KR20140076825A - Mass growing method for moss - Google Patents

Abstract

The present invention relates to a mass cultivation method of moss, and, specifically, to a mass cultivation method of moss, which is able to maximize the survivability and the growth rate of moss so as to contribute to novel income source crops of farmers, prevent ecosystem destruction, and lead green environment. The mass cultivation method of moss of the present invention comprises a step of preparing a greenhouse system by configuring to cultivate moss at multistage, separating each stage so as to be well ventilated, and maintaining the temperature at 20°C and the humidity of 40-50%; a step of spraying a sterilizer before spreading spore of moss in the greenhouse system; a step of spreading spore of moss after spraying the sterilizer, and spraying a growth accelerator for one month; a step of spraying a nutrient solution for one month after spraying the growth accelerator; and a step of spraying a vitamin solution for one month after spraying the nutrient solution. The mass cultivation method of moss of the present invention provides materials such as a sterilizer, a growth accelerator, a nutrient solution and a vitamin solution optimized to moss in order to maximize the survivability and the growth of moss, provides an alternative medium of dry moss capable of minimizing the use of dry moss, which is essential to mass cultivation of moss, and have a system capable of preventing blight of moss, which is unavoidable in mass cultivation of moss so that moss is able to be produced with balance in a standard size.

Description

Mass growing method for moss

The present invention relates to a moss cultivation method, and more particularly, to a method capable of growing moss in a large amount.

Moss is an intermediate plant that lives in wetlands and migrates from aquatic life to aquatic life. Roots are roots, most of which are migratory and are generational alternations through silent and metamorphic generations. In the wild, breeding methods are modified by rainy days It is a preponderant breeding plant.

The use of these moss plants is used as a bedding material when packaging wild ginseng or ginseng, or as a potting or indoor gardening. Recently, as described in Korean Patent Publication No. 10-1127187, moss mats made of moss-like mats are coated and fixed on rooftops, walls, road sidewalls, and arc surfaces of rivers of buildings to be used as green plants.

The useful moss plants have not been cultivated properly and have been supplied with native moss. However, when the moss is picked up, the moss is destroyed and the natural environment is damaged.

There have been many studies on the cultivation method of moss plants, for example, using tofu of moss plants (WO 2004/060049) or by using the neck of moss plants (WO 2004/060049 However, in the case of using the cervix of moss plants, as described in WO 2006/137544, work efficiency is inefficient due to the operation of putting the neck portion of the growing moss into the aggregate of the dried moss , When only the tofu of the moss plant is used, only one moss plant can be cultivated from the tofu cut out from the native moss plant, so that the yield of the moss plant becomes insignificant, so that the survival rate and development degree of such difficult- A new mass cultivation method that can maximize the productivity is necessary.

In addition, it is necessary to develop an alternative medium that can solve the problem of economical efficiency by using dry moss as a growth medium much larger than the amount harvested for cultivation of water moss, by using dry moss as a growth medium essential for cultivation of water moss to be.

In addition, in the reality that the disinfectant is applied periodically in order to prevent the moss, it is inevitable to misuse the disinfectant. Therefore, the development of the moss-optimized disinfectant and the preemptive monitoring of the disease and the establishment of the system to sterilize the diseased part .

The present invention has been proposed in order to solve the problems according to the above-mentioned prior art. Specifically, the present invention contributes to new income crops of farm households, maximizes the survival rate and development rate of stocked moss to prevent destruction of ecosystem, The present invention relates to a method for mass production of moss,

The present invention also provides a material such as a bactericide, a growth promoter, a nutrient, and a vitamin agent optimized for maximizing the survival rate and development of moss.

It is also an object of the present invention to provide a dry moss alternative medium which can minimize the use of dry moss, which is essential for large-scale moss cultivation.

The present invention also aims to provide a system that can preemptively prevent moss disease, which is essential for large-scale moss cultivation.

In order to accomplish the above object, the present invention provides a moss mass cultivation method comprising: a step of cultivating multi-stage cultivated greenhouses so that each end thereof is ventilated with good ventilation, a temperature of 20 ° and a humidity of 40 to 50% Preparing a system; Spraying a microbicide in the green house system prior to sprouting moss; Spraying the growth promoter for 1 month after the spore stocking after spraying the bactericide; Spraying the growth promoter with a nutrient for one month; And spraying the vitamin agent for one month after spraying the nutrient.

The moss mass cultivation method according to the present invention has the following effects.

