JPH1032A - Material for growing plant - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a material for growing plants by recycling refuses such as chaff and foam plastics dumped in the past. SOLUTION: This material 1 for growing plants is prepared by mixing chaff with granular foam plastics at a ratio of 60wt.% and 40wt.% and then molding the mixture in an ordinary planter shape under pressure and heating with steam. As the chaff and the foam plastics constructing this material 1 for growing plant possess moderate gas permeability and water-holding potency, this material is very excellent as a substitute for soil growing a plant B. Thus, as the excellent material 1 for growing plants is producible by utilizing a waste dumped in the past, the burden of the incinerating place is reducible, the prolongation of the life of a reclaimed land is contrivable and further a resource can be saved.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a plant cultivation material in which waste materials are recycled.

[0002]

BACKGROUND OF THE INVENTION Among cereal waste, for example, rice husk is about 3
More than one million tons have been generated, most of which have been discarded without being used. Garbage from households and other households has become a social issue as the leading role in the problem of garbage disposal, and various approaches have been taken, but basically they have been incinerated or landfilled.

[0003] From homes and businesses, waste paper such as OA paper that is difficult to recycle has been generated, and such hard paper that is difficult to recycle has been incinerated or landfilled. Further, in modern society, various kinds of industrial wastes are generated, and most of such industrial wastes are disposed of by landfill.

[0004]

The garbage (grain waste, garbage, waste paper, industrial waste) as described above may lead to environmental destruction if incinerated or landfilled. It is also difficult to secure land for landfill disposal. Therefore, there is an increasing demand for reusing garbage that has been discarded until now, but there has been little effective means for reusing.

[0005]

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a plant cultivation material in which garbage that has been conventionally discarded is reused.

[0006]

Means for Solving the Problems The plant cultivating material of the present invention employs the following technical means. [Means of Claim 1] The plant cultivation material is obtained by mixing a granular grain waste material and a granular organic waste material other than the grain, and compressing and solidifying the mixture.

[Means of Claim 2] In the plant growing material of Claim 1, the grain waste material is rice husk.

[0008] [Claim 3] In the plant growing material of claim 1 or 2, the organic waste material is a foamed resin decomposable by sunlight or oxygen in the air.

(4) The plant growing material according to any one of (1) to (3), wherein the organic waste material is hardly recyclable waste paper such as OA paper.

(5) The plant growing material according to any one of (1) to (4), wherein the organic waste material is garbage used as a fertilizer for plants.

(6) A plant growing material according to any one of (1) to (5), wherein the grain-grown waste material is mixed with granular organic waste material other than grain. And a pressurizing step in which the mixture mixed in the mixing step is supplied into a mold and pressurized, and a steam step of blowing high-temperature steam to the mixture pressurized in the pressing step. Features.

(7) The plant growing material according to any one of (1) to (6), in which the surface is planted by electric flocking, and a groove is formed in the flocking. It is characterized by plant seeds being put in.

[0013]

Effects of the Invention and Effects of the Invention

[Action and Effect of Claim 1] The plant cultivation material according to the present invention comprises a granular waste material (for example, rice hull, etc.)
Organic waste materials other than granular grains (eg, garbage,
Waste paper, industrial waste, etc.) and compression-solidified. In other words, it is possible to reuse grain waste and organic waste that had been conventionally disposed of, thereby reducing the burden on incineration plants, extending the life of landfills, and saving resources. In addition, since this plant cultivation material includes granular cereal waste material and the like, it has appropriate air permeability and water retention ability, and is optimal as a soil substitute for cultivating plants.

[Operation and Effect of Claim 2] By using rice hulls as cereal waste material, rice husks that have been disposed of so far can be used as a main raw material for molding plant cultivation materials.

[Action and Effect of Claim 3] By using foamed resin (an example of industrial waste material) decomposed by sunlight or oxygen as organic waste material having a granular shape, it has been disposed of as industrial waste material. The foamed resin can be used as a reinforcing material for plant growing materials and as a water retention material.

[Function and Effect of Claim 4] By using waste paper as the organic waste material having a granular shape, the waste paper which has been treated without being recycled is a reinforcing material for plant cultivation materials and a water retention material. Available as

[Function and Effect of Claim 5] By using raw garbage and an organic fertilizer made of raw garbage as the organic waste material having a granular shape, the amount of combustible garbage can be reduced to 60%.
It is possible to use garbage, which is said to account for more than 10%, and reduce incineration garbage. Therefore, the burden on the garbage incineration plant can be reduced. Although some municipalities are working to reduce incineration garbage by turning garbage into fertilizer, they are struggling with how to use it, and from this, the garbage utilization effect can be expected.

[Function and Effect of Claim 6] First, in the mixing step, grain waste and organic waste are mixed. Next, in a pressurizing step, the mixture is supplied to the inside of the mold, and pressurized and molded in the mold. Then, in the steam process,
Steam is supplied to the mixture molded under pressure in the mold, and the molded mixture is solidified by, for example, fixing the foamed resin and the grain waste material. By using the above manufacturing method,
A plant growing material formed into a predetermined shape is manufactured.

[Function and Effect of Claim 7] The plant seeds are put into the grooves formed in the planted portion, and the seeds germinate by giving water to the plant growing material. In other words, plants can be easily grown, and horticulture and greening can be easily performed.

[0020]

Next, an embodiment of the present invention will be described with reference to FIG.
A description will be given using two embodiments and modified examples. FIGS. 1 and 2 show a first embodiment of the present invention. FIG. 1 is a sectional view of a stationary planter type plant growing material, and FIG. 2 is a perspective view of the same. .

The plant growing material 1 shown in this embodiment has a substantially planter shape having a bottom surface 2 to be directly placed and a plurality of holes 3 opening upward. As an example, rice husk is used, and as an example of granular organic waste materials other than grains, a granular foamed resin (for example, polyurethane or the like) is used.

