KR100893590B1 - Sustained release granular complex fertilizer for direct seeding method - Google Patents

Abstract

A slow-release granular composite fertilizer containing necessary fertilizer elements for a direct seeding method is provided to enable an operator to control and adjust point of time for releasing the granular composite fertilizer. A slow-release granular composite fertilizer containing necessary fertilizer elements for a direct seeding method comprises: 85-95wt% of first fertilizer mixture(11) containing nitrogen, kali, silicon, calcium, magnesium and sulfur; a core fertilizer layer(10) coated with 5-15wt% of resin(12) selected from the group consisting of acryl emulsion resin, latex emulsion resin, bio-degradable wax and urea resin; a second fertilizer mixture(21) containing nitrogen, kali, silicon, calcium, magnesium, sulfur and phosphorus; and an outer fertilizer layer(20) coated with 2-5wt% of resin(22) selected from the group consisting of acryl emulsion resin, latex emulsion resin, bio-degradable wax and urea resin.

Description

Sustained release granular complex fertilizer for direct seeding method}

The present invention relates to a slow-release granular composite fertilizer for direct cultivation, and more specifically, it consists of two layers of resin coating layer, and after the direct fertilization, the total nitrogen, kali, silicon, calcium, magnesium and sulfur contained in the slow-release fertilizer about 30 days to 70 days. 50 to 70% of the content is eluted first into the soil, and the remaining 30 to 50% by weight is secondly eluted over 70 to 90 days, while the total content of phosphorus is 100% by weight during the growth period from 30 to 70 days. It relates to a slow-release granular composite fertilizer for direct cultivation.

Slow-fertilizer (緩 效 性 肥料) refers to the fertilizer made to supply the fertilizer components needed by the crop in the soil throughout the entire fertilizer in a single fertilization.

In other words, slow-fertilizing fertilizers are fertilizers that can be controlled by delaying the dissolution time of fertilizer components to be supplied through the chemical treatment proposed in the fertilizer process standards.

In general, slow-fertilizing fertilizers delay the dissolution of fertilizers in the soil as described above, resulting in improved fertilizer utilization of crops due to a continuous nutrient supply effect, while minimizing losses due to loss of fertilizers and environmental pollution. It has many advantages in terms of labor and cost savings due to additional fertilization.

Slow-fertilizers can be broadly classified into coated fertilizers and synthetic fertilizers.Double-coated fertilizers are fertilizers by coating materials that are insoluble in water (usually divided into synthetic resins and sulfur) on the surface of particles of fast-acting fertilizers (water-soluble fertilizers). It refers to fertilizers that can control the dissolution of components, and synthetic fertilizers are fertilizers made of hardly decomposable substances that are not easily decomposed by salts or soil microorganisms that are poorly soluble in water by chemically reacting materials containing fertilizer components.

However, there is no known granular compound fertilizer which can control the dissolution time of the compound fertilizer component in two stages in the conventional fertilizer coated fertilizer.

On the other hand, nitrogen (N), phosphorus (P), kali (K), silicon (Si), calcium (Ca), magnesium (Mg) and sulfur (S) used in the compound fertilizer play a role in the following crops: It is known.

Firstly, silicon (Si) is a filamentous or granular form, which increases the oxygen supply and growth rate through the germination and germination of crop seeds, especially during the low temperature and early stages of rice seed germination and seed growth. Increasing resistance to low temperature, silicic acid absorbed through the roots rises into the body with water by transpiration, water is evaporated from the surface of the leaves and most silicic acid accumulates in the epidermis of the leaves By inducing more silicified cells on the surface of the leaves to harden the leaves, so that they do not sag, and they can receive a lot of sunlight from the lower leaves to increase the photosynthetic efficiency of all leaves. Blast disease, leaf blight blight germs, etc.) to prevent invasion. Particularly, in the case of rice, ammonia status in soil is increased by increasing the efficiency of photosynthesis, increasing grain yield, ripening ratio, and weight of grain, and reducing the damage of rice pests (such as rice worms and dead moths). Nitrogen is adsorbed on silicic acid, which is known to lower the nitrogen concentration in rice plants to strengthen the tissues and to reduce the protein content and amylose content of the rice grains to improve the taste of rice.

