KR19990007646A - Horticulture crop cultivation method and horticulture cell - Google Patents

Abstract

The present invention relates to a horticultural crop cultivation method and a horticultural medium cell, the horticultural crop cultivation method of the present invention is a seedling planting step of planting the seedlings in the horticulture medium cell is filled with the medium inside the medium receiving member; A growing step of growing the seedlings into saplings; A cell seedling supplying step of supplying cell seedlings planted with seedlings in horticulture medium cells after going through seedling planting and growing stages in the nursery nursery to the horticultural cultivation farm; Including cultivation step for harvesting goods in a short time in horticultural cultivation farms, it is intended to separate and foster timber and tree.

In addition, the horticulture medium cell of the present invention is a medium receiving member 100 formed with a plurality of through holes 101 in the lower portion; A medium (200) packed in the inside of the medium receiving member (100); It comprises a shell member 300 for wrapping the medium receiving member 100, the medium receiving member 100 is the upper and lower cover member 110, 120, both side edges of the joint ( 102 is formed in a tubular shape, and both ends of the medium receiving member 100 and the shell member 300 are joined to each other.

The present invention in view of the enormous cost and the reality that only limited crops within a limited facility area for the plant suitable for the cultivation system for nutrient cultivation, it is possible to cultivate seedlings more affordable and simple, and limited facilities Flexible crop cultivation is also possible. In addition, the cultivation of seedlings for nutrient cultivation takes time and effort for nutrient growth until harvest, so that saplings are planted in medium cells and spread to horticultural farms so that they can be harvested within a short time after planting.

Description

METHOD PRODUCING HORTICULTURAL STUFF AND CULTURE MEDIA CELL FOR HORTICULTURE

The present invention relates to a horticultural crop cultivation method and a horticulture medium cell, and in particular, to solve the problems associated with the use of rock wool, pearlite bench and other various types of medium used in large nutrient cultivation system, cultivation of healthy seedlings inexpensively and simply In addition to limited facilities, it is possible to grow crops in a flexible manner, and to grow cell trees in the form of planted saplings in medium cells, and to spread them to seedlings as well as young seedlings. The present invention relates to a method for cultivating horticultural crops and a horticultural medium cell which can minimize the damage and damage of physiological disorders of crops and can be advantageously distributed to all horticultural farmers at low cost.

In general, nutrient cultivation by using rock wool, perlite bench, and other mediums, which are generally used for nutrient cultivation systems in large-scale cultivation greenhouses, requires a high cost to install a facility suitable for the cultivation environment. It is not easy to manage the liquid supply and drainage during cultivation, so it is uneven to grow the soil due to salt accumulation and contamination of medium, poor porosity and physiological disorders during long use. It takes a long time.

In addition, due to the nature of nutrient cultivation, only the cultivation within a limited facility area is required, and when replacing cultivated crops, it requires a lot of labor to remove existing crops, and it takes a long time to harvest because only young seedlings are used. .

Most of the seedlings currently used in rose farms are cutting seedlings, which are markedly declining with years of cold resistance, weather resistance, and disease resistance, so the life of the product is short and continuous and stable production is impossible. Because of the enormous cost required and long time to commercialize, there is a problem economically disadvantageous to horticultural farmers.

The present invention has been devised to solve the above-mentioned conventional defects and problems, and an object of the present invention is to provide a medium suitable for crops in a medium receiving member, which is manufactured in a new form to solve the underground environmental problems of crops. By providing a cultivation medium cell to cultivate crops using this horticulture medium cell, it is possible to be cheaper, more fluid, suitable for crop physiology and easy cultivation.

Another object of the present invention is to form a decomposable material to decompose the medium receiving member to form the seedlings are planted in the medium receiving member can be set up as it is possible to protect the basement is not close to the maximum, thereby increasing the mortality rate To minimize this.

Another object of the present invention is to replace the current cutting seedlings with grafting seedlings so that they can be conveniently used to alleviate the problems of cutting seedlings.

