KR200405785Y1 - High Concentration Organic Waste Extinction System By Soil and Aerobic Soil Microorganism - Google Patents

Abstract

The present invention relates to a device that treats and destroys food waste by soil and aerobic soil microorganisms, and finely crushes food waste, mixes it with soil microorganisms, and then embeds food waste mixed in soil and injects air It is a device to be destroyed by microorganisms.

Soils, called soils, inhabit thousands of microorganisms (ten millions of microorganisms in 1 g), and these microorganisms are directly involved in chemically stabilized corrosive action, decomposing and destroying organic matter.

By doing so, food waste is easily extinguished and disposed of by soil and soil microorganisms, thereby eliminating side effects in the composting and feed process during which the food waste is installed and processed in large quantities.

In addition, since the facility is simple, the cost of the facility is low, and the soil can be obtained at an unlimited cheap price anywhere in Korea, and the operating cost is low, and the final product compost is useful.

Food waste, soil, aerobic soil microorganisms, granulation.

Description

High Concentration Organic Waste Extinction System By Soil and Aerobic Soil Microorganism, including food waste caused by soil and aerobic soil microorganisms

1 is a view of the device for extinction by soil and aerobic soil microorganisms after crushing a high concentration of organic waste, such as food waste in accordance with the method of the present invention

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

         1.-organic waste storage tank

         2.-Conveyor Conveyor

         3.-Shredding Device

         4.-Soil microorganism and organic waste mixing device

         4-1. -Mixed soil

         4-2. Buried Mixed Soil

         5-Mixture Feeder

         6.-soil extinction tank

         6-1. -Wall

         6-2. - soil

         7.-Sprinkler

         8.-Blowing

         8-1. - Non-woven

8-2. -Air injection pipe
9.-Soil Microbial Storage Tank
9-1. -Soil microbial transfer device

The present invention relates to a device for extinguishing high concentrations of organic waste such as food waste by soil and aerobic soil microorganisms. More specifically, in order to process high concentration of organic waste such as food waste in a large amount, organic waste of high concentration such as food waste is finely crushed, mixed with soil microorganisms, buried in the soil, and then kept in proper temperature and humidity and injecting air The present invention relates to a device for extinguishing high concentration organic waste by aerobic microorganisms.
Until now, the methods of treating large amounts of organic wastes such as food waste in large quantities have been made by controlling the moisture of high concentrations of organic waste such as food waste with sawdust, then fermenting them by composting and drying and feeding them. . However, in the case of composting, the device is complicated, sawdust is continuously used for moisture control, the fermentation period is long, it causes odors, and it becomes a target of complaints, and it is difficult to use compost properly due to salt, etc. Also, it takes a lot of energy for drying, and impurities such as metals can be mixed in high concentration organic waste such as food waste, and there is a possibility of causing mad cow disease due to mixing of animal bones.

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The present invention for achieving the above object is to take out high concentration organic waste such as collected food waste from the storage container, finely crushed and mixed with soil microorganisms and then buried in the soil in the quench tank, the bottom of the quench tank The present invention relates to a device for injecting high-density organic wastes such as food waste while injecting air, spraying water from the top of the quench tank to make an aerobic atmosphere in the soil, and controlling moisture.
The present invention aims to dissipate high concentrations of organic waste such as food waste without odor without using moisture control materials and separately using energy required for fermentation drying as in conventional treatment methods.

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The present invention for achieving the above object is to take out high concentration organic waste such as collected food waste from the storage container, finely crushed and mixed with soil microorganisms and then buried in the soil in the quench tank, the bottom of the quench tank The present invention relates to a device for injecting air directly from the top, spraying water from the top of the quench tank to make an aerobic atmosphere in the soil, and controlling the moisture to dissipate high concentrations of organic waste such as food waste.
In order to achieve the present invention, a storage container for storing a high concentration of organic waste, such as food waste, is formed, and a transporting device for transferring high concentration of organic waste, such as food waste, to a shredder is formed from the storage container, and has been transported. A crusher is formed to finely crush high-concentration organic waste such as food waste, a mixer is formed to mix the crushed organic waste and soil microorganisms, and a transportation means for transporting the mixed high-concentration organic waste to a buried soil place is provided. And a soil quenching tank for burying and mixing the mixed organic wastes and the high concentration of organic wastes therein, and an air injection pipe is installed directly above the bottom of the quenching tank. Burows are installed for injecting air into the The unit water supply device is provided for adjusting the moisture.
The organic wastes are disposed of through the following processes by the devices formed as described above.
Organic waste collection → Storage container storage → Withdrawal → Crushing → Mixing with soil microorganisms → Transfer to extinguishing tank → Buried in extinction tank → Inject air and water → Dissipate
The theoretical background of organic matter decomposition and extinction by soil microorganisms is as follows.

