JP6061899B2 - INORGANIC FORMING MEDIUM AND METHOD FOR PRODUCING INORGANIC FORMING MEDIUM - Google Patents

Description

  The present invention relates to an inorganic forming medium used for hydroponics or hydroponics.

  When hydroponic culture or hydroponics is performed using a rock wool medium, aquatic is generated on the surface of the medium during growth. The problem is that the fly that eats the blue sea urchin causes the disease of the plant to be cultivated, and the quality is deteriorated due to the flies adhering to the product (harvest).

  In such a plant cultivation medium, the techniques described in Patent Document 1 and Patent Document 2 have been proposed as techniques for preventing the occurrence of moss algae such as blue-green algae.

Patent Document 1 discloses a mineral fiber block for plant cultivation in which a non-water-retaining layer is formed on the upper surface of the mineral fiber block. And it is disclosed using an acrylic resin-type adhesive agent in order to form this non-water-retaining layer.
Patent Document 2 discloses a medium body having a water repellent surface (6) as a part of the outer surface of a water-permeable and breathable main body (4) on which a plant (10) is planted. As a result of water being repelled by the water-repellent surface (6) of the body, it has been disclosed that the growth of algae and moss and the generation of microorganisms can be prevented, and that the water-repellent surface can be kept clean (reference number 2) thing). It is disclosed that a water-repellent resin such as a silicone resin or a fluorine-based emulsion can be used for the water-repellent surface (6).

JP-A 61-268114 JP-A-10-084768

However, as a result of studies by the present inventors, the medium described in Patent Document 1 or Patent Document 2 does not have a long-lasting water-repellent effect, and after a while moss algae such as sea cucumbers are generated. It was found that it was difficult to completely suppress the occurrence.
Accordingly, the inventors of the present application have paid attention to such conventional problems and conducted intensive tests and researches to suppress the occurrence of moss algae such as blue sea cucumbers, thereby completing the present invention.

That is, the present invention relates to (1) a porous inorganic molded body which is an inorganic molding medium and is molded into a block shape having a coating film of a silicone water repellent which is at least partially heat-treated on the surface. An inorganic molding medium characterized by:
(2 ) The inorganic molding medium according to (1 ) above, wherein the porous inorganic molded body is a rock wool molded body mainly composed of rock wool.
( 3 ) The inorganic molding medium according to (1) or (2) above, wherein the inorganic molding medium is for hydroponics.
( 4 ) In the manufacturing process of the inorganic molding medium, a water repellent coating step of applying a silicone water repellent to the block-shaped porous inorganic molded body, and a porous layer coated with the silicone water repellent A heat treatment step of heat-treating at least a part of the surface of the porous inorganic molded body, and a method for producing an inorganic molding medium ,
(5 ) The method for producing an inorganic forming medium according to (4) above, wherein the heat treatment in the heat treatment step is a heat treatment by a burner, a heat treatment by an oven, or a treatment by contact with a heated metal plate,
( 6 ) The method for producing an inorganic molding medium according to (4) or (5) above, wherein the inorganic molding medium is used for hydroponics.
Is to provide.

  According to the present invention, for example, it is possible to prevent the occurrence of moss algae such as blue-green algae over a long period of time, for example, until the harvest is harvested, and also handleability (portability), water repellency, It is possible to provide an inorganic forming medium that is excellent in growth and can be suitably used for hydroponics or hydroponics, and also provides a method for easily producing the inorganic forming medium.

It is a figure (photograph) showing the observation result in the comparative example 1 of this-application specification. It is a figure (photograph) showing the observation result in the comparative example 1 of this-application specification. It is a figure (photograph) showing the observation result in the comparative example 2 of this-application specification. It is a figure (photograph) showing the observation result in the comparative example 2 of this-application specification. It is a figure (photograph) showing the observation result in Example 1 of this-application specification. It is a figure (photograph) showing the observation result in Example 1 of this-application specification.

First, the inorganic forming medium of the present invention will be described.
The inorganic molding medium of the present invention is obtained by applying a water repellent to the surface of a porous inorganic molded body formed into a block shape, and then heat-treating at least a part of the surface coated with the water repellent. It is characterized by this.
Since the form of the inorganic forming medium of the present invention is defined by the method for producing an inorganic forming medium, the following description will be based on the method for producing an inorganic forming medium.

In the inorganic molding medium of the present invention, the porous inorganic molded body includes an inorganic substance as a main component, and is formed with voids where plants can grow, which can absorb water and root during cultivation. Means.
Examples of the inorganic substance include one or more selected from inorganic particles or inorganic fibers.

  Examples of the inorganic particles include one or more selected from silica balloon, vermiculite, barlite, coral, foam glass (foamed glass), and the like.

  Examples of the inorganic fiber include one or more selected from rock wool, glass wool, ceramic fibers such as silica fiber, alumina fiber, and silica alumina fiber, and rock wool is preferable.

