KR101859916B1 - Sunscreen and transmission conversion type Agricultural Cultivation House - Google Patents

Abstract

The present invention is characterized in that in a farming house 100, a first frame 110 of the farming house 100 and a second frame 120 spaced apart from the first frame 110 are formed, The first film 110 covers the entire film selected from the red film 10 or the blue film 20 and the second film 120 covers the black film 30. Thus,
It is possible to provide the optimum conditions for ginseng cultivation by providing the agricultural farm house which enables the selection of the sunlight amount and the time zone in the ginseng cultivation appropriately, so that the reliability of the product, the efficiency of the cultivation production, The present invention relates to an agricultural cultivating house having a solar-light-shielding facility structure, which can be expected to reduce costs and the like.

Description

[0001] Sunscreen and transmission conversion type Agricultural Cultivation House [0002]

The present invention relates to a cultivating house for agriculture and, more particularly, to an agricultural cultivation house for cultivation of ginseng, in particular, in order to create a culture environment effective for growing crops such as ginseng, The present invention relates to an agricultural cultivation house having a solar shielding structure for maximizing the cultivation efficiency of a crop such as ginseng.

The cultivation of plants in the agricultural house is one of the active cultivation methods because the yield and quality of the plant are remarkably improved as compared with the non-cultivation.

In recent years, there have been cases in which agricultural films used in agricultural houses are provided using solar light for the purpose of further improving the yield and quality of plants, adjusting harvest timing, and shortening the cultivation period.

The sun reaching the earth is known to have a wavelength of about 300 to 3,000 nm, and the range of visible light (visible region) is 380 to 760 nm, which can be seen in light through a prism or in a rainbow It can be divided into seven colors from short wavelength to purple, navy blue, blue, green, yellow, orange, and red (see Figure 1).

For example, the most important factor in growing conditions of crops is the absorption rate of light wave which is effective for photosynthesis and chlorophyll action. There are many optical wavelengths such as visible light, ultraviolet ray, and infrared light in natural sunlight or artificial light, The wavelength band contributing to the photosynthesis reaction is known as the blue wavelength band and the red wavelength band. In particular, the green plant transforms the chloroplast of the leaf into chemical energy using the sun's radiant energy and absorbs it from carbon dioxide and roots in the air. Carbohydrates are synthesized by a single water and the most important photosynthetic action occurs in the production of oxygen-producing crops. The wavelength range of the visible light ray involved in photosynthesis is in the range of 400 to 700 nm.

In the photosynthetic dye absorption spectrum, it can be seen that the absorption band appears at the blue wavelength (400-500 nm) and the red wavelength (600-700 nm) of the chlorophyll (see FIG. 2).

However, the red and ultraviolet light in the 700 to 760 nm wavelength range affects the growth and morphogenesis of the plant. Relatively large amounts of this light will cause the stem to grow or increase in the building, thus protecting the plant from ultraviolet and infrared rays However, this method does not sufficiently satisfy the wavelength of the light source required for plant growth, and is exposed to problems such as excessive electricity generation.

In order to solve these problems, various techniques for increasing the transmittance of photosynthetic wavelength band light have been developed mainly on films for greenhouses.

For example, development of a vinyl house film using a photoconductive agent is disclosed in Korean Patent Registration No. 10-0863006, which discloses a photo-conversion resin composition containing an organic light-emitting material and a photo-conversion film using the same, wherein a polymer resin such as polyethylene The organic light emitting material, which is a conversion agent, is uniformly dispersed and sunlight transmitted through the film is converted into light of 635 to 640 nmg which is close to the active wavelength at which photosynthesis occurs, thereby increasing the plant growth rate and shortening the growth period In the case of a functional agricultural film having optical selective permeability, which is disclosed in Korean Patent No. 10-0984329, an infrared absorbing dye and a fluorescent dye for light conversion are simultaneously used in an agricultural film to increase the photosynthesis of the plant, It selectively permeates and absorbs useful light to propagate to plants. But things are known to increase the yield, these films have the disadvantage that can not be applied, if at all, such as teukhwang crops have been determined to not give special help to grow, especially as ginseng crops.