In order to achieve the above object, the horticultural crop cultivation method of the present invention comprises a seedling planting step of planting seedlings in a horticulture medium cell sealed with a medium filled in the medium receiving member, and a growing step of nurturing the seedlings as tree seedlings. Wow, seedling planting stage and seedling planting stage in the seedling planting cell seedlings planted in the cultivation medium cell to the horticulture farms supplying step, and cultivation step to harvest the product in a short time in the horticulture farming farm Including, it is configured to foster care by separating the timber and saplings.

The horticultural medium cell of the present invention comprises a medium receiving member having a plurality of through-holes formed at a lower side thereof, a medium packed in the inside of the medium receiving member, and an outer skin member for packing the medium receiving member.

The medium receiving member is formed in a tubular shape by joining both side edges of the upper and lower covering members to the joint, and forming both ends of the medium receiving member and the outer shell member.

The upper covering member of the medium receiving member is a nonwoven fabric, the lower covering member is a mesh, and the outer cover member is formed with an incision guide for making a hole by cutting the upper portion, and a plurality of through holes formed in the lower portion. .

The upper and lower covering members of the endothelial member are formed in a container shape to be joined to each other and placed in a medium therein, and the endothelial member is inserted into the tubular sheath member, and both ends of the sheath member are joined.

The medium receiving member may be formed of a ssamji, container type, cylindrical shape, etc., the outer member may be a common mulching vinyl formed of a multilayer having a white outer surface and a black inner surface may be used, the cylindrical medium receiving A cover for preventing the loss of the medium is attached to the inner upper end of the member.

Such a horticultural medium cell of the present invention is a form, using a non-woven fabric on the top of the horticultural medium cell to facilitate even watering through the capillary phenomenon and to make a hole for easy seeding, and the bottom is a mosquito net and By using the same fine net, it was possible to use a medium that could not be solidified, thereby broadening the choice of medium, increasing the air permeability, drainage and physical properties of the medium, and flexibly coping with the development of the underground under the growth of crops. .

In addition, when the coarse-grained horticulture cell in the existing container is used as a nutrient solution by placing perlite in an existing Schiropol container, the porosity can be maximized, thereby greatly improving the underground environment of the crop.

In addition, the entire horticulture medium cell was covered with a black and white mulching vinyl shell member to block weeds and moss, and to meet the environmental conditions suitable for growing underground, and to cultivate the physiology of crops by making holes according to the nutrient solution supply, breathability, and watering method. It can maintain a growth environment suitable for.

In addition to the young seedlings, it is possible to use the sapling to shorten the commercialization period of horticultural farmers, and by using the cup-shaped horticulture cell as a seedling pot, it is possible to minimize the troublesome work during seeding. Seedling pot suitable for soil cultivation. Using degradable vinyl, paper, non-woven fabric, cloth, starch or other synthetic resin which decomposes after a certain period of time, such as 1 to 12 months, the seedlings are separated from the pot when they are settled. Short root cuttings are prevented, which can minimize mortality in hot environments such as heat.

In addition, it can be applied very advantageously to all horticultural farmers at low cost because it can minimize the diversification of cultivation, the reduction of manpower and the damage of physiological disorders of crops.

Moreover, by using the present invention can replace the current cutting seedlings with grafting seedlings to improve all the problems of cutting seedlings, it is possible to foster domestic rose seedling business to produce and supply the systematic and stable seedlings, accordingly introduced new varieties It is possible to reduce the cost of planting, which is required at the time of planting, and to promote stable and continuous production while shortening the commercialization period.

1 to 5 shows a horticulture medium cell according to an embodiment of the present invention,

1 is a partially cutaway perspective view of a horticulture medium cell.

2 is an exploded perspective view of a horticultural medium cell.

3 is a partial cutaway view of a horticultural medium cell.

4 is a cross-sectional view of a horticultural medium cell.