In the porous inorganic molded body, the content of the inorganic substance is preferably 90 to 99% by mass, more preferably 95 to 98% by mass, and still more preferably 96 to 98% by mass.
In the inorganic molding medium of the present invention, the content ratio of the inorganic substance in the porous inorganic molded body is in the above range, so that it exhibits excellent heat resistance even when subjected to heat treatment described later. Since it does not cause a decrease in strength, it can exhibit excellent handleability (carrying property (handling property)).

As a porous inorganic type molded object, what contains inorganic fibers, such as rock wool, as an inorganic substance is preferable.
When the porous inorganic molded body contains inorganic particles and inorganic fibers as inorganic substances, the content ratio of the inorganic fibers in the porous inorganic molded body is preferably 50 to 80% by mass, and 60 to 80% by mass. % Is more preferable, and 70 to 80% by mass is even more preferable.
When the content ratio of the inorganic fibers in the porous inorganic molded body is within the above range, it is possible to easily form a void that can absorb water during cultivation and grow a plant.

The porous inorganic molded body may contain a binder together with the inorganic substance.
Examples of the binder include one or more selected from an inorganic binder and an organic binder.
Examples of the inorganic binder include one or more selected from sodium silicate, colloidal silica, alumina sol, aluminum phosphate, and the like.
Examples of the organic binder include one or more selected from a thermosetting resin, a thermoplastic resin, a thermoplastic resin fiber, a heat-fusible fiber, and the like.

  When the organic binder is a thermosetting resin, the thermosetting resin includes thermosetting phenol resin, epoxy resin, melamine resin, urea resin, unsaturated polyester resin, alkyd resin, polyurethane resin, thermosetting polyimide resin. One or more selected from the above can be mentioned.

  When the organic binder is a thermoplastic resin, examples of the thermoplastic resin include polyethylene resin, polypropylene resin, polystyrene resin, polyvinyl acetate resin, polyvinyl acetate-ethylene copolymer resin, acrylonitrile-butadiene-styrene (ABS) resin. , Acrylonitrile-styrene (AS) resin, acrylic resin, methacrylic resin and the like.

  When the organic binder is a thermoplastic resin fiber, examples of the thermoplastic resin fiber include fibers composed of one or more of the above-described thermoplastic resins.

When the organic binder is a heat-bonding fiber, the heat-bonding fiber is a fiber in which a resin material having a different melting point is spun into a core and a sheath in a single fiber (a fiber having a core-sheath structure). And a fiber-forming component (core portion) and a heat-adhesive component (sheath portion).
The resin material forming the core part may include one or more selected from polyester, polypropylene and the like, and the resin material forming the sheath part is selected from polyethylene, low melting point polyester, low melting point polypropylene and the like One or more can be mentioned.
Specifically, the core is made of polyester and the sheath is made of polyethylene, the core is made of polypropylene, the sheath is made of polyethylene, the core is polyester, and the sheath May be formed of low-melting polyester, and the core may be formed of polypropylene and the sheath may be formed of low-melting polypropylene.

In the porous inorganic molded body, the binder content is preferably 1 to 10% by mass, more preferably 2 to 5% by mass, and further preferably 2 to 4% by mass.
In the inorganic molding medium of the present invention, when the content ratio of the binder in the porous inorganic molding is within the above range, the predetermined shape (block shape) is maintained, and excellent handleability (portability). Can be demonstrated.

In inorganic molding medium of the present invention, the porous inorganic moldings, density, preferably 60~90kg / ^{m 3,} more preferably 60~80kg / ^{m 3,} more preferably 65~75kg / ^{m 3.}
When the density of the porous inorganic molded body is within the above range, it is possible to provide an inorganic molding medium having appropriate voids and excellent water absorption, water repellency, plant growth and the like.

In the inorganic molding medium of the present invention, the porous inorganic molded body is formed into a block shape.
Examples of the shape of the porous inorganic-based molded body include a cubic shape, a rectangular parallelepiped shape, a cylindrical shape, and the like. Since a large number of culture media can be arranged in a certain space during seedling raising, it can be cultivated efficiently. Are preferred.
The block-shaped porous inorganic molded body can be produced, for example, by slicing a prismatic or cylindrical body made of a material for forming the porous inorganic molded body.

In the inorganic molding medium of the present invention, when the porous inorganic molded body contains inorganic fibers such as rock wool, for example, about 1500 using blast furnace slag and natural rock as main raw materials and using a cupola or an electric furnace. Melt into a liquid at a high temperature of ℃, fiberize by centrifugal force of high-speed rotating body, spray the binder at the same time as fiberization, collect the fibers sprayed with this binder, laminate and form into a block shape, It can be manufactured by curing treatment.
Moreover, when a porous inorganic type molded object contains an inorganic particle, for example, after mixing an inorganic particle and a binder with a mixer and shape | molding in a block shape, it can manufacture by hardening-processing a binder.
Furthermore, when the porous inorganic fiber includes a heat-sealing fiber, for example, the heat-sealing fiber and inorganic fiber such as rock wool are made in water to form a felt-like material, and then the desired thickness is obtained. Can be laminated to form a block shape, and then heated to fuse the heat-fusible fiber, and the binder can be cured.

