KR102781331B1 - Organic Matter Treatment Apparatus - Google Patents

Abstract

The present invention relates to an organic matter treatment device capable of decomposing and eliminating organic matter such as wastewater sludge and livestock manure by aerobic microorganisms and discharging harmless gas.
The present invention relates to an organic matter treatment device for treating organic matter such as wastewater sludge and livestock waste, the device comprising: a chamber having an inlet for injecting organic matter and aerobic microorganisms and an exhaust outlet for exhausting gas that has risen; a stirring screw for stirring the organic matter fed into the interior of the chamber so that it is decomposed and destroyed by the aerobic microorganisms; a spray nozzle for spraying water onto the organic matter and aerobic microorganisms stirred by the stirring screw; an air nozzle for supplying air to the organic matter and aerobic microorganisms stirred by the stirring screw; and a discharge screw for airtightly discharging organic matter residues that have settled to the bottom of the chamber after being decomposed by water, air, and aerobic microorganisms.
Accordingly, the present invention has a very useful effect of increasing treatment efficiency without a reduction device by evenly mixing organic matter, aerobic microorganisms, and fermentation sawdust introduced into the chamber by the inner screw and the outer screw, and supplying an appropriate amount of air and water, thereby decomposing and extinguishing the organic matter, and causing harmless gas generated by the activity of aerobic microorganisms to rise upward and be exhausted through the exhaust port.

Description

Organic Matter Treatment Apparatus

The present invention relates to an organic matter treatment device, and more specifically, to an organic matter treatment device capable of decomposing and eliminating organic matter such as wastewater sludge and livestock manure by aerobic microorganisms and discharging harmless gas.

As is well known, the amount of livestock waste (hereinafter referred to as “livestock manure”) has been rapidly increasing in recent years due to the development of intensive livestock farming to improve productivity.

Livestock manure contains a lot of various organic compounds and fertilizer components such as nitrogen and potassium phosphate, and is used as fertilizer for crops and orchards. However, as the amount of waste discharged has increased rapidly, the proportion of waste that is not utilized and is discarded has increased, and it is becoming a source of environmental pollution.

For example, if livestock waste is not disposed of and left unattended, it can cause a bad smell and become a habitat for various pests such as flies and mosquitoes, which can be a sanitary problem. If it is discharged through rainwater, etc., it becomes livestock wastewater and pollutes water quality.

Due to these environmental concerns, several countries, including Europe, North America, and some Asian countries, have restrictions on intensive farming.

And since it is impossible to unconditionally limit the intensive farming of livestock due to factors such as economic growth, population growth, and limitations on the breeding area, attempts are being made to solve problems such as environmental pollution caused by increased livestock waste due to intensive farming.

Meanwhile, sewage generated in households and wastewater generated in industries such as factories and mines are purified to a certain level through sewage treatment facilities and then discharged.

And the Enforcement Decree of the Water Quality and Aquatic Ecosystem Conservation Act regulates the quality of effluent from treatment plants that treat urban wastewater (sewage), excrement, and factory wastewater.

Additionally, each treatment plant has a process to remove organic matter contained in the influent water and treat the effluent water quality to meet appropriate standards.

In addition, wastewater treatment is broadly divided into a method for removing large floating substances and suspended solids, a method for removing biodegradable dissolved organic matter using microorganisms, and a method for additionally removing residual organic matter and phosphorus.

(0001) Republic of Korea Patent No. 10-1455028 (Registration date October 20, 2014) (0002) Republic of Korea Patent No. 10-1553511 (Registration date: September 9, 2015) (0003) Republic of Korea Patent No. 10-0877621 (Registration date December 30, 2008) (0004) Republic of Korea Patent No. 10-0454260 (Registration date October 14, 2004)

The present invention has been made to solve the above-described problems of the related art, and an object of the present invention is to provide an organic matter treatment device capable of decomposing and eliminating organic matter such as wastewater sludge and livestock manure by aerobic microorganisms and discharging harmless gas.