First, moss panel boards are arranged so that multi-stage cultivation is possible in the vinyl house system, and the daytime and nighttime brightness are uniformly applied to the LED lighting so as to grow and grow for 24 hours, thereby shortening the cultivation period.

Secondly, materials such as moss-optimized disinfectant, growth promoter, nutrient, and vitamin are developed and contained in the dried conception contained in the moss panel board, so that the optimal environment and nutrition are supplied to grow in a balanced manner, It is possible to maximize the degree.

Third, by providing a dry moss substitute medium, it is possible to minimize the use of dry moss, which is essential for large-scale moss cultivation.

Fourth, real - time monitoring system is installed in the vinyl house system so that the growth condition of moss can be judged. Therefore, it is possible to cope with the moss disease which is essential for moss - mass cultivation.

1 is a view showing an internal bird's eye view of a vinyl house system
2 is a side view of the framework frame inside the vinyl house system
3 is a view showing the bird's eye view
4 is a cross-sectional view of a moss panel board matrix
Fig. 5 is a cross-sectional view of a moss panel
6 is a cross-sectional view of a moss panel panel
Figure 7 is a system schematic for alternative media formation
8 is a flow chart illustrating a moss mass cultivation method according to the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to facilitate a person skilled in the art to easily carry out the technical idea of the present invention. .

First, in the moss mass cultivation method according to the embodiment of the present invention, materials such as a vinyl house system, hexagon water, a bactericide, a growth promoter, a nutrient and a vitamin are required.

First, the construction of the vinyl house system will be described in detail as follows.

1, in the vinyl house system 100, a structure capable of multi-stage cultivation, that is, a framework frame 10 capable of placing multi-stage cultivation, that is, a moss panel board 200, Three rows of moss panel boards 200 are placed in each row so that the operator can work two at the left and right sides. Here, the moss panel board 200 is standardized to have a width of 60 cm and a length of 30 cm.

The height of each stage is determined in consideration of the work environment of the operator, the ventilation between the stages, and the wide angle of the image acquisition means of the surveillance system to be described later. In order to minimize contamination of various worms and eggs, And the vertical frame 112 of the left and right rows are spaced apart from each other by a certain distance to minimize heat transfer with the outer wall of the passageway and greenhouse to be moved by the operator.

1 to 3, the moss panel board 200 placed on the horizontal frame 111 is provided with a predetermined angle (?) For improving the work efficiency of the operator and for efficiently acquiring the image acquisition means of the monitoring system A vertical member 113 and a support plate 114 are provided on the horizontal frame 111 so as to have an inclination of 10 ° to 15 °.

In addition, a real-time monitoring system is constructed in the vinyl house system so that the growth state of the moss can be determined. In the real-time monitoring system, the horizontal frame 111 of each stage except for the horizontal frame at the lowermost end of the frame frame 110 The image acquiring means 120 is installed to display the acquired image data on the monitor and the obtained image is read to determine the growth state and the diseased state of the moss placed on the moss panel board 200 And a computer system (COM) with a built-in program.

The image acquiring unit 120 is a color CCD camera capable of acquiring an image of a visible light region, and has four photographic panel boards 200 placed at each end thereof as a photographing region. In other words, One CCD camera 120 is installed under the horizontal frame 111 for each 2 × 2 matrix column 200 as the moss panel board 200 and the moss panel board 200 has a predetermined angle α, And is inclined at a slope of ~ 15 [deg.], So that it is adjusted to correspond to the angle of the CCD camera 120. [

The reason why the moss panel board 200 is inclined is that the operator can not only visually recognize the growing condition of the moss but also the function of the CCD camera 120 to eliminate the influence of the direct reflection and uneven illumination .

In addition, four kinds of reference value moss panel boards having optimal development for each moss growth period to be compared, that is, for each day or week, were previously photographed under the same conditions as those of the moss panel board 200 of the green house system And RGB values corresponding to the positions of the four moss panel boards 200 photographed by the CCD camera 120 for each moss growth period are stored in the respective positions of the reference value moss panel board And the degree of development and degree of disease are compared numerically with respect to the RGB value by referring to the look up table (LUT) value.

When the developmental level is low, the color becomes close to the pale green color, and when the disease develops, it becomes red color, so that the action can be taken according to each phenomenon.