Attempts have also been made to convert ultraviolet rays harmful to plants into blue-based light useful for photosynthesis, or to convert green to yellow light having a low photosynthesis efficiency into orange to red light with high photosynthesis efficiency. Is a wavelength conversion film having a wavelength conversion function for converting light of a wavelength of 580 nm into light of a different wavelength, and a non-fluorine resin film containing two organic fluorescent ultraviolet absorbers and a non- Japanese Unexamined Patent Application Publication No. 7-170865 discloses an agricultural wavelength conversion material for agricultural use. In the case of using this technology for a long period of time, the wavelength conversion function is remarkably deteriorated and the film itself absorbs a lot of light, Is lower than the light intensity of the wavelength of the sunlight before incidence, and the light intensity of the visible light ray And the problem of rate is low, this is also a growing problem is less efficient in crops, such as ginseng.

The contents described above are typical contents useful in the cultivation of general green plants, and in the case of ginseng, which is mainly produced in the present invention, crops are cultured under more severe conditions.

The crops such as ginseng are distinguished crops and avoid direct irradiation by the sunlight. In addition, the above-mentioned blue and red light rays should be indirectly examined to be effective for ginseng cultivation.

The characteristics of ginseng cultivated in the first place are as follows: the average temperature should be 0.9 ~ 13.9 ℃ per year, 20 ~ 25 ℃ during the summer season, and 35 ~ . Rainfall is reported to be 700 ~ 2,000 mm per year, but moderate amount is 1,100 ~ 1,300 mm, and snowfall is relatively small. In the case of sunshine, ginseng is a semi-oily plant that likes half-tone sounds. It is not good for direct sunlight, it has good optical scattering light, and it is known that 1/8 ~ 1/13 roughness of outdoor light is suitable.

Since such ginseng avoids direct sunlight, it is common to cultivate a shading film such as a sunshine plant.

The most recent ginseng cultivation (1996, p 107) cites the optimum condition of the ginseng cultivation under the condition of 20 ℃ and the optimum condition is more than 15,000 lux. There is a research result that the optimum illuminance is within 4,000 lux, which indicates that high light intensity is required in spring and autumn, and low light intensity in summer.

However, conventional light-shielding networks have a large number of general shapes using polyethylene 4-ply yarns (blue triple yarn + black 1-core yarn) or rice straw iso and are grown at the same light intensity throughout the year without distinction of seasons. It is not easy to control the optimum illuminance. In addition, in the summer, when the amount of sunshine is increased for a long period of time, there is a risk of lowering the growth of ginseng due to the increase in the damage due to the high temperature drying, and the light in the front row and the back row of the sunshine plant are sufficiently illuminated in spring and autumn, It is heavy and thready, but the quality of the ginseng in the middle part is relatively low.

To solve this problem, a double-shielded light-shielding network is used for the low-temperature shade in spring and fall to adjust the light intensity for each season, and a multi-layer shading grid for the sunshine is installed in summer to prevent the high temperature from reaching the proper temperature However, since the installation of the shading network is completed during the period of March to April, it is fixed throughout the year and is covered with a thick light shielding network in spring and fall, so that the light transmittance becomes too low due to the sunlight being blocked, And the leaves are laughable. Therefore, there is a problem that the inferiority due to an increase in disease incidence is weakened due to a large number of contact points between the leaves, and the inherent disadvantage of coping with weather changes is weakened. In addition, There is a disadvantage that it is inhibited.

In particular, when cultivating ginseng as a greenhouse, it is necessary to irradiate the blue wavelength or the red wavelength uniformly after the shading film is installed. As a result, there is no ginseng cultivation film, and in order to cultivate the greenhouse, The film itself which simultaneously transmits the red wavelength is not present.

