WO2011025059A2 - Lighting equipment for making up for insufficient sunlight in open-field cultivation or greenhouse cultivation, and method for manufacturing said lighting equipment - Google Patents

Abstract

Provided is lighting equipment that is appropriate for use in open-field cultivation or greenhouse cultivation and is easy to install and remove. Also provided is a method for manufacturing said lighting equipment. In the provided lighting equipment, semiconductor light-emitting elements and wires for supplying power are attached to a net or sheet for covering plants and aimed such that light emitted from the semiconductor light-emitting elements shines on plants to be illuminated. Said net or sheet can be used by simply covering plants being cultivated, by either directly covering plants being cultivated in an open field, raising a plurality of supports and hanging the net or sheet therebetween, or hanging the net or sheet from posts in a greenhouse. The net or sheet shape makes it easy to spread out and set up said net or sheet. There is also the advantage of freedom in terms of the shape of the net or sheet when used to cover plants. Removal is also easy. The net or sheet serves as a base that supports the semiconductor light-emitting elements and the wires therefor, and also serves as protection for times such as when external tension is applied to the wires and the like.

Description

Illumination tool for making up for lack of sunshine in outdoor cultivation and house cultivation, and its manufacturing method

The present invention relates to an illumination tool using a semiconductor light-emitting element and a method for manufacturing the same to compensate for lack of sunshine in outdoor cultivation and house cultivation. Semiconductor light emitting elements include electroluminescence (EL) and laser diode (LD). In the present application, the semiconductor light emitting element will be described as an LED (Light Emitting Diode) (light emitting diode).

In recent years, research and development has been thriving to promote growth by applying artificial light to cultivated plants in buildings. For example, US Pat. No. 6,921,182 enhances plant growth by arranging an orange first LED group, a red second LED group, and a blue third LED group at an appropriate ratio and illumination angle. This is an inexpensive and highly efficient LED lamp. US abstract 2001-47618 also uses red and blue LEDs alternately distributed on the substrate as a light source to provide continuous light similar to the sun and to control the work associated with light emission. Is. For semiconductor light emitting devices such as LEDs, depending on the type of plant, selectively using light of a specific wavelength that is convenient for the growth of each plant, or controlling the light intensity, illumination time, etc. The feature is that it can be easily performed. Such an LED lamp is provided in the form of a panel in which LEDs are assembled or in the form of a light bulb, and is firmly fixed to the ceiling or wall surface of a so-called plant factory.
Although it is a plant factory that seems to change the history of crop cultivation at once, this does not eliminate the cultivation of open-air cultivation and small-scale house cultivation that have been cultivated so far. However, there is a big problem of lack of sunshine in outdoor cultivation and house cultivation. If there is a lack of sunshine due to long rain or cloudy weather, the cultivated plants will be adversely affected. If stable sunshine is not obtained, for example, peach farmers do not receive peach fruits, and even if they are worn, they suffer from damage such as poor coloring and sugar content. In addition, the cultivation of tomatoes causes problems such as leaf dying and ripening. Some may have symptoms of the chief. The lack of rays is a big problem. Currently, there is an urgent need to solve such problems and advance outdoor cultivation and house cultivation.

US Pat. No. 6,921,182 (FIG. 6) US abstract 2001-47618 (FIG. 1)

As described above, open field cultivation and small-scale house cultivation require dedicated lighting tools that can be easily installed to compensate for the lack of sunshine, but such a thing has not existed so far. Moreover, the LED lamp of the said form did not say that it can be used easily immediately when needed for outdoor cultivation or house cultivation, and lacked the flexibility of application.
Therefore, an object of the present invention is to provide an illumination tool suitable for outdoor cultivation and house cultivation that can be installed or removed more easily and a method for manufacturing the same.
