KR20130042789A - Plant cultivation system and cultivation method using upper and lower growth lamp - Google Patents

Abstract

PURPOSE: A method and an apparatus for cultivating plants are provided to effectively cultivate crops by comprising each lighting facility at leaves, stems, and roots. CONSTITUTION: An apparatus for cultivating plants comprises: a horizontal frame(101) which is formed in a multistep; a crop fixing plate(104) which is formed between the frame and fixes a stem; a transparent water bath(105) which is formed at the lower portion of the crop fixing plate and is filled with a solution; an upper growth promoting lamp(102) which is mounted at the lower portion of the horizontal frame and irradiates leaves and stems with light; and a lower growth promoting lamp(103) which is mounted at the upper portion of the horizontal frame and irradiates roots by light.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plant cultivation method and apparatus using plant growth promoting lamps,

The present invention relates to a plant cultivation apparatus using an upper and lower growth-promoting color lamp capable of efficiently cultivating various crops by irradiating leaf or stem and growth-promoting color light of different nature to the root.

Due to global warming, there are many changes in the world. In the natural environment where the four seasons are distinct, environmental changes can occur in a wide variety of conditions. In such a natural environment, an inappropriate environment may be formed for the growth of plants During the coldest months of the year, most plants can not stop growing or grow at all.

In order to provide an environment in which the plants can grow smoothly by changing the natural environment, various greenhouses are installed to be isolated from the outside environment by vinyl or glass to cultivate various plants irrespective of the external environment.

The above-mentioned greenhouse cultivation can provide stable harvesting over a long period of time by continuously supplying the natural sunlight to the plants regardless of external temperature change, and it is possible to minimize the use of the pesticide for controlling the pest and disease by cultivation under controlled environment .

Recently, plants are growing more rapidly by irradiating light not only with natural sunlight but also artificially through fluorescent lamps and LEDs as described above.

By irradiating the plants with light through fluorescent lamps or LEDs as described above, the growth of plants is further promoted and plants are stably grown from meteorological disasters such as typhoons, droughts or floods.

However, this method is applied equally to roots harvested root vegetables such as lettuce, sesame leaves, and the like, and carrots, ginseng, licorice, onion, etc. Therefore, A differentiated artificial cultivation method is in desperate need.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for effectively cultivating crops by separately arranging lighting equipment on leaves, It is an object of the present invention to provide a plant cultivation method and apparatus using a lower growth promoting lamp.

In order to achieve the above object, the present invention provides a plant cultivation method using the upper and lower growth-promoting lamps, wherein the stem and the stem, which are the upper part of the plant fixed to the crop fixing plate, And planting is carried out by irradiating a lower growth promoting lamp to the root portion of the plant which is fixed to the fixing plate and is contained in the nutrient solution.

At this time, the holder is characterized in that it is formed of an opaque material so that the light of the upper growth promotion lamp and the light of the lower growth promotion lamp is not mixed.

The upper and lower growth-promoting lamps may include an LED package capable of emitting at least one color.

The LED package further includes an infrared LED and an ultraviolet LED. The LED package can combine Red, Blue, and Green, that is, visible light, RGBD colors, and can control the brightness thereof. .

The plant cultivation apparatus using the upper and lower growth-promoting lamps according to the present invention includes a horizontal frame formed in a multi-stage structure; A crop fixing plate formed between the frames to insert and fix the stem; A transparent water tank formed at the bottom of the crop fixing plate and filled with nutrients so as to contain roots of plants; An upper growth-promoting lamp installed at a lower portion of the horizontal frame for irradiating light on leaves and stems of crops; And a lower growth-promoting lamp installed on the upper part of the horizontal frame to irradiate light on the roots of the crop.

At this time, the crop fixing plate is formed of opaque or translucent material.

The upper and lower growth-promoting lamps may include an LED package capable of emitting at least one color.

The LED package further includes an infrared LED and an ultraviolet LED. The LED package can combine Red, Blue, and Green, that is, visible light, RGBD colors, and can control the brightness thereof. .