Japanese Patent Application Laid-Open No. 7-170865 Korean Patent Registration No. 10-0863006 Korean Patent No. 10-0984329

The latest Korean ginseng (cultivation; 1996 p 107)

The present invention provides a greenhouse capable of satisfying the conditions necessary for ginseng cultivation in consideration of the above-mentioned problems. In the green house, the blue wavelength region and the red wavelength region required for ginseng cultivation are required in the ginseng cultivation process The present invention provides an agricultural cultivation house having a solar-light-shielding structure.

According to an aspect of the present invention,

In the agricultural cultivation house 100,

A first frame 110 of the cultivating house 100 and a second frame 120 spaced apart from the first frame 110 are formed,

The first frame 110 covers the entire film selected from the red film 10 or the blue film 20,

And a black film (30) is covered on the second frame (120).

According to the present invention, it is possible to provide an optimum condition for ginseng cultivation by providing an agricultural cultivation house in which ginseng cultivation can appropriately select and examine the sunlight amount and time zone of the sun, thereby improving the reliability of the product, It can be expected to reduce the cost of facilities required for cultivation.

1 is a view showing an electromagnetic wave spectrum
2 is a graph showing the wavelength range of the photosynthesis action of a plant
3 is a view showing an example of a cultivation house for agriculture adopted in the present invention
4 is a view showing a state in which the first frame and the second frame in Fig. 3 are separated; Fig.
Fig. 5 is a schematic front view of an agricultural growing house according to Fig. 3
FIG. 6 is a view showing a state in which the first frame is divided into two parts in the east and the west and covered with red and blue in FIG. 3
FIG. 7 is a view showing a state in which the first frame of FIG. 3 is equally spaced and the red and blue films are alternately arranged and covered; FIG.
8 is a view showing an example in which a separate unit port is provided in the agricultural cultivation house according to the present invention and a film selected from the red and blue films can be covered with the upper surface of the unit port
9 is a view showing an example in which a unit port according to Fig. 8 is arranged in a cultivating house for agriculture

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that the words or words used in the present specification and claims are not to be construed in a conventional or dictionary sense and that the inventor can properly define the concept of the term in order to describe its invention in the best way Accordingly, the present invention should be construed as meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in the specification of the present invention and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. It should be understood that various equivalents and modifications are possible or possible.

The present invention relates to a method for cultivating a variety of crops in a greenhouse by selecting a wavelength band of the most necessary wavelength in the cultivation process of the crop among the wavelengths of light irradiated from the sunlight and irradiating the crop with the sunshine hours and the amount of sunshine So that a variable selection is possible.

To this end, the present invention provides a blue house, a black film, and a red film mixed with a vinyl house to enable mutual conversion of a blue film and a red film according to sunrise and sunset time, (100) having a sun and a shielding structure for enabling selective shading of a blue film in order to control the amount of sunshine in a sunrise time zone.

The vinyl house adopted in the present invention (hereinafter collectively referred to as an agricultural house) has a conventional structure.

As shown in the drawing, frames 110 are formed in a semicircle-shaped framework from the ground and are spaced apart from each other. The frame 110 traverses the frames 110 and connects the frame 110 and the frame 110 111 are spaced apart from each other.

The present invention provides a structure for allowing special crops such as ginseng to be cultivated in the agricultural cultivation house 100 having the conventional structure. The upper surface of the frame 110 of the cultivation house 100 for agriculture is provided with ginseng cultivation The conditions for maximizing the expression of saponin contained in ginseng are established.

For this purpose, a film for transmitting only a wavelength range effective for ginseng cultivation in the wavelength range of sunlight is formed outside the cultivating house 100 for agriculture, and the constitution of the film is switched between the outside of the cultivating house 100 for agriculture Respectively.