The above problem is that a semiconductor light emitting device is mounted on a net or sheet for covering a plant, and the light emitted from the semiconductor light emitting device is directed to the plant to be illuminated, together with an electric wire for supplying power to the semiconductor light emitting device. This is achieved by providing a lighting tool for compensating for the lack of sunshine in outdoor cultivation and house cultivation. For example, a plurality of LEDs are oriented in such a way that light emitted from the LEDs hits the plant to be illuminated, together with electric wires for supplying power to the LEDs, and agricultural nets and sheets (hereinafter referred to as bases) for covering the plants. Attached). Since the LED emits light such as red or blue having a wavelength suitable for plant growth, the LED light can help to solve the shortage of sunlight. If there is sunlight, you can use it. By applying a fluorescent radioactive net or fluorescent radioactive sheet such as JP 2010-115193 to the base of the present invention, the fluorescent radioactive net or fluorescent radioactive sheet has a wavelength that is preferable for photosynthesis. It can be converted into light and given to plants, and this fluorescence helps to solve the shortage of sunshine together with the light emitted from the LED. Although not an essential requirement of the present invention, a commercial power supply is generally used for the power supplied to the LED. You may use the power source which farmers can obtain by themselves, such as wind power generation and small-scale hydroelectric power generation. If the smart grid (trademark) becomes widespread, it will be possible to supply solar power generated in a sunny area to the illumination device of the present invention in a rainy area.
Agricultural nets are used for various purposes such as insect protection, bird protection, wind protection, etc., depending on the material of the yarn such as polyethylene thread and thread with stainless wire, and depending on the thickness of the thread and whether it is a single thread, bundle thread or twisted thread. There are many types depending on the size of the net (mesh), the nodular net such as the cocoon or net, or the nodular net such as the Russell net, the shape of the net such as square or hexagon. In the present invention, the LED is provided on a flexible agricultural net made of such synthetic fiber or natural fiber. Alternatively, for example, it is also possible to use a net composed of the remaining part of a soft vinyl (PVC: polyvinyl chloride) sheet that has been removed and used as the net of the present invention. The agricultural sheet is, for example, stretched on a tunnel post for heat insulation, or covers the top of a plant to prevent rain. In the present invention, such an agricultural sheet is provided with LEDs. The flexible base is easy to spread and stretch, or has an advantage that the shape when it is put on a plant is free. In the case of a net, if the net is not very fine, the net is good and has the advantage that it is not easily broken by strong winds. Moreover, if it is not clogged like a light-shielding net, the plant can be poured through the sun through sunlight. Such nets and sheets can be put directly on the outdoor cultivated plants, or multiple pillars imitating bamboo such as Ibo bamboo (registered trademark) are put on the ground and passed between them. Or, it can be used simply by covering the cultivated plant by hanging it on the pillar of the house. Installation such as hanging between plants is also included in covering plants. It is easy to install and withdraw during busy farming. Even grandpa grandma is easy to handle because it can be quickly expanded and cleaned up. The integration of the base net or sheet and the LED makes it easy to handle with little separation from the LED when the base is rolled, folded, bent, squeezed, or extended. From this base, LED light is irradiated toward the plant. The base supports the LED. Further, when the agricultural equipment is caught on the electric wire or the like, the base is hooked together or hooked first, and is pulled together with the base, so that the base acts to protect the electric wire. In the present invention, it is possible to design using a net covered with a sheet in order to take advantage of the net and the sheet. That is, a semiconductor light emitting element is attached to a net covered with a sheet so that light emitted from the semiconductor light emitting element strikes a plant to be illuminated, together with an electric wire for supplying power to the semiconductor light emitting element.
Several LED can be comprised by connecting each LED lamp with electric wires, such as a vinyl covering wire. An electric wire called a flat cord in which conductive wires covered with a resin film are bundled in a band shape can be used. Alternatively, an LED string or an LED matrix including wiring can be formed by surface mounting (Surface Mount). Other methods may be adopted. It is desirable that water resistance is given to those used in the open ground. A plurality of LEDs may be connected in series, a plurality of groups connected in series may be connected in parallel, or the like. Moreover, it can comprise so that LED and an electric wire can be extended using an extension connector etc. FIG. Since this is a general technique, a detailed explanation is omitted. The emission color of the LED is not limited to white including light such as red and blue having a wavelength suitable for plant growth. For example, a red LED or a blue LED is used alone, or a red LED and a blue LED are approximately four to one. It is arbitrary, such as mixing with. The light emission time and light emission pattern of the LED can be controlled. In addition to DC lighting, pulse lighting may be used. Since the techniques already disclosed in the above-mentioned patent documents 1 and 2 and the existing techniques are used as a reference, further explanation is omitted to avoid complication. Such an LED is provided on the entire base or in a required portion. In addition, if a prism or a mirror is provided without directing the light emitting part of the LED toward the plant to be illuminated, it is possible to direct light toward the plant. In addition, when using high output LED, it is good to take a heat dissipation measure.
