KR100480681B1 - Manufacturing method of feed additive - Google Patents

Abstract

In the present invention, the fluoric acid and the metal complex in the corrosive substance are induced in the free state while containing the oxidase, so that the self-oxidation function, the function of the catalyst of oxidative deodorization, organic substance By using active corrosive substance which has corrosive function and supplying minerals to animals and plants, it improves the growth rate of feedstocks, strengthens resistance to diseases, improves meat quality, and raises The objective is to make feed additives that can bring about environmental benefits.

To this end, the peat (peat) formed by the deposition of marine animals and plants with high fulvic acid content was liberated to liberate fulvic acid, and then hydrogen peroxide (H ₂ O ₂ ) and ferrous chloride were added to the redox potential (ORP). Is activated by oxidizing in the range of +350 to + 400mV, and then reacted with a powder of minerals with a large amount of activated minerals to form a feed additive, an activated corrosive in the form of a chelate mineral complex of fulvic acid peroxide. .

It is expected that the feed additive, which is an active corrosive, has various useful effects on the growth of plants as well as animals such as livestock, and thus, it is expected to be applied to a variety of feed additives and other fields.

Description

Manufacturing method of feed additive

In the present invention, the oxidizing agent is contained while the corrosive substance is induced in the free state of the fulvic acid and the metal complex. In addition, it is possible to increase the growth rate of livestock by feeding active corrosive materials with catalysis function and supplying minerals to animals and plants in livestock feed by producing organic materials as corrosive substances that are macromolecules. The present invention relates to a method for preparing a feed additive that can bring about effects such as improving the quality of livestock, improving the livestock environment, and improving resistance to livestock diseases.

In Japanese Unexamined Patent Application Publication No. 1-240152, vegetable peat has been activated in sufficient contact with air as a feed additive. However, in general peat, chelate minerals are not activated by air contact alone. Due to the low formation of complexing components, the effect was not commercially viable.

In addition, Japanese Laid-Open Patent Publications Hei 3-58753, 262444 and Hei 4-40858 have also dealt with general corrosive substances without knowing the mechanism of formation of active corrosive substances. It is not commercialized because its performance is much lower than that of the natural active corrosive material excavated from the Karago wetland in the prefecture.

In the present invention, by treating acid (sulfuric acid, hydrochloric acid) with a pH of 2 or less, the corrosives formed by depositing marine animals and plants such as marine diatoms, plankton, and seaweeds with high Fulvic acid content in peat are deposited. It is activated by releasing fulvic acid and adjusting Oxidation Reduction Potential (ORP) in the range of +350 to +400 mV by injecting hydrogen peroxide (H ₂ O ₂ ) and ferrous sulfate (FeSO ₄ ). Powder or fly ash obtained by pulverizing rhodolite or Dacite-rich volcanic ash or pumice which is rich in minerals is treated with high temperature (90-100 ℃) in acidic aqueous solution. It is mixed with the conversion of allophane quaternary mineral, amorphous non-crystalline alumino-silicate, to make active corrosive substance which is chelate and mineral oxide complex of fulbrate oxide. if, The growth rate, bacteriostatic action occurs as a useful microorganism in the intestine, so that resistance to disease is enhanced and odor is reduced in excreta. Therefore, meat quality can be improved while bringing an improvement effect on the livestock environment.

An object of the present invention is to create a feed additive that can bring about the effect of improving the growth rate of livestock, lowering the accident rate due to disease, improving the meat quality, improving the livestock environment.

Looking at the meaning and feed characteristics of the active corrosive material used as feed additive in the present invention.

In the following manufacturing method and examples, "part" means "part" of the weight unit.

Typical active corrosive soils excavated from nature are excavated from the sinking wetlands of Kagora in Nagasaki Prefecture, Japan. Aquatic plants, such as marine animals, plants, reeds, and lotus flowers are mixed and deposited with the Dacite-like volcanic ash from the volcanic activity of the nearby Unzen active volcanoes. Hydrogen ions (H ⁺ ) released by decomposition result in acidic caustic soils with an pH of about 2.3, leading to the liberation of fulvic acid into the free state. the reaction was activated minerals and to the state of the chelating seongpul beusan mineral complex salts, and the catalytic action to the recessed marsh closed and the outside of the organic material is generated by the corrosion development process hydrogen peroxide (H ₂ O ₂₎ and ferrous It is present in the form of the active substance chelate corrosion and oxidation pool beusan mineral complex form.

The feed characteristics of such activated corrosives are as follows.

① Chelate and oxidized fulbrate mineral complex improve the growth rate by easily supplying minerals necessary for the growth of animals and plants.

