-transmitting plate which is disposed to face the mounting surface of the plurality of light sources 11 attached to the cooling panel 30, that is, the lower surface of the heat dissipation substrate 31, and is joined to the spacer 38 via the primary sealing material 37. 39, and the plurality of light sources 11 are sealed.
  • the LED chip 35 is configured to efficiently transmit generated heat to the back surface using a chip-on-board (COB) directly mounted on the heat dissipation substrate 31.
  • COB chip-on-board
  • the LED light emitting unit 34 is formed as follows.
  • An insulating layer 50 is laminated on the surface of the heat dissipation substrate 31 via an adhesive layer 51.
  • a wiring board 53 is formed by laminating a wiring portion 52 made of a copper foil formed in a wiring pattern on the insulating layer 50.
  • a predetermined number of reverse-tapered LED mounting holes 54 are formed in the wiring board 53 at predetermined intervals, and an annular primary reflector 55 having a white highly reflective surface is provided on the inner peripheral surface of each LED mounting hole 54.
  • the LED chip 35 is bonded to the bottom of each LED mounting hole 54, that is, on the heat dissipation substrate 31.
  • a bonding wire 56 is provided to electrically connect the LED chip 35 and the wiring part 52.
  • the bonding wire 56 is a conducting wire formed of gold, aluminum, copper or the like.
  • the LED mounting hole 54 is filled with a transparent sealing resin 57 so as to cover the LED chip 35 and the bonding wire 56, and these are sealed.
  • a transparent sealing resin 57 an acrylic resin, an epoxy resin, a silicon resin, or the like can be used.
  • the LED light-emitting unit 34 formed in this way can form the wiring board 53 without processing any flat surface of the heat dissipation board 31, the manufacturing process is simple and the productivity is good. Moreover, since the process for forming a recessed part and a protrusion part in the heat sink 31 is unnecessary, various existing metal plates can be used, and the joining property of the LED chip 35 is also good. Note that it is preferable to make the wiring board 53 thinner than the LED chip 35 because light can be efficiently extracted downward.
  • the LED light emitting unit 34 is attached to the lower surface of the cooling panel 30, that is, the lower surface of the heat dissipation substrate 31 using, for example, screws 58.
  • the spacer 38 is composed of eight members as shown in FIG. 9, and is assembled using these members.
  • the eight members are composed of two hollow vertical members 38a, two cross members 38b, and four corner members 38c having a substantially rectangular cross section.
  • the spacers 38 are assembled so that two vertical members 38a and two cross members 38b are rectangular, and are connected at the corners by four synthetic resin corner members 38c.
  • Each corner member 38c includes a first insertion portion into which one of the two vertical members 38a is inserted, a second insertion portion into which one of the two transverse members 38b is inserted, a first insertion portion, and a second insertion portion. And an intermediate connecting portion that bends approximately 90 °.
  • the spacer 38 formed by inserting the vertical members 38a and the horizontal members 38b into the insertion portions of the four corner members 38c has a cooling panel 30 on its upper surface via a primary sealing material 37 and a primary seal on its lower surface.
  • a translucent plate 39 is joined via the material 37.
  • the secondary sealant 60 is filled in the gap formed between the cooling panel 30 and the light transmitting plate 39 over the entire circumference of the spacer 38.
  • the A chamfered concave portion 38 d is provided over the entire length of the upper and lower edge portions of the outer wall portion of the spacer 38 so as to be fitted to the inward convex portions 60 a of the upper and lower edge portions of the secondary seal material 60.
  • a groove-shaped frame member 61 for covering and fitting is attached to both side edges in the width direction of the cooling panel 30 and the translucent plate 39 and the secondary sealing material 60 filled therebetween.
  • the frame member 61 is composed of an upper wall portion 61a, a lower wall portion 61b, and a vertical wall portion 61c that connects them, and has a substantially U-shaped cross section.
  • a screw screwed inward protruding strip 61d having a substantially C-shaped cross section is provided over the entire length of the frame member 61 at the center in the vertical direction of the vertical wall 61c.
  • a lower engaging convex portion 61e having a circular cross section is provided on the inner edge of the upper wall portion 61a of the frame member 61 over the entire length of the frame member 61.
  • both side edges of the cooling panel 30 in the width direction of the heat dissipation substrate 31 are thin, and fitting recesses 31a having an arcuate cross-sectional shape are provided on each upper surface of the both side edges of these thin walls. Then, the lower engagement convex portion 61 e is fitted into these fitting concave portions 31 a, whereby the cooling panel 30, the translucent plate 39, and the secondary sealing material 60 are fixed by the frame member 61.
  • the secondary sealing material 60 is in a soft state.
  • the screw-threaded inner protruding strip 61d provided on the vertical wall portion 61c of the frame member 61 is pushed into the soft secondary seal material 60, whereby the secondary seal material 60 is moved to the vertical wall portion 61c.
  • the central portion in the vertical direction of the secondary sealing material 60 is deformed by being sandwiched between 61c and the spacer 38.
  • inward convex portions 60 a are formed at both side edges in the vertical direction of the secondary seal material 60, and these inward convex portions 60 a enter the chamfered concave portion 38 d of the spacer 38. Thereafter, the secondary sealing material 60 is cured, thereby realizing a more reliable seal.
  • this lighting device is disposed at both ends in the longitudinal direction of the cooling panel 30 and the translucent plate 39 so as to cover the secondary sealing material 60.