In order to achieve the above object, the present invention is a technical idea of an organic matter treatment device for treating organic matter such as wastewater sludge and livestock waste, comprising: a chamber having an inlet for injecting organic matter and aerobic microorganisms and an exhaust outlet for exhausting gas that has risen; a stirring screw for stirring the organic matter introduced into the interior of the chamber so that it is decomposed and destroyed by the aerobic microorganisms; a spray nozzle for spraying water onto the organic matter and aerobic microorganisms stirred by the stirring screw; an air nozzle for supplying air to the organic matter and aerobic microorganisms stirred by the stirring screw; and a discharge screw for airtightly discharging organic matter residues that have settled to the bottom of the chamber after being decomposed by water, air, and aerobic microorganisms.

The above stirring screw may include a stirring shaft that is installed vertically and rotatably inside the chamber, an inner screw that is connected to the outer diameter of the stirring shaft and stirs organic matter and aerobic microorganisms collected at the center of the chamber, and an outer screw that is connected to the outer diameter of the stirring shaft and stirs organic matter and aerobic microorganisms collected at the outer periphery of the chamber.

The above outer screw may include a plurality of blades that are radially connected to the outer diameter of the stirring shaft to form multiple stages, and a sector screw that is formed to connect the multiple stages of blades in a spiral shape to stir organic matter and aerobic microorganisms collected on the inner periphery of the chamber.

One end of the above blade in the direction of rotation may be provided with a grinding blade to grind organic matter into small particles.

The above discharge screw may include a discharge pipe that is installed hermetically to communicate with a discharge hole formed in the bottom plate of the chamber, an auger screw that is rotatably connected to the discharge pipe to discharge organic waste settled on the bottom plate, and a screw motor connected to rotate the auger screw.

According to the present invention implemented with the above-described solution means, organic matter, aerobic microorganisms and fermentation sawdust introduced into the chamber are evenly stirred by the inner screw and the outer screw, and an appropriate amount of air and water are supplied, so that the organic matter is decomposed and destroyed, and the harmless gas generated by the activity of aerobic microorganisms rises upward and is exhausted through the exhaust port, thereby having a very useful effect of increasing the treatment efficiency without a reduction device.

Figure 1 is a perspective view according to an embodiment of the present invention.
Figure 2 is a front view according to an embodiment of the present invention.
Figure 3 is a cross-sectional view of a main part according to an embodiment of the present invention.
Figure 4 is a perspective view of a main part according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the attached drawings to fully understand the present invention.

The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. These embodiments are provided to more completely explain the present invention to those of ordinary skill in the art.

Accordingly, the shapes of components depicted in the drawings may be exaggerated to emphasize a clearer explanation, and it should be noted that in each drawing, the same parts may be depicted with the same reference numerals.

In addition, detailed descriptions of known functions and configurations that may unnecessarily obscure the gist of the present invention may be omitted.

An organic matter treatment device according to an embodiment of the present invention comprises a chamber (100) having an inlet (111) for injecting organic matter and aerobic microorganisms and an exhaust port (113) for exhausting the gas that has risen, a stirring screw (200) for stirring the organic matter introduced into the chamber (100) so that it is decomposed and destroyed by the aerobic microorganisms, a spray nozzle (300) for spraying water onto the organic matter and aerobic microorganisms stirred by the stirring screw (200), an air nozzle (400) for supplying air to the organic matter and aerobic microorganisms stirred by the stirring screw (200), and a discharge screw (500) for airtightly discharging organic matter residues that have settled to the bottom of the chamber (100) after being decomposed by water, air, and aerobic microorganisms.

The chamber (100) forms the center of the present invention.

Referring to FIGS. 1 and 2, the chamber (100) is formed in a hollow cylindrical shape and is supported on the floor by a base frame (101).

An inlet (111) is provided on one side of the upper plate (110) of the chamber (100) so that organic matter, aerobic microorganisms, sawdust for announcement, etc. can be infused.

The inlet (111) of the chamber (100) can be opened and closed by the door (112).

A staircase (102) is connected to one side of the chamber (100) so that a worker can go up and down the inlet (111).