According to the present invention constructed as described above, the upper growth-promoting lamp for growing the leaves and stems of the crop and the lower growth-promoting lamp for growing the roots of the crop are separately constructed, so that the color adjustment and the brightness of the color- It is possible to produce the crops quickly and with excellent quality.

1 shows a plant cultivation apparatus according to the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the plant growing method using the growth-promoting lamp according to the present invention is configured to simultaneously accelerate the growth of plants in accordance with crop characteristics by irradiating light of different wavelengths to the leaves and roots of crops.

As shown in FIG. 1, the plant cultivation apparatus using the upper and lower growth-promoting lamps according to the present invention includes a frame 101 having a plurality of stages, and a lower growth- And an upper growth promoting lamp 102 is installed under each of the frames 101.

At this time, only the lower growth promoting lamp 103 and the upper growth promoting lamp 102 are installed in the upper frame 101 and the lower frame 101 of the frame 101, respectively.

The frame 101 serves as a body for supporting the plant cultivation apparatus 100 as well as the lower growth promotion lamp 103 and the upper growth promotion lamp 102 on the upper and lower sides as described above.

The upper growth-promoting lamp 102 and the lower-growth-promoting lamp 103 are provided with a controller (not shown) to adjust the brightness of various types of growth-promoting lamps 102 and 103 such as a bulb, a fluorescent lamp, .

The growth-promoting lamps 102 and 103 are preferably LEDs (Light Emitting Diodes).

Since the LED consumes a small amount of power and can emit light of various colors (wavelengths) using an LED package, it is preferable to use an LED as a light source.

The LED package can emit light of various colors (wavelengths) by configuring one package of red, blue, and green light, which are three primary colors of light, and controlling the light quantity of each light source through a controller , The brightness of the growth-promoting lamp 102 can be adjusted.

Further, it is preferable that the upper and lower growth-promoting lamps 102 and 103 further include an LED capable of emitting infrared rays and ultraviolet rays.

In general, light functions differently on plants depending on their wavelengths.

Specifically, the photosynthesis effect is most effective for red light between 640 and 690 nm, and the blue light between 430 and 490 nm is more effective for normal leaf formation.

In addition, photosynthesis depends on the type of plant or growth stage, and accordingly, it is effective to irradiate red light with blue light. For example, it is known that the rate of photosynthesis is highest when the ratio of red to blue light is 5.

In addition, irradiation of blue light between 430 and 490 nm and near-infrared light (IR) between 700 and 780 nm is effective in promoting flower bud formation, for example, depending on the growing stage of the plant in plant cultivation.

In the case of near-ultraviolet rays, near-ultraviolet rays and red light rays are effective for controlling and specific wavelengths of near-ultraviolet rays have effects of controlling the pests and inhibiting reproduction or avoiding them.

As described above, by regulating the type and wavelength of light according to the growth stage of the plant, plants can be grown more effectively.

A crop fixing plate 104 for fixing the plant between the frame 101 provided with the upper and lower growth promoting lamps 102 and 103 as described above and the frame 101 is provided, A water tank 105 filled with the nutrient solution 106 is provided.

The crop fixing plate 104 is configured such that the light emitted from the upper growth promoting lamp 102 located above the crop fixing plate 104 and the light emitted from the lower growth promoting lamp 103 located below the crop fixing plate 104 are not mixed with each other It is molded with opaque materials such as styrofoam, and a number of perforated holes are formed so that the plant can be inserted and fixed, and the plant is inserted and fixed in the hole. At this time, the crop fixing plate 104 may be formed of a semi-transparent material.

The roots of the plant inserted into the crop fixing plate 104 are contained in the water tank 105 filled with the nutrient solution 106, so that various nutrients necessary for plant growth can be supplied.

The nutrient solution 106 is prepared by dissolving inorganic nutrients, which are essential for the growth of plants, in water in accordance with the ratio of each absorption amount. Elements essential for plant growth include 16 essential elements, including 13 inorganic nutrients except C, H, and O from water and air.

The water tank 105 containing the nutrient solution 106 is formed of a transparent material such as acrylic or glass so that the light emitted from the lower growth promoting lamp 103 installed on the upper part of the frame 101 can reach the root of the plant. do.