Referring to FIGS. 5 and 6, the color grading determination step will be described in more detail with reference to FIGS. 5 and 6. Referring to FIG. 5 and FIG. 6, four moss panel boards It is preferable to determine the color grade by excluding ten pixels in the moss direction from the inner contour of the board frame 210 of the board frame 210. If the board frame 210 becomes difficult to identify, So that the board frame 210 can be utilized as a harvesting time.

In addition, with regard to the disease in each phenomenon, moss does not need insecticide because it does not become insecticide by insect pest. Because it may be reddened by germs, it is disinfected to kill germs. If bacteria are determined as a disease through the determination of the growth state, it is possible to automatically spray the microbicide only on a part determined as a disease through the control means. The sterilization nozzle 130 may be disposed adjacent to the CCD camera 120 so that one sterilization nozzle 130 covers a 2 × 2 matrix, ie, four moss panel boards 200 . This method has an advantage in that excessive use of fungicide can be prevented when considering that moss is used as a bed material for packing ginseng or ginseng as compared with a general method of periodically spraying a germicide on the entire vinyl house.

The sterilization nozzle 130 is connected to a dedicated piping to which the sterilizing agent is supplied. In addition to the sterilization nozzle 130, a spray nozzle 140 connected to a common piping through which a growth promoter, a nutrient and a vitamin is supplied is connected to the sterilization nozzle 130, the growth promoter, the nutrient and the vitamin are sprayed in the same manner as the range of the moss panel board 200 covered by the sterilization nozzle 130 according to each spraying time of the growth promoter, the nutrient and the vitamin.

Bentate (oriental), which is generally used in house-grown plants due to the absence of moss-only bactericides. Huruda (Hanchong). DaCourse (Retail). A disinfectant according to the present invention is used in the form of hexagonal water, wood vinegar, manganese, boron, iron, copper , Zinc, and lime are mixed and optimized for moss.

The mixing amount of the material constituting the bactericide is 20 liters of hexagonal water, 200cc of wood vinegar, 0.14g of manganese, 0.05g of boron, 0.09g of iron, 0.036g of copper, 0.005g of zinc and 0.17g of lime .

In the above, the vinegar solution is a strongly acidic substance having PH 3 to 3.5, and hexane: vinegar solution is added in a ratio of 100: 1.

The total content of manganese, boron, iron, copper, zinc and lime is set to be 1000: 1. For example, when 20 L of hexagonal water is added, manganese, boron, iron, copper, Put it in an amount of approximately 20cc.

In addition, illumination means is installed in the horizontal frame 111 provided with the image acquiring means 120 so that the CCD camera 120 achieves optimum illuminance when photographing moss.

The lighting means can use a tungsten-halogen lamp or an LED to obtain uniform illumination, but it is preferable to select the LED in consideration of economic efficiency so as to be used for growth and development of moss.

By using these LEDs, the brightness can be maintained at 1,000 lux at night, so that 24-hour growth and development can be achieved. It is desirable that the LEDs are installed in consideration of the height of the LEDs and the height of the moss panel board 200 in order to maintain the luminous intensity at 1,000 lux.

Also, the moss grown on the moss panel board 200 is usually dissociated in order to use the dried moss as a growth medium, and the tofu portion or the neck portion of the moss is dipped therein. The dried moss used as the growth medium is used as a growth moss So that an alternative medium is provided to the moss panel board 200 in order to minimize the use of the dry moss.

As the alternative medium, sawdust, coconut fiber, masato, sponge, loess, humus, polyurethane foam and the like are used as a normal substitute medium. However, polyurethane foam can be used for semi-permanent use in moss, Is used.

7, when a mixture 310 of hexagonal water, a nutrient, a growth promoter, and polyurethane short fibers is provided in the water tank 300 for feeding and growth as an alternative medium and circulated through the pump 320, 330 is sprayed onto the mesh 360 through an injection nozzle 350 provided at the bottom of the spray tube 340. The mixture 310 of the polyurethane short fibers evenly coated with the nutrient and growth promoter And a laminated sheet 370 of a certain thickness is formed on the mesh 360. At this time, the mesh is formed considering that the moss panel board 200 is 60 cm in width and 30 cm in length.

Here, the polyurethane short fiber is a substitute for the polyurethane foam used as a conventional substitute medium. It is preferable to adopt a short fiber rather than a foam or a long fiber in order to increase the coverage area of the hexagonal water, the nutrient and the growth promoter, It is preferable to divide nutrients and growth promoters into summer and winter so as to maximize efficiency and hexagon water having an effect such as anion-containing, sterilizing action, and growth promotion.