5 is a partially cutaway perspective view of a horticultural medium cell according to another embodiment of the present invention.

6 to 8 shows the horticulture medium cell according to another embodiment of the present invention,

6 is an exploded perspective view of a horticultural medium cell.

7 is a partial cutaway perspective view of a horticultural medium cell.

8 is a cross-sectional view of a horticultural medium cell.

9 to 11 shows a horticulture medium cell according to another embodiment of the present invention,

9 is a perspective view of a horticulture medium cell.

Figure 10 is a cross-sectional view showing a plant planted in the cultivation medium cells.

11 is a cross-sectional view showing a modification of the horticultural medium cell.

Explanation of symbols for main parts of the drawings

100: discharge medium member 101: through hole

102: joint portion 110, 120: upper and lower covering member

130: cover 200: badge

300: outer skin 301: incision guide

302: through

The nutrient solution cultivation method according to the present invention is a seedling planting step of planting the seedlings in the horticulture medium cells sealed with the medium is filled in the coating member, the growth step of growing the seedlings to seedlings, seedling planting step and After the growth stage, the seedling and seedlings are planted, including the seedling cell supplying step for supplying the cell seedlings grown in the horticulture cell to the horticulture farming plant, and the seedling cultivation step for harvesting the product directly from the horticulture farming farm. It is a cultivation method that separates and fosters management.

The seedling planting step in the separate management method of the seedlings and seedlings can be carried out by seeding the seedlings of the seedlings in the horticulture medium cell, or inserting the grafted algae, the medium filled in the horticulture medium cell It is selected and charged according to the seedlings.

In addition, such a separate management method of cultivation so that seedlings are grown to seedlings in seedling farmers specializing in seedlings, and farming for commodity production is supplied only with seedlings planted in horticulture medium cells, so that only cultivation for production of raw materials is carried out. It can solve the difficulties of seedlings that are struggling in individual farmhouses, and can supply and grow healthy seedlings planted in the most suitable medium, which can greatly shorten the period of product production and shipment. Concentration can streamline management and significantly increase productivity.

Hereinafter, with reference to the accompanying drawings for the horticulture medium cell applied to the nutrient solution cultivation method of the present invention described in detail as follows.

1 is a partially cutaway perspective view showing a horticultural badge cell according to another embodiment of the present invention, FIG. 2 is an exploded perspective view of a horticultural badge cell, and FIG. 4 is a cross-sectional view of a horticulture medium cell.

As shown, the medium receiving member 100 is formed with a myriad of holes 101 in the lower side; A medium (200) packed in the inside of the medium receiving member (100); Consists of the outer shell member 300 for wrapping the medium containing member (100).

In addition, the horticultural discharge cells, for example, sew or sewn the joint 102 of both edges of the upper, lower coating member 110, 120 of the bag-shaped, container-type, cylindrical medium receiving member 100 or After joining by high frequency heat welding or the like to form a tubular shape, the medium 200 is contained therein, and both ends of the medium receiving member 100 and the outer skin member 300 are sealed or sewn with high frequency heat welding or the like to prepare pearlite or coco. The medium 200, which cannot be solidified, such as pit, can be easily typed, thereby widening the choice of the medium 200, making it possible to mix various mediums 200 suitable for the cultivation of crops, and the medium receiving member 100. The size of the can also be adjusted to suit the growing conditions can reduce unnecessary waste of the medium (200).

The medium receiving member 100 is formed of, for example, an upper covering member 110 and a lower covering member 120. In addition, the upper coating member 110 can use a nonwoven fabric to induce irrigation evenly in the basement of the crop by the capillary phenomenon irrespective of the irrigation method, and to achieve a stable discharge management with a large amount of liquid supply and a high buffering capacity. It is.

