KR100387917B1 - Orgainc defeasance matter disintegration disposal apparatus and disintegration disposal method - Google Patents

Abstract

The present invention relates to an organic waste decomposition treatment apparatus and a decomposition treatment method, and to an organic waste decomposition treatment apparatus and decomposition treatment method for decomposing and treating household waste, organic industrial waste, and other organic waste in a short time.

The present invention has an organic waste inlet at the top and the bottom side is ventilated with a hollow branch blade to the hollow rotating shaft supporting the wall between both ends of the case in the sealed case according to the rotational track of the stirring blade. Organic waste disintegration apparatus by putting hollow filler together with organic waste in the intake and exhaust duct and deodorization device to install the self-container along the temperature control faucet and inner wall. It is characterized by being able to decompose in a short time by the microorganisms in the air, ie, aerobic high temperature bacteria, by rotating and heating the filler and the organic waste to be mixed together.

Description

Organic waste decomposition treatment apparatus and disintegration treatment method {Orgainc defeasance matter disintegration disposal apparatus and disintegration disposal method}

The present invention relates to a household waste organic industrial waste, seafood waste, sewage sludge, manure sludge and other organic industrial waste decomposition treatment apparatus and a decomposition treatment method using the same.

Conventionally, methods of disintegrating organic waste such as household waste, organic industrial waste, seafood waste, sewage sludge, and the like have been used. However, incineration caused dioxins, while landfilling caused soil pollution.

Recently, a method for decomposing organic waste by microorganisms has been developed. However, it has been used to simply put a filler, such as sawdust, or to supply air from the bottom of the stirring device to the top.

The present inventors have found that simply stirring or supplying air, as in the conventional method, cannot completely decompose the organic waste. This caused a problem of moisture contained in organic waste. Among organic wastes, rice waste, seafood waste, filth and sludge are very high in moisture.

Since the hydrolysis is preceded to the extent that the air supplied from the bottom simply rises as in the related art, it takes a long time to control the proper moisture content of microbial decomposition. The method of adding sawdust, etc. can see some effects but not enough results.

In addition, when it is necessary to dispose of continuously in a restaurant or the like, the conventional method is difficult to use, because the solution speed is not slowed down or completely decomposed.

With this in mind, the present inventors developed an organic waste decomposition treatment apparatus and a decomposition treatment method so that household waste having a high moisture content can be decomposed in a short time at a low cost.

In particular, the main focus is on providing a device that can be used continuously and that the residues after the decomposition treatment are easy and easy to repair.

1 to 3 is a perspective view of a filler for the organic waste decomposition treatment apparatus of the present invention.

4A, 4B and 4C are cross-sectional views of the organic waste decomposition treatment apparatus of the present invention. FIG. 5 is a perspective view of the organic waste decomposition treatment apparatus. FIG. 6 is a cross-sectional view taken along the line A-A of FIG.

FIG. 7 is a cross-sectional view taken along the line BB of FIG. 6. FIG.

8A, 8B and 8C are flowcharts of the decomposition process of the present invention.

1: Closed case 2: Inlet port 3: Lower surface 4: Stirring blade 4a: Hollow branch wing 4b: Ventilation hole 5: Rotating shaft 6: Faucet 7: Inner wall 8: Supply duct 9: Exhaust Doc 10: Deodorizer 11: Compressor 12: Drain duct and suction port 13: Decomposition chamber 14: Controller 15: Filling material 16: Organic waste 17: Hollow part 18: Hole

In order to solve this problem, a hollow structure is devised to allow organic wastes to enter and exit while maintaining the strength to withstand wear during agitation as a material used for microbial decomposition of organic wastes while stirring in a container. .

The strength to withstand abrasion during agitation herein refers to the strength that the filler of the inventors wears out during organic waste and agitation. Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. 3 is a perspective view of a filler for an organic waste decomposition treatment apparatus according to the present invention. The filler has a cylindrical shape and a hollow portion 17 having an empty state in which an organic waste 16 is allowed to enter and exit. The thickness was 1 mm, the diameter was 10 mm, and the length was 10 mm. The material is made of polypropylene which is resistant to abrasion. As shown in FIG. 2, a small hole 18 is drilled in the cylindrical filler to facilitate microbial contact. 3 is an exemplary embodiment of the filler 15 for the organic waste decomposition treatment apparatus of the present invention and a FRP material. FIG. 4 is a cross-sectional view of the organic waste decomposition treatment apparatus of the present invention. About half of the filler 15 is filled in the organic waste decomposition treatment apparatus, and the organic waste 16 is introduced and stirred together with the filler 15. When the mixture is stirred while heating to 45 to 60 ° C. for about 1 hour, decomposition of the organic waste 16 is started by the microorganisms entering and leaving the inner hollow part 17 of the filler 15. After about 15 hours, the filler 15 remains at the bottom of the sealed case 1 and the organic waste at the top remains atomized and decomposed. This state is shortened by about 10 hours as compared with stirring without the hollow portion 17 inside the filler 15. FIG. 5 is a perspective view of an organic waste decomposition treatment apparatus, and FIG. 6 is a cross-sectional view taken along line A-A of FIG. FIG. 7 is a cross-sectional view taken along line B-B of FIG. 6. The organic waste inlet 2 is formed on the upper part of the sealed case 1 composed of double walls, and the lower surface 3 is structured according to the rotation radius of the stirring blade 4. It is. In the sealed case 1, the stator blade 4 was fixedly installed. The stirring blade 4 was radially mounted on the hollow shaft 5 with a plurality of hollow branch wings 4a, and a vent hole 4b was installed therein. ) Can be used for moisture control and cleaning. The air supply duct 8 is installed in the inner wall 7 so that air flows, and air is supplied into the decomposition chamber 13 from the discharge port provided therein along the inner wall of the sealed case 1. The exhaust duct 9 and the deodorizer 10 are installed on the upper part of the sealed case 1 to discharge odors. At the lower end of the sealed case 1, a drain duct and suction port 12 for removing the washing water and the residues is installed. Air is supplied from the external compressor 11 to the rotary shaft 5, and reference numeral 14 denotes a controller of the organic waste decomposition treatment apparatus. FIG. 8 is a flowchart of the decomposition treatment process of the present invention. 0.5 m3 of filler 15 is introduced into the interior of the decomposition chamber 13 having a volume of 1.7 m3, and 0.5 m3 of organic waste is introduced. While pressing the start button to rotate the stirring blade 4, the air supply duct 8 supplies 60 ° C. of air from the vent hole 4b of the hollow branch blade 4a about 10 m 3 per minute. If stirring is continued for 5 hours in this state, the contents become sticky by high temperature decomposition.

