JP2008199899A - Artificial soil and plant cultivation method using the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an artificial soil which is a lightweight substitute for heavy soil and solves the problem of processing a solid fraction of shochu which is industrial waste.
SOLUTION: Natural fiber materials other than synthetic fibers and chemical fibers mainly composed of fossil raw materials such as petroleum, mainly composed of shochu discharged during the manufacturing process of shochu manufactured from plants. Plant fiber material mainly composed of cellulose, such as cloth, cotton, etc.) is mixed with the above shochu and pressure-molded to form an artificial soil for plant growth composed of a paper-like material.
[Selection] Figure 1

Description

  The present invention comprises an ornamental plant, a vegetable garden plant, a plant rooftop planting plant, a seedling producer's seedling, a farmer's vegetable (leaf vegetable, fruit vegetable), an artificial soil for growing plants, and The present invention relates to a plant cultivation method using this artificial soil, and more specifically, relates to an artificial soil produced using shochu discharged in the manufacturing process of shochu, and a plant cultivation method using the same.

  Shochu (shochu distilled spirit) discharged in the manufacturing process of shochu is a highly concentrated organic industrial waste having a low PH value and a high water content. In the past, most shochu was dumped into the ocean, but in recent years, ocean dumping has progressed in a direction that is completely prohibited from the viewpoint of preventing marine pollution, and it has become necessary to treat all shochu onshore. ing. There are processing methods such as farmland reduction (fertilizer), feed processing, incineration, etc. for shochu treatment on land, but in many cases, shochu was separated into a solid fraction and a liquid fraction using a centrifuge. Thereafter, the solid fraction is used as feed and fertilizer after drying, and the liquid fraction is subjected to alcohol recovery by methane fermentation.

However, the actual situation is that if the solid fraction is used only as an inexpensive feed and fertilizer, it will not be profitable as a business if the costs for processing equipment and equipment operation are subtracted.
Therefore, in order to contribute to the construction of a recycling-oriented social system by being able to treat shochu, which is industrial waste, without harming the environment, being profitable as a business, and utilizing shochu as an effective resource. Technology development is under consideration.

As one of such new shochu processing and reusing methods, water-absorbing plant fibers (waste paper) are mixed into shochu and pressed to add tensile strength and burst strength. A paper-like product that can be used as a sheet for a packaging box, a shape plate for a cushioning material for packaging, a container for a seedling pot, an egg container, or the like has been disclosed (see Patent Document 1). According to this document, it is disclosed that when these paper products are dumped in the soil, they are decomposed by soil fungi in the soil, and fertilize the soil with nitrogen contained in shochu-distilled residue. Yes.
Japanese Patent No. 2926080

As described above, as a method of reusing shochu for plant cultivation, firstly, a method of using it as a fertilizer as conventionally used, and secondly, a seedling that is one of the forms of a paper-like product There was a method of using as a pot container.
Among these, when using shochu, which is the first method, as a fertilizer, plants are planted in natural soil, and shochu (or a shochu processed product obtained by fermenting shochu, or shochu) on natural soil. ) Is given as fertilizer. Therefore, in this case, since the soil is necessary together with the shochu (or the shochu processed product), there are some problems caused by the use of the soil. For example, when planting ornamental plants, cleanliness and aesthetics are required, so it was sometimes avoided to handle soil that is muddy and dirty. In addition, since insects may occur in the soil, the use of the soil was sometimes avoided. In addition, production farmers use a large amount of soil for soil cultivation, but the soil is heavy, so heavy labor is required for transportation work. Moreover, when cultivating using soil, the fertilizer had to be prepared and given, and it took time and effort to manage the PH and concentration of the fertilizer.

  In the case of hydroponics, the soil is not used, or even if it is used, it will be less than soil cultivation, but instead, it is necessary to store the nutrient solution containing moisture in the nutrient tank is there. However, the nutrient solution requires management of nutrient solution concentration, pH value management, and temperature management, which is troublesome. In addition, waste solution treatment of the nutrient solution after use becomes a new problem. Therefore, if possible, it is desirable to supply only moisture and give the nutrients in another form.