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Once in the mountains, fallen leaves can be piled up from plants or animals can be found. These can soon be found to decay, decay, and disappear without an increase in volume. These phenomena are due to the decay of organic leaves and dead bodies of animals, which are broken down by microorganisms in the soil and become food.

Food waste is about 75% water content, organic matter content is about 95% of the rest, and the remainder is a small amount of nitrogen compounds, salts, iron and other metals can be decomposed and destroyed by soil microorganisms.

Soil is an inorganic substance called soil, which is produced by the biological action of fine crushed materials and plant fluids, which are the weathering products of rocks. It is agglomerates of micro matters, and the water or air is trapped in solids. It is not easy to break in.

When organic matter is added to this inorganic substance, organic matter is added to the fluid, and soil microorganisms act as a single grain structure. Water or air flows freely into this structure, and organic matter such as food waste is released from the soil and soil microorganisms. Decomposes into inorganic substances by activity.

Soil is 2mm or less in diameter, 2 ~ 0.02mm in sand, 0.02 ~ 0.002mm in silt, and less than 0.002mm in clay. Production is controlled by moisture and temperature.

Various microorganisms inhabit the soil. These microorganisms are the general term for bacteria, actinomycetes, fungi, algae, and protozoa, and it is reported that tens of millions to hundreds of millions of microorganisms live in 1 g of soil.
Bacteria are divided into organic nutrients that obtain energy and carbon source from organic materials and inorganic nutrients that obtain energy from oxidation or light of inorganic matter and carbon sources from carbon dioxide.

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Microorganisms in soil are classified into anaerobic microorganisms that live in the absence of oxygen, aerobic microorganisms that stop their activity without oxygen, and communicable microorganisms that live with or without some oxygen. This communicable microorganism is dominant.

Aerobic microorganisms are oxygen-breathing bacteria, and their aerobic degradation is carbohydrate protein organics, which ultimately promote low molecular gasification.

Anaerobic microorganisms are inorganic breathing bacteria, which are called anaerobic decomposition, and decompose organic substances by using oxygen in the molecule in the surrounding nutrients, but decompose the substrate by the action of various enzymes, Get That is, decay and fermentation are performed. Compared to aerobic decomposition, the amount of energy generated is 1/25 or less.

Microorganisms decompose organic materials to synthesize cells and finally become inorganic substances such as carbon dioxide gas. Products in this process are used by many organisms and are fixed in the form of bioorganisms.

 When the plant dies on the ground, microorganisms floating in the air or on the surface immediately attach to the fluid, start proliferation, and start decomposition. At the same time as proliferation begins, microorganisms secrete enzymes out of the cells to break down organic matter. Proteins, the main components of animals, are broken down by proteases, proteases, to become amino acids. Fats are broken down by lipases into fatty acids and glycerin. In addition, cellulose, which is a kind of carbohydrate whose main component is a plant, is decomposed by selase to become glucose.

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The amino acids, fatty acids, glycerin, and glucose produced in this way are immediately inhaled into microorganisms and used in each metabolic system. Finally, carbon, which forms the backbone of organic matter, is converted into carbon dioxide and released into nature. do.

The carbon dioxide thus released is consumed by the photosynthesis of the plant, causing the plant to grow and releasing oxygen at the same time, contributing to the material cycle by releasing oxygen into the atmosphere.

In addition, amino acids derived from nitrogen compounds are released from the microbial cells of a part of the ammonia produced by the decomposition fermentation, most of the ammonia is reduced as it is in the soil as a nitrous acid and amino acid compound, a large source of nitrogen for higher organisms It will play a role. This is why soils that inhabit large quantities of soil microorganisms are particularly called fertile soils.

Oxygen, moisture, and proper temperature are necessary to promote the growth of aerobic microorganisms. Oxygen is supplied by injecting air, and in the absence of moisture, microorganisms stop growing and die. Therefore, the supply of an appropriate amount of water is essential.

Microorganisms are affected by temperature, and if they do not reach the proper temperature in the habitat, proliferation may stop or die. However, the variety of microorganisms, such as microorganisms inhabiting even in low temperature below zero, boiling water, but the variety of microorganisms inhabit at room temperature is the most many can complete the habitat environment of microorganisms by the temperature control of room temperature.

Soil is decomposed and destroyed by microorganisms during the process of decomposing and extinguishing organic matter, but some of them are corroded and stored as nutrients, and they promote granulation and improve the physical condition of the soil.

Soil microorganisms are also involved in nitrogen morphology, affecting soil fertility and fertilizer effects.