The lower cover member 120 is formed of a stretchable fine mesh such as a mosquito net to increase the breathability, drainage and physical properties, to flexibly cope with the development of the underground part according to the growth of the crop, and to grow, develop, It facilitates the dissolution of organic materials generated during the extinction process, thereby minimizing the problems of the underground growth caused by the contamination of the medium 200 due to the corrosion of organic matters and the decrease of the porosity during long use, and also actively the root development. It can cope and can be easily used in various nutrient solutions.

The outer shell member 300 is formed with an incision guide part 301 for cutting and forming an insertion hole in the upper side to extract the incision guide part 301 and to seed or seed the seedling of the seedling. In the lower part of the 300, a plurality of through holes 302 are formed in two rows, for example, to give a pit according to the supply, breathability, and watering method of the nutrient solution to suit the physiology of the crop. The through hole 302 of the shell member 300 may be selectively formed if necessary, such as in the case of bottom watering, and may not be formed in some cases.

The inner and outer shell members 100 and 300 may be molded using, as a raw material, vinyl, paper, nonwoven fabric, cloth, or synthetic resin.

For example, the outer shell member 300 generally uses mulching vinyl formed of a multilayer having a white outer surface and a black inner surface. This mulching vinyl helps to maintain the humidity of the medium and to maintain the temperature of the basement because the white outer surface reflects the sunlight and the black inner surface blocks the heat, while blocking the weeds and moss, The environmental conditions suitable for the growth of the root zone of the crop can be adapted, and thus suitable for the case where seedlings are distributed to horticultural farms and then grown for a long time.

Reference numeral 310 in the figure shows the sutures at both ends.

6 is an exploded perspective view of a horticulture medium cell according to an embodiment of the present invention, Figure 7 is a partial cutaway perspective view of the horticulture medium cell, Figure 8 is a cross-sectional view of the horticulture medium cell is shown It is.

As shown, the horticulture medium cell according to another embodiment of the present invention is manufactured in the form of a container that is joined to each other using the upper, lower coating member 110, 120 or synthetic resin, The horticulture medium cell contains the medium 200 inside the medium receiving member 100, is inserted into the tubular outer skin member 300, and is produced by high frequency thermal welding of both ends of the outer skin member 300.

5 is a partial cutaway perspective view of a horticultural medium cell according to another embodiment of the present invention.

The horticulture medium cells of the above embodiments are formed to be elongated substantially in the longitudinal direction, but in another embodiment of FIG. 5, the outer shell member 300 and the medium receiving member 100 are formed in a spherical shape, and The medium 200 is contained therein, the other configuration is the same as the above embodiments.

The horticultural discharge cell is bonded to the upper coating member 110 of the medium receiving member 100 and the joint 102 of the lower coating member 120 by sewing or high frequency heat welding, and the joint 102 is inward. Turn over to fill the medium 200 through the upper opening, and then seal the opening. And, it is configured by covering the outer shell member (300). At this time, the outer shell member 300 is coupled to the hemispherical upper and lower members and bonded and welded to the contact portion.

The above-described horticultural medium cell of the present invention uses any one suitable medium according to the type and cultivation conditions and environment of the crop to be cultivated, or a plurality of mediums are mixed and the size of the horticultural medium cell is spherical. In the case of forming, the size may have a volume of about a soccer ball from the size of a ping pong ball, and may be manufactured in an oval shape, a rectangular shape, a spherical shape, and the like, for example, in the case of forming a rectangular shape, the size may be about 60 cm to 100 cm. The material and size are not limited to this and can be formed by various modifications.

Such a horticultural medium cell of the present invention is to supply only the horticultural medium cell to the farmhouse, or by growing seedlings to a suitable size in the horticultural medium cell.

In the case of growing seedlings in the horticulture cell in the nursery, the incision guide portion 301 of the appropriate position formed on the upper side of the outer shell member 300 is cut in an S-shape, and the rose is grafted, for example, into a hole formed therein. When planting the young grafting seedlings of the incision guide portion 301 both sides of the wing portion is closed by its elasticity so as to cover the hole can prevent the evaporation of moisture.