  On the other hand, the use as a seedling pot container, which is the second method, has the advantages of being environmentally friendly and fertilizing the soil because the pot container is decomposed by soil bacteria as described above. Even in this case, natural soil is used for plant cultivation, which is the same in that problems such as cleanliness, weight, and fertilizer preparation caused by the soil arise.

Then, this invention aims at solving the processing problem of the solid fraction of the shochu which is industrial waste by reusing shochu by a new method.
Another object of the present invention is to provide artificial soil that is a lightweight alternative to heavy soil.
Another object of the present invention is to make it possible to cultivate plants with a clean feeling without using natural soil, such as for appreciation.
Another object of the present invention is to make shochu available as a fertilizer in hydroponics.
In addition, the present invention provides nutrient solution instead of providing nutrient solution in hydroponics, or by having other nutrient supply sources to reduce the influence of nutrient solution on plants, The purpose is to reduce the burden of waste liquid treatment.

The present invention made in order to achieve the above object is an artificial soil for plant growth comprising a material formed by using shochu as a main raw material, mixing a natural fiber material with the shochu and molding by pressure. is there.
Here, the type of shochu is not particularly limited as long as it is a shochu discharged during the manufacturing process of shochu produced from plants. Shochu made from plants specifically include potato shochu (sweet potato), wheat shochu, rice shochu, brown sugar shochu (sugar cane), buckwheat shochu, chestnut shochu, perilla shochu, sesame shochu, corn shochu, potato shochu, peanut Including shochu. Among these, brown sugar shochu shochu contains a lot of minerals and is particularly preferable.
The natural fiber material is a fiber other than synthetic fibers and chemical fibers mainly composed of fossil raw materials such as petroleum, and mainly refers to vegetable fiber materials mainly composed of cellulose such as paper, cloth and cotton. Animal fibers such as wool and silk may also be used. The natural fiber is preferably cut into about 1 cm square and mixed.
Further, the shape of the material is not particularly limited as long as it can be pressure-molded.

  According to the present invention, a natural fiber material is mixed with shochu and pressure-molded to form a material in which the shochu is held with natural fiber. And when plants were planted directly on this material and given moisture, it was found that the plant grows with the nutrients contained in the material, without using soil or providing nutrients. . Therefore, this material is used as artificial soil instead of soil for plant cultivation made of natural soil.

  According to the present invention, a material mainly composed of shochu containing abundant nutrients necessary for plant growth is formed, and by planting a plant on this material, it can be used as an artificial soil instead of natural soil. . Compared to natural soil, this artificial soil has a feeling of cleanliness without generating insects or odors. Moreover, even if touched by hand, it will not be covered with soil like soil. Moreover, since it is lightweight, it is easy to carry. Therefore, it can be used as an epoch-making cultivating soil to replace natural soil, from ornamental plant cultivation to plant cultivation at a production farm.

(Means and effects for solving other problems)
In the above invention, the material may be made of paper.
Here, the paper-like body is a cardboard-like material in which the solid fraction of shochu is held by natural fibers, and its outer shape is not particularly limited to a square, a circle, an ellipse, etc., but is arranged side by side It is preferable to make it square. By making the shape of the material into a paper-like body, it is convenient to carry, and by cutting, it can be easily processed into a desired size.
In the above invention, the artificial soil may be any of old paper, old newspaper, old cloth, and old cardboard as a natural fiber material.
According to the present invention, shochu, which is an industrial waste, is reused, and waste paper, old newspaper, old cloth, and old cardboard, which are waste materials, are also reused for natural fiber materials, which contributes to effective utilization of resources. It will be.

In the said invention, you may make it add the inorganic nutrient at least any one of potassium, sodium, calcium, magnesium, iron, manganese, nitrogen, sulfur, chlorine, and phosphorus to a raw material.
According to the present invention, the necessary nutritional components differ depending on the type of plant to be cultivated, and the nutritional components to be contained differ depending on the type of shochu used, so depending on the combination of the plant to be cultivated and the shochu used Since some of the components may be deficient, it is possible to provide an artificial soil in which the nutrient components are balanced by adding the deficient nutrient components in advance. In addition, the addition of each ion (potassium ion, sodium ion, calcium ion, magnesium ion, iron ion, manganese ion, in the case of nitrogen nitrate ion or ammonium ion, in the case of sulfur sulfate ion, chlorine ion, phosphorus A liquid containing phosphate ions may be added.