In the inorganic molding medium of the present invention, the porous inorganic molded body is preferably a rock wool molded body mainly composed of rock wool.
The rock wool molded body is suitable as a porous inorganic molded body because it can be supplied in large quantities at low cost and has a certain heat resistance.
As a rock wool molded object, what is marketed as a rock wool culture medium can be mentioned, For example, a culture mat (made by Nippon Rockwool Co., Ltd.), a Yasai pot (same), etc. can be mentioned.
In addition, in this application document, that rock wool is the main material means that 90 to 99 mass% is included with rock wool as a main component.

  The inorganic molding medium of the present invention is obtained by applying a water repellent to the surface of a porous inorganic molded body formed into a block shape, and then heat-treating at least a part of the surface coated with the water repellent. Is.

  In the inorganic molding medium of the present invention, the water repellent is preferably a silicone type (silicone resin type).

  In the inorganic molding medium of the present invention, particularly when the water repellent is a silicone type, it is possible to maintain water repellency over a long period of time because modification (structural change) is caused by heat treatment described later. It is considered to be.

  In the inorganic molding medium of the present invention, the method of applying the water repellent to the porous inorganic molded body is not particularly limited, and examples thereof include a method of applying by a sprayer (spray) and a method of applying by brush coating. .

In the inorganic shaping | molding culture medium of this invention, 140-380 g / m < ² > is preferable, as for the application quantity of the water repellent applied to the surface of a porous inorganic type molded object, 160-240 g / m < ² > is more preferable, 180- 220 g / m ² is more preferable.
Application that can exhibit desired water repellency while suppressing uneven coating and dripping of the water repellent when the application amount of the water repellent applied to the surface of the porous inorganic molded body is within the above range. A film can be formed.

The water repellent may be applied to the entire surface of the porous inorganic molded body, or may be applied only to a part of the surface.
When the inorganic forming medium of the present invention is used as a medium for hydroponics or hydroponics, the medium is usually used in a state where a part of the medium is immersed in the culture solution. Since only the portion exposed on the liquid surface of the culture solution is generated, the water repellent may be applied only to the portion corresponding to the portion exposed on the liquid surface when the medium is used.

  The inorganic molding medium of the present invention is obtained by applying a water repellent to the surface of a porous inorganic molded body formed into a block shape, and then heat-treating at least a part of the surface coated with the water repellent. Is.

  Examples of the heat treatment method include a heat treatment with a burner, a heat treatment with an oven, and a treatment with contact with a heated metal plate.

  When the heat treatment is performed by bringing the heated metal plate into contact with the porous inorganic molded body, the material of the metal plate is not particularly limited as long as the shape can be maintained in the heated state, iron, copper, One or more types selected from stainless steel, brass and the like can be mentioned, and brass is preferred.

  The heat treatment is preferably performed to the extent that black-brown scoring occurs on the surface of the porous inorganic molded body.

  When the heat treatment method is a heat treatment with a burner, the heating temperature and the heating time are such that the surface of the porous inorganic-based molded body is blackish brown and further the temperature at which the applied water repellent is whitened. The time may be appropriately selected. Specifically, the heating time is preferably 10 to 60 seconds, more preferably 20 to 40 seconds, and further preferably 20 to 30 seconds.

  When the heat treatment method is an oven heat treatment, the heating temperature and the heating time may be appropriately selected as a temperature and a time at which black-brown scoring occurs on the surface of the porous inorganic molded body, specifically, The heating temperature is preferably 250 to 400 ° C, more preferably 250 to 320 ° C, further preferably 280 to 320 ° C, and the heating time is 10 to 60 minutes. Preferably, it is 10 to 30 minutes, more preferably 10 to 20 minutes.

  When the heat treatment method is a treatment by contact with a heated metal plate, the heating temperature and the heating time may be appropriately selected as long as the temperature and time at which black-brown scorching occurs on the surface of the porous inorganic molded body. Specifically, the heating temperature is preferably 300 to 500 ° C, more preferably 400 to 500 ° C, further preferably 450 to 500 ° C, and the heating time is 5 to 30 seconds. Preferably, it is 10 to 20 seconds, more preferably 15 to 20 seconds.

  The atmosphere during heating is not particularly limited, and examples thereof include one or more atmospheres selected from an inert atmosphere and an air atmosphere.

  In the inorganic molding medium of the present invention, when a silicone-based water repellent is used, it usually causes a discoloration that is considered to be caused by modification (structural change) in the course of heat treatment. Heat treatment is preferable.