For nutrients and growth promoters distinguished by summer and winter, nutrients for summer and winter are mixed with hexagonal water, total nitrogen, water soluble phosphoric acid, iron, zinc, manganese, boron, copper and molybdenum The mixing ratio is set to be 1000: 1, and the differences in the nutrients for summer and winter differ in the mixing ratio of the mixture.

In this case, the total amount of nitrogen, water-soluble phosphoric acid, gallium, iron, zinc, manganese, boron, copper and molybdenum is 20 cc. At this time, in summer, the total amount of nitrogen is 20 g, water-soluble phosphoric acid is 20 g, iron is 0.1 g, zinc is 0.05 g, manganese is 0.04 g, boron is 0.05 g, copper is 0.01 g and molybdenum is 0.0002 g In winter, the total amount of nitrogen is 30g, water-soluble phosphoric acid is 10g, iron is 0.05g, zinc is 0.05g, manganese is 0.07g, boron is 0.005g, copper is 0.03g and molybdenum is 0.0002g .

For the growth promoter, for example, hexane and plant extract enzymes are mixed to have a ratio of about 500: 1. For example, when 20 liters of hexadecane is added, 40 cc of plant extract enzyme is used.

The total amount of nitrogen, phosphoric acid, gallium, magnesium, calcium, boron and iron is set to be about 2500: 1 relative to the hexagon number. For example, when 20 liters of hexagon is added, the total amount of nitrogen, phosphoric acid, The total amount of nitrogen, magnesium, calcium, boron and iron is 8 cc. The total amount of nitrogen is 4.43 g, phosphoric acid is 0.37 g, phosphoric acid is 5.89 g, magnesium is 0.21 g, calcium is 0.37 g, boron is 0.05 g and iron is 0.011 g Molybdenum in a ratio of 0.0005 g.

For winter growth, the growth promoter has a ratio of hexane to seaweed of 500: 1. For example, if hexane is used in 20 liters, 40 cc of seaweed extract is used.

The total ratio of total nitrogen, phosphoric acid, gallium, sodium, calcium, magnesium, iron, copper, boron and zinc to hexagonal water is about 1000: 1. For example, when 20 liters of hexagonal water is added, , Phosphoric acid, garlic, sodium, calcium, magnesium, iron, copper, boron and zinc are put in a total amount of 20cc.

At this time, the total amount of nitrogen was 4.43 g, phosphoric acid was 0.37 g, shark was 5.89 g, sodium was 0.32 g, calcium was 0.37 g, magnesium was 0.21 g, iron was 0.011 g, copper was 0.001 g, boron was 0.05 g, g.

7, the laminated sheet 370 thus formed is laid on the bottom surface of the moss panel board 200 as a substitute medium, and the dried moss 380 is stacked thereon, and 20% to 40% As shown in Fig. In this case, the growth of moss is promoted compared with the case of using 100% of dried moss, and it is more economical in terms of cost.

Referring to FIG. 8, a moss mass cultivation method using the above materials will be described as follows.

First, a greenhouse system 100 capable of multi-stage cultivation is prepared (S10)

(1) In the above-mentioned greenhouse system, the temperature during cultivation is maintained at 20 ° and the humidity is maintained at 40 to 50%.

(2) At night, use a LED to maintain the light intensity at 1,000 lux, allowing growth and development for 24 hours. The moss mats grown in this way can be produced in a standard size of 3 to 5 centimeters in height of moss.

Thereafter, the bactericide is sprayed onto the vinyl house system (S20)

In this case, it is preferable that the sterilizing agent is sprayed once a day for three days before the stocking of the vinyl house system (dental caries of the head or neck), in addition to individual sterilization by each sterilizing nozzle 130 through the sterilization nozzle 130 to increase the efficiency of stocking through initial disinfection.

By spraying the fungicide in this manner, it is possible to sterilize viruses and various germs, suppress nematodes in the soil, and remove the salt obstruction factor.

Next, after the fungicide is sprayed as described above, a spore (head or neck) of moss is stored in the multi-tier structure of the vinyl house system.

Thereafter, the growth promoter is sprayed on the multi-tier structure of the vinyl house system in which the spores of moss are stocked (S30).

The growth promoter will be described for summer and winter because it differs in the constituent materials and spraying time according to the season of summer and winter.