In the above invention, mixed shochu mixed with different types of shochu may be used as the main raw material.
According to the present invention, the nutritional components contained in shochu is different depending on the type of plant used as a raw material. Therefore, the nutritional balance can be achieved by using mixed shochu mixed with a plurality of different types of shochu as the main raw material. Can be artificial soil.

In addition, the artificial soil of the present invention according to another aspect is an artificial soil for plant growth composed of a paper-like material formed by using shochu as a main raw material, mixing natural fiber material with the shochu, and press-molding it. In the cultivation, the paper-like body is formed with a plurality of different paper-like bodies having different types of shochu as a main raw material, and the different paper-like bodies are laminated.
According to the present invention, since a plurality of different kinds of paper-like bodies having different types of shochu as a raw material are stacked, the nutritional component can be adjusted by selecting a combination of different kinds of paper-like bodies. Plants can be planted on top.

The artificial soil of the present invention according to another aspect of the present invention is an artificial soil for plant growth composed of a paper-like body formed by using shochu as a main raw material, mixing a natural fiber material with the shochu, and press-molding it. In this case, the paper-like body is formed with a plurality of different types of paper-like bodies having different types of shochu as a main raw material, and the different-type paper-like bodies are cut and mixed.
According to the present invention, a plurality of different kinds of paper-like bodies having different types of shochu as raw materials are cut and mixed, so that the nutritional component can be adjusted by selecting a combination of different kinds of paper-like bodies. Plants can be cultivated by using them in containers (planters, pots, etc.).

Furthermore, the plant cultivation method of the present invention made from another point of view is an artificial culture medium comprising a paper-like body formed by using shochu as a main raw material, mixing a natural fiber material with the shochu and press-molding it. In addition, the plant is planted and moisture is given.
Here, “planting a plant in an artificial soil” means that the root of the plant 17 is in contact with a paper-like body (artificial soil), and the plant may be placed on the paper-like body, A paper-like body may be laid on or around the root of the plant (the same applies to the following inventions).
According to the present invention, plants are planted on artificial soil made of paper and given moisture, so that the nutrients of shochu contained in the paper are absorbed by the plants and the plants grow.
Thereby, it is not necessary to use natural soil, plants can be grown with the nutrients contained in the paper, and light and clean plant cultivation can be realized.

In the above plant cultivation method, the artificial soil may be placed on a floating floor floating in a water tank so as to be in contact with moisture through a water absorption means.
Here, a water absorbing film or a water absorbing cloth can be used as the water absorbing means.
As a result, moisture is supplied from the water tank and nutrients are supplied from the artificial soil on the floating floor. Therefore, it is not always necessary to put the nutrient solution into the aquarium, and nutrient solution management (management of pH value and nutrient solution concentration) The effort is reduced.

It is preferable to use a hydrogel film as the water absorbing film.
Here, “hydrogel” means a water-soluble or water-immersed polymer compound having a crosslinked structure or network structure, and water (or a liquid containing water as a main component) which is a dispersion liquid supported by the polymer. A gel containing at least Specifically, a water-absorbing film formed of a hydrogel called “hydromembrane” (manufactured by Meviol Co., Ltd.) is preferable, but not limited to this, any hydrogel film having similar properties may be used.
According to this, in conventional hydroponics, plant roots absorb the nutrients so that the roots of the plants are immersed directly in the nutrient solution stored in the aquarium. Is completely separated from the roots of the plant, thus preventing bacterial contamination of the nutrient solution.

Furthermore, the plant cultivation method of the present invention made from another point of view is an artificial culture medium comprising a paper-like body formed by using shochu as a main raw material, mixing a natural fiber material with the shochu and press-molding it. Is cut and packed in a container, and a plant is planted in artificial soil filled in the container to impart moisture.
According to this, since the paper body can be cut and packed into a container (planter, pot, etc.), the plant is grown in the container (pot plant cultivation, etc.) using the paper body instead of natural soil. can do.