In particular, in the present invention, ginseng has been used as a main growth material. Ginseng (Panax ginseng Meyer) is a perennial herbaceous plant and has been used for a long time as a medicinal herb. It has anticancer, anti-stress, anti- Pharmacological activities such as antidiabetic and neuroprotective effects are known. Ginseng extracts consist of various compounds such as ginsenosides, polysaccharides, flavonoids, peptides, polyacetylene alcohols and fatty acids. Among them, ginsenoside is the most important bioactive substance showing the pharmacological activity of ginseng. It is a ginsenoside, which enhances cardiovascular function, restores blood function, improves blood flow, prevents arteriosclerosis and hypertension, strengthens gastrointestinal function, Anti-aging, anti-inflammatory, anti-inflammatory, anti-inflammatory, anti-inflammatory, anti-inflammatory, anti-aging, anti-aging, Pharmacological actions such as inhibition of production, improvement of immune ability, inhibition of AIDS virus proliferation and promotion of protein synthesis ability have been reported. In recent years, attempts have been made to produce such ginsenosides through in vitro experiments, but their production is low.

On the other hand, in the above-mentioned ginseng cultivation, many techniques for controlling the light-tuning rate and enabling the specific wavelength to be irradiated for a predetermined period or for a certain period of time have been introduced. The main method of using ginseng is LED, It can be seen that the proper investigation of the wavelength range of irradiation is very important. In the case of using LED, the initial cost of the facility is considerable, so that the burden of ginseng farmers is increased.

Therefore, in view of this point, the present invention enables the selective investigation of the wavelength range according to the light transmission inspection in the ginseng cultivation.

A blue series film for blue wavelength transmission and a red series film for red wavelength transmission are provided so as to cover the upper surface side of the agricultural cultivation house 100 so that only a wavelength range effective for growing ginseng can be transmitted by the amount of sunshine or season , And red or blue-based films (hereinafter collectively referred to as a red film and a blue film) can be switched depending on the amount of sunlight.

In addition, a black-based film (hereinafter referred to as a black film) for blocking direct irradiation of sunlight is installed above the selected film of the red film or the blue film.

The red film is indicated at 10, the blue film at 20, and the black film at 30 to be distinguished in the figure.

On the other hand, as described above, the red film 10 has a good transmittance of a red wavelength, and its wavelength range is most preferably in the range of 600 to 700 nm, and the blue film 20, It is preferable that the transmittance is in the range of 500 nm to 500 nm.

In order to secure the transmittance, it is preferable that the red film or the blue film adopted in the present invention is produced under the following conditions.

For example, one of the synthetic resins produced by polymerizing ethylene is low density polyethylene (LDPE) having low crystallinity at room temperature (low density 0.91 to 0.94) and excellent processability, flexibility and transparency, .

In the present invention, as described above, a red film 10 for transmitting a red wavelength in the range of 600 to 700 nm and a blue film 20 for transmitting a blue wavelength in the range of 400 to 500 nm are obtained. A 0.3 parts PHR (part per hundred resin) of a blue pigment (HEUBACH organic pigment Vynamon Blue 515101) or a red pigment (HEUBACH organic pigment Vynamon Red 325401) was added to polyethylene (LDPE; Low Density Polyethylene) Thereby obtaining a film that is formed to have a thickness.

Further, in the present invention, the black film 30 is required together with the red film 10 and the blue film 20. The black film 30 having a thickness of 50 탆 is formed by using the above-described low density polyethylene (LDPE) ).

3 to 4, the agricultural cultivation house 100 includes a first frame 110 spaced apart from the first frame 110 and a second frame 110 extending outward from the first frame 110, The first and second frames 110 and 120 are formed with a plurality of fixing rods 111 and 121 arranged in a lateral direction to fixedly connect the frames 110 and 120 to each other. .

The first frame 110 is covered with the red film 10 or the blue film 20 and the second frame 120 is covered with the black film 30. The red film 10 and the blue film 20 20 are preferably switchable.

That is, as shown in the figure, the first frame 110 includes first and second drive motors 112 and 115, respectively. The first and second drive rollers 112 and 115 are driven by the drive motors 112 and 115, 113 and a second winding roller 114 and winds the film on the first winding roller 113 and the second winding roller 114. The film to be wound includes a red film 10 and a blue film 20 ) Were connected.