After planting the planted tree like this, for example, it is a plant that can produce a flower as a commodity, and it is grown by the bottom irrigation method. In addition, the product is immediately shipped by cultivating medium cell trees from individual farms.

In addition, the horticulture medium cell of the present invention is formed with a plurality of through holes 302 at the lower side to ensure breathability, drainage and physical properties, as well as the elution of organic substances generated during the growth, development, and extinction process, By minimizing the contamination of the medium 200 by preventing the corrosion of organic matter, the crop is actively grown, the underground part of the crop is healthy, and can be easily used in various nutrient cultivation methods.

In addition, the horticulture medium cell containing the type of the medium (200) that can not be solidified, such as pearlite, coco peat, and also various types of medium 200 contained in the cultivation can be cultivated, nutrient solution cultivation of choice Not only can widen, it is possible to mix the various media 200 suitable for the cultivation of crops, and the size can also be adjusted according to the growing conditions can reduce unnecessary waste of the medium 200.

In addition, when the nonwoven fabric is used for the upper cover member 110 of the medium receiving member 100, regardless of the irrigation method can be used to induce even watering in the basement of the crop by the capillary phenomenon, and the buffer capacity is large, even if the amount of liquid supply is large and small As a result, it is possible to achieve stable discharge management and to cultivate healthy seedlings.

Furthermore, when seedlings are grown in horticulture cell cells and distributed at the time of becoming sacred seedlings, it is possible to shorten the date of release of the farm products.

Figure 9 is a perspective view showing a horticulture medium cell according to another embodiment of the present invention, Figure 10 is a cross-sectional view showing a form in which plants are planted in a horticulture medium cell, as shown therein, another embodiment of the present invention The horticulture medium cell according to the example has a configuration in which the medium receiving member 100 is formed in a tubular shape, and a plurality of through holes 101 are formed in the lower side and the bottom of the circumferential wall, thereby improving air permeability, drainage and physical properties. Only one medium 200 is contained inside the receiving member 100, or two or more types are mixed or stacked.

Although the shape of the medium receiving member 100 is illustrated in a cylindrical shape, the shape of the medium receiving member 100 is not limited thereto, and when the plurality of the horticultural medium cells are stored, they can be formed in a tapered shape that gradually decreases in diameter as the paper cup goes downward. In addition, it may be formed in other square and other shapes.

The material of the medium receiving member 100 is formed of a nonwoven fabric, and is formed of paper, synthetic resin, cloth, or the like. When using a horticulture medium cell for short-term seedling production, the medium receiving member 100 may be formed of a material that is easily decomposed in natural open field, for example, for 1 month to 12 months. When seedlings (P) are planted in the plantation in the form of planted in the form of natural decomposition as time passes, the natural environment can be preserved, this medium receiving member 100 by using starch powder, for example container by molding method When molded into a form, it is quick to decompose and is useful for nature preservation as an environmentally friendly material.

In addition, the through-holes 101 formed in the circumferential wall and the bottom of the medium-receiving member 100 may help the development of roots by minimizing the contamination of the medium 200 by preventing the accumulation of fertilizer salts and corrosion of organic matter.

11 is a cross-sectional view showing a form in which crops are planted in a horticulture medium cell according to another modified example of the present invention. As shown therein, a cover 130 is adhered to an inner upper end of the medium receiving member 100, The medium 200 contained therein is configured to prevent the loss.

The cover 130 is sown in the seedlings of seedlings (P), or when the seedlings (P) when cutting the hole 131, and previously blocked entirely.

Paper, synthetic resin, cloth and starch may also be used for the material of the cover 130. If the nonwoven fabric is used, irrigation may be induced even in the basement of the crop by capillary phenomenon regardless of the watering method, and the amount of liquid supply is large and small. Edo also has a high buffering capacity, allowing stable sewage management. The cover 130 may be formed with the incision guide 301 in the middle portion.