Furthermore, the plant cultivation method of the present invention made from another point of view includes laying a separation sheet on the ground, using shochu as the main raw material, mixing natural fiber material with the shochu, and press-molding it. An artificial soil made of a paper-like material formed by the above is laid, and a plant is planted on the artificial soil to impart moisture.
According to this, when performing soil culture cultivation of plants, it is possible to provide nutrients from artificial culture soil by separating a part from the surrounding soil with a separation sheet and performing plant cultivation with artificial soil culture on the sheet. Therefore, it is not necessary to perform fertilizer control as in general soil cultivation, and the work can be facilitated.

(Manufacture of artificial soil)
The manufacturing process of the paper-like body (material) used as the artificial soil of the present invention will be described. This paper-like body is manufactured by a sample preparation process, a sample pressure molding process, a vacuum exhaust process, and a drying process.
Sample preparation process: Waste paper is cut into about 1 cm square and mixed with shochu (eg, sweet potato shochu) as a main raw material. The mixing ratio is about 3% of the shochu. At this time, depending on the purpose of use (type of plant to be cultivated), the three major nutrients nitrogen, phosphoric acid, potassium, and other minerals such as sodium, calcium, magnesium, iron, manganese, sulfur, and chlorine are added to the mineral nutrients as necessary. Add as
A plurality of different plant shochus may be mixed and used. For example, a sweet potato shochu rich in potassium and a wheat shochu rich in nitrogen may be mixed and used as the main raw material.
(2) Sample molding step An adjusted sample is placed between the upper and lower molds for forming the paper-like body, fixed, and pressure-molded. The size of the mold may be selected according to the size to be created, but for example, if it is about A4 size, it is convenient to carry. In this case, it is decided to manufacture a paper-like artificial soil, but instead of a paper-like material that is a planar material, other shapes of materials such as a three-dimensional artificial soil may be used. .
Although a paper-like body can be formed by the above steps, the following steps are continuously performed in order to further reduce the weight and to remove the contained waste liquid in a short time.
(3) Sample pressurizing step In a state of being pressurized with the mold, the inside is sucked and exhausted from the suction port formed in the mold by a vacuum pump to remove the waste liquid.
(4) Drying Take a sample from the mold, put it in a drying container and dry it. Or you may dry naturally.

Through the above steps, a paper body having a desired size is formed and used as artificial soil. FIG. 1 is an external view of a paper-like body produced by the above procedure and a diagram for explaining its basic usage mode.
FIG. 1A shows a state in which a single sheet of paper is used. It is used in this state for hydroponics for viewing.
FIG. 1B shows a use state in which a plurality of sheets are stacked. By using it repeatedly, the amount of nutrients given to the plant can be easily increased.
As shown in FIG. 1 (c), if paper bodies formed from different types of plants are stacked, different types of nutrients can be obtained from the respective paper bodies, so that the nutritional balance can be improved. .
FIG. 1D shows a state when a plurality of paper bodies are used side by side. It is used in this state when mass-producing vegetables and fruit vegetables in the house (house-enhanced hydroponics using artificial soil described later).
On the other hand, FIG. 1 (e) shows a state in which a paper-like body is cut with a shredder or a pulverizer and packed in a container. It is used in this state when performing pot planting or soil cultivation.
In addition, as shown in FIG. 1 (f), if paper bodies formed from different types of plants are mixed and packed in a container, different types of nutrients can be obtained from the respective paper bodies, thus improving the nutritional balance. can do.

(Embodiment of plant cultivation method using artificial soil)
Next, a specific example of plant cultivation using the artificial soil of the present invention will be described. Plants are cultivated in various cultivation forms such as hydroponics, pot plant cultivation, and house cultivation, and artificial soil is used in a suitable manner depending on the cultivation form.

