KR20030039511A - Manure Manufacturing Process - Google Patents

Abstract

PURPOSE: Fertilizer functioning as a soil improver, containing yeast cultured in illite as a bioceramic,, is provided to activate the soil, increase yields, and promote the growth of plants. CONSTITUTION: The fertilizer is manufactured by the following steps of: preparing illite powder by sintering illite at 1005deg.C and grinding it to a size of 600 mesh; spreading yeast to powdered illite and culturing at 35deg.C for 48hrs; drying illite powder with a hot blow; mixing 75wt.% of illite powder, 25wt.% of the valance of vegetable elements, 2wt.% of Mg, and 3wt.% of KH2PO4. The fertilizer is used to the soil by mixing fertilizer with water in a ratio of 1 : 200-400.

Description

Fertilizer manufacturing method {Manure Manufacturing Process}

The present invention relates to a method of manufacturing fertilizers, in particular, microorganisms that help plant growth grow well in the soil and contain microorganisms in a form that can adapt to the environment, so that the soil improving agent and bioceramic used for the activation of crops To fertilizer contained.

Fertilizers used to help the growth of crops are divided into chemical fertilizers and natural fertilizers. Natural fertilizers mainly produce organic fertilizers using phosphorus or livestock compost. Conventionally, decomposed bacteria are treated with sulfuric acid or phosphoric acid in the form of salts. There was an example of a fertilizer, or a fermentation process using phenol to coagulate fertilizer components, and then mixed with seaweed and poultry to prepare fertilizer. The poultry was mixed with grain powder such as rice, wheat, and rice bran. Some fermented organic fertilizers have been prepared, and the mixture obtained by heating and dissolving a mixture of sodium sulfate and potassium phosphate in the attached phosphorus is stirred until it is acidic, and then a mixture of ferrous sulfate and activated clay is added and freeze-dried under an inert gas to serve Obtain the treated product and mix it with the processed powder under the same conditions as the above serving to remove the organic fertilizer. In some cases, the organic fertilizers described above are difficult and complicated in their preparation method and materials, consume a lot of time and manpower, and the organic fertilizers prepared in this way are not acidic or alkaline due to salt deposition in the soil. It was not perfect or failed to completely improve to neutral, and it was not possible to suppress the generation of harmful gas in the soil, and there was a case that harmful gas was generated due to misunderstanding.

The present invention has been made in order to solve the above problems is to cultivate yeast bacteria in the illite germanium ceramic which is a kind of bio-ceramic to use as a fertilizer to activate the soil using microorganisms.

Another object of the present invention is to promote the germination and rooting of plants by activating the water of the soil, and the ionized oxygen in the water produced by the catalytic function of the illite decreases the water crasta and increases the penetration pressure and solubility so that the active water in the soil Is to dissolve nutrients and to allow the roots to absorb the dissolved nutrients, thus promoting the growth of crops.

The present invention for achieving the above object is pulverized illite bioceramic calcined at 1005 ℃ to about 600 mesh and then sprinkled with yeast bacteria on the illite bioceramic powder and then incubated for 48 hours while maintaining it at 35 ℃ 75% bioceramic powder dried with hot air, 25% vegetable trace elements, 2% magnesium, and 3% monobasic phosphate were mixed and used as a mixer.

Hereinafter, an embodiment of the present invention will be described in detail.

The illite bioceramic is heated to 1005 ° C and calcined, and then powdered to have a particle size of about 600 mesh, and the yeast bioceramic powder that has undergone the above process is sprayed with yeast and maintained at about 35 ° C. A step of culturing the yeast for time, a step of hot-air drying the elite bio-ceramic which passed through the process, 75% of the dried elite ceramic powder, 20% vegetable trace element, 2% magnesium, 3% monophosphate It consists of a process of mixing using a blender at room temperature, and when used, it is diluted with water and used.

To explain this in more detail, illite bioceramic is a material that emits far-infrared rays and is plasticized at a high temperature of 1000 ° C. or higher, thus maintaining sterilization and not containing moisture. After cooling the illite bioceramic in such a state at room temperature, and spraying with water containing about 0.3% of the yeast, the yeast is grown on the surface of the illite bioceramic to proliferate.

At this time, in order to help the growth of the yeast, the temperature is maintained at about 35 ℃ 48 hours incubated in the state after the hot air drying it evaporates the moisture and the proliferated yeast bacteria do not grow any more and maintain the spores.

In this state, 75% of illite bio-ceramic and 25% of plant trace elements powdered from plants were mixed into 800 meshes, and 2% of magnesium and 3% of primary phosphate were mixed in a blender. When it is packaged, the manufacturing is completed, and when it is used, fertilizer: water is mixed with 1: 200 ~ 400 and sprinkled on the soil. Such fertilizer radiates far infrared rays to the soil, and yeast secretes beneficial organic matter to the crop, and then grows the crop. Yeast bacteria use the secretion from the roots of crops, amino acids emitted from photosynthetic bacteria, sugars or organic matter in the soil to make use of the fermentation power of yeast to change the material beneficial to crops. In addition, physiologically active substances produced by yeasts have the effect of proliferating other effective microorganisms (lactic acid bacteria, actinomycetes) by activating the division of roots and cells, and the illite bioceramic emits far infrared rays and thus far infrared rays emitted from the illite As it is projected onto living organisms, water molecules, cells, and fibers in the living body are activated by resonating phenomena with the projected far-infrared rays, thus promoting metabolism, promoting the growth of organisms, and improving shelf life. It serves to relieve trace element deficiency, increase yields, and change the structure of the soil. Magnesium and monophosphate serve to nourish crops, thereby promoting crop growth.

As described above, according to the present invention, by culturing yeast bacteria in illite germanium ceramic, which is a kind of bio-ceramic, and using it as a fertilizer, it is possible to activate soil by using microorganisms, and to germinate and root plants by activating soil water. This promotes and promotes the growth of crops by allowing ionized oxygen in the water generated by the catalytic function of the illite to reduce the water Krasta to increase the penetration pressure and solubility, so that the active water dissolves nutrients in the soil and absorbs the dissolved nutrients by the roots. It will be able to increase yields.

Claims (1)

The illite bioceramic is heated to 1005 ° C and calcined, and then powdered to have a particle size of about 600 mesh, and the yeast bioceramic powder that has undergone the above process is sprayed with yeast and maintained at about 35 ° C. A step of culturing the yeast for time, a step of hot-air drying the elite bio-ceramic which passed through the process, 75% of the dried elite ceramic powder, 20% vegetable trace element, 2% magnesium, 3% monophosphate Fertilizer manufacturing method characterized in that the process consisting of mixing using a blender at room temperature.