First, the ingredients for summer and winter are as mentioned above. The spraying time of the growth promoter for summer is 1 month (30 days) after spore hatching, 3 days for 1 week from the beginning of growth and sprayed for 12 days for 1 month . By spraying the growth promoter in this manner, it is possible to maximize cell division, thereby increasing the photosynthesis action, increasing the effect on spore mobilization, assisting in active growth, and improving the storage property by increasing the tolerance to high temperature (heat).

In addition, if the temperature of the farm is less than 20 ° C, spray the winter growth promoter twice a week from the beginning of the growing season for a total of 8 days for one month. As described above, when the growth promoter is sprayed in winter, the cell osmotic force is increased, and the growth and development are good in the winter, and the cell division is excellent even at low temperature and the effect of preventing cold weather can be obtained.

After spraying the growth promoter as described above, the nutrient is sprayed onto the multi-stage structure of the vinyl house system (S40).

The above nutrients will be divided into summer and winter because they are different depending on the season of summer and winter.

First, the ingredients for summer and winter are as mentioned above, and the spray of summer nutrient is sprayed for 2 days every two months from the second month, and for a total of 8 days for one month. Such a summer nutrient spray can keep balance of trace elements and vitamins, excellent water absorption rate, excellent in property, balanced growth and relaxation of joint obstacle.

In addition, the spraying period of the nutrient for winter is two days from the second month to two days, and it is sprayed for one month for a total of eight days. As described above, when the winter nutrient is sprayed, the water absorbing power at the low temperature is excellent, the growth is excellent, the property cultivation is excellent, and the trace elements and the vitamin can be balancedly absorbed.

Next, the vitamin agent is sprayed onto the multi-tiered structure of the above-mentioned greenhouse system (S50)

The above vitamin can be sprayed irrespective of season, and its constitution is not limited to the whole of nitrogen, water soluble phosphoric acid, water soluble gall, zinc, molybdenum, sulfur, iron, manganese, copper, boron, protein, seaweed extract, calcium, magnesium, Silicon, carbohydrates, enzymes Vitamin B1,2,6,12, vitamin c, vitamin e and amino acids.

The total amount of nitrogen, water soluble phosphoric acid, water soluble gallium, zinc, molybdenum, sulfur, iron, manganese, copper, boron, protein, seaweed extract, calcium, magnesium, silicon, carbohydrate, enzyme, vitamin B1,2,6,12 , Vitamin c, vitamin e and amino acid to be 500: 1.

When the hexagonal water is 20 liters, the total amount of nitrogen is 4.4 g, the water soluble phosphoric acid is 7 g, the water soluble glue is 9 g, the zinc is 0.05 g, the molybdenum is 0.003 g, the sulfur is 0.4 g, iron is 0.15 g, 0.01 g of copper, 0.01 g of boron, 0.23 g of protein, 0.26 g of seaweed extract, 0.009 g of calcium, and 0.2 g of magnesium.

The spraying period of the vitamin preparation is 3 months from the beginning regardless of the season, and it is sprayed for 2 days per week for a total of 8 days for 1 month.

When moss is cultivated in the same manner as above, there is no difference in light intensity, temperature and humidity of multi-stage cultivation, night and day, so that the moss daytime and nighttime growth and development can be balanced and the cultivation time can be shortened.

For reference, in the above, moss can be stored and grown for more than one year in a low temperature warehouse, and the freshness of the herbal medicine can be maintained for a long time by the inclusion and release of anion.

The technical idea of the present invention has been specifically described according to the above preferred embodiments, but the above-mentioned embodiments are intended to be illustrative and not restrictive. In addition, it will be understood by those of ordinary skill in the art that various embodiments are possible within the scope of the technical idea of the present invention. Accordingly, the scope of the present invention should be determined by the claims rather than the examples described.