(1) House height cultivation with artificial soil (hybrid cultivation using a water-absorbing film)
FIG. 2 is a diagram showing an example of house height cultivation using artificial soil. Water 12 is stored in a container 11 placed on an elevated table 19 in the house 10, and a floating floor 13 formed of foamed polystyrene or sponge is floated on the water surface. The top of the floating floor 13 is covered with a cloth 14 and the end of the cloth 14 is soaked in water so that the water is sucked up. Then, the hydrogel film 15 (water absorbent film) is brought into contact with the cloth 14 on the floating floor 13 and is supported by the wall surface of the container 11 so as to cover the hydrogel film 15 (water absorbent film). . For the hydrogel film 15, for example, “hydromembrane” (manufactured by Meviol Co., Ltd.) is used.
Further, the plant 17 is placed directly on the hydrogel film 15 so that the root of the plant 17 is in contact with the hydrogel film 15, and a paper-like body 16 is laid on or around the root. Or the paper-like body 16 may be spread on the hydrogel film 15, and the plant 17 may be planted on it. In short, the root of the plant 17 is in contact with the paper-like body 16. It should be noted that the explanation is made whether the paper-like body 16 is laid on or around the root of the plant 17 or the paper-like body is laid on the hydrogel film 15 and the plant is placed thereon. For the sake of convenience, the expression “planting” is used.

By doing so, the roots of the plant 17 can absorb the moisture 12 through the hydrogel film 15 and can absorb nutrients contained in the paper-like body 16 from the roots. In addition, in order to prevent drying, it is further desirable to use a water supply by drip in combination, and the growth of the plant 17 is promoted.
In the conventional cultivation method, it is common to lay natural soil on the hydrogel film 15 (so-called hybrid cultivation of soil and hydroponics), but according to this method, no soil is laid. Plants can grow stably.

  As shown in FIG. 3, the liquid stored in the container 11 can be a nutrient solution 18 containing nutrients instead of the water 12. Even in this case, since nutrients are sufficiently provided from the paper-like body 16, the PH management and nutrient solution concentration management of the nutrient solution 18 can be relaxed, and the labor is reduced compared to conventional hydroponics.

  Moreover, the hydroponics described above can be used in exactly the same form not only in house cultivation but also in equipment such as a completely closed plant factory.

(2) Cultivation for viewing FIGS. 4 and 5 are diagrams showing examples of cultivation for ornamental use at home. The same components as those described in FIGS. 2 and 3 are denoted by the same reference numerals, and the description thereof is omitted. In the case of ornamental cultivation according to the present embodiment, the kind and scale of the plant to be cultivated are different, and differ in that they are cultivated in the home rather than in the house 10, but in other respects, as shown in FIGS. Just like things.

  FIG. 6 is a diagram showing another example of ornamental cultivation. The same components as those in FIG. 4 are denoted by the same reference numerals, and a part of the description is omitted. In this example, by using the floating floor 21 formed with a plurality of through-holes 21a as shown in FIG. 7, the hydrogel film 15 (water-absorbing film) is immersed in moisture through the through-holes 21a. The roots of the plant placed on the hydrogel film 15 can absorb water. The floating floor 13 may be made of non-woven fabric made of PET, vinylon, etc. in addition to foamed polystyrene and sponge.

In this case, if the buoyancy is controlled by adjusting the material and size of the floating floor 13 so that the upper surface of the floating floor is brought close to the water surface, moisture can be surely sucked up through the hydrogel film 15 even if the cloth 14 is omitted. Can do.
Further, if the hydroponic culture for viewing is used, the number of plants in the container 11 is small, so the aesthetics are given priority over the problem of bacterial contamination. The body 16 may be placed on the floating floor 21.

FIG. 8 is a diagram showing still another modified embodiment. The same components as those in FIG. 4 are denoted by the same reference numerals, and a part of the description is omitted. In this embodiment, a hooked basket 20 is used instead of the floating floor. That is, the hooked basket 20 is supported so as to be suspended from the wall surface of the container 11. The hydrogel film 15 is spread and laid in the hooked basket 20. Further, the plant 17 is placed on the hydrogel film 15, and the paper-like body 16 is placed around the plant 17. Or it lays on the hydrogel film 15, and the plant 17 is mounted on it.
According to this, since the plant 17 is partitioned from the water by the hydrogel film 15 in the basket 20 with a hook, it is not submerged. Moreover, since the floating floor is not used even if the weight of the plant 17 increases, it is not necessary to adjust the buoyancy. Even plants that produce large fruits (melons, tomatoes, etc.) can be grown without sinking.
In addition, a present Example can be utilized not only for cultivation for appreciation but also for the above-mentioned house height cultivation.