Calcium (Ca) binds to polysaccharides in the plant body to strengthen cell walls to strengthen pests and dobok, and plays an important role in smoothing the body currents of photosynthetic products, proper pH adjustment, ion balance, and buffering properties of plasma. It is reported.

Magnesium (Mg) is known to play an important role in the production of high-quality rice, especially by increasing the Mg / K ratio to improve the taste, quality and the like.

Sulfur (S) is an amino acid contained in cystine and methionine among essential amino acids, and is composed of lipoic acid, which is involved in the oxidation reaction of vitamins (thiamine, biotin) and respiration (coenzyme A, pyruvate). As an ingredient, it is known as an important ingredient for crop growth.

However, in the conventional slow-release fertilizers, there is no known slow-release complex fertilizer prepared by including all of the above-described fertilizer components in addition to the essential fertilizer components nitrogen, phosphorus and kali.

Thus, the present inventors gradually improve the fertilizer component and its contents in two stages at a necessary time without harming the germination, germination, seedling, seedling growth of early plant seeds even under external adverse conditions such as moisture, rainfall, irrigation water, etc. To develop a slow-growing granular fertilizer for direct cultivation that can be eluted and grown well, and the content of total nitrogen, kali, silicon, calcium, magnesium and sulfur in the slow-release fertilizer is about 30 to 70 days after direct fertilization. 50-70% of the primary is eluted into the soil, and the remaining 30-50% by weight is eluted secondly from 70 to 90 days, while the total content of phosphorus is 100% by weight during the growth period from 30 to 70 days. The present invention was completed by producing a slow-acting granular composite fertilizer composed of two layers of resin coating layers to elute.

Accordingly, an object of the present invention is to control the elution time so that the seed germination, germination, seedlings, growth of the seed fertilizer for fertilizing slow fertilizer can be harmless, and most of the major fertilizers required for plant cultivation, especially rice direct cultivation. It is to provide a slow-acting granular composite fertilizer for controlling the straight wave containing the component.

In addition, another object of the present invention is to develop a method for applying the slow-release granular composite fertilizer for direct cultivation.

In order to achieve the above object, the present invention is a slow-release granular composite fertilizer coated with a resin of nitrogen, phosphorus, kali, silicon, calcium, magnesium and sulfur components, (a) nitrogen, kali, silicon, calcium, magnesium And 85 to 95% by weight (based on the total weight of the core fertilizer layer) containing sulfur, and the first fertilizer mixture, wherein the first fertilizer mixture is coated with acrylic emulsion resin, latex emulsion resin, biodegradable wax and urea resin. A core fertilizer layer consisting of a selected 5 to 15% by weight (based on the total weight of the core fertilizer layer); And (b) a 95 to 98% by weight (based on the total weight of the skin fertilizer layer) and the second fertilizer mixture, covering the core fertilizer layer and comprising nitrogen, kali, silicon, calcium, magnesium, sulfur and phosphorus; Covering the fertilizer mixture and the outer skin fertilizer layer consisting of 2 to 5% by weight (based on the total weight of the skin fertilizer layer) resin selected from the group consisting of acrylic emulsion resin, latex emulsion resin, biodegradable wax and urea resin; Compound fertilizer is composed of nitrogen, kali, silicon, calcium, magnesium and sulfur contained in the slow-release granular fertilizer 30-50% by weight: 50-70% by weight (each component) It is contained by weight), and the phosphorus contained in the slow-release granular composite fertilizer provides a straight-wave fermentable granular composite fertilizer for cultivation, characterized in that it is contained only in the shell fertilizer layer.
Hereinafter, the present invention will be described in detail.