The inner side of the medium receiving member 100 may be combined with a breathable member 140, such as a mesh, if necessary, if the size of the through hole 101 formed in the main wall and the bottom of the medium receiving member 100 is not suitable By inserting the breathable member 140, the degree of aeration and discharge can be more suited to the crop.

In addition, the horticulture medium cell is configured to insert the medium receiving member 100 in the outer shell member 300, the outer shell member 300, for example, the outer surface is white and the inner surface is black mulching formed in a multilayer It is formed in a port shape of vinyl, and a plurality of through holes 301 are formed in the lower portion of the outer shell member 300 so that aeration and nutrient supply are possible and the roots extend out.

The mulching vinyl outer shell member 300 is a white outer surface reflects sunlight, and the black inner surface blocks heat, which helps to maintain the humidity of the medium and the temperature of the basement, and blocks weeds and moss. At the same time, it is possible to meet the environmental conditions suitable for the growth of the root zone of crops.

Another embodiment of the present invention is to supply only the medium receiving member 100 of the horticulture medium cell to the farm, or to contain the medium 200 in the medium receiving member 100, or medium to the medium receiving member 100 The seedlings (P) and seeding seedlings (P), which are germinated and sown, are grown to a suitable size, so that they are grown by planting (initial planting) and breeding (replanting) in horticultural farms. .

When growing young seedlings (P) in horticulture medium cells, sowing is carried out using a tray pot or the like, and after growing young seedlings (P) such as germinated seedlings or grafted seedlings for 1 month to 3 months, Planted in the medium 200 inside the receiving member 100, the bottom irrigation and the like for the predetermined period is grown and supplied to the horticultural farm.

In addition, if the material of the medium receiving member 100 is formed of a material which is decomposed in the natural open field, and planted in the plantation in the form of seedlings (P) planted in the cultivation medium cell, the horticulture medium cell is natural over time Because it is decomposed into, it contributes to environmental conservation.

In addition, when the non-woven fabric is used for the cover 130, irrespective of the irrigation method, the capillary phenomenon can induce even watering to the basement of the crop, and a large amount of liquid and a small amount of buffering ability to achieve a stable discharge management. It becomes possible to cultivate healthy seedlings (P).

In addition to the young seedlings, it is possible to use the sapling to shorten the commercialization period of horticultural farmers, and by using the cup-shaped horticulture cell as a seedling pot, it is possible to minimize the troublesome work during seeding. Seedling pot suitable for soil cultivation. Using degradable vinyl, paper, non-woven fabric, cloth, starch or other synthetic resin which decomposes after a certain period of time, such as 1 to 12 months, the seedlings are separated from the pot when they are settled. Short root cutting of roots is prevented to minimize the mortality rate of 5% to 20% in a hot environment, such as heat.

As described above, the present invention provides a new type of horticulture medium cell which is manufactured to solve a subterranean environmental problem of a crop by filling a medium suitable for a crop in a medium receiving member, and using this horticulture medium cell. It can be grown cheaper, more fluid, suitable for crop physiology and easy cultivation.

In addition, by allowing the use of a medium that cannot be solidified, the range of medium selection is increased, the air permeability, drainage and physical properties of the medium are increased, and the development of the underground part due to the growth of the crop can be flexibly coped with.

In addition, when coarse-type sack-type horticulture cell in the existing container is used as a nutrient solution in the existing Schiropol container, the porosity can be maximized by coping with two lines in the existing container. It covers the whole with black and white mulching vinyl shell member to block weeds and moss, and at the same time, it can meet the environmental conditions suitable for underground growth, and it is suitable for the physiology of crops by making holes according to the nutrient solution supply, breathability and watering method. We can maintain environment.

Using cup-type gardening cells as seedling pots can minimize the troublesome work when seedlings are settled, and decompose vinyl, paper, non-woven fabric, and cloth that decompose after a certain period of time. By using starch or other synthetic resins as a material, when rooting the seedlings, it is possible to prevent root shortening by cutting roots from pots, thereby minimizing mortality in hot environments such as cold weather.