(3) Pot cultivation / potted plant cultivation FIG. 9 is a diagram showing an example of pot cultivation. In the pot 31, a paper-like body 32 cut into about 1 cm square is packed, and the plant 17 is planted. That is, pot cultivation with the paper-like body 32 which is artificial cultivation soil is performed instead of cultivation with natural soil.
According to this, by instilling water, the root of the plant 17 absorbs moisture and also absorbs nutrients from the paper-like body 32.

  In this embodiment, the pot 31 may be a so-called biodegradable plastic or a paper body made of the same material as the paper body 32. Eventually, the pot 31, including the pot itself, will be disassembled and returned to nature, so environmentally friendly cultivation can be realized. This example is suitable for use in seedling production.

FIG. 10 is a diagram showing an example of potted cultivation. A pot 34 is placed in the dish 33, the cut paper-like body 32 is stuffed, and the plant 17 is planted. Thereafter, by instilling water, the roots of the plant 17 absorb moisture and absorb nutrients from the paper-like body 32. This embodiment is suitable for use in indoor viewing.
Moreover, it may replace with a pot and you may make it a kitchen garden using a planter etc., or you may make it a botanical garden for building greening which spread artificial soil on the building rooftop. The use of artificial soil makes it possible to reduce the weight, thus simplifying the construction work and reducing the construction cost. Furthermore, because it is a lightweight artificial soil, it is easy to replace the soil. It will not be covered with soil. In addition, wind measures may be necessary for cultivation on the building roof, but measures such as covering the artificial soil with a net may be taken.

(4) House height cultivation without using a water absorbent film FIG. 11 is a diagram showing another embodiment of house height cultivation. The elevated table 42 is installed in the house 41, the paper body 32 is packed into the container 43 on the elevated table 42, and the plant 17 is planted. Then, water is given by drip as appropriate (a nutrient solution may be given if necessary). Since the light artificial soil 32 is used instead of natural soil, it is not necessary to transport heavy soil by replacement work or the like, and labor is reduced.

(5) House soil cultivation FIG. 12 is a diagram illustrating an example of house soil cultivation. A separation sheet 53 is laid on the ground 52 in the house 51, and a paper-like body 32 is laid on the separation sheet 53 to plant the plant 17. Since nutrients can be supplied from artificial soil, it is not necessary to perform fertilizer control as in general soil cultivation, and work can be facilitated.

  As mentioned above, although various cultivation forms were demonstrated, in each aspect, as demonstrated in FIG.1 (c) and FIG.1 (f), several different paper-like bodies are laminated | stacked, or several different paper-like form Plants may be planted by cutting and mixing the body.

(Example 1)
Plant cultivation using the artificial soil (paper body) of the present invention was experimentally confirmed. FIGS. 13-16 is the photograph which showed the mode of growth when plant cultivation (plant name: Wild strawberry (scientific name: Fragaria Vesca)) was actually performed by the cultivation aspect demonstrated in FIG.
Wild strawberry seedlings were planted on artificial soil, and the nutrients were fed only from the artificial soil, and only the moisture containing no nutrients was given by drip. As the artificial soil, a paper-like body weighing about 10 to 15 g per strain was laid on the floating floor.

FIG. 13 is an overall external view at the start of cultivation with artificial soil. FIG. 14 shows the growth state on the 14th day after planting. FIG. 15 shows the state of growth on the 39th day after planting, and FIG. 16 is an overall view at that time.
In this way, as the day goes on, the leaf size clearly increases and the number of leaves also increases. In addition, flowers are in bloom. It has been experimentally confirmed that plants can be grown using the paper-like material of the present invention as a nutrient source simply by applying moisture. It was confirmed that the artificial soil of the present invention is effective as an artificial soil containing nutrients and can be grown without using natural soil.