According to the present invention configured as described above, light of different wavelengths is irradiated to the upper part where the leaves and the stem are located and the lower part where the root is located, with the center of the crop fixing plate 104 as the center, By irradiating different lights, it can be effectively cultivated for each crop.

Onion was irradiated with light of different colors for 5 days,

When cultivated by irradiation with blue light When cultivated by irradiation with green light

When grown by irradiation with orange light When cultivated by irradiating pink light

When cultivated by irradiation with violet light When cultivated by irradiating red light

When cultivated by irradiation with white light If cultivated by irradiating yellow light

Growth status of onion after 5 days irradiation of blue, green, orange, pink, purple, red, white and yellow which are light of different wavelength on onion are shown in Table 1.

As shown in Table 1, when the onion was grown by irradiation with light of blue, purple and yellow wavelengths, only the roots grew largely and the roots grew largely. Onion grew by irradiation with orange or red wavelength light The growth of roots was poor while the growth of stem was large.

When green, pink or white light was irradiated on the onion, the stem and roots grew evenly.

As a result, the growth of stem and root were different from each other due to light of different wavelength. In other words, plants can be effectively cultivated and harvested by irradiating the leaves and stems with light of a wavelength at which leaves or stems can grow well, and irradiating the roots with light of a wavelength at which roots can grow well.

The combination of RGB colors makes it possible to freely configure the visible rainbow colors. Including infrared rays and ultraviolet rays, it is possible to compose color light that is closest to the sunlight, which is natural light. You can adjust the to achieve the optimum color, light and frequency that your plant requires.

The plant cultivation method and apparatus using the upper and lower growth-promoting lamps according to the present invention have been described above.

It will be understood by those skilled in the art that the technical features of the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof.

Therefore, the above-described embodiments are to be understood in all respects as illustrative and not restrictive, and the scope of the present invention is indicated by the appended claims rather than the foregoing description, and the meanings of the claims and All changes or modifications derived from the scope and the equivalent concept shall be construed as being included in the scope of the present invention.

100: plant cultivation equipment
101: frame
102: Lower Growth Promotion Lamp
103: Upper growth promotion lamp
104: Cropper plate
105: aquarium
106: Nutrient solution

Claims (9)

The upper growth promoting lamps were irradiated on the leaves and stems, which are the upper parts of the plants where the stem was fixed to the crop fixing plate,
A plant cultivation method using the upper and lower growth promoting lamps, characterized in that the stem is fixed to the crop plate to cultivate the plant by irradiating the lower growth promoting lamp to the root portion of the plant contained in the nutrient solution.
The method of claim 1,
The stator is a plant cultivation method using the upper and lower growth promoting lamps, characterized in that formed of an opaque or translucent material so that the light of the upper growth promoting lamp and the light of the lower growth promoting lamp is not mixed.
The method of claim 1,
Wherein the upper and lower growth-promoting lamps are made of an LED package capable of emitting at least one or more colors.
The method of claim 3,
Wherein the LED package further comprises an infrared LED and an ultraviolet LED.
A horizontal frame formed in multiple stages;
A crop fixing plate formed between the frames to insert and fix the stems;
A transparent water tank formed at the bottom of the crop fixing plate and filled with nutrients so as to contain roots of plants;
An upper growth-promoting lamp installed at a lower portion of the horizontal frame for irradiating light on leaves and stems of crops;
And a lower growth-promoting lamp installed on the upper part of the horizontal frame and irradiating light to the roots of the crop.
The method of claim 5,
The crop fixing plate is a plant cultivation apparatus using the upper and lower growth promoting lamps, characterized in that molded into an opaque material.
The method of claim 5,
Wherein the upper and lower growth-promoting lamps are made of an LED package capable of emitting at least one or more colors.
The method of claim 7, wherein
Wherein the LED package further comprises an infrared LED and an ultraviolet LED.
The method of claim 5,
Wherein the growth-promoting lamp further comprises a controller capable of adjusting the brightness.

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