In addition, it can be applied very advantageously to all horticultural farmers at low cost because it can minimize the diversification of cultivation, the reduction of manpower and the damage of physiological disorders of crops.

Moreover, by using the present invention can replace the current cutting seedlings with grafting seedlings to improve all the problems of cutting seedlings, it is possible to foster domestic rose seedling business to produce and supply the systematic and stable seedlings, accordingly introduced new varieties It is possible to reduce the cost of planting, which is required at the time of planting, and to promote stable and continuous production while shortening the commercialization period.

As a result, the present invention can be diversified and diversified in the cultivation of nutrient solution by using various cultivation mediums and using independent horticultural medium cells having excellent breathability, water repellency, and physical properties. It can be applied to various forms of nutrient payments, greatly reducing facility costs, easy to cultivate, and to crop crops with little labor regardless of the time, As the seedlings can be supplied, farmers can continue to concentrate on product management, without being tied to the management of seedlings, and can dramatically shorten the growing period from seedling stock to product shipment. Can contribute to fund rotation and income growth.

While the embodiments of the present invention have been described so far, the present invention is not limited thereto, and various embodiments which can be modified and changed within the true spirit and scope of the principles described and claimed are within the protection scope of the present invention. You will have to understand.

Claims (10)

Seedling planting step of planting the seedlings in the horticulture medium cell filled with the medium is sealed in the medium receiving member; A growing step of growing the seedlings into saplings; A cell seedling supplying step of supplying cell seedlings planted with seedlings in horticulture medium cells after going through seedling planting and growing stages in the nursery nursery to the horticultural cultivation farm; A method of cultivating horticultural crops that separately manages and nurtures algae and saplings, including a sapling cultivation step that allows harvesting of goods in a short time in a horticultural cultivation farm. A medium receiving member 100 having a plurality of through holes 101 formed at a lower side thereof; A horticultural medium cell, characterized in that it comprises a medium 200 that is packaged in the interior of the medium receiving member 100. The horticultural medium cell according to claim 2, wherein the horticultural medium cell comprises an outer skin member 300 for covering the medium containing member 100. The horticultural medium cell according to claim 2, wherein the medium receiving member (100) is formed of any one of a bag type, a container type, and a tube type. According to claim 3, wherein the medium receiving member 100 is formed in a tubular shape by joining both side edges of the upper and lower coating members 110, 120 to the joint 102, the medium receiving member 100 Both ends of the outer shell member 300 and the horticulture medium cell, characterized in that configured. According to claim 3, wherein the upper coating member 110 of the medium receiving member 100 is a non-woven fabric, the lower coating member 120 is a mesh, the outer shell member 300 to cut the upper portion to form a hole Incision guide portion 301 is formed, the lower horticultural medium cell, characterized in that a plurality of through holes 302 is formed. The method of claim 3, wherein the upper, lower covering member 110, 120 of the endothelial member 100 is formed in a tube shape and contained in the medium 200 therein, the endothelial member 100 is tubular Is inserted into the outer shell member 300, the horticultural medium cell, characterized in that the both ends of the outer shell member 300 is joined to form a wrapper. The method of claim 3, wherein the upper, lower covering member 110, 120 of the endothelial member 100 is formed in a container shape to be joined to each other and put in the medium 200 therein, the endothelial member 100 ) Is inserted into the tubular outer shell member 300, the horticultural medium cell, characterized in that the both ends of the outer shell member 300 is joined. The horticultural medium cell according to claim 3, wherein the envelope member (300) is a conventional mulching vinyl formed of a multilayer having an outer surface of white and a black inner surface thereof. The horticultural medium cell according to claim 4, wherein a cover 130 is attached to an inner upper end of the medium receiving member 100 to prevent loss of the medium 200.