To attach multiple LEDs to the base, adhesive to supply the LED and its wires to the part that contacts the base, and an adhesive tape to wrap the LED and its wires around the base and fix them together , Hook-and-loop fasteners, wires, soft vinyl strings with wires (vinyl ties), binding bands such as Insulok (registered trademark), clips such as eyeball clips, hooks such as net hooks, spiral tubes, etc. It is not limited to these. If attachment / detachment means that can be freely attached / detached is used as the attachment part, a plurality of LEDs including electric wires, a net, a sheet, and the attachment part can be sold as a set. As an example of this attaching / detaching means, a cable binding clip having spheres at both ends of an Ω shape can be raised. If an LED (for example, a tape LED or a tube LED) contained in a covering device to be described later is made strong against a pulling force, it can be configured as a part of the yarn constituting the net. What has been described so far is widely applicable not only to LEDs but also to semiconductor light emitting devices.
In order to attach a plurality of semiconductor light emitting elements to an agricultural net or an agricultural sheet, the following method can be provided. A semiconductor light emitting element and an electric wire for supplying electric power to the semiconductor light emitting element are accommodated in a long covering having translucency in a direction to be illuminated by the semiconductor light emitting element, and light emitted from the semiconductor light emitting element It is attached to a net or sheet for covering the plant in such a direction that it hits the plant to be illuminated. For example, a plurality of LEDs and electric wires for supplying power to the LEDs are placed in a long covering device having translucency in at least the light emission direction of the LEDs. (1) The light emitting surface of the LED is an object to be illuminated. It is attached to this net by passing it like a net of an agricultural net while making it face the plant. The covering device can be provided in a required form such as a tape or a tube, which has the advantage of being easy to pass through the mesh. It is good to give waterproofness to the thing used in an open field. Some LEDs in these coverings are flexible in the mesh direction. Since the degree of freedom in selecting the mesh through which the covering tool passes is high, it is possible to arrange the covering tool not only in a straight line but also in a curved line. Currently, the LED tape has a size such that the tape thickness is 2 millimeters. If it is necessary to use a net with a fine mesh that cannot pass the covering, a ring for passing the casing through the net may be provided. You may make it overlap with the net of a thick mesh (it passes a covering tool here) on the net of a fine mesh. Alternatively, (2) when the net is knitted, it is attached to the net so as to be knitted between yarns. For this, for example, a method of manufacturing a heat shield net made by weaving aluminum foil tape is helpful. In addition, although it is LED put in a long covering device like (1) and (2), if it is configured to be detachable for each unit, for example, 4 LEDs and 1 resistor as 1 unit. The unit unit can be easily extended or replaced when repaired. Currently, such products are also available for tape LEDs. What has been described so far is widely applicable not only to LEDs but also to semiconductor light emitting devices.
In addition, the following method can be provided for attaching a plurality of LEDs to an agricultural net. The semiconductor light emitting element is attached to a net for covering the plant in such a direction that light emitted from the semiconductor light emitting element hits the plant to be illuminated. At this time, (3) supplying power to the semiconductor light emitting element An electric wire to be attached is attached so as to be wound around the net, or (4) the electric wire is formed in a mesh shape and attached so as to be integrated with the net. In (3), for example, a plurality of LEDs are arranged in such a direction that light emitted from the LEDs hits a plant to be illuminated, and an electric wire for supplying power to the LEDs is wound around an agricultural net. is there. Agricultural nets support LEDs as a base, and serve as a defense when a tensile force from outside is applied to an electric wire or the like. An agricultural net provided with a tension rope for reinforcement may be used at the portion of the yarn that is entangled with the electric wire. In (4), when the electric wire is formed in a mesh shape, for example, a mesh having the same size as the mesh of an agricultural net is formed, and the two are overlapped so as to match the mesh, and necessary points are bonded. The mesh size of the electric wire is arbitrary, but may be larger than the mesh size of the agricultural net. In any case, the agricultural net can serve as a base to support the LED and protect the electric wire from external forces applied to the electric wire.