That is, since the plant growing material 1 is manufactured using rice hulls, which are plant natural materials that eventually return to the soil, and foamed resin that is naturally decomposed by sunlight or oxygen in the air, it is lightweight. In addition, it has a suitable air permeability and a suitable water retention, and is molded so as to withstand long-term use.

This plant growing material 1 is manufactured by the following technique. First, about 60% by weight of chaff and about 40% by weight of foamed resin are mixed (mixing step). Note that a small amount of a binder is added to the foamed resin. Next, the mixture is supplied into a mold (a mold for a stationary planter), pressurized in the mold, and the mixture is compressed to an appropriate density and molded into a stationary planter (pressing step).

Thereafter, high-temperature (for example, about 120 ° C.) steam is supplied to the pressure-molded mixture in the mold to fix the foamed resin and the rice husk with a binder, and the molded mixture is solidified (steam process). . By using the above manufacturing method, the plant growing material 1 formed in the shape of a stationary planter is manufactured.

[Example of use] An example of use of the stationary planter-type plant growing material 1 produced as described above will be described. A small amount of culture soil A and seeds (or seedlings) are put in a plurality of holes 3 and water is given. Even if water is given in excess, the excess water is drained to the outside because the plant growing material 1 itself has a low density. In addition, the rice hulls and the foamed resin constituting the plant growing material 1 maintain appropriate moisture for a relatively long time. The roots of the plant B growing inside each hole 3 enter the plant growing material 1, the roots of the plant B extend well, and as a result, the plant B grows well.

[Effects of the Embodiment] The plant growing material 1 described above is provided with rice hulls which have been disposed of up to now and foamed resin which has been disposed of as industrial waste materials. In other words, since the garbage mainly composed of rice husks that have been disposed of so far and foamed resin that has been disposed of as industrial waste can be reused, the burden on incineration plants can be reduced, and landfills can be prolonged, In addition, resources can be reused.

The plant cultivation material 1 contains 60% by weight.
Is obtained by compressing and solidifying 40% by weight of the foamed resin of the rice hull, and has an appropriate air permeability and water retention ability, and is very excellent as a growth base for the plant B. In addition, plant growing material 1
Degrades gradually as the plant B grows, and eventually returns to the soil. Furthermore, even if the culture soil A is inserted, the culture soil A can be used in a small amount, and the plant cultivation material 1 itself is lightweight, so that the transportation is easy.

[Second Embodiment] FIG. 3 shows a second embodiment and is a perspective view of a plant growing material 1 of a planter type for greening a wall surface which is attached to a wall surface. In the plant growing material 1 of this embodiment, a side surface 5 can be bonded and fixed to a concrete wall surface 4 with an adhesive C. This is possible because, as shown in the first embodiment, it is lightweight even in the state where the culture soil A is inserted. Note that the plant growing material 1 may be fixed to the wall surface 4 with a framework or bolts.

[Third Embodiment] FIGS. 4 and 5 show a third embodiment. FIG. 4 is a perspective view of a plant growing material 1 for greening the ground and the entire wall surface 4, and FIG. is there. The plant growing material 1 according to this embodiment has a substantially square block shape, and can be arranged on the ground or bonded and fixed with an adhesive C so as to cover the concrete wall surface 4.

The surface of the plant growing material 1 of this embodiment is planted (not shown) by electric flocking on the surface. can do. That is, if green flocking is achieved, the ground and the wall surface 4 can be greened even before the plant B grows.

Further, a plurality of grooves (not shown) are formed in the flocking on the surface, and seeds of the plant B (not shown) such as lawn are put in the grooves. That is,
In the plant cultivation material 1 of this embodiment, since seeds are put on the surface in advance, the plant B germinates only by spraying water, and the plant B generated can easily perform greening of the wall surface.

[Modifications] In the above-described embodiment, an example in which a foamed resin that can be decomposed by sunlight or oxygen in the air is used as an example of the organic waste material. Garbage used as a fertilizer for the plant B may be used.
Of course, foamed resin, waste paper and garbage may be used in combination. Further, the surface of the plant growing material 1 may be colored with a paint.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view of a plant growing material (first embodiment).

FIG. 2 is a perspective view of a plant growing material (first embodiment).

FIG. 3 is a perspective view of a plant growing material (second embodiment).

FIG. 4 is a perspective view of a plant growing material (third embodiment).

FIG. 5 is a cross-sectional view of a plant growing material (third embodiment).

[Explanation of symbols]

 1 Plant growing materials

Claims (7)

[Claims] 1. A plant cultivation material obtained by mixing and compressing and solidifying a granular grain waste material and an organic waste material other than the grain granular material. 2. The plant growing material according to claim 1, wherein the grain waste material is rice husk. 3. The plant growing material according to claim 1, wherein the organic waste material is a foamed resin decomposable by sunlight or oxygen in the air. 4. The plant growing material according to claim 1, wherein the organic waste material is waste paper, such as OA paper, which is difficult to regenerate. 5. The plant growing material according to claim 1, wherein the organic waste material is garbage used as a fertilizer for plants. 6. A plant growing material according to any one of claims 1 to 5, comprising: a mixing step of mixing a granular grain waste material with a granular organic waste material other than the grain; A plant growing method comprising: a pressurizing step of supplying the mixture mixed in the step into a mold and pressurizing; and a steaming step of blowing high-temperature steam to the mixture pressurized in the pressurizing step. Materials. 7. The plant growing material according to any one of claims 1 to 6, wherein the surface is planted by electric flocking means, a groove is formed in the flocking, and a seed of the plant is put in the groove. A plant cultivation material characterized by being obtained.