(Example 2)
Further, FIG. 17 shows the growth when the plant cultivation (plant name: wild strawberry (scientific name: Fragaria Vesca)) is actually performed in the cultivation mode described in FIG. 10 (potted plant cultivation: water tray is removed). It is a photograph showing the state of. The cut artificial soil was packed in a pot, planted with wild strawberry seedlings, and the nutrients were fed only from the artificial soil, and the plants were grown by giving only water without nutrients.
Also in this case, as in Example 1, it was experimentally confirmed that plants were grown using the paper-like material of the present invention as a nutrient source.

  The present invention can be used for plant cultivation as an artificial soil replacing natural soil.

The figure explaining the external view of the artificial soil which is one Embodiment of this invention, and its basic usage condition. The figure which shows the Example of the house height cultivation by artificial soil. The figure which shows the other Example of house height cultivation by artificial soil. The figure which shows the Example of cultivation for ornamental at home. The figure which shows the other Example of cultivation for ornamental at home. The figure which shows the other Example of cultivation for ornamental at home. FIG. 7 is a perspective view of a floating floor used in FIG. 6. The figure which shows the other Example of cultivation for ornamental at home. The figure which shows the Example of pot cultivation. The figure which shows the Example of pot plant cultivation. The figure which shows the other Example of house height cultivation. The figure which shows the Example of house soil cultivation. A photograph showing the state of plant growth by cultivation using artificial soil. A photograph showing the state of plant growth by cultivation using artificial soil. A photograph showing the state of plant growth by cultivation using artificial soil. A photograph showing the state of plant growth by cultivation using artificial soil. A photograph showing the state of plant growth by cultivation using artificial soil.

Explanation of symbols

10 House 11 Container 12 Water 13 Floating floor 14 Cloth 15 Water-absorbing film 16 Artificial soil (paper-like body)
17 Plant 18 Nutrient solution 19 Elevated table 20 Basket with hook 21 Floating floor (with through hole)
31 pots (containers)
32 Artificial soil (paper)
34 Bowl (container)
41 House 42 Elevated stand 43 Container 51 House 52 Ground 53 Separation sheet

Claims (12)

  Artificial soil for plant cultivation made of a material formed by using shochu as a main raw material, and mixing and compressing natural fiber material into the shochu.   The artificial soil according to claim 1, wherein the material is a paper-like body.   The artificial soil according to claim 1, wherein at least one of used paper, old newspaper, old cloth, and old cardboard is used as the natural fiber material.   The artificial soil according to claim 1, wherein an inorganic nutrient of at least one of potassium, sodium, calcium, magnesium, iron, manganese, nitrogen, sulfur, chlorine, and phosphorus is added to the material.   The artificial soil according to claim 1, wherein a mixed shochu mixed with different types of shochu is used as a main raw material. It is an artificial soil for plant growth consisting of a paper-like body formed by using shochu as the main raw material, mixing natural fiber material with the shochu and molding by pressure,
The artificial soil is characterized in that the paper-like body is formed with a plurality of different paper-like bodies having different types of shochu as a main raw material, and the different paper-like bodies are laminated. It is an artificial soil for plant growth consisting of a paper-like body formed by using shochu as the main raw material, mixing natural fiber material with the shochu and molding by pressure,
The artificial soil according to claim 1, wherein a plurality of different paper-like bodies having different types of shochu as a main raw material are formed, and the different paper-like bodies are cut and mixed.   A plant cultivation method in which a plant is planted and moisture is added to an artificial soil made of a paper-like material formed by using shochu as a main raw material, mixing a natural fiber material with the shochu and press-molding it.   The plant cultivation method according to claim 8, wherein the artificial soil is placed on a floating floor floating in a water tank so as to be in contact with moisture through a water absorption means.   The plant cultivation method according to claim 9, wherein a hydrogel film is used as the water absorbing means.   Artificial soil made from paper-like material formed by mixing shochu as the main raw material and natural fiber material mixed with the above shochu and press-molded, and packed into the container. Artificial soil filled in the container Plant cultivation method of planting plants and applying moisture.   A separation sheet is laid on the ground, and an artificial culture medium made of paper-like material is formed on the ground by using shochu as the main raw material, mixing natural fiber material with the shochu, and press-molding it. A plant cultivation method in which plants are planted in culture soil to give moisture.