In general, light emission from a semiconductor light emitting element has directivity. For example, the light emission of LED has directivity. Some LED's are reflective types that emit light that is light-controlled. However, in general LEDs that emit light toward the front resin lens, such as a shell type, there is light that does not pass through the lens and is not controlled by the lens. . In addition, in the case of a low BIN rank, scattered light may be generated depending on the quality of the resin lens. If it is desired to reduce the leakage of such light directly into the environment around the agricultural net or agricultural sheet, a light shielding means is preferably provided behind the LED. In the manufacturing method of the present invention described above, a step of providing a light shielding means behind the semiconductor light emitting element is included. The light shielding means may be provided on the LED side or on the base side. In the case where the plurality of LEDs described above are housed in a long covering device having translucency in the light emitting direction of the LED, if the portion corresponding to the back of the LED of the covering device is configured to be opaque, the above described A light shielding means can be realized. If a light shielding base is used as the base, it can be considered that the light shielding base itself corresponds to the light shielding means. Such a configuration is widely applicable not only to LEDs but also to semiconductor light emitting devices.
By the way, I want to shine after sunset or before dawn to compensate for the lack of sunshine in the open ground and house, but at this time, it may be necessary to prevent light leakage to the environment to protect "dark night". For such a requirement, it is preferable to provide light shielding means such as an agricultural light shielding net or a polyethylene light shielding film to prevent light leakage outside the illumination tool. In other words, the light shielding means may be simply hung on the illumination tool, or the light shielding means may be provided on the outside of the illumination tool so as to be freely detachable. The former is a so-called “stick”, but for the latter, for example, an illuminating tool is stretched using a tunnel post, and a tunnel-like lead pipe is attached to the outside of the tunnel post, and along this lead pipe. The shading curtain is installed so that it can be manually closed and opened. Alternatively, it is convenient to have a configuration that can automatically open / close the light-shielding curtain by providing a motor-driven opening / closing means. Further, if an illuminance meter is provided so as to be able to control the opening / closing means, it is possible to perform control such that the light shielding curtain is closed at sunset or the light shielding curtain is opened at sunrise. It is possible to use the technology of the plant factory in the illumination after sunset. For example, in the case of an LED, a red LED or a blue LED is appropriately used in a timely manner. However, white light leaks from the open ground and houses, but there is a possibility that the scene where red light or blue light leaks feels kind of strange. Therefore, the light shielding means is also effective in this case. A light shielding sheet disclosed in JP-A-2007-92245 is also helpful. Further, the above-described light-shielding type base of the present invention can be used as a light-shielding means by stretching the side where the semiconductor light-emitting element is attached toward the plant.
Now, outdoor cultivation and house cultivation are in accordance with the sun's appearance and weather, but according to the illumination tool of the present invention, in the case of insufficient sunlight, the semiconductor light-emitting element is turned on during the daytime, or after sunset or before dawn. You can make up for the shortage. This can reduce plant stress (fatigue). On the other hand, as described in Japanese Patent Laid-Open No. 5-21822, the sunlight is used as it is to control the growing environment, and as disclosed in Japanese Patent Laid-Open No. 7-79646, the air pressure is set inside so as not to be adversely affected by the weather and the climate. There is an invention of a farm that covers a cultivation area with a roof that is laid out. Although it is not so large and limited, it is sufficiently possible to make it possible to perform illumination management like a plant factory using artificial light in ordinary grounds and houses targeted by the present invention. is there.
In other words, a plurality of semiconductor light emitting elements are oriented in such a way that light emitted from the semiconductor light emitting elements hits a plant to be illuminated, and together with electric wires for supplying power to the semiconductor light emitting elements, agricultural use for covering the plants A solar shading means that is attached to a net and applies or blocks sunlight to the plants that are targeted for illumination by the agricultural net may be an illuminating tool provided outside the agricultural net. In this way, not only to compensate for the lack of sunshine, but also to use artificial light while using sunlight, or to grow plants as planned without using sunlight at all. It can be done in the open ground and house. As the sunlight shading means, the above-described shading means such as an agricultural shading net or a shading film can be used. In some cases, a light-shielding film serving as a green filter is used. Further, as described above, the sunlight shading means may be provided so as to be detachable from the outside of the illumination tool. Further, the solar shading curtain can be opened / closed automatically by providing a motor-driven opening / closing means, or a illuminance meter or timer is provided to control the opening / closing means according to illuminance or time. You can do it.
Effects of the Invention An illumination tool in which a semiconductor light emitting element is attached to an agricultural net or sheet for covering plants is the first proposed by the present invention. As a result, in outdoor cultivation and house cultivation, it is possible to easily install or withdraw as soon as necessary. There are immense industrial benefits of the present invention.