After stirring for about 16 hours, only about 5% of the organic waste (16) introduced by the complete decomposition is left as a residue, which becomes a odorless particulate form. In this state, the drain duct and the suction port 12 may be drained and the residues of the filler 15 and the organic waste 16 may be separated. In the present invention, the filler 15 may be made of polypropylene, polycarbonate, or FRP. In addition to the plastics, metals can be used, and molded earthenware products can be used except that the wear strength is weaker than that of plastics or metals.

Filler 15 is mixed with the organic waste 16 is generally 1: 1 to 1: 1.3 in the dry state shows the most suitable ratio.

The state of the filler 15 is preferably a hollow pipe structure. The cutting surface of pipe can be processed in various ways such as round and triangle. The length of the pipe depends on the condition of the organic waste to be treated. The diameter is about 8 to 30 mm in length and about 8 to 30 mm in length. The most effective is 10 to 15 mm in diameter and 10 to 15 mm in length.

In order to facilitate the decomposition of the organic waste 16, the use of the hollow pipe structure filler 15 to facilitate the contact of microorganisms in the air is insufficient to reduce the decomposition treatment time. Accordingly, the present inventors use the hollow filler 15 made of plastics resistant to abrasion so as to enable continuous use in the decomposition treatment of organic waste.

The organic waste decomposition treatment apparatus has an organic waste inlet (2) in the upper part and a hollow rotating shaft supporting the wall between both ends of the case in the sealed case (1) whose bottom face is in accordance with the rotational track of the stirring blade (4). Intake and exhaust ducts (8) (9) to enable air communication with the hollow branch blades (4) of (5) and to allow air to flow along the inner wall (7) and the temperature control faucet (6) on the case (1). To make an organic waste treatment apparatus equipped with a deodorizing device 10, and put the hollow filler (15) with the organic waste 16 in the apparatus to be stirred with the organic waste.

Suitable temperature for decomposition treatment by contact with microorganisms in the air is 45 ℃ to 75 ℃, the optimum temperature is 55 ℃ to 70 ℃.

It can be seen that far-infrared rays are radiated from the filler 15 in such a high temperature state, and the activity of microorganisms in the air is vigorous. It is preferable to maintain 40 to 60% of moisture, and within this range, the organic waste 16 is completely decomposed within 24 hours. This reduces the residue to 1-2%. If the filler 15 is washed with water in this manner, continuous use is possible.

By rotating and heating the organic waste decomposition apparatus filler and organic waste together, it can be decomposed by aerobic high temperature bacteria in a short time.

Claims (4)

There is an organic waste inlet (2) at the top and the bottom is provided with a closed case (1) along the trajectory of the stirring blade (4), A hollow rotating shaft 5 is provided between the wall surfaces of both ends of the sealed case 1 so as to be ventilated, and the hollow shaft 5 is formed with a plurality of hollow stirring blades 4 and hollow branch wings 4a. , Decomposition and treatment of organic waste, characterized in that the air supply and exhaust duct (8) (9), the deodorizing device 10 is installed so that air flows along the inner wall (7) of the temperature control faucet (6) and the sealed case (1). Device. The organic waste 16 and the filler 15 are placed in the sealed case 1 of the organic waste treating apparatus of claim 1, and the rotary shaft 5 is rotated to stir the organic waste 16 and the filler 15 and simultaneously Hot air is supplied to the branch blades (4a) and the air supply duct (8) to decompose the organic wastes by the aerobic hot bacteria in the air through the temperature control decomposition process of organic wastes. The method of claim 2, In the case of organic waste decomposition treatment, the organic waste decomposition treatment method characterized in that the treatment temperature by aerobic high temperature bacteria is 50 ℃ ~ 70 ℃. delete