KR101787547B1 - Manufacturing method of granulation type soil conditioner - Google Patents

Abstract

The present invention relates to a granular soil improving agent which is capable of adsorbing and removing salts while containing calcium and silicate, and is capable of improving soil quality by mixing organic, inorganic materials and microbial agents. 20 to 30% by weight of a mixture of diatomaceous earth powder and gypsum or lime powder in a weight ratio of 1: 1; 20 to 30% by weight of a mixture of coco peat powder or peat moss powder and a corrosion acid powder in a weight ratio of 1: 1; 2 to 5% by weight of a mixture of molasses, starch, PVA or seaweed extract, microorganisms including water, actinomycetes and mycorrhizae at a weight ratio of 1: 5: 1; And the remaining weight is composed of zeolite powder or bio-tea powder, and the mixture is formed into a granular form by binding with the above-mentioned mixture liquid.

Description

TECHNICAL FIELD [0001] The present invention relates to a method for producing a granular soil-

The present invention relates to a soil improving agent, and more particularly, to a soil improving agent which is capable of adsorbing and removing salts while containing calcium and silicate, and mixing organic, inorganic materials and microbial agents to improve soil quality. And a method for producing the same.

Generally, in agricultural fields such as facility horticulture, fruit growing, and house cultivation, soil with high clay content has been ground for increasing harvest. However, it is difficult to find a superior land source in the land method, and there is an economically unrealistic problem such as a transportation cost for carrying the land when a superior land source is selected in another region.

To solve these problems, artificial chemical fertilizers and pesticides are used to increase the harvest of crops. However, due to the use of chemical fertilizers and pesticides, the lack of special components (trace elements) in the soil and the fugitive base are melted, resulting in nutrient deficiency in the soil layer, and the soil is acidified, . In other words, the quality of harvested crops is degraded, various environmental pollution occurs, and farmers' income is greatly damaged, and chemical fertilizers and pesticides are gradually disappearing.

For the reasons mentioned above, a soil conditioner has recently been developed for the purpose of preventing and reducing soil acidification and salt accumulation due to chemical fertilizer. The soil conditioner is provided so as to change the properties of the soil to suit the growth of crops in order to increase the yield of crops and to improve the quality of the crops. Usually, the soil conditioner is sprayed on agricultural land which maintains acidity to weaken or neutralize the acidity, It is silicate fertilizer.

The method of using lime as a soil improving agent as described above is to reinforce the soil by neutralizing the soil. However, when lime is used, lime penetrates between soils of the soil and gradually solidifies to block the pores of the soil. As a result, the oxygen supply to the soil is not smooth due to poor air permeability, so that the soil is inferior to the growth of crops . ≪ / RTI >

There is also a method of spraying the components contained in the pulverized ore in the soil. Particularly, it is well known in the agricultural field that the iron oxide is used for pulverizing diatomite or stalagmite to supplement silicate or for supplementing iron.

However, when the main component contained in the ore is used to spray the soil, it is effective to supply the insufficient soil component. However, since it is a simple mineral supply level, it can not obtain sufficient effect even if a large amount is used have.

Registered Patent No. 0599241 "Method for producing soil conditioner using zeolite" (2006.07.04.)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

It is an object of the present invention to provide a method for producing a granular soil conditioner, which is capable of adsorbing and removing salts while containing calcium and silicate, and improving the quality of soil by mixing organic, inorganic materials and microbial agents .

To achieve the above object, a "granular soil conditioner" according to the present invention comprises 20 to 30% by weight of a mixture of diatomaceous earth powder and gypsum or lime powder in a weight ratio of 1: 1; 20 to 30% by weight of a mixture of coco peat powder or peat moss powder and a corrosion acid powder in a weight ratio of 1: 1; 2 to 5% by weight of a mixture of molasses, starch, PVA or seaweed extract, microorganisms including water, actinomycetes and mycorrhizae at a weight ratio of 1: 5: 1; And the remaining weight is composed of zeolite powder or bio-tea powder, and the mixture is formed into a granular form by binding with the above-mentioned mixture liquid.