The red film 10 covering the entire area of the first frame 110 is wound on the first winding roller 113 and the blue film 20 connected to the most side of the red film 10 is wound on the second winding roller 113, When the first driving motor 112 is driven in a state of being wound on the winding roller 114, the film is wound along the first winding roller 113 and finally the blue film wound on the second winding roller 114 The first frame 110 and the second frame 120 can cover the entire outer surface of the first frame 110.

Alternatively, when the red film 10 is intended to cover the first frame 110 of the agricultural farm house 100, the second drive motor 115 is driven to drive the second winding roller 114 The blue film 20 is completely wound by the winding operation of the second winding roller 114 and the red film 10 connected to the end on the side of the blue film 20 is wound from the first winding roller 113 And covers the upper surface of the first frame 110.

The first driving motor 112 or the second driving motor 115 can be selectively driven in accordance with the necessity, that is, when the blue wavelength is required in the ginseng cultivation condition, or when the time and the red wavelength are needed. The red film 10 or the blue film 20 can be covered on the upper surface of the first frame 110.

It is preferable that the driving of the first and second driving motors 112 and 115 is driven in accordance with the signal of the sun sensor which is applied by the amount of sunshine of the sun so that the red film 10 or the blue film 20 can be switched .

Alternatively, unlike the application of the sunshine sensor, the driving of the first and second driving motors 112 and 115 can be automatically driven and switched according to the set time by the timer sensor.

The second frame 120 is spaced outwardly from the first frame 110. The black film 30 is always covered on the upper surface of the second frame 120, The irradiation of ginseng by direct permeation was prevented.

The film covered by the first frame 110 may not be entirely covered with the red film 10 or the blue film 20 so that the agricultural cultivation house 100 is divided into regions and the blue film 20 ) And the red film (10).

Meanwhile, it is preferable that the black film (30) is installed on the upper surface of the second frame (120).

8 to 9, the unit pot 130 may be arranged inside the cultivation house 100 for agriculture and each film covering the upper surface of each unit port 130 may be adopted and cultivated There will be.

For example, it is needless to say that the color of the film 131 covered on each film, that is, the upper surface of the unit port 130, can be replaced and changed in consideration of the amount of sunshine and time of the blue film or the red film.
In this case as well, the basic structure of the present invention is utilized to form the first frame 110 of the cultivation house 100 and the second frame 120 separated from the first frame 110, The first frame 110 covers the selected film of the red film 10 or the blue film 20 and covers the black film 30 on the second frame 120, Structure.

By using the above-described configuration and the red film 10, the blue film 20, and the black film 30, it is possible to produce the embodiments in which the ginseng and strawberry, lettuce, pepper and the like are grown as shown in the following table, The comparative examples were tested, and the results were derived as shown in Table 1.

Film color kind Comparative measurement method result Example 1-1 BLUE Ginseng Chlorophyll content (mg / g / FW) 2.2 Examples 1-2 Strawberry Brix 11.3 Example 1-3 Lettuce Food texture (five-person rate test for 10 people) 3.8 Examples 1-4 pepper Scoville (SHU) 10000 Example 2-1 RED Ginseng Chlorophyll content (mg / g / FW) 0.9 Example 2-2 Strawberry Brix 15.9 Example 2-3 Lettuce Food texture (five-person rate test for 10 people) 4.5 Examples 2-4 pepper Scoville (SHU) 12000 Example 3-1 East BLUE + West RED Ginseng Chlorophyll content (mg / g / FW) 2.3 Example 3-2 Strawberry Brix 14.3 Example 3-3 Lettuce Food texture (five-person rate test for 10 people) 4.1 Example 3-4 pepper Scoville (SHU) 13000 Example 4-1 East BLUE + West RED Ginseng Chlorophyll content (mg / g / FW) 2.1 Example 4-2 Strawberry Brix 13 Example 4-3 Lettuce Food texture (five-person rate test for 10 people) 3.9 Example 4-4 pepper Scoville (SHU) 11500 Example 5-1 AM BLUE, PM RED Ginseng Chlorophyll content (mg / g / FW) 2.2 Example 5-2 Strawberry Brix 15.5 Example 5-3 Lettuce Food texture (five-person rate test for 10 people) 4.6 Examples 5-4 pepper Scoville (SHU) 12500 Comparative Example 1-1 GREEN Ginseng Chlorophyll content (mg / g / FW) 1.3 Comparative Example 1-2 Strawberry Brix 9.9 Comparative Example 1-3 Lettuce Food texture (five-person rate test for 10 people) 2.9 Comparative Example 1-4 pepper Scoville (SHU) 9000 Comparative Example 2-1 VILLET Ginseng Chlorophyll content (mg / g / FW) 1.5 Comparative Example 2-2 Strawberry Brix 10.5 Comparative Example 2-3 Lettuce Food texture (five-person rate test for 10 people) 3 Comparative Example 2-4 pepper Scoville (SHU) 8500 Comparative Example 3-1 YELLOW Ginseng Chlorophyll content (mg / g / FW) 0.8 Comparative Example 3-2 Strawberry Brix 8.9 Comparative Example 3-3 Lettuce Food texture (five-person rate test for 10 people) 3.4 Comparative Example 3-4 pepper Scoville (SHU) 9200