② Fulvic acid peroxide is a corrosive microorganism that correlates with these microorganisms and corrosive microorganisms that convert organic matter into corrosive substances while suppressing the growth of decaying and degrading microorganisms or harmful pathogenic microorganisms that actively perform metabolic activity when the redox potential is low. By creating an environment suitable for the growth of useful microorganisms, the intestinal bacteriostatic action of feed livestock occurs, resulting in increased resistance to disease.

③ Vitamins (Vitamin), a bioactive substance that helps the growth of animals and plants, hormones (Hormone), which are growth promoting substances, and antibiotics that inhibit the growth of harmful pathogenic microorganisms. It has a preventive effect.

④ Passivates substances such as ammonia, hydrogen sulfide, volatile amines, volatile organic acids, and mercaptan, which are odor generating substances, to corrosive precursors, which are insoluble in water and nonvolatile. As a result, the odor is reduced in the excreta powder, which improves the barn environment.

⑤ By converting unsaturated fatty acids such as oleic acid and linoleic acid, which are liquid at room temperature, into saturated fatty acid or conjugated fatty acid, which are solid at room temperature, pigs are formed as upper limbs are formed. Less thickness will improve meat quality.

In addition, since the digestive absorption efficiency is improved, the feed utilization efficiency is improved.

In the present invention, in order to achieve the above object, the acid is treated to 100 parts of natural peat produced by depositing marine animals and plants such as marine diatoms, plankton, and seaweed with high fulvic acid content in view of the characteristics of the active corrosive materials described above. The pH is set to 2 or less to induce the fulvic acid to a free state.

Into this solution, a mixture of hydrogen peroxide (H ₂ O ₂ ) and ferrous sulfate (FeSO ₄ ) was added in an equivalent weight equivalent to the mixture. The mixture was stirred so that the redox potential (ORP) was in the range of +350 to +400 mV. Produces peroxyfulvic acid.

Also, powder or fly ash obtained by pulverizing rhyolite or Daecite volcanic ash, which have high content of activated minerals, or pumice of these minerals, can be used at pH 2 or below. 50 ~ on a dry basis, which was converted to an allophane mineral with a large amount of activated mineral, an aluminum silicate of amorphous function, treated at high temperature (90 ~ 100 ℃) in an acidic aqueous solution. After mixing 55 parts, the mixture is inverted once or twice in two weeks and left for 3 to 4 months to prepare a feed additive which is an active corrosive substance in the chelated fulic acid mineral complex salt of fulvic acid peroxide.

Alternatively, even in the case of natural active corrosive substances, such as in the Kago Wetlands of Nagasaki, Japan, hydrogen peroxide (H ₂ O ₂ ) and ferrous sulfate (ORP) when the ORP value is less than +250 mV. FeSO ₄ ) is added to adjust the redox potential (ORP) to +350 to +400 mV to increase the activity.

Feed additives (active corrosive substances) as described above are fed to feed of livestock or fish such as cattle, pigs, chickens, ducks, etc. 0.006 ~ 0.1%.

Example 1

In the period of raising 30 kg to 110 kg of pigs, the number of days of breeding was obtained by feeding the above-mentioned active corrosive to the blended feed and feed without the active corrosive (additive-free), respectively, as shown in Table 1. The ratios of A and B grades are shown in Table 1.

Example 2

As shown in Table 2, the increase in milk production as a result of feeding the active corrosive to the feed and feeding the cows is shown in Table 2.

As in Example, the amount of active corrosive added was less than 0.0006%, and the effect was decreased even at 0.1% or more.

Odor generation was reduced in the livestock fed the active corrosive soil.

In the case of finishing pigs, ammonia (NH ₃ ) concentration was more than 12ppm in non-added pigs, but ammonia concentration was reduced to 2-3ppm in pigs fed 0.05% of active corrosive with feed additives.

As is apparent from the foregoing description, when the active corrosive material is mixed with the feed as a feed additive for livestock, the feed is improved because the growth rate, the quality of the meat, and the odor are reduced, thereby improving the livestock environment. It is expected to be widely used as an additive.

Claims (1)

100 parts of peat formed by depositing marine diatoms, plankton, and seaweeds with high Fulvic acid content in peat (peat) was added to acid and treated with pH of 2 or less. After induction into the state of _iv ), the solution is mixed with hydrogen peroxide (H ₂ O ₂ ) and ferrous sulfate (FeSO ₄ ) in an equivalent weight equivalent to a redox potential (ORP) in the range of +350 to +400 mV. Powder or coal ash obtained by pulverizing permeate or daphite volcanic ash or pumice of these minerals ), Which was converted to allophane vaginal mineral by high temperature (90 ~ 100 ℃) reaction in acidic aqueous solution, mixed with 50 ~ 55 parts on dry basis, and inverted once every 2 weeks for 3 ~ 4 months Chelated Fulvic Acid Complex Complex of Fulvic Acid Peroxide Method for preparing an additive.