A roof panel (103) may be provided on the upper part of the chamber (100).

The chamber (100) has a heater (not shown) to maintain the internal space at a temperature of approximately 40°C.

The above heater may be implemented as a silicone rubber heater installed on the inner surface of the chamber (100) to heat the internal space to a uniform temperature.

Referring to FIG. 3, the chamber (100) may have a double wall (130) structure having an inner wall (131) and an outer wall (132).

An exhaust port (113) is provided on the other side of the upper plate (110) of the chamber (100) so that high-temperature and high-pressure gas generated and increased during the process of decomposing organic matter can be exhausted to the atmosphere.

At this time, the gas generated within the chamber (100) is harmless and has no odor due to decomposition and disappearance of organic matter, so it can be discharged directly into the atmosphere without passing through a reduction device.

A discharge hole (121) is formed on one side of the bottom plate (120) of the chamber (100) to discharge organic waste.

The stirring screw (200) has the function of stirring organic matter and aerobic microorganisms to decompose and destroy them.

Referring to FIGS. 3 and 4, the stirring screw (200) includes a stirring shaft (210) that is installed vertically and rotatably inside the chamber (100), an inner screw (220) that is connected to the outer diameter of the stirring shaft (210) to stir organic matter and aerobic microorganisms gathered at the center of the chamber (100), and an outer screw (230) that is connected to the outer diameter of the stirring shaft (210) to stir organic matter and aerobic microorganisms gathered at the outer periphery of the chamber (100).

The upper end of the stirring shaft (210) is rotatably connected to the center of the upper plate (110) of the chamber (100), and the lower end is rotatably connected to the center of the bottom plate (120) of the chamber (100).

The stirring shaft (210) rotates by driving the stirring motor (240) installed in the base frame (101).

The inner screw (220) is formed in a spiral shape to contact the outer diameter of the stirring shaft (210) and stirs the organic matter and aerobic microorganisms collected in the inner center of the chamber (100).

The outer screw (230) includes a plurality of blades (232) that are radially connected to the outer diameter of the stirring shaft (210) to form multiple stages, and a sector screw (233) that is formed to connect the multiple blades (232) in a spiral shape to stir organic matter and aerobic microorganisms collected on the inner periphery of the chamber (100).

The blade (232) is supported on a bracket (231) radially connected to the outer diameter of the stirring shaft (210).

The blade (232) can be formed to be inclined at an angle of about 15° to improve stirring performance.

The blades (232) are connected in multiple stages at a predetermined interval along the axial direction of the stirring shaft (210).

One end of the blade (232) in the rotation direction may be provided with a grinding blade (232a) to grind organic matter into small particles.

The sector screw (233) is formed in an arc shape, with the upper end connected to the outer end of the upper blade (232) and the lower end connected to the center of the lower blade (232).

Through this, the sector screw (233) is spaced apart from the outer diameter of the stirring shaft (210) and is formed in an overall spiral shape.

The spray nozzle (300) has the function of spraying water into the interior of the chamber (100) to supply an appropriate amount of moisture to organic matter and aerobic microorganisms, and also has the function of preventing the generation and flying of dust during the stirring operation of the stirring screw (200).

Referring to FIGS. 1 and 4, spray nozzles (300) are installed at four points on the upper plate (110) of the chamber (100) and spray water from all directions.

The spray nozzle (300) is connected to a water tank (310) installed on one side of the chamber (100) through a water supply pipe (320).

The air nozzle (400) supplies air into the interior of the chamber (100) to promote the growth of aerobic microorganisms.

Referring to FIGS. 1 and 4, an air nozzle (400) is installed in the center of the upper plate (110) of the chamber (100) to supply air with organic matter and aerobic microorganisms.

The air nozzle (400) is connected to an air tank (410) installed on one side of the chamber (100) through an air supply pipe (420).

The discharge screw (500) functions to hermetically discharge organic waste that has settled to the bottom of the chamber (100).

Referring to FIGS. 1 and 4, the discharge screw (500) is installed on one side of the lower portion of the chamber (100).