The granular soil improver of the "granular soil improver" according to the present invention has a diameter of 8 mm to 13 mm.

In order to achieve the above object, a "method for producing a granular soil-improving agent" according to the present invention is a method for producing a granular soil-like soil improving agent by mixing diatomaceous earth powder and gypsum or lime powder at a weight ratio of 1: 1 mixture; Mixing the first mixture with zeolite powder or bio-tea powder at a weight ratio of 4: 6 to 3: 7 to prepare a second mixture having 65 to 78 wt%; Preparing a mixed solution comprising a mixture of molasses, starch, PVA or seaweed extract, water, actinomycetes and mycorrhizae at a weight ratio of 1: 5: 1; Forming a granular phase by injecting the second mixture into a granulating machine and spraying the mixed liquid with 2 to 5% by weight while vibrating and rotating the mixture; A coating step of spraying a mixture of coco peat powder or peat moss powder and a corrosion acid powder at a weight ratio of 1: 1 in an amount of 20 to 30% by weight on the outer surface of the granular material, followed by coating; .

Further, the "method for producing a granular soil improver" according to the present invention is characterized in that, after the formation of the granular phase, the granular phase is disposed between the galvanized plates, Forming an uneven surface on the outer surface of the granular surface by spraying the mixed liquid on the outer surface of the granular surface formed with the uneven surface so that the uneven surface is filled with the mixed liquid, And further comprising:

Further, a "method for producing a granular soil improving agent" according to the present invention is characterized in that, following the granulating step, a step of forming a plurality of grooves by piercing the outer surface of the granular material with a needle after formation of the granular material is completed, And further spraying the mixed liquid on the outer surface of the granular surface on which the grooves are formed so that the grooves are filled with the mixed liquid so that the mixed liquid is coated on the outer surface of the granular surface.

As described above, the present invention is capable of adsorbing and removing salts while containing lime and silicate, improving the soil quality by mixing organic, inorganic and microbial agents, thereby improving crop productivity, The improvement can be smoothly performed and the green zone of the barge can be formed.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of a granular soil conditioner according to the present invention;
2 is a diagram showing a method for producing a granular soil conditioner according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the invention can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic block diagram of a granular soil conditioner according to the present invention. Fig. As shown in the figure, the granular soil improver according to the present invention comprises a first mixture of silicate and limestone, a coating powder used as a coating agent, a binder mixture used as a binder, And a second mixture.

The first mixture is a mixture of diatomaceous earth powder and gypsum or lime powder in a weight ratio of 1: 1, and comprises 20 to 30% by weight of the total weight of the mixture. The first mixture is used to neutralize the acidified soil by introducing silicic acid and calcareous material into the soil, thereby solidifying the soil and smoothly forming granules.

The coated powder is a mixture of coco peat powder or peat moss powder and corrosive acid powder in a weight ratio of 1: 1, and comprises 20 to 30 wt% of the total weight. In other words, one of the coco peat powder or the peat moss powder and the corrosion acid powder 1 are mixed at a weight ratio. The powder to be coated plays a role of improving the physical and chemical properties of the soil by applying organic and inorganic materials to the soil while covering the outer surface of the present soil remediation agent formed as a granule.

Here, the coco peat has high water holding capacity, good air permeability, reduces harmful components to plants in the process of corroding to obtain coco peat, increases nutrients required for plant growth, and is widely used as a component of artificial soil for plant cultivation.

In addition to the above-mentioned characteristics, the coco peat has a volume per unit weight of 5 to 8 times that of general compost, and the price per kilogram is very low. In addition, carbon / nitrogen (C / N) and redgreen content are high, neutral, and nutrient content is low, it is decomposed after 2 ~ 3 years in soil. Have.

The peatmoss is a porous material produced mainly by the degradation action of the ground, such as rice green and cellulose, which are the main components of the plant, in contrast to the coal mine which has been buried underground for a long time under the action of geothermal and geothermal heat. Which is about 20 times as much as that of water.