100: vinyl house system 200: moss panel board
111: Horizontal frame 112: Vertical frame
113: vertical member 114:
120: image acquiring means 130: sterilizing nozzle
140: Spray nozzle 200: Moss panel board
210: board frame 300: aquarium
310: mixture 320: pump
330: pipe 340:
350: injection nozzle 360: mesh
370: laminated sheet

Claims (18)

Preparing a greenhouse system configured such that each end thereof is ventilated so as to allow multi-stage cultivation, maintaining the temperature at 20 °, and having a humidity of 40 to 50%;
Spraying a microbicide in the green house system prior to sprouting moss;
Spraying the growth promoter for 1 month after the spore stocking after spraying the bactericide;
Spraying the growth promoter with a nutrient for one month; And
And a step of spraying the vitamins for one month after spraying the nutrients.
The method according to claim 1,
Wherein the greenhouse system comprises LED lighting for each multi-stage cell in which the moss is grown.
The method according to claim 1,
The greenhouse system includes a real-time monitoring system, wherein the real-time monitoring system includes an image acquiring unit at the bottom of each horizontal frame, displays each acquired image data on a monitor, And a computer system incorporating a program for judging a growth state and a disease state of moss placed on a moss panel board.
The method according to claim 1,
Wherein the germicide is mixed to have a ratio of hexagonal water: wood vinegar of 100: 1, hexagonal water: manganese, boron, iron, copper, zinc and lime in a ratio of 1000: 1, Lt; RTI ID = 0.0 > moss < / RTI >
5. The method of claim 4,
Wherein the microbicide is sprayed once a day from 3 days before the moss spore implantation in the vinyl house system.
The method according to claim 1,
The summer product of the growth promoter is characterized in that the hexagonal water: plant extract enzyme is mixed at a ratio of about 500: 1, and the hexagonal water: nitrogen, phosphoric acid, gallic, magnesium, calcium, boron and iron are mixed so as to have a ratio of 2500: 1 Moss.
The method according to claim 6,
Wherein the growth promoter is sprayed for 3 days in one week from the beginning of growth and sprayed for 12 days in total for 1 month.
The method according to claim 1,
Among the growth promoters, the product for winter is selected so that the ratio of hexagonal water: seaweed extract is approximately 500: 1, the ratio of hexagonal water: nitrogen, phosphoric acid, gallic acid, sodium, calcium, magnesium, iron, copper, boron and zinc is 1000: Wherein the moss is cultivated in a culture medium.
9. The method of claim 8,
Wherein the growth promoter is sprayed two times per week from the beginning of growth when the temperature in the farm is 20 degrees or less, and is sprayed for a total of 8 days during the one month.
The method according to claim 1,
Wherein the bulk nutrients are mixed so as to have a ratio of hexane: nitrogen, water-soluble phosphoric acid, gallium, iron, zinc, manganese, boron, copper and molybdenum in a ratio of 1000: 1.
11. The method of claim 10,
Wherein the bulk nutrient is sprayed for two days from one month to two weeks and sprayed for a total of eight days for one month.
The method according to claim 1,
The above-mentioned mass vitamin can be used in the form of hexagonal water, whole nitrogen, water soluble phosphoric acid, water soluble gallium, zinc, molybdenum, sulfur, iron, manganese, copper, boron, protein, seaweed extract, calcium, magnesium, 12, vitamin c, vitamin e and amino acid in a ratio of 500: 1.
13. The method of claim 12,
Wherein the massive vitamin preparation is sprayed for two days in a week from the third month to spray for a total of eight days in a month.
The method of claim 3,
Wherein the image acquiring means comprises a CCD camera corresponding to the inclination of the moss panel board mounted at a predetermined angle (?) Inclined to the horizontal frame and capable of illuminating four moss panel boards of 2x2 matrix. Mass production method.
The method of claim 3,
In the real-time monitoring system, a reference value moss panel board having optimal development for each moss growth cycle to be compared is photographed in advance under the same conditions as the moss panel board of the vinyl house system and implemented as RGB values for each position The RGB value of the moss panel board photographed by the image acquiring unit for each moss growing period is compared with the RGB value of each position of the reference value moss panel board and the degree of development and the degree of the disease are referred to a look up table Characterized in that it is represented numerically on a screen monitor.
The method according to claim 1,
The sterilization nozzle connected to a dedicated piping to which a sterilizing agent is supplied, and a spraying nozzle connected to a common pipe through which a growth promoter, a nutrient and a vitamin is supplied, and the sterilization nozzle and the spraying nozzle are provided side by side, And covering four panel boards.
The method according to claim 1,
The alternative culture medium is laid on the bottom of the mine panel board of the vinyl house system, and the moss is stacked on the alternative medium to form an entire medium, and the moss sprout is placed on the dry moss, %. ≪ / RTI >
18. The method of claim 17,
Wherein the alternative medium is a laminated sheet laminated on a mesh by circulating a mixture of hexagonal water, a nutrient, a growth promoter, and a polyurethane short fiber in a water tank and circulating it by a pump.

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