In each Example according to Table 1, a blue pigment 0.3 PHR (HEUBACH's organic pigment Vynamon Blue 515101) was applied to LDPE (Low Density Polyethylene) in Example 1-1, and a thickness of 80 탆 The greenhouse 20 was formed into an extruded film so as to obtain a blue film 20 having a diameter of 2.5 m by using the extruded film. In order to adjust the brightness to 12,000 Lux for the adjustment of brightness, (Mg / g / FW) of the ginseng was 2.2 when the black film 30 with a thickness of 2 mm was installed on the top of the blue film 20 and the ginseng was cultivated for one year.

The chlorophyll content (mg / g / FW) of ginseng was cultivated as in Comparative Example 1-1 by replacing the blue film 20 with a green film (Vynamon Green 600, 734) under the condition of Example 1-1. ) Was 1.3, which was significantly lower than the content of the ginseng chlorophyll in Example 1-1.

Further, in the greenhouse in the condition of Example 1-1 except for the black film 30, the results of cultivating strawberry, lettuce, red pepper, etc. as in Examples 1-2, Brix of strawberry was 11.3, satisfaction was 3.8 in the sensation of lettuce (5 - minute ratio of 10 people) and scowell (SHU) in pepper was 10,000.

In addition, as in Comparative Examples 1-2, 1-3 and 1-4, strawberry and lettuce pepper were cultivated in the state of applying a green film, respectively. As a result, the results in Examples 1-2, (Brix) of the strawberry was 9.9, and the texture of the lettuce (5-minute-10-person test) was 2.9. In the case of pepper, the score (SHU) Compared with the control group.

On the other hand, Example 2-1 was cultivated using the red film 10. For example, red pigment 0.3 PHR (organic pigment Vynamon Red 325401 manufactured by HEUBACH Co., Ltd.) was applied to LDPE (Low Density Polyethylene) In order to obtain a red film 10 having a thickness of 2.5 m, a vinyl house is installed to have a size of 2.5 m, and in order to adjust the noon daylight quantity to 12,000 Lux for adjusting the brightness, The content of chlorophyll (mg / g / FW) of ginseng was 0.9 when the black film 30 having a thickness of 50 탆 was installed on the upper side of the blue film 20 and the ginseng was cultivated for one year.

The chlorophyll content (mg / g / FW) of ginseng was cultivated as in Comparative Example 2-1 by replacing the red film (10) with the Villet film (Vynamon Villet 402,305) under the condition of Example 2-1. Was 1.5, which was significantly lower than the content of the ginseng chlorophyll in Example 1-1.

 Further, strawberry, lettuce, red pepper and the like were cultivated in the same manner as in Examples 2-2, 3 and 4, respectively, in the greenhouse in the state of Example 2-1 except for the black film 30, (Brix) was 15.9, while the texture of lettuce (five-part ratio of 10 persons and five-sensibility test) was 4.5 and the scoil (SHU) of pepper was 12,000.