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At this time, if there is no other definition in the technical terms and scientific terms used, it has a meaning commonly understood by those of ordinary skill in the art.

In addition, repeated description of the same technical configuration and operation as in the prior art will be omitted.

The fertilizer component used in the present invention is not a single component, but means a component that is dissolved in water and available to crops. Specifically, silicon (Si) is in the form of silicic acid, and nitrogen is in the form of urea, ammonia and nitrate. Phosphorus can be used in the form of phosphoric acid, Kali in the form of Kali Chloride or Lactic Acid Kali, magnesium in the form of Goto, calcium in the form of calcium carbonate and sulfur in the form of sulfur.

Direct cultivation used in the present invention refers to a method of cultivating by covering directly with the seed of the crop and fertilizer to be fertilized at the location to be sown and then covering or covering it.

In the present invention, the urea resin is a urea resin prepared by mixing urea and formaldehyde.

As the biodegradable wax in the present invention, it is preferable to use polyethylene wax (preferably oxydipolyethylene wax).

The present invention relates to a slow-fertilizing fertilizer which can be fertilized with seeds when sowing seeds of a crop at a specific place. By using the slow-fertilizing fertilizer of the present invention when sowing seeds, the seed of the seed can be grown under rain or irrigation conditions as well as in a normal climate. By slowly eluting the fertilizer components that are continuously needed during the emergence, growing and growing periods, there is little harm of fertilizers due to excessive dissolution of fertilizers immediately after fertilization, maximizing the utilization of fertilizers In addition, the labor and costs of frequent fertilization have been reduced.

In particular, the slow-acting fertilizer according to the present invention, when used together with the seed when sowing in a direct weaving, the effect is doubled.

 In addition, it is most preferable to use the slow-acting fertilizer according to the present invention together with rice seed sown in dry or wet soil depending on the fertilizer component and its elution time. The slow-release fertilizer according to the present invention is characterized in that the total nitrogen, kali, silicon, calcium, magnesium and sulfur in the slow-release fertilizer in the growth cycle (about 30 to 70 days) from the rice 3.8 blade stage to the seeding period (pruning) after sowing and fertilization. 50 to 70% of the content is first eluted into the soil, and the remaining 30 to 50% by weight is secondly eluted over the growth cycle (about 70 to 90 days) during the sedimentation period (around 25 days before discharge). This is because the total content of phosphorus is 100% by weight during the growth period from the 3.8-leaf season of rice to the elution period, which has the most desirable characteristics for growing rice.

The present invention specifies the ratio of the fertilizer component to be used and the coating component coating the fertilizer component and the fertilizer component, so that the timing of the fertilizer component eluted by adjusting the thickness of the coating layer.

At this time, if less than 2% by weight of the resin based on the weight ratio of the second fertilizer mixture in the outer fertilizer layer of the slow-acting fertilizer according to the present invention, the thickness of the coating layer is thin, so that the fertilizer component is eluted before the seed germination of rice 3.8 It is preferable to use it within the above-mentioned range of use because it may cause damage and cause a problem that the fertilizer mixture does not completely dissolve even after the powdering period due to the thickness of the coating layer being thick.

In addition, when the resin is less than 5% by weight based on 85 to 95% by weight of the first fertilizer mixture in the core fertilizer layer, the thickness of the coating layer is thin, so that the fertilizer component is eluted before the rice seedling period, and the fertilizer is harmed during seedling growth. It can be used in excess of 15% by weight because the thickness of the coating layer is thick, so that the fertilizer mixture does not completely dissolve even after the oil-forming group, it is preferable to use within the above-mentioned range of use.