In the inorganic shaping | molding culture medium of this invention, at least one part of the surface which apply | coated the said water repellent should just be heat-processed, and it is preferable that the whole surface which applied the water repellent was heat-processed.
As described above, in order to suppress the occurrence of moss algae such as sea cucumber, a water repellent is applied only to a portion corresponding to a portion exposed on the liquid surface when the medium is used, and the water repellent is applied. It is effective to heat-treat about.

In the inorganic forming medium of the present invention, the thickness of the coating film (water repellent layer) formed by applying a water repellent and heat-treating is preferably 1 to 6 mm, and preferably 3 to 6 mm. Is more preferably 3 to 5 mm, and particularly preferably 3 to 4 mm.
In addition, in this application document, the film thickness of the said coating film means the value which measured the side surface of the inorganic type shaping | molding culture medium with the caliper.

The inorganic shaping | molding culture medium of this invention has comprised the block shape corresponding to the shape of a porous inorganic type molded object, for example, has comprised shapes, such as a cube shape, a rectangular parallelepiped shape, and a column shape.
In addition, the inorganic molding medium of the present invention is preferably one in which holes for seeding are drilled on a part of the surface, and the holes for seeding are previously drilled in a porous inorganic molded body. It may be perforated after the heat treatment, or preferably perforated after the heat treatment.

It is preferable that the side surface of the inorganic forming medium of the present invention is covered with a resin film, and examples of the resin film include a polyethylene film.
The side surface is covered with a resin film, which makes it easier to demonstrate shape retention during use of the medium, improves handling (carryability), and allows plants to grow during cultivation. Since it becomes difficult to fall down, cultivation efficiency can be improved.

According to the present invention, for example, it is possible to prevent the occurrence of moss algae such as blue sea urchins over a long period of time, for example, until the harvest is harvested, and also handleability (portability), water repellency, It is possible to provide an inorganic forming medium that is excellent in growth and can be suitably used particularly for hydroponics or hydroponics.
The inorganic shaping | molding culture medium of this invention can be suitably manufactured with the manufacturing method of this invention.

Next, the manufacturing method of the inorganic shaping | molding culture medium of this invention is demonstrated.
The method for producing an inorganic forming medium of the present invention includes a water repellent coating step of applying a water repellent to a porous inorganic molded body formed into a block shape, and a porous inorganic mold coated with a water repellent. A heat treatment step of heat-treating at least a part of the surface of the body.

  In the method for producing an inorganic molding medium of the present invention, details of the porous inorganic molded body and the water repellent, the application method and conditions of the water repellent, and the porous inorganic molded body coated with the water repellent The method for heat-treating at least a part of the surface and the details of the conditions are as described above.

In the method for producing an inorganic forming medium of the present invention, when it is intended to produce an inorganic forming medium in which holes for seeding are drilled on a part of the surface, specifically, (i) a prismatic porous inorganic material After slicing the molded body forming material to cut out the block-shaped porous inorganic molded body, (ii) drilling holes for seeding on a desired surface of the porous inorganic molded body, and (iii) The groove is processed to provide vertical and horizontal slits to define its shape. The water repellent coating step and the firing step may be performed after the step (i) of obtaining the block-shaped porous inorganic molded body. For example, it may be applied at any stage from (ii) drilling holes for seeding to (iii) grooving.
For example, the water repellent application step and the firing step may be performed after the step of (ii) drilling holes for seeding or after the step of (iii) groove processing, or (ii) for seeding It may be applied before the step of drilling the holes.

The inorganic shaping | molding culture medium of this invention and the inorganic shaping | molding culture medium obtained with the manufacturing method of this invention can be used conveniently as a culture medium for hydroponics, hydroponics, or a water retention material for plants.
The inorganic molding medium of the present invention and the inorganic molding medium obtained by the production method of the present invention are usually arranged with plant seeds, seedlings, and florets in the holes drilled in the upper surface and the lower part thereof. It can be used by holding it immersed in water or liquid fertilizer, or holding it in a state absorbed water or liquid fertilizer.

  According to the present invention, for example, it is possible to prevent the occurrence of moss algae such as blue sea urchins over a long period of time, for example, until the harvest is harvested, and also handleability (portability), water repellency, It is possible to provide a method for easily producing an inorganic forming medium that is excellent in growth and can be suitably used for hydroponics or hydroponics.

Hereinafter, description will be made based on examples of the present invention.
In the following Examples and Comparative Examples, “Rockwool Medium” is used as the porous inorganic molded body, but the porous inorganic molded body is not limited to “Rockwool Medium”.