It is explanatory drawing showing the illumination tool of 1st Embodiment, and the state which manufactures this. It is explanatory drawing showing this circuit. It is explanatory drawing of a use state. It is explanatory drawing showing the illumination tool of 2nd Embodiment, and the state which manufactures this. It is explanatory drawing showing the illumination tool of 3rd Embodiment, and the state which manufactures this. It is explanatory drawing showing the illumination tool of 4th Embodiment. It is explanatory drawing showing the illumination tool of 5th Embodiment. It is explanatory drawing showing the illumination tool of 6th Embodiment. It is explanatory drawing showing the illumination tool of 7th Embodiment. It is explanatory drawing showing the illumination tool of 8th Embodiment.

The present invention widely uses semiconductor light-emitting elements, but in the embodiment described below, an example using LEDs among them will be taken up.
First embodiment:
As shown in FIG. 1, an agricultural net 1 is formed from warps 10 and wefts 11 formed by bundling polyester yarns. The mesh size is 20 mm × 25 mm. On the other hand, an LED string including wiring is formed on the light shielding layer 20 by surface mounting, and a tape-shaped LED lamp 2 is prepared by covering the surface with a light-transmitting layer 21. As shown in FIG. 2, the LED string is a unit in which three LEDs 30 and one resistor 31 are connected in series, and connected to a plus-side wiring 32 and a minus-side wiring 33. is there. This drive power supply is 12 volts DC. A plurality of LED string units are connected in parallel to form a tape-shaped LED lamp 2. The light emitted from each LED 30 is illuminated from the translucent layer 21. In addition, regarding the tape-shaped LED lamp 2, if the light shielding layer 20 is unnecessary, this may be used instead.
As shown in FIG. 1, the tape-shaped LED lamp 2 is attached to the agricultural net 1 by sewing the mesh composed of the warp 10 and the weft 11 of the agricultural net 1 in the direction of the arrow. The illumination tool of the embodiment is obtained. Reference numerals 34 and 35 denote connection terminals to the power source.
FIG. 3 is an explanatory diagram of a state in which the illumination tool of the present embodiment is used. Here, the agricultural net 1 is directly covered directly on the fruit tree T. At this time, the light transmitting layer 21 side of the tape-shaped LED lamp 2 faces the fruit tree T, that is, the light shielding layer 20 side faces the outside. Such a sticking method can be easily and easily used in planter cultivation performed in a kitchen garden or in a home. If a bird net is used for the agricultural net 1, the illumination tool of this embodiment can also be used for bird protection purposes.
Although not shown in the drawings, there is a usage in which the illumination tool of the present embodiment is hung like a curtain between the fruit tree T and the fruit tree T. In this case, the tape-shaped LED lamp 2 is also preferably mixed in one agricultural net 1 with the light-transmitting layer 21 facing one side and the one facing the other side. Although not shown in the drawings, there is also an installation method in which a column with a pulley at the top is set up and the agricultural net 1 is spread using a pulley between the columns. In particular, in the case of sticking, it is more preferable to use a light diffusion type LED 30 for preventing leaf burn. In FIG. 3, the fruit tree T is not a requirement of the present invention.
Second embodiment:
As shown in FIG. 4, an agricultural net 12 is formed from warps 13 and wefts 14 formed by bundling polyester yarns. At this time, the tape-like LED lamp 2 is woven between the bundles of warps 13. Thus, the illumination tool of the present embodiment is obtained. The tape-shaped LED lamp 2 is the one used in the first embodiment described above.
Since the tape-shaped LED lamp 2 is located between the bundles of warps 13, it is more integrated with the agricultural net 12 than the illumination tool of the first embodiment, such as on plant leaves or pipes. Less resistance when sliding.
It is also possible to use a manufacturing method in which the tape-shaped LED lamp 2 is not attached so as to be knitted between the yarns when the agricultural net 12 is knitted, but is inserted later between the yarns of the agricultural net that has been knitted. . In addition, the tape-shaped LED lamp is used for agricultural purposes, rather than being threaded through the net of an agricultural net (first embodiment) or woven between bundles of yarn (second embodiment). The illumination tool of the present invention can also be provided by adhering along a net or fixing with a binding tool (not shown).