In addition, as in Comparative Examples 2-2, 2-3 and 4-4, when the strawberry and lettuce pepper were cultivated under the condition that the Villet film was applied, the results were much lower than those in Examples 2-2, The sensory score of the pepper was 8,500 in the case of pepper and that in the case of Example 2-2,3, 4, respectively.

On the other hand, in Example 3-1, the red film 10 and the blue film 20 are used simultaneously, while the blue film 20 is disposed in the east direction and the red film 10 is installed in the west direction. ).

In other words, the agricultural cultivation house 100 installed at a radius of 2.5 m is divided into two halves, the blue film 20 of Example 1-1 is used in the east direction, and the red film 10), and a black film 30 having a thickness of 50 占 퐉 was installed so as to be positioned at the top of the red film 10 and the blue film 20 so as to be adjusted to 12,000 Lux at the noon day for brightness control. The cultivation house (100) for agriculture was constructed and cultivated for 1 year.

These results exceed the results of Example 1-1 or Example 2-1.

As a result, the chlorophyll content (mg / g / FW) of ginseng was 2.3, and in the condition of Example 3-1, the black film 30 was removed, and in Examples 3-2, As a result, strawberry, lettuce, and red pepper were cultivated. Brix of strawberry was 14.3, the texture of lettuce was 5: 1, and the score of scallop (SHU) was 13,000.

In this example, the red film 10 and the blue film 20 were replaced with a yellow film (Vynamon Yellow 113,901) under the same conditions as in Example 3-1, and cultivated as in Comparative Example 3-1. As a result, the chlorophyll content mg / g / FW)) was 0.8 which was considerably lower than the content of the ginseng chlorophyll in Example 1-1.

Therefore, when the color of the film is partitioned in the cultivation house for agriculture 100 and the blue film 20 is used in the east direction and the red film 10 is used in the west direction, It was confirmed that the chlorophyll content was further increased as compared with the case of Example 1-1 or Example 2-1 adopted as the red film 20 or the red film 10.

In addition, as in Comparative Examples 3-2, 3-3, and 3-4, when the strawberry and lettuce pepper were cultivated in the state that the Yellow film was applied, the results were much lower than those in Examples 3-2, (Brix) of strawberry was 8.9, and the texture of lettuce (5-minute ratio, 10-person test) was 3.4, while that of scallop (SHU) was 9,200 in pepper, 4, respectively.

On the other hand, Example 4-1 is an example slightly modified from Example 3-1.

That is, in the case of Example 4-1, the red film 10 and the blue film 20 were repeatedly arranged alternately in the entire length of the farming house 100 for agriculture.

For example, the blue film 20 according to Example 1-1 and the red film 10 according to Example 2-1 were alternately arranged at intervals of 30 cm so as to be repeatedly circulated, A black film 30 having a thickness of 50 占 퐉 was installed on the top of the films 10 and 20 so as to be able to adjust 12,000 Lu for the adjustment of brightness for the adjustment of brightness, .

As shown in Table 1, the chlorophyll content (mg / g / fw) of the cultivated ginseng was 2.1.

When the black film 30 was removed under the same conditions and the strawberry, lettuce, and red pepper were cultivated as shown in Table 4, the sugar content of the strawberry was 2.1, and that of the lettuce (5-for-10, 5-sensory test) was 3.9, and the scallop (SHU) of pepper was 11,500.

On the other hand, in Example 5-1, a device for enabling switching to the blue film 20 and the red film 10 in the morning and afternoon sunlight hours was provided. The embodiments of the present invention have been mainly described in the drawings and detailed description.

In the embodiment 5-1, the blue film 20 according to the first embodiment is covered over the whole farming house in the morning, and in the afternoon, the red film 10 according to the second embodiment is placed in the entire farming house 100 And a black film 30 having a thickness of 50 탆 is provided at the upper end of the films 10 and 20.