(Comparative Example 1)
As Comparative Example 1, a test for confirming the occurrence of blue sea cucumber was performed using a comparative inorganic molding medium in which the surface coated with a water repellent was sun-dried and dried.
That is, as a porous inorganic molded body, a medium 1 (Rockwool medium, trade name: Culture Mat, manufactured by Nippon Rockwool Co., Ltd.) having a block shape of 23 mm in length, 23 mm in width, and 32 mm in height is used. Silicone fiber treatment agent (trade name: POLON-MF-33, manufactured by Shin-Etsu Chemical Co., Ltd.) is used as a water repellent agent on the surface of 1 seeding hole (diameter 8 mm, depth 10 mm). After applying a solution diluted three times with water by spraying sufficiently (to the extent that the surface becomes white), it is sun-dried for about 3 hours, and the applied water-repellent agent is dried. Obtained.

(Aoko occurrence confirmation test)
In the comparative inorganic molding medium 1, the surface coated with the water repellent was used as the upper surface, the lower portion was submerged and sufficiently absorbed, and then one Swiss chard seed was sown in the hole provided on the upper surface. After the germination, liquid fertilization is performed using a liquid fertilizer prepared at a concentration of 1/3 of the horticultural test site prescription (horticultural prescription, balanced culture solution) (EC 0.8 dS / m). Observed.
For comparison, medium 1 (Rockwool medium, trade name: Culture Mat, manufactured by Nippon Rockwool Co., Ltd.) is used, and the surface on which the holes for sowing are provided is the upper surface, and the lower part is submerged. After fully absorbing water and then seeding one seed of Swiss chard into the hole provided on the upper surface and germinating it, 1/3 of the horticultural test site prescription (horticulture prescription, balanced culture liquid) as liquid fertilizer Liquid fertilization was performed using a solution prepared so as to have a concentration of (EC 0.8 dS / m), and the progress was similarly observed.

FIG. 1 shows a state after the lapse of “1 week” after liquid fertilization, but the water repellent applied (inorganic inorganic forming medium 1 for comparison) was slightly water-repellent, but the water repellent was not used. There was less occurrence of blue sea urchin compared to the uncoated sample (medium 1).
FIG. 2 shows a state after “2 weeks” has elapsed after liquid fertilization and water was generated in both cases (with / without water repellent application). It is thought that the water repellent flowed out and the water repellent effect of the water repellent was lost because the head was watered.

(Comparative Example 2)
As Comparative Example 2, medium 2 (Rockwool medium, trade name: Yasai Hana Pot, Nippon Rockwool Co., Ltd.) instead of medium 1 (Rockwool medium, trade name: Culture Mat, manufactured by Nippon Rockwool Co., Ltd.) Except for using the product, a water-blowing generation confirmation test was conducted in the same manner as in Comparative Example 1.
That is, as a porous inorganic molded body, a medium 2 having a block shape of 100 mm in length, 100 mm in width, and 50 mm in height (Rockwool medium, trade name: Yasai Hana Pot, manufactured by Nippon Rockwool Co., Ltd.) As a water repellent, a silicone fiber treatment agent (trade name: POLON-MF-33, manufactured by Shin-Etsu Chemical Co., Ltd.) is used as a water repellent agent on the surface of the medium 2 on which holes for seeding (diameter 30 mm, depth 30 mm) are perforated. ) Is diluted 3 times with water and sprayed sufficiently (to the extent that the surface becomes white), then sun-dried for about 3 hours, and the applied water-repellent agent is dried. 2 was obtained.

(Aoko occurrence confirmation test)
In the comparative inorganic molding medium 2, the surface coated with a water repellent was used as the upper surface, the lower portion was submerged and sufficiently absorbed, and then one Swiss chard seed was sown in the hole provided on the upper surface. After germination, liquid fertilization was performed and the course was observed.
For comparison, the medium 2 is used, the surface with the holes for seeding is used as the upper surface, the lower part is submerged and sufficiently absorbed, and then the Swiss chard with respect to the holes provided on the upper surface. After seeding one seed of seed and germinating it, using a liquid fertilizer prepared to have a concentration of 1/3 of the horticultural test site prescription (horticultural prescription, balanced culture solution) (EC 0.8 dS / m) Liquid fertilization was performed, and the course was observed in the same manner.

FIG. 3 shows a state after “1 week” has elapsed after liquid fertilization and water repellent (Comparative inorganic molding medium 2) showed almost no occurrence of water repellency. A large amount of sea cucumber was generated in the medium not coated with the agent (medium 2).
FIG. 4 shows a state after “2 weeks” after the liquid fertilization and the water-repellent was also generated in the sample coated with the water repellent (comparative inorganic molding medium 2).

  From the results of Comparative Example 1 and Comparative Example 2, the effect of the water repellent cannot be maintained by simply drying the water repellent applied on the surface by sun drying (natural drying). It was thought that this was because the water repellent flowed out by liquid fertilizer water.