Third embodiment:
As shown in FIG. 5, electric wires 41 and 42 are connected to the LED lamp 40 used in the present embodiment. By attaching the LED lamp 40 in such a manner that the light emitted from the electric wire 41, 42 is entangled with the weft 11 of the agricultural net 1 described above and the emitted light is directed to one side of the agricultural net 1, It becomes the illumination tool of embodiment. The electric wires 41 and 42 are connected to a power source. Note that one LED lamp 40 is provided at one place, but a plurality of LED lamps 40 may be provided at one place. In addition, it is good also as a structure which attaches the tension rope for reinforcement to the part of the weft 11 which entangles the electric wires 41 and 42. FIG.
Each LED lamp 40 is provided with a thin, black light shielding plate 43 made of soft PVC on the back side thereof. As shown in FIG. 5, the light shielding plate 43 has a larger area than the LED lamp 40. Reference numeral 10 indicates a warp of the agricultural net 1.
In addition, for example, a number of electric wires of LED lamps are arranged in parallel, and adjacent electric wires are bonded at substantially equal intervals, and there are bonding points between electric wires adjacent to one side and electric wires adjacent to the other side. A mesh-like body made of electric wires can be formed by shifting. Therefore, an LED lamp having such a mesh-like body can be attached to an agricultural net or bonded with a binding tool or the like (not shown) to integrate the LED lamp and the agricultural net. The illumination tool of the invention can be provided. It is also possible to use an agricultural sheet instead of the agricultural net (not shown).
Fourth embodiment:
In 3rd Embodiment mentioned above, it demonstrated about forming the net-like body by the electric wire of an LED lamp. In the present embodiment illustrated in FIG. 6, an LED lamp 49 having electric wires 47, 48, which has a mesh-like body formed by the electric wires 47, 48, is immersed in a transparent silicone resin solution and is somewhat thicker. Formed.
Since the electric wires 47 and 48 form a mesh-like body, the silicone film around the electric wires 47 and 48 is also a mesh-like body (silicone-covered net 51: the whole is not shown). When the electric wires 47 and 48 are removed, the silicone-covered net 51 constitutes a net, so that the electric wires 47 and 48 are protected, and the present invention can be implemented also by this.
Fifth embodiment:
As shown in FIG. 7, the agricultural net 5 is formed by cutting away the portion that becomes the mesh 50 from the soft PVC sheet. The width between the mesh 50 is 25 millimeters. In order to apply sunlight to plants, a transparent PVC sheet is used. A tape-like LED lamp 2 having a width of 20 millimeters used in the first embodiment is fixed between the mesh 50 and the mesh 50 with a PVC resin adhesive to obtain an illumination tool of the present embodiment. At this time, the transparent layer 21 of the tape-shaped LED lamp 2 is aligned with the outer side of the soft PVC sheet, that is, the transparent layer 21 of the LED lamp 2 is transmitted from the inner side of the flexible PVC sheet (toward the plant). The two are glued together as if viewed. In addition, you may use heat welding for this adhesion | attachment.
As can be seen from FIG. 7, since the whole is almost flat and has little catch, it is convenient to cover directly on a plant or on a frame made of a pipe standing on the plant. . Furthermore, in order to make it thinner, it is good also as a structure which gives the role of the translucent layer 21 of the LED lamp 2 to the agricultural net 5 itself. It is also possible to adopt a configuration in which the tape-shaped LED lamp 2 is bonded to the inner side surface of the soft PVC sheet.
By the way, the agricultural net 5 of the present embodiment is formed by cutting a portion to be the mesh 50 from the soft PVC sheet. However, by using it as it is without making the mesh 50 (not shown), an LED lamp It is possible to provide an illumination tool of the present invention in which an agricultural sheet is integrated. In addition, as a sheet for agriculture, it is already on the market to convert and amplify the red band light that promotes photosynthesis in the sunlight spectrum to light energy in the long wavelength range required for plant photosynthesis. The sheet | seat which promotes the growth of a plant colored with the red fluorescent dye of this can be used.
Sixth embodiment:
The agricultural net 1 according to this embodiment shown in FIG. 8 includes an LED lamp attachment 6 that is an attaching / detaching means for attaching a tube-shaped LED lamp 22 described later in a detachable manner. This LED lamp fixture 6 resembles a bag closure for closing the mouth of a bread bag. That is, it has a net through hole 60 for passing the agricultural net 1 through the polystyrene plate material and a tube through hole 62 for passing the tube-shaped LED lamp 22, and the net through hole 60 has a notch 61 communicating outside. Further, the tube passage hole 62 is formed with a notch 63 communicating with the outside.