  • a lid member 62 having a substantially L-shaped cross section is provided.
  • the lid member 62 includes a vertical wall portion 62a and a horizontal portion 62b continuous with the lower end portion.
  • a tapping screw insertion through hole 62c is provided in a portion near both ends of the vertical wall portion 62a.
  • the lid member 62 is disposed so as to cover the secondary sealing material 60 at both ends in the longitudinal direction with the horizontal portion 62b facing outside, and a tapping screw is inserted into the tapping screw insertion through hole 62c to be provided on the frame member 61.
  • the lid member 62 is connected by being screwed into the inward protruding ridge 61d for screw screwing whose cross-sectional shape is substantially C-shaped.
  • the lid member 62 is also attached in a state where the secondary sealant 60 is soft. That is, when the secondary sealing material 60 is clamped by the lid material 62 and the spacer 38, the secondary sealing material 60 is deformed, and the inward convex portions 60 a are formed on the upper and lower side edges of the secondary sealing material 60. These inward convex portions 60a enter the chamfered concave portion 38d of the spacer 38, and then the secondary sealant 60 is hardened, so that a more reliable seal can be realized.
  • the lighting device including a water-cooled tube is integrally provided with a fitting portion 70 having a substantially C-shaped cross section on the upper surface of the cooling panel 30, and a water pipe 33 is provided in the fitting portion 70.
  • FIG. 12 is a cross-sectional view showing a section cut along the width direction of an illuminating device provided with heat radiating fins 80 provided integrally with the heat radiating substrate 31 as an air-cooled device.
  • the cooling panel 30 includes a flat plate-shaped heat radiation substrate 31 and a plurality of plate-shaped fins 80a extending perpendicularly to one surface of the heat radiation substrate 31, here the upper surface. Is done.
  • the plurality of fins 80a are provided so as to be arranged at regular intervals.
  • the fin 80a may have the same thickness from the tip to the end when the portion joined to the heat dissipation board 31 is the end, or the thickness increases from the tip to the end in order to obtain a predetermined fin strength. It can also be formed to be thick.
  • the cooling panel 30 including the plurality of fins 80a is manufactured by extrusion molding using a metal material such as aluminum or copper having high thermal conductivity.
  • the air passes through the ventilation gaps between the plurality of fins 80a arranged at regular intervals, and the plurality of fins 80a contacting the air is cooled, and accordingly, the heat dissipation substrate 31 continuous to the plurality of fins 80a is cooled. Is done. For this reason, the heat generated by the LED chip 35 is quickly absorbed into the heat dissipation substrate 31, and the heat generation of the LED chip 35 is suppressed.
  • the fin 80a is a flat plate, but the fin 80a may be a rod.
  • the fins 80a are provided at appropriate intervals so that air flows appropriately, and have appropriate thicknesses and lengths so that heat generation of the LED chips 35 can be appropriately suppressed.
  • This illumination device may further include a cover 81 that covers the plurality of fins 80a.
  • the cover 81 is provided to suppress adhesion of dust, dirt, and the like to the plurality of fins 80a.
  • the cover 81 is fixed to the cooling panel 30 with screws or the like (not shown).
  • the cover 81 can also be manufactured by extrusion molding using a metal material such as aluminum or copper having a high thermal conductivity.
  • the 6 to 12 has a structure in which the LED light emitting unit 34 is hermetically sealed by the cooling panel 30, the spacer 38, the translucent plate 39, and the like. Protects the LED elements and electronic circuits included in 34, and has high durability even in high humidity use environments such as plant cultivation devices. Moreover, since the reflective sheet 40 is affixed, the light reflected on the surface of the cultivation tray can be subjected to multiple reflections again toward the plants planted on the cultivation tray with high efficiency. Furthermore, the temperature rise of the cultivation space that occurs when multiple reflections are made toward the plant can be suppressed by removing heat by the above means.
  • the lighting device of the present invention and the plant cultivation device provided with the lighting device have been described in detail with the above-described embodiments, but the present invention is not limited to the above-described embodiments, and other embodiments. It can be modified within the range that can be conceived by those skilled in the art, such as addition, change, deletion, etc., and any embodiment is included in the scope of the present invention as long as the operation and effect of the present invention are exhibited. is there.
  • DESCRIPTION OF SYMBOLS 10 ... Illuminating device, 11 ... Light source, 12 ... Housing, 13 ... Hole, 14 ... Reflective sheet, 15 ... Reflector, 16 ... Upper plate, 17 ... Side plate, 18 ... Lower plate, 19 ... Terminal block, 20 ... Plant Cultivation device, 21 ... bowl-shaped member, 22 ... cultivation tray, 23 ... cultivation shelf, 24 ... circulation pump, 25 ... nutrient solution tank, 26 ... air pump, 27 ... reflection sheet, 28 ... reflection plate, 30 ... cooling panel, DESCRIPTION OF SYMBOLS 31 ... Radiating board, 31a ... Fitting convex part, 32 ... Hollow part, 33 ... Water pipe, 34 ... LED light emission unit, 35 ...
  • LED chip 36 ... Secondary reflector, 36a ... Specular reflection part, 37 ... Primary sealing material 38 ... Spacer, 38a ... Vertical member, 38b ... Cross member, 38c ... Corner member, 38d ... Chamfered recess, 39 ... Translucent plate, 40 ... Reflective sheet, 41 ... Hole, 50 ... Insulating layer, 51 ... Adhesive layer, 52 ... Wiring part, 53 ... Wiring board, 54 ... ED mounting hole, 55 ... primary reflector, 56 ... bonding wire, 57 ... sealing resin, 58 ... screw, 60 ... secondary sealant, 60a ... inward convex part, 61 ... frame member, 61a ... upper wall part, 61b ...