Example 1
In Example 1, after applying a water repellent to the surface of Medium 1 (Rockwool Medium, trade name: Culture Mat, manufactured by Nippon Rockwool Co., Ltd.) as described above in Comparative Example 1, the surface was gasified. Using a burner, the binder present on the surface of the culture medium 1 is burnt and discolored to black-brown, and heated for 30 seconds until the water repellent discolors to white to form the inorganic molding medium 1, and the obtained inorganic molding Using the culture medium 1, a test for confirming the occurrence of water-bloom was performed in the same manner as in Comparative Example 1 except that the medium 1 was not seeded in the hole provided on the upper surface.
For comparison, using culture medium 1 (Rockwool culture medium, trade name: Culture Mat, manufactured by Nippon Rockwool Co., Ltd.), a test for confirming the occurrence of blue sea cucumber without seeding in the holes provided on the top surface And observed the progress.
Furthermore, for comparison, the surface of the culture medium 1 is used by using a gas burner without applying a water repellent to the surface of the culture medium 1 (Rockwool culture medium, trade name: Culture Mat, manufactured by Nippon Rockwool Co., Ltd.). In the same way, a test was conducted to confirm the occurrence of water-blooming without seeding in the holes provided on the upper surface, using a material that had been heated for 30 seconds until the binder existing in the burnt burnt and turned black-brown. did.

FIG. 5 shows a state after “1 week” after liquid fertilization and water is not applied (medium 1 (Rockwool medium, trade name: Culture Mat, manufactured by Nippon Rockwool Co., Ltd.). ), Which is indicated by “untreated” in FIG. 5, has a surface of aquatic, and without applying a water repellent, medium 1 (Rockwool medium, trade name: Culture Mat, Nippon Rockwool Co., Ltd.) In the case where only the heat treatment was performed on the surface of the product (indicated by “surface burner treatment” in FIG. 5), aquatic was generated on the surface.
On the other hand, a medium 1 (Rockwool medium, trade name: Culture Mat, manufactured by Nippon Rockwool Co., Ltd.) and a surface treated with a water repellent (inorganic molding medium 1, FIG. 5) In “water repellent + burner treatment”), water was generated in the portion where the water repellent was not applied (blowing unevenness), but the generation of water was suppressed in the majority of the surface.

FIG. 6 shows a state after “2 weeks” after liquid fertilization and water is not applied (medium 1 (Rockwool medium, trade name: Culture Mat, manufactured by Nippon Rockwool Co., Ltd.). ), Which is indicated by “untreated” in FIG. 6, has a surface of the sea urchin, and without applying a water repellent, medium 1 (Rockwool medium, trade name: Culture Mat, Nippon Rockwool Co., Ltd.) In the case where only the heat treatment was performed on the surface of the product (indicated by “surface burner treatment” in FIG. 6), a larger amount of water was generated on the surface than in the culture medium 1.
On the other hand, the culture medium 1 (Rockwool culture medium, trade name: Culture Mat, manufactured by Nippon Rockwool Co., Ltd.) was applied with a water repellent and the surface was heat-treated (inorganic molding medium 1, FIG. 6). In “water repellent + burner treatment”), water was generated in the portion where the water repellent was not applied (blowing unevenness), but the generation of water was suppressed in the majority of the surface.

  From the results of Example 1 above, it can be seen that by heating with a gas burner, the water repellent is retained on the surface of the medium and the effect of the water repellent can be maintained.

(Example 2)
As a porous inorganic molded body, a rock wool porous inorganic molded body cut into a block shape having a length of 30 mm, a width of 30 mm, and a height of 30 mm by slicing a rock wool prismatic product (density 74 kg / d) m ³ ), a total of 3 rows of this porous inorganic molded body, 3 per row (a total of 9 block-shaped porous inorganic molded bodies are placed), and a porous inorganic molded body A set was formed.
A silicone fiber treatment agent (trade name: POLON-MF-33, manufactured by Shin-Etsu Chemical Co., Ltd.) is used as a water repellent agent on one surface of each porous inorganic molded body constituting the porous inorganic molded body set. A solution diluted 3 times with water was applied by spraying ² g per porous inorganic molded body (so that the spray amount was 200 g / m ² ) using a sprayer, and then a water repellent was applied. The surface was heat-treated for 30 seconds using a burner until the binder present on the surface of the porous inorganic molded body burned and turned black brown, and further the water repellent turned white.
Next, an inorganic molding medium 2 is formed by drilling holes for seeding each having a diameter of 8 mm and a depth of 10 mm using an electric drill on the surface of each of the porous inorganic molded bodies coated with a water repellent. In total, nine inorganic molding media sets were obtained.

(Cultivation test)
In the inorganic molding medium set described above, the surface of each inorganic molding medium 2 coated with a water repellent was used as the upper surface, and the lower part was immersed in a bat that stored water to sufficiently absorb water, and then provided on the upper surface. One seed of Komatsuna was sown in each hole and germinated in the dark by shading with newspaper.
Next, for each inorganic molding medium set, using liquid fertilizer prepared so as to have a concentration of 1/3 of the horticultural test site prescription (horticultural prescription, balanced culture liquid), by absorbing water from the bottom Liquid fertilization was performed and the course was observed.