The above-mentioned corrosive acid has various functions such as a cation substitution function and a nutrient supply function, and has an organic matter content of about 75% and includes calcium, manganese, boron, molybdenum, iron and the like which are used as nutritional elements of plants.

The above-mentioned corrosive acid can improve the soil physical property by structuring the soil particles in a flock structure, that is, chelating the cations contained in the soil due to the high cation exchange capacity, so that the soil has an electrostatic repulsive force, It absorbs the fertilizer and gradually dissolves the fertilizer, so it eliminates the salt obstacles in the soil, solves the salt obstacles that show the efficacy of the slow-acting fertilizer, promotes the RNA synthesis of the crops, promotes the activity of enzymes to promote rooting and growth, Therefore, additional disadvantages such as solubility of insoluble nutrients that facilitate the growth of plants by solubilizing the insolubilized nutrients (Ca, Fe, P) in the soil, Functional properties.

The binder solution is a mixture of molasses, starch, PVA or seaweed extract, microorganisms including water, actinomycetes and mycorrhizae at a weight ratio of 1: 5: 1, and contains 2 to 5 wt% do. Starch, PVA or seaweed extract, the molar mixture, the starch, the PVA, or the seaweed extract is mixed with the weight ratio of 1 to 5, and the microorganism 1, And can be formed into a granule by binding.

The microorganism is composed of actinomycetes and mycorrhizae. The actinomycetes are microorganisms existing in the form of mycelia and sporophytes in soil, plants, animals, rivers and seawater. The actinomycetes are classified into prokaryotes, Like cells, and the cells grow like fungal hyphae, forming a spore at the end. Actinic actinomycetes play an important role in the decomposition of various organic matter, especially decomposition organic matter.

The mycorrhizae bacteria decompose the humic substances in the soil and supply the organic nitrogen compounds to the plants in such a form that the mycelium absorbs and assimilates them. In addition, the mycelium membrane, such as felt, wrapping the surface of the roots, prevents moisture from disappearing around the roots, and makes it easy to absorb water by the roots.

The second mixture is composed of zeolite powder or bio-tea powder. The second mixture contains 65 to 78% by weight of the total weight of the mixture, excluding the first mixture, coated powder and binder mixture. That is, the second mixture is a major component that occupies most of the present soil amendment agent. The second mixture is provided with a space for supporting the microorganisms while adsorbing salinity through fine pores formed in the zeolite or bio-tea, It serves to provide space.

The second mixture may be mixed with the binder solution to form granular particles by the granulator. The granular soil improver may have a diameter of about 1 cm or about 8 mm to about 13 mm, It is preferable to contain the main components described above.

FIG. 2 is a view showing a process for producing a granular soil conditioner according to the present invention. As shown in the figure, the method for producing a granular soil improver according to the present invention comprises a first mixture preparation step (S10) of producing a first mixture containing diatomite powder, mixing the first mixture with zeolite powder or the like (S30) for preparing a mixed solution containing the molasses or the like and a microorganism, a granular phase forming step (S40) for forming granular particles by the granulator, and a step And a coating coating step (S50) of covering the outer surface of the granular object with pits or the like.

The first mixture preparation step (S10) is a step of mixing the diatomaceous earth powder and the gypsum or lime powder at a weight ratio of 1: 1 to prepare a first mixture, wherein the first mixture is mixed with silicate and calcine So that the acidified soil can be neutralized while solidifying and smoothly forming the granules.

The second mixture preparation step (S20) comprises mixing the first mixture with zeolite powder or bio-tea powder at a weight ratio of 4: 6 to 3: 7 to prepare a second mixture of 65 to 78% by weight, The powder or bio-tea powder serves to provide space for supporting the microorganisms while adsorbing the salt through the fine pores thereof, and at the same time providing a space containing the inorganic and organic components.

In the step (S30) of preparing the mixed solution, a mixture of molasses, starch, PVA or seaweed extract, microorganisms including water, actinomycetes and mycorrhizae is mixed at a weight ratio of 1: 5: Or a seaweed extract is a known binder which allows the second mixture to be formed into a granule by mutual binding. The microorganism is composed of actinomycetes and mycorrhizae, and plays an important role in decomposition of various organic substances and water absorption of roots.