Landscapes

  • Life Sciences & Earth Sciences (AREA)
  • Environmental Sciences (AREA)
  • Arrangement Of Elements, Cooling, Sealing, Or The Like Of Lighting Devices (AREA)
  • Cultivation Of Plants (AREA)
  • Hydroponics (AREA)
PCT/JP2013/005957 2012-10-24 2013-10-07 照明装置および植物栽培装置 WO2014064893A1 (ja)

Priority Applications (4)

Application Number Priority Date Filing Date Title
JP2014543134A JP5856691B2 (ja) 2012-10-24 2013-10-07 照明装置および植物栽培装置
CN201380067910.5A CN104981147B (zh) 2012-10-24 2013-10-07 照明***及植物栽培装置
SG11201503090YA SG11201503090YA (en) 2012-10-24 2013-10-07 Lighting system and plant cultivation apparatus
HK16104151.9A HK1216136A1 (zh) 2012-10-24 2016-04-12 照明系統及植物栽培裝置

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JP2012-234564 2012-10-24
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EP3039960A1 (en) * 2015-01-05 2016-07-06 Cal-Comp Biotech Co., Ltd. Plant lighting apparatus
JP2016162706A (ja) * 2015-03-05 2016-09-05 東芝ライテック株式会社 照明器具
JP2017099346A (ja) * 2015-12-03 2017-06-08 東京特殊電線株式会社 植物栽培用照明装置および植物栽培装置
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JP2018019658A (ja) * 2016-08-05 2018-02-08 永興化成株式会社 植物栽培用トレイ
WO2018067088A3 (en) * 2016-09-02 2018-07-12 Arcelik Anonim Sirketi Cultivator with improved cultivation and improved energy efficiency
WO2019040944A3 (en) * 2017-08-25 2019-03-28 Agnetix, Inc. METHODS AND APPARATUS FOR FLUID-COOLED LED BASED ILLUMINATION FOR ENVIRONMENTALLY CONTROLLED AGRICULTURE
JP2019115365A (ja) * 2015-02-13 2019-07-18 伊東電機株式会社 植物栽培装置
WO2019213652A1 (en) * 2018-05-04 2019-11-07 Agnetix, Inc. Methods, apparatus, and systems for lighting and distributed sensing in controlled agricultural environments
JP2020527358A (ja) * 2017-06-29 2020-09-10 シーオー2アイ リミティド 環境制御システム
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US10999976B2 (en) 2017-09-19 2021-05-11 Agnetix, Inc. Fluid-cooled lighting systems and kits for controlled agricultural environments, and methods for installing same
US11013078B2 (en) 2017-09-19 2021-05-18 Agnetix, Inc. Integrated sensor assembly for LED-based controlled environment agriculture (CEA) lighting, and methods and apparatus employing same
US11076536B2 (en) 2018-11-13 2021-08-03 Agnetix, Inc. Fluid-cooled LED-based lighting methods and apparatus for controlled environment agriculture with integrated cameras and/or sensors and wireless communications
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JP2015073511A (ja) * 2013-10-11 2015-04-20 昭和電工株式会社 植物栽培装置
EP3039960A1 (en) * 2015-01-05 2016-07-06 Cal-Comp Biotech Co., Ltd. Plant lighting apparatus
CN105981601A (zh) * 2015-01-05 2016-10-05 金宝生物科技股份有限公司 植物光照设备
JP2019115365A (ja) * 2015-02-13 2019-07-18 伊東電機株式会社 植物栽培装置
JP2016162706A (ja) * 2015-03-05 2016-09-05 東芝ライテック株式会社 照明器具
JP2017099346A (ja) * 2015-12-03 2017-06-08 東京特殊電線株式会社 植物栽培用照明装置および植物栽培装置
WO2017168667A1 (ja) * 2016-03-31 2017-10-05 富士通株式会社 植物栽培用の照明装置、植物栽培装置、植物栽培方法
JP2018019658A (ja) * 2016-08-05 2018-02-08 永興化成株式会社 植物栽培用トレイ
WO2018067088A3 (en) * 2016-09-02 2018-07-12 Arcelik Anonim Sirketi Cultivator with improved cultivation and improved energy efficiency
JP2020527358A (ja) * 2017-06-29 2020-09-10 シーオー2アイ リミティド 環境制御システム
WO2019040944A3 (en) * 2017-08-25 2019-03-28 Agnetix, Inc. METHODS AND APPARATUS FOR FLUID-COOLED LED BASED ILLUMINATION FOR ENVIRONMENTALLY CONTROLLED AGRICULTURE