On the other hand, the tube-shaped LED lamp 22 used in the present embodiment is formed by connecting a plurality of so-called bullet-type LED lamps 44 with electric wires 45 in a transparent PVC tube. All the LED lamps 44 are aligned in such a posture that the light emitted from the LED lamps 44 is directed in substantially the same direction. In order to prevent the LED lamp 44 and the electric wire 45 from moving while being pressed in the tube, a configuration example using a heat-shrinkable tube is raised. As the heat-shrinkable tube, a polyolefin tube may have a relatively high transparency.
An LED lamp attachment 6 is attached to the agricultural net 1 through the net through hole 60. Therefore, the tube-shaped LED lamp 22 is attached to the tube passage hole 62. At this time, the light emission direction of the LED lamp 44 is directed to the direction of the arrow shown in FIG. If an agricultural sheet is used instead of the agricultural net 1, for example, a clip that sandwiches the sheet or an adhesive that adheres to the sheet may be provided instead of the net through hole 60.
Seventh embodiment:
The LED lamp 46 of this embodiment includes a net binding clip 7 that is an attaching / detaching means for detachably attaching an agricultural net (not shown in FIG. 9). The net binding clip 7 is made of nylon 66 and has a shape having a sphere 70 at each end of both Ω-shaped arms. If the two spheres 70 are used to twist the parts of both arms, the parts of both arms cross to form a ring. At this time, the two spheres 70 interfere with each other so that the crossed state of both arms cannot be naturally solved. Therefore, the agricultural net can be stopped in the ring.
An attachment tool 71 is fixed to the LED lamp 46 for integrating the net binding clip 7 and the LED lamp 46 and accommodating the two electric wires 47 and 48 of the LED lamp 46. 9 indicates the light emission direction of the LED lamp 46. If the target is an agricultural sheet, instead of the net binding clip 7, for example, a clip that sandwiches the sheet or an adhesive that adheres to the sheet may be provided.
Eighth embodiment:
FIG. 10 is an explanatory diagram showing the use state of this embodiment as a model. Pipe struts 8 are erected on both sides of the open ground, a pulley 80 is provided on the top, a rope (not shown) is stretched over the pulley 80, and the agricultural net 1 of the first embodiment is stretched over the rope. This agricultural net 1 allows sunlight to pass well. As can be seen from FIG. 10, the tape-like LED lamp 2 is located inside the stretched agricultural net 1. Further, from the top of the agricultural net 1, the agricultural net 1 having tape-like LED lamps 2 disposed on both sides is suspended to cover the plant.
Two pipe tunnel struts 81 are set up so as to cover the entire agricultural net 1, and both end portions thereof are inserted into the soil so that the longitudinal directions thereof are directed southward. The light shielding curtain 9 is stretched between the tunnel columns 81. The two tunnel struts 81 are connected to each other by pipes (not shown) through joints provided at three locations, the portions near the ground surface at both ends and the portions near the west side from the top. Ear thread rings 90 are provided at both ends of the light shielding curtain 9, and each ear thread ring 90 is passed through a tunnel column 81 as a guide on each side so that the light shielding curtain 9 is directed in the north-south direction. Open and close freely. Note that a pulling rope (not shown) is stretched to the south side of the loop 90 of the ear thread, and this closes the light-shielding curtain 9. In this way, the agricultural net 1 covered with the light shielding curtain 9 of the present embodiment is obtained. In addition, another tunnel post having a light shielding curtain 91 is attached inside the tunnel post 81. A part of the light shielding curtain 91 located on the west side is represented by a mesh line in FIG.
Both the column 8 and the tunnel column 81 are easy to set up and withdraw. When the tape-shaped LED lamp 2 of the agricultural net 1 is lit after sunset, the whole is covered with a light-shielding curtain 9 so that the LED light does not leak outside. In this case, the light shielding curtain 9 is a light shielding means for preventing the light from the LED from leaking. Or, even if it is during the daytime, if the illumination management is performed as in the plant factory using artificial light, the light shielding curtain 9 is closed so that sunlight does not enter. In this case, the light shielding curtain 9 is a sunlight shielding means. In this way, a simple artificial light utilizing outdoor field or artificial light utilizing house can be realized, and the plant can be planned and cultivated even in the outdoor field or house. The light-shielding curtain 9 can be automatically opened and closed by providing a motor-driven opening / closing means, or a illuminance meter and a timer can be provided to control the opening / closing means according to illuminance and time. Thus, labor saving can be realized. Although the light shielding curtain 9 has a net shape, a film (sheet) shape can also be used.