  Table 1 shows the water repellency, strength, and thickness of the water repellent layer of the inorganic molding medium 2 immediately before sowing in the inorganic molding medium set, and the growth of Komatsuna after 13 days and 21 days after sowing. Table 1 shows the number (total number of growth in a total of nine inorganic molding media), the state of occurrence of water-bloom in the inorganic molding media 2, water repellency and strength.

  In addition, in Table 1, the generation | occurrence | production condition, water repellency, and intensity | strength of the water-bloom in the inorganic type culture medium 2 were evaluated on the following references | standards.

(Occurrence situation of blue sea bream)
◎: No water is generated on the surface where the water repellent is applied in all nine inorganic forming media. ○: Among the nine inorganic forming media, the water repellent is applied on the surface where the water repellent is applied in one inorganic forming medium. Occurs.
(Triangle | delta): Ako occurs in the application | coating surface of the water repellent of 2-3 inorganic forming culture media among 9 inorganic forming culture media.
X: Blue sea urchins were generated on the application surface of the water repellent of 4 to 9 inorganic forming media among 9 inorganic forming media.

(Water repellency)
(Double-circle): When water is dripped in the surface which applied the water-repellent agent in nine inorganic forming culture media, a water droplet is formed and flows down in all the inorganic forming culture media.
○: Among nine inorganic forming media, when water is dropped on the surface coated with the water repellent, water penetrates into one inorganic forming medium.
X: Among nine inorganic forming media, when water is dropped on the surface coated with the water repellent, water penetrates into 2 to 9 inorganic forming media.

(Strength)
(Double-circle): It can hold | grip, hold | maintaining the form of an inorganic shaping | molding culture medium, when it grasps with the hand.
○: A part of the inorganic molding medium collapses when grasped by hand.
X: The whole inorganic shaping | molding culture medium will collapse, when it grasps with a hand.

Example 3
In Example 2, instead of heat-treating the surface coated with the water repellent agent with a burner, the binder present on the surface of the porous inorganic type molded body was burned at 250 ° C. in an oven at 250 ° C. until it turned black brown. By treating in the same manner except that the heat treatment was performed for a minute, an inorganic forming medium set in which a total of nine inorganic forming mediums 3 were arranged was obtained.
The obtained inorganic molding medium set was subjected to a cultivation test in the same manner as in Example 2.
Table 1 shows the water repellency, strength, and thickness of the water-repellent layer of the inorganic molding medium immediately before sowing in the inorganic molding medium set, and the growth number of komatsuna after 13 days and 21 days after sowing. Table 1 shows the total number of growth in a total of nine inorganic molding media, the occurrence of water-blooming, water repellency and strength of the inorganic molding media.
In Table 1, the state of occurrence of water-bloom, water repellency and strength in the inorganic molding medium were evaluated according to the same criteria as in Example 2.

Example 4
In Example 2, instead of heat-treating the surface coated with the water repellent agent with a burner, the binder present on the surface of the porous inorganic molded body was burned at 250 ° C. in an oven until it turned black and turned brown. By treating in the same manner except that the heat treatment was performed for a minute, an inorganic molding medium set in which a total of nine inorganic molding mediums 4 were arranged was obtained.
The obtained inorganic molding medium set was subjected to a cultivation test in the same manner as in Example 2.
Table 1 shows the water repellency, strength, and thickness of the water-repellent layer of the inorganic molding medium immediately before sowing in the inorganic molding medium set, and the growth number of komatsuna after 13 days and 21 days after sowing. Table 1 shows the total number of growth in a total of nine inorganic molding media, the occurrence of water-blooming, water repellency and strength of the inorganic molding media.
In Table 1, the state of occurrence of water-bloom, water repellency and strength in the inorganic molding medium were evaluated according to the same criteria as in Example 2.

(Example 5)
In Example 2, instead of heat-treating the surface coated with the water repellent agent with a burner, the binder present on the surface of the porous inorganic-based molded body was burned at 300 ° C. in the oven until it turned black brown and turned to 15 ° C. in the oven. By treating in the same manner except that the heat treatment was performed for a minute, an inorganic forming medium set in which a total of nine inorganic forming mediums 5 were arranged was obtained.
The obtained inorganic molding medium set was subjected to a cultivation test in the same manner as in Example 2.
In the above-described inorganic molding medium set, the water repellency, strength and thickness of the water-repellent layer of the inorganic molding medium immediately before sowing are shown in Table 1, and after seeding, after 13 days, after 21 days and after 32 days, Table 1 shows the growth number of Komatsuna (total number of growths in a total of nine inorganic forming media), the occurrence of water-bloom in the inorganic forming medium, water repellency and strength.
In Table 1, the state of occurrence of water-bloom, water repellency and strength in the inorganic molding medium were evaluated according to the same criteria as in Example 2.