Referring to FIG. 3, the discharge screw (500) includes a discharge pipe (510) that is hermetically installed in the bottom plate (120) so as to be connected to the discharge hole (121) of the chamber (100), an auger screw (520) that is rotatably connected to the discharge pipe (510) and discharges organic waste settled on the bottom plate (120), and a screw motor (530) that is connected to rotate the auger screw (520).

The discharge pipe (510) is hermetically installed in the floor plate (120) of the chamber (100).

In detail, the discharge pipe (510) and the auger screw (520) are sealed to treat not only solid organic residues that are decomposed by water, air, and aerobic microorganisms and settle on the bottom plate (120), but also liquid organic residues.

A discharge port (511) is connected to the lower part of the outer end of the discharge pipe (510) to discharge organic waste by the rotation of the auger screw (520).

A screw motor (530) is installed at the upper part of the outer end of the discharge pipe (510) to operate the auger screw (520) to discharge organic waste.

Therefore, according to an embodiment of the present invention, organic matter, aerobic microorganisms, and fermentation sawdust introduced into the chamber (100) are evenly stirred by the inner screw (220) and the outer screw (230), and an appropriate amount of air and water are supplied, so that the organic matter is decomposed and destroyed, and the harmless gas generated by the activity of aerobic microorganisms rises upward and is exhausted through the exhaust port (113), so that there is an advantage in that the treatment efficiency can be increased without a reduction device.

The embodiments of the present invention described above are merely exemplary, and those skilled in the art to which the present invention pertains will readily appreciate that various modifications and equivalent other embodiments are possible.

Therefore, it can be well understood that the present invention is not limited to the forms mentioned in the detailed description above.

Accordingly, the true technical protection scope of the present invention should be defined by the technical idea of the appended claims, and the present invention should be understood to include the technical idea defined by the appended claims and all modifications, equivalents, and substitutes within the scope thereof.

100 : Chamber 111 : Inlet
113 : Exhaust 120 : Floor plate
121: Discharge hole 200: Stirring screw
210: Stirring shaft 220: Inner screw
230: Outer screw 300: Spray nozzle
400 : Air nozzle 500 : Exhaust screw

Claims (5)

In an organic matter treatment device that treats organic matter such as sewage sludge and livestock manure,
A chamber having an inlet for introducing organic matter and aerobic microorganisms and an exhaust outlet for exhausting the ascending gas;
A stirring screw that stirs the organic matter introduced into the chamber so that it is decomposed and destroyed by aerobic microorganisms;
A spray nozzle that sprays water with organic matter and aerobic microorganisms stirred by the above-mentioned stirring screw;
An air nozzle that supplies air to the organic matter and aerobic microorganisms stirred by the above-mentioned stirring screw; and
A discharge screw for hermetically discharging organic waste that has settled to the bottom of the chamber after being decomposed by water, air, and aerobic microorganisms;
The above stirring screw includes a stirring shaft that is installed vertically and rotatably inside the chamber, an inner screw that is connected to the outer diameter of the stirring shaft and stirs organic matter and aerobic microorganisms gathered at the center of the chamber, and an outer screw that is connected to the outer diameter of the stirring shaft and stirs organic matter and aerobic microorganisms gathered at the outer periphery of the chamber.
The above outer screw comprises a plurality of blades formed in multiple stages and supported by a bracket radially connected to the outer diameter of the above stirring shaft, and a sector screw formed to connect the blades in multiple stages in a spiral shape to stir organic matter and aerobic microorganisms collected on the inner periphery of the chamber.
One end of the above blade in the direction of rotation is provided with a grinding blade to grind organic matter into small particles.
The above sector screw is formed in an arc shape, with the upper end connected to the outer end of the upper blade and the lower end connected to the center of the lower blade.
An organic matter treatment device, wherein the discharge screw comprises a discharge pipe that is hermetically installed to communicate with a discharge hole formed in the bottom plate of the chamber, an auger screw that is rotatably connected to the discharge pipe to discharge organic matter residue settled on the bottom plate, and a screw motor connected to rotate the auger screw. delete delete delete delete

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