Other embodiments:
The present invention is not limited to the above-described embodiments, and various variations can be given within the scope of the idea. For example, it is possible to provide an agricultural net 5 obtained by cutting a portion that becomes the mesh 50 from the soft PVC sheet of the fifth embodiment, which is provided with an LED matrix including wiring by the surface mounting described above. Further, for example, the agricultural net of the fifth embodiment is formed by using transparent silicon rubber as a raw material, and a hole is formed in the net, an LED lamp is inserted into the aperture, and the lead wire is provided on the back surface of the net. What is connected to a flat cord can be provided. A yellow or green LED that has already been studied for insect control may be provided, or a mechanism for emitting a flash for bird protection may be provided. These ideas also help to grow cultivated plants. For example, electroluminescence or a laser diode can be used instead of the LED of the above-described embodiment.

The present invention can be used on the surface of a water such as a pond net or in water such as a ginger or the ocean. This is because the light emitted from the semiconductor light emitting device is applied to the underwater animals and plants. It can also be used to purify water by growing specific microorganisms. The present invention thus has a wide range of uses and provides great industrial benefits.

Claims (9)

1. An open field where a semiconductor light emitting element is attached to a net or sheet for covering a plant in such a direction that light emitted from the semiconductor light emitting element hits a plant to be illuminated, together with an electric wire for supplying power to the semiconductor light emitting element. Lighting tool to make up for the lack of sunshine in cultivation and house cultivation.
2. The shortage of sunshine in outdoor cultivation or house cultivation according to claim 1, further comprising an attaching / detaching means for detachably attaching a semiconductor light emitting element and an electric wire to the net on the net or the sheet side. Illumination tool for.
3. In order to block light emitted from the semiconductor light emitting element obliquely behind the semiconductor light emitting element so that the light emitted from the semiconductor light hits the plant but does not leak directly to the environment around the net or the sheet. The illumination tool for supplementing the lack of sunshine in outdoor cultivation and house cultivation according to claim 1, comprising a light shielding means.
4. A net or sheet for covering a plant, a semiconductor light emitting element and an electric wire for supplying power to the semiconductor light emitting element, and a light emitted from the semiconductor light emitting element on the side of the semiconductor light emitting element An illumination tool for compensating for shortage of sunlight in outdoor cultivation or house cultivation, which is provided with attachment / detachment means for detachably attaching to the net or the sheet in a direction hitting the sun.
5. In order to block light emitted from the semiconductor light emitting element obliquely behind the semiconductor light emitting element so that the light emitted from the semiconductor light hits the plant but does not leak directly to the environment around the net or the sheet. The illumination tool for supplementing the lack of sunshine in outdoor cultivation and house cultivation according to claim 4, comprising the light shielding means.
6. A semiconductor light emitting element and an electric wire for supplying electric power to the semiconductor light emitting element are accommodated in a long covering having translucency in a direction to be illuminated by the semiconductor light emitting element, and light emitted from the semiconductor light emitting element A lighting device manufacturing method for making up for the lack of sunshine in outdoor cultivation or house cultivation, which is attached to a net or sheet for covering the plant while facing the plant to be illuminated.
7. The covering tool is attached to the net so that the light emitted from the semiconductor light-emitting element hits the plant to be illuminated, and the net of the net is sewn, or when the net is knitted, The manufacturing method of the illumination tool for supplementing the lack of sunshine in the open field cultivation or house cultivation of Claim 6 attached to the said net | network so that it may knit in between.
8. The semiconductor light-emitting element is attached to a net for covering the plant while directing the light emitted from the semiconductor light-emitting element to hit the plant to be illuminated. In this case, in order to supply power to the semiconductor light-emitting element To make up for the lack of sunshine in outdoor cultivation and house cultivation, attach the electric wire so that it is wound around the net, or attach the electric wire so as to be integrated with the net. Manufacturing method of illumination tool.
9. The manufacturing method of the lighting tool for supplementing the lack of sunshine in the open field cultivation or house cultivation of Claim 6 or Claim 7 or 8 including the process of providing a light-shielding means behind the said semiconductor light-emitting device.

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