AU2018321981B2 (en) * 2017-08-25 2022-02-03 Agnetix, Inc. Fluid-cooled LED-based lighting methods and apparatus for controlled environment agriculture
US11889799B2 (en) 2017-09-19 2024-02-06 Agnetix, Inc. Fluid-cooled LED-based lighting methods and apparatus for controlled agricultural environments
US10881051B2 (en) 2017-09-19 2021-01-05 Agnetix, Inc. Fluid-cooled LED-based lighting methods and apparatus for controlled environment agriculture
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US10856470B2 (en) 2017-09-19 2020-12-08 Agnetix, Inc. Fluid-cooled LED-based lighting methods and apparatus for controlled environment agriculture
EP3662201A4 (en) * 2017-09-19 2021-03-31 Agnetix, Inc. LIQUID-COOLED LED-BASED LIGHTING PROCESS AND DEVICE FOR AGRICULTURE IN CONTROLLED ENVIRONMENT
US11272589B2 (en) 2017-09-19 2022-03-08 Agnetix, Inc. Integrated sensor assembly for LED-based controlled environment agriculture (CEA) lighting, and methods and apparatus employing same
US10999976B2 (en) 2017-09-19 2021-05-11 Agnetix, Inc. Fluid-cooled lighting systems and kits for controlled agricultural environments, and methods for installing same
US11013078B2 (en) 2017-09-19 2021-05-18 Agnetix, Inc. Integrated sensor assembly for LED-based controlled environment agriculture (CEA) lighting, and methods and apparatus employing same
US11044854B2 (en) 2017-09-19 2021-06-29 Agnetix, Inc. Fluid-cooled LED-based lighting methods and apparatus for controlled agricultural environments having a vertically-stacked multiple-level growing area
US10959383B2 (en) 2018-05-04 2021-03-30 Agnetix, Inc. Methods, apparatus, and systems for lighting and distributed sensing in controlled agricultural environments
US11266081B2 (en) 2018-05-04 2022-03-08 Agnetix, Inc. Methods, apparatus, and systems for lighting and distributed sensing in controlled agricultural environments
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WO2019213652A1 (en) * 2018-05-04 2019-11-07 Agnetix, Inc. Methods, apparatus, and systems for lighting and distributed sensing in controlled agricultural environments
US11076536B2 (en) 2018-11-13 2021-08-03 Agnetix, Inc. Fluid-cooled LED-based lighting methods and apparatus for controlled environment agriculture with integrated cameras and/or sensors and wireless communications
US11627704B2 (en) 2018-11-13 2023-04-18 Agnetix, Inc. Lighting, sensing and imaging methods and apparatus for controlled environment agriculture
SE543621C2 (en) * 2019-08-30 2021-04-20 Ahmed Abdelfattah Device for germ-free and microbiome controlled growth of plants
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US11982433B2 (en) 2019-12-12 2024-05-14 Agnetix, Inc. Fluid-cooled LED-based lighting methods and apparatus in close proximity grow systems for Controlled Environment Horticulture
US12020430B2 (en) 2021-06-23 2024-06-25 Agnetix, Inc. Multisensory imaging methods and apparatus for controlled environment horticulture using irradiators and cameras and/or sensors

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JPWO2014064893A1 (ja) 2016-09-08
JP5856691B2 (ja) 2016-02-10
CN104981147A (zh) 2015-10-14
SG11201503090YA (en) 2015-06-29
CN104981147B (zh) 2018-09-14
HK1216136A1 (zh) 2016-10-21

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