In addition, in order to extinguish organic matter by microorganisms, it takes a proper time for microorganisms to decompose and feed organic matter. Therefore, if the organic matter is initially crushed finely to feed the microorganisms can be greatly reduced the time required to disappear.

In other words, the use of aerobic microorganisms in the soil is the same as the principle of injecting air to purify sewage contaminated by organic matter.

Based on the above theory, the present invention was devised as an apparatus for extinguishing high concentrations of organic waste such as food waste by soil and aerobic soil microorganisms.
Hereinafter, the organic waste extinction treatment apparatus of high concentration such as food waste due to the soil and aerobic soil microorganism according to the present invention will be described in detail with reference to the accompanying drawings.
1 is a view showing a device for marking and displaying a device for treating organic waste of high concentration such as food waste in order according to the treatment method according to the present invention.
When the high concentration of organic waste such as food waste is collected and stored in the storage tank 1, the high concentration of organic waste such as a predetermined amount of food waste is transferred to the shredder 3 by the transfer device 2 and finely crushed. Highly concentrated organic waste such as finely divided food waste can be easily decomposed by microorganisms to promote extinction.
Organic wastes of high concentration such as finely crushed food waste are introduced into the mixing device 4 together with the soil microorganisms and mixed with the soil microorganisms. In this process, moisture of high concentration organic waste such as food waste is controlled, and it is characterized by decomposition by microorganisms.
The soil microorganisms are introduced from the soil microorganism storage tank 9 by the soil microbial input device 9-1, and the crushed organic waste is introduced into the mixing device from the crusher 3.
The mixed soil is transferred to the soil of the soil dissipation tank 6 by the transfer device 5 to be buried.
The outer wall of the soil dissipation tank 6 is a water barrier wall 6-1, and has a characteristic of blocking excess water from organic waste of high concentration such as food waste and water generated from the outside.
Buried mixed soil is decomposed by soil microorganisms and organic matter is decomposed by soil microorganisms.
An air inlet tube 8-2 is installed directly above the bottom of the soil dissipation tank, and a nonwoven fabric 8-1 for protecting the air inlet tube is installed, and air is supplied by a blower.

A watering device 7 is installed at the top of the soil extinction tank to supply moisture to the soil. Moisture in the soil is reduced by the metabolism of buried organics and microorganisms, and it can also be increased to the ground along with the gases generated in the process. Do.

Through the above process, organic matter is extinguished, organic waste of high concentration such as food waste is extinguished, and there is a characteristic that no odor is induced due to being buried in the soil and extinguished.

Soil is decomposed and destroyed by microorganisms during the process of decomposing and extinguishing organic matter, but some of them are corroded and stored as nutrients, and they promote granulation and improve the physical condition of the soil. In addition, soil microorganisms are also involved in the change in nitrogen morphology, affecting the fertility and fertilizer effects of soil. Therefore, the present invention can be applied to high concentrations of organic waste such as food waste to soil and soil microorganisms without generating odor.

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The soil that is extinguished by this soil is an isolated soil in which nutrients and nitrogen are mixed and can be used as a soil improver.

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Hereinafter, the effect of the apparatus for extinguishing high-concentration organic waste such as food waste due to the soil and aerobic soil microorganisms according to the present invention, by disposing of high-concentration organic waste such as food waste easily by the soil and aerobic soil microorganisms, In the meantime, it has the effect of eliminating side effects in the composting and feed process, which is being installed and operated to treat high concentration of organic waste such as food waste in large quantities.
In addition, since the facility is simple, the facility cost is low, and the soil can be obtained at an unlimited cheap price anywhere in Korea, and the operation cost is low, and the final product compost is useful.

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Claims (2)

In order to extinguish high concentration of organic waste such as food waste by soil and aerobic soil microorganisms, organic waste storage tank is formed, a transport device for transporting organic waste is installed, and a crusher for crushing the organic waste finely is formed. The present invention provides a soil microorganism storage tank and a soil microorganism input device in which soil microorganisms are stored, and a mixer for mixing organic waste and soil microorganisms crushed in the crusher is provided. A transport means for transporting to the extinguishing tank is provided, wherein the soil extinguishing tank is formed with a water film on all sides and the bottom, and the soil and soil microorganisms are provided in the soil extinguishing tank, and the mixed soil is buried in the soil. Thereafter, the air inlet pipe is installed at the bottom of the bath to allow air under the buried mixed soil. A high concentration of organic waste extinction processing equipment, such as food waste caused by metabolism of soil and aerobic soil microorganisms, characterized by injecting the tank into an aerobic atmosphere. The method of claim 1 A high concentration of organic waste extinction processing equipment, such as food waste by metabolism of the soil and aerobic soil microorganisms, characterized in that the watering device is installed to control the moisture in the soil extinction tank.

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