Meanwhile, the switching manner and structure of the blue film 20 and the red film 10 may be implemented by the first and second driving motors 112 and 115.

In the same manner as in Example 5-2, except that the black film 30 was removed under the conditions of Example 5-1, as shown in Examples 5-2, 3 and 4 of Table 1, the strawberry, lettuce, Brix) was 15.5, and the texture of lettuce (5-minute, 10-person, 5-sensibility test) was 4.6 and the scallop (SHU) of pepper was 12,500.

Therefore, the results of Examples 1-1, 2-1, 3-1, 4-1, and 5-1 of the present invention are the results of 1-1, 2-1, and 3-1 It can be seen that the chlorophyll content of ginseng is relatively high, and it is understood that not only the ginseng but also various fruits or vegetables such as strawberry, lettuce and pepper have a relatively high value there was.

While the present invention has been described with reference to the particular embodiments and drawings, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Various modifications and changes may be made.

Accordingly, it is to be understood that the technical idea of the present invention is to be understood by the following claims, and all of its equivalents or equivalents fall within the technical scope of the present invention.

10; Red film 20; Blue film
30; Black film 100; Agricultural cultivation house
110; A first frame 111; Fixed rod
112; A first drive motor 113; First winding roller
114; A second winding roller 115; The second drive motor
120; A second frame 121; Fixed rod
130; Unit port 131; film

Claims (9)

In the agricultural cultivation house 100,
A first frame 110 of the cultivating house 100 and a second frame 120 spaced apart from the first frame 110 are formed,
The first frame 110 covers the entire film selected from the red film 10 or the blue film 20,
Wherein the second frame (120) is covered with a black film (30).
The method according to claim 1,
Wherein the agricultural frame 100 is divided into an upper surface of the first frame 110 by covering the blue film 20 in the east direction and a red film 10 in the west direction. Agricultural cultivation house with solar shielding structure.
The method according to claim 1,
A first winding roller 113 and a second winding roller 113 which are provided on both sides of the first frame 110 and are respectively driven by the driving motors 112 and 115 and which have a first driving motor 112 and a second driving motor 115, A winding roller 114 and winding the film on the first winding roller 113 and the second winding roller 114 so that the red film 10 and the blue film 20 are connected to each other , The blue film 20 in the morning and the red film 10 in the afternoon being switched by the drive motors 112 and 115 and covering the top surface of the first frame 110. [ .
The method of claim 3,
The driving of the first and second driving motors 112 and 115 is driven in accordance with a signal of the sun sensor which is applied by the amount of sunshine so that the red film 10 or the blue film 20 can be switched , A cultivated farm house with a solar shielding structure.
The method of claim 3,
The first and second driving motors 112 and 115 are repeatedly turned for a predetermined period of time under the control of a timer sensor and the upper surface of the first frame 110 is covered with the red film 10 or the blue film 20 ≪ RTI ID = 0.0 > a < / RTI > sunscreening structure.
The method according to claim 1,
A unit port 130 for cultivating ginseng is arranged in the agricultural growing house 100 and one of the red film 10 and the blue film 20 covering the upper surface of each unit port 130 Wherein the film is installed by adopting a solar-light-shielding structure.
7. The method according to any one of claims 1 to 6,
Wherein the red film (10) has a red wavelength in the range of 600 to 700 nm and the blue film (20) transmits the blue wavelength in the range of 400 to 500 nm. House.
8. The method of claim 7,
The red film 10 is formed by applying a red pigment (HEUBACH's organic pigment Vynamon Red 325401) to a low density polyethylene (LDPE) in an amount of 0.3 PHR (part per hundred resin) However,
The blue film 20 was formed by adding a blue pigment (organic pigment Vynamon Blue 515101, HEUBACH) to a low density polyethylene (LDPE) in an amount of 0.3 PHR (part per hundred resin) Wherein the plant has a solar shielding structure.
The method according to claim 1,
The black film (30) comprises a material having a thickness of 50 占 퐉 by using low density polyethylene (LDPE).

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