In the granule forming step (S40), the second mixture is placed in a granulating machine, and the mixture is sprayed at 2 to 5 wt% while vibrating and rotating to form granular particles.

The present manufacturing method includes a step of forming an uneven surface on the outer surface of the granular material by disposing the granular material between the steel sheets after the formation of the granular material is completed, And further spraying the mixed liquid on the outer surface of the granular surface on which the uneven surface is formed so that the uneven surface is filled with the mixed liquid so that the mixed liquid is coated on the outer surface of the granular surface.

The uneven surface forming process smoothly injects the added mixed liquid to the inside and the outside of the granular material, and the additional spraying process of the mixed liquid is performed by addition of the binder and the microorganism in the coating coating step S50 Can be adhered smoothly to the outer surface of the granule so that the robustness of the coating coating is enhanced and the amount of microorganisms to be injected is increased.

The method may further include, after the granulation step (S40), forming a plurality of grooves by piercing the outer surface of the granule with a needle after formation of the granule is completed, and forming a plurality of grooves on the outer surface of the granule And further spraying the mixed liquid so that the mixed liquid is filled in the recess so that the mixed liquid is coated on the outer surface of the granular object.

The grooving process is a step of smoothly injecting the added mixed liquid into and out of the granular material. The additional spraying process of the mixed liquid is performed through a coating and coating step (S50) described below through addition of a binder and a microorganism. Can be adhered smoothly to the outer surface of the granule so that the robustness of the coating coating is enhanced and the amount of microorganisms to be injected is increased.

In the coating coating step (S50), granules are formed, followed by spraying a mixture of cocofit powder or peatmoss powder and a corrosive acid powder at a weight ratio of 1: 1 in an amount of 20 to 30% by weight on the outer surface of the granule . This step protects and protects the outer surface by coating the organic and inorganic components on the outer surface of the granule, and provides the microorganisms with food quality and mineral content in the soil.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is clear that the present invention can be suitably modified and applied in the same manner. Therefore, the above description does not limit the scope of the present invention, which is defined by the limitations of the following claims.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

Claims (5)

delete delete A first mixture preparation step of mixing the diatomaceous earth powder and the gypsum or lime powder at a weight ratio of 1: 1 to prepare a first mixture;
Mixing the first mixture with zeolite powder or bio-tea powder at a weight ratio of 4: 6 to 3: 7 to prepare a second mixture having 65 to 78 wt%;
Preparing a mixed solution comprising a mixture of molasses, starch, PVA or seaweed extract, microorganisms including water, actinomycetes and mycorrhizae at a weight ratio of 1: 5: 1;
Forming a granular phase by injecting the second mixture into a granulating machine and spraying the mixed liquid with 2 to 5% by weight while vibrating and rotating the mixture;
A coating step of spraying a mixture of coco peat powder or peat moss powder and a corrosion acid powder at a weight ratio of 1: 1 in an amount of 20 to 30% by weight on the outer surface of the granular material, followed by coating;
Wherein the granular soil improver is a granular soil conditioner.
The method of claim 3,
Following the granulation step,
Disposing the granular material between the platens after the granulation is completed and rotating the platens to form an uneven surface on the outer surface of the granular material;
And further spraying the mixed liquid on the outer surface of the granular surface on which the uneven surface is formed so that the uneven surface is filled with the mixed liquid so that the mixed liquid is coated on the outer surface of the granular object,
The method of producing a granular soil conditioner according to claim 1,
The method of claim 3,
Following the granulation step,
Forming a plurality of grooves by piercing the outer surface of the granular object with a needle after formation of the granular object is completed;
Further spraying the mixed liquid on the outer surface of the granular object on which the groove is formed so that the mixed liquid is filled in the grooves so that the mixed liquid is coated on the outer surface of the granular object,
The method of producing a granular soil conditioner according to claim 1,

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