In addition, in the present invention, by further adding an inorganic material selected from the group consisting of talc, silica, zeolite, calcium carbonate, lime and gypsum to the resin coating the fertilizer mixture, it is possible to appropriately control the dissolution rate according to soil or environmental conditions. desirable. Specifically, in the present invention, the coating composition mixes 50-100 wt% of resin alone or 0-50 wt% of inorganic resin in the case of the core fertilizer layer, and 50-90 wt% of resin alone or in the case of sheath fertilizer layer. It is preferable to mix 10-50 weight% of inorganic matters. This is because when the inorganic content exceeds 50% by weight, the dissolution rate cannot be adjusted, and when less than 10% by weight is used, there is no significant difference from the resin alone effect.

In addition, in the fertilizer of the present invention, the first fertilizer mixture constituting the core fertilizer layer and the second fertilizer mixture constituting the shell fertilizer layer include gelatin, albumin, gluten, cellulose, Nitrocellulose, carboxymethyl cellulose, hydroxypropyl cellulose, hydroxypropyl methyl cellulose, methyl cellulose, ethyl cellulose, gum arabic, agar, sodium alginate, konjac meet vegetable gum, polyvinyl alcohol, starch and dextran The binder can be used in combination.

In addition, the fertilizer composition according to the present invention may be added to the fermentation microorganisms such as yeast bacteria in order to enhance the fertilizer utilization efficiency.

In addition, the fertilizer composition according to the invention it is preferable to adjust the pH to 6 to 7 so as to be suitable for acidic soil due to the characteristics of the soil in Korea.

On the other hand, the application and product specifications of the slow-release granular composite fertilizer according to the present invention are as follows.

The slow-release granular composite fertilizer according to the present invention contains a slow-effective granular composite fertilizer (N, P, K, Si, Ca, Mg, S according to the present invention at the same time as a seeding operation using a straighter or the like under dry conditions (dry paddy soil) direct wave conditions. And cover the rice seed with pH 6 ~ 7) and finally cover the soil with chains, etc., and in the wet direct (wet paddy soil) direct condition, use the straightest seed (about 1 ~ 2mm) Sowing (V-type bone formation + Choi Ah-dop-seed seeding + Covering with a slow-release composite fertilizer).

In addition, the slow efficacious granular composite fertilizer for cultivation according to the present invention is preferably configured as shown in FIG. At this time, the slow-release granular composite fertilizer of FIG. 1 includes a core fertilizer layer 10 composed of a first fertilizer mixture 11 and a resin layer 12 of a synthetic resin, a second fertilizer mixture 21, and a resin layer 22 of a synthetic resin. It consists of an outer skin fertilizer layer (20) made of.

The amount of the slow-effective granular composite fertilizer according to the present invention can be applied differently by dividing into dry paddy seeding work and wet paddy seeding work, so that dry paddy seeding work takes about 60 kg per 10a (300 pyeong), and the seeding for wet paddy seeding work is sowing. It is preferable to use 200 ~ 300 kg per 10a, which is enough to cover rice seed completely because it must be completely covered to prevent dry and bird damage. At this time, the slow-release granular composite fertilizer according to the present invention preferably has a diameter of about 2 to 5 mm, specifically about 4 mm for dry direct wave, and about 2 mm for wet straight wave cultivation. That is, the form of fertilizer particles is preferably granules for dry direct cultivation and wet cultivation for filamentous direct wave cultivation. In addition, the constituent content of nitrogen, phosphorus, kali, silicon, calcium, magnesium, and sulfur used in the slow-release granular composite fertilizer according to the present invention is based on the content used in conventional granular and filamentous fertilizer.

As described above, the present invention can adjust the elution time so that the seed germination, germination, seedlings, growth of the seed should be harmless, and the most straight fertilizer component containing the most important fertilizer components for plant cultivation, especially rice cultivation It is now possible to provide a slow-release granular composite fertilizer for cultivation.

Hereinafter, the present invention will be described in more detail with reference to specific examples. However, the present invention is not limited to the following examples, and it will be apparent to those skilled in the art that various changes or modifications can be made within the spirit and scope of the present invention.