(Example 6)
In Example 2, instead of heat-treating the surface coated with the water repellent agent with a burner, the surface coated with the water repellent agent was heated to 500 ° C. with a brass plate embedded with a heating element inside. A total of nine inorganic molding media 6 were obtained by performing the same treatment except pressing for 15 seconds until the binder existing on the surface of the porous inorganic molded body burned and turned blackish brown. An inorganic molding medium set was obtained.
The obtained inorganic molding medium set was subjected to a cultivation test in the same manner as in Example 2.
Table 1 shows the water repellency, strength, and thickness of the water-repellent layer of the inorganic molding medium immediately before sowing in the inorganic molding medium set, and the growth rate of komatsuna after 13 days and 28 days after sowing. Table 1 shows the total number of growth in a total of nine inorganic molding media, the occurrence of water-blooming, water repellency and strength of the inorganic molding media.
In Table 1, the state of occurrence of water-bloom, water repellency and strength in the inorganic molding medium were evaluated according to the same criteria as in Example 2.

(Comparative Example 3)
In Example 2, except that the surface to which the water-repellent agent was applied was not subjected to heat treatment, an inorganic molding medium set comprising nine comparative inorganic molding mediums 3 in total was obtained by the same treatment. It was.
The obtained inorganic molding medium set was subjected to a cultivation test in the same manner as in Example 2.
Table 2 shows the water repellency of the inorganic molding medium immediately before sowing in the above-mentioned inorganic molding medium set, and the number of Komatsuna growths after 13 days and 21 days after sowing (a total of nine inorganic molding media) Table 2 shows the total growth number), the occurrence of water-bloom in the inorganic molding medium, and the water repellency.
In Table 2, the occurrence of water-bloom and the water repellency in the inorganic molding medium were evaluated according to the same criteria as in Example 2.

(Comparative Example 4)
In Example 2, only the heat treatment was performed with a burner until the binder present on the surface of the porous inorganic molded body burned and turned black brown without applying a water repellent to the surface of the porous inorganic molded body. Were treated in the same manner to obtain an inorganic molding medium set in which a total of nine comparative inorganic molding mediums 4 were arranged.
The obtained inorganic molding medium set was subjected to a cultivation test in the same manner as in Example 2.
Table 2 shows the water repellency of the inorganic molding medium immediately before sowing in the above-mentioned inorganic molding medium set, and the number of Komatsuna growths after 13 days and 21 days after sowing (a total of nine inorganic molding media) Table 2 shows the total growth number), the occurrence of water-bloom in the inorganic molding medium, and the water repellency.
In Table 2, the occurrence of water-bloom and the water repellency in the inorganic molding medium were evaluated according to the same criteria as in Example 2.

  From Table 1, the inorganic molding media obtained in Examples 2 to 6 were coated with the water repellent after the surface of the porous inorganic molded body formed into a block shape was coated with the water repellent. Since the surface is heat-treated, for example, until the harvest is harvested, it is possible to prevent the occurrence of sea urchins over a long period of time, and handling (portability), water repellency, It can be seen that an inorganic forming medium that is excellent in plant growth and can be suitably used for hydroponics or hydroponics can be provided.

  On the other hand, from Table 2, the comparative inorganic molding medium obtained in Comparative Example 3 and Comparative Example 4 shows that the surface of the porous inorganic molded body molded in a block shape is applied after application of the water repellent. Since the surface to which the water-repellent agent is applied is not heat-treated (Comparative Example 3), or the water-repellent agent is not applied (Comparative Example 4), after the sowing, the occurrence of water-bloom It cannot be prevented that the water repellency cannot be exhibited.

  According to the present invention, for example, it is possible to prevent the occurrence of moss algae such as blue-green algae over a long period of time, for example, until the harvest is harvested, and also handleability (portability), water repellency, plant In addition, it is possible to provide an inorganic forming medium that can be suitably used for hydroponics or hydroponics, and a method for easily producing the inorganic forming medium.

Claims (6)

An inorganic molding medium comprising a porous inorganic molded body molded into a block shape having a coating film of a silicone-based water repellent which is at least partially heat-treated on the surface. Culture medium. 2. The inorganic molding medium according to claim 1, wherein the porous inorganic molded body is a rock wool molded body mainly composed of rock wool. The inorganic forming medium according to claim 1 or 2 , wherein the inorganic forming medium is used for hydroponics. A water repellent coating step of applying a silicone water repellent to a block-shaped porous inorganic molded body in a manufacturing process of an inorganic molding medium, and a porous inorganic molded body coated with a water repellent And a heat treatment step of heat-treating at least a part of the surface of the inorganic forming medium . The method for producing an inorganic forming medium according to claim 4 , wherein the heat treatment in the heat treatment step is a heat treatment by a burner, a heat treatment by an oven, or a treatment by contact with a heated metal plate. The method for producing an inorganic forming medium according to claim 4 or 5 , wherein the inorganic forming medium is used for hydroponics.