[ Example ]

1. Preparation of Fertilizer Mixtures

end. First fertilizer mixture

15% by weight of nitrogen, 8% by weight of Kali, 10% by weight of sulfur, 5% by weight of silicon, 3% by weight of calcium and 2% by weight of magnesium were added to an aqueous solution of 48% by weight of hydroxypropylmethylcellulose and mixed uniformly. 10 kg of the first fertilizer mixture to be used in the composite fertilizer of the invention was prepared.

I. 2nd fertilizer mixture

0.9 kg of phosphorus was added to 3 kg of the first fertilizer mixture and uniformly mixed to prepare a second fertilizer mixture of the present invention.

2. Preparation of Slow-Finished Granular Compound Fertilizer

end. core Fertilizer layer  Produce

7 kg (90 wt%) of the prepared first fertilizer mixture was dried in the form of a core having a diameter of 3 mm through a fluidized bed dryer, and then coated with 0.77 kg (10 wt%) of urea resin to prepare a core fertilizer layer of the present invention. It was.

I. coat Fertilizer layer  covering

The prepared core fertilizer layer was coated with 3.9 kg (97 wt.%) Of the prepared second fertilizer composition through a fluidized bed dryer, and then coated with 0.12 kg (3 wt.%) Of urea resin again. Fertilizer was prepared.

[ Experimental Example ]

The fermentable granular composite fertilizer prepared in the above example was fertilized at the seeding position using dry seed cultivation of rice, and then the daily dissolution rate of the fertilizer component was measured for each component.

The results are shown in Table 1 below.

A range of modifications, variations, and substitutions are possible with respect to the above disclosure, and in some cases only some of the features of the invention may be used. Accordingly, the appended claims should be construed broadly and in accordance with the spirit and scope of the invention.

Figure 1 shows a cross-sectional view of granules of the preferred slow-release granular composite fertilizer of the present invention.

<Description of the symbols for the main parts of the drawings>

10 core fertilizer layer 11: first fertilizer mixture

12: resin layer 20: shell fertilizer layer

21 second fertilizer mixture 22 resin layer

Claims (5)

In the slow-release granular composite fertilizer in which nitrogen, phosphorus, kali, silicon, calcium, magnesium and sulfur components are coated with a resin, (a) 85 to 95% by weight (based on the total weight of the core fertilizer layer) and the first fertilizer mixture containing nitrogen, kali, silicon, calcium, magnesium and sulfur, and the acrylic emulsion resin, latex emulsion A core fertilizer layer composed of 5 to 15% by weight (based on the total weight of the core fertilizer layer) selected from the group consisting of resins, biodegradable waxes and urea resins; And (b) 95 to 98% by weight (based on the total weight of the skin fertilizer layer) and the second fertilizer, covering the core fertilizer layer and containing nitrogen, kali, silicon, calcium, magnesium, sulfur and phosphorus; Covering the mixture and comprising an outer skin fertilizer layer of 2 to 5% by weight (based on the total weight of the skin fertilizer layer) selected from the group consisting of acrylic emulsion resins, latex emulsion resins, biodegradable waxes and urea resins. Fertilizer is made, Nitrogen, kali, silicon, calcium, magnesium and sulfur contained in the slow-release granular compound fertilizer are contained in the core fertilizer layer and the skin fertilizer layer in the range of 30-50 wt%: 50-70 wt% (based on the weight of each component). And phosphorus contained in the slow-release granular fertilizer is contained only in the outer skin fertilizer layer. The method of claim 1, The slow-release granular composite fertilizer is in the soil, After 30 to 70 days, 100% by weight of phosphorus and nitrogen, kali, silicon, calcium, magnesium and sulfur in the fertilizer are eluted stepwise to 50 to 70% by weight, A 70-90 days old nitrogen, kali, silicon, calcium, magnesium and sulfur are eluted, slow efficacious granular composite fertilizer for cultivation. The method according to claim 1 or 2, The fertilizer mixture of (a) and (b) is a slow-growing granular composite fertilizer for wave cultivation, characterized in that the pH is maintained at 6-7. delete delete

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