KR20160115349A - Fermentation apparatus for drying waste environmentally friendly - Google Patents

Abstract

The present invention relates to an eco-friendly waste fermentation and drying apparatus which ferments organic waste containing water, such as cattle manure, seafood residue, sewage sludge, food waste, and carcass of livestock with low costs, to make resources (compost, feed, etc.), and reduces occurrence of stink in the course thereof. The eco-friendly waste fermentation and drying apparatus according to the present invention comprises: a mount base; a stirring drum which is installed on the mount base to rotate, receives power from a driving motor to rotate, is provided with a hollow shaft rod at one end, is provided with an outlet at the other end, and is provided with an openable and closable inlet on the outer circumferential surface of one side; stirring blades which are disposed at predetermined intervals on the inner wall of the stirring drum, lift waste introduced at the time of rotating of the stirring drum, drop the waste, and have one end curved to be inclined upwards and the other end curved to be inclined downwards to gradually move the waste to the outlet side; and an air blower in which a discharge pipe is inserted to the shaft rod to blow hot wind heated by a heater, into the stirring drum. According to the technical configuration, the temperature in the stirring drum is kept constant, and the organic waste is moved at a low speed in accordance with the rotation of the stirring drum, to ferment and use organic waste containing water, such as cattle manure, seafood residue, sewage sludge, food waste, and carcass of livestock to make resources (compost, feed, etc.). In addition, the outlet is closed, waste is discharged without a separate operation, and it is possible to reduce occurrence of stink. A drying process and a fermentation process are appropriately performed in accordance with characteristics of waste, thereby saving energy and improving fermentation efficiency of waste.

Description

FIELD OF THE INVENTION The present invention relates to a fermentation apparatus for drying waste,

More particularly, the present invention relates to an eco-friendly waste fermentation drying apparatus, and more particularly, to an eco-friendly waste fermentation drying apparatus, which is capable of maintaining a constant temperature inside an agitating drum and transferring organic waste at a low speed according to rotation of a stirring drum, The present invention relates to an eco-friendly waste fermentation drying apparatus capable of fermenting organic wastes containing water such as waste, livestock, and livestock at low cost, thereby making resources (compost, feed, etc.) and inhibiting the generation of odors in the process.

In recent years, the amount of organic waste generated in Korea is increasing due to the increase of national income, urbanization, and industrialization.

Organic wastes are wastes with an organic content of 40% or more derived from plants and animals. Currently, a significant amount of wastes are treated by landfilling, incineration, and marine dumping. Regulation for prevention of environmental pollution will be strengthened in the future by treatment with marine dumping, landfill and incineration. It is expected to follow.

Composting is one of organic wastes disposal methods using aerobic organic matter decomposition of microorganisms. It can significantly reduce problems such as odor, ground water pollution caused by leachate, animal and human pathogen propagation that occur when landfill waste is directly buried, During the process, organic carbon is lost to carbon dioxide by microbial respiration, thus reducing the overall amount of waste.

In addition, since there is no air pollution problem that occurs during incineration, composting is thought to be the most environmentally friendly treatment technology, and research on this technology is progressing steadily, and various composting technologies are now being introduced.

Open Publication No. 1997-0027022 (published on June 24, 1997) discloses a method for reducing the fermentation time and drying time for composting of animal waste and agricultural waste generated in various farms, A heat-conserving rotary compost dry-fermenting device which can contribute.

According to this publication, a conventional dry fermentation apparatus is provided with a hot air circulation path for generating hot air at one side and drying the supplied compost. The rotary type compost drying and fermentation apparatus includes a frame, A supply portion into which a gas is introduced; A mixing unit having a screw installed therein for crushing and mixing the compost conveyed through the supply unit; An inlet-side receiving cylinder coupled with the outlet duct integrally formed with the mixing unit and having a receiving space therein; A discharge-side quadrilateral cylinder provided on the other side of the inlet-side accommodating cylinder and having an exhaust communication port through which exhaust gas generated when the compost is dried, and a discharge port through which the dried compost is discharged; A drying furnace which is attached to the inlet-side receiving cylinder and the discharging-side square cylinder and in which the compost supplied from the mixing unit is dried; A driving motor installed at the center of the frame for rotating the drying furnace; A guide part for supporting rotation of the drying furnace; And a support roller that rotates along the guide portion as the drying furnace rotates on both sides of the frame.

According to the above-described technical construction, the conventional dry fermentation apparatus is provided with a supply part for entering compost, an exhaust communication for discharging exhaust gas generated when the compost is dried, and an outlet for discharging the dried compost, Heat loss is generated, and it is difficult to keep the inside of the drying furnace at a predetermined temperature, so that there is a problem that the composting efficiency is lowered.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for controlling organic wastes such as manure, seafood waste, sewage sludge, The present invention provides an eco-friendly waste fermentation drying apparatus capable of fermenting organic wastes containing moisture such as carcasses of livestock at a low cost to make resources (compost, feed, etc.) and inhibiting the generation of offensive odors in the process.

In order to achieve the above object, according to the present invention, there is provided a motorcycle having a mounting base, a mounting base rotatably mounted on the mounting base, rotatably receiving power from the driving motor and having a hollow shaft rod at one end, An agitating drum provided at a predetermined interval on the inner wall of the agitating drum to draw waste upward during rotation of the agitating drum so as to be dropped, and one end of the waste is bent upwardly so as to gradually move to the discharge port side And a blower for blowing the hot air heated by the heater into the stirring drum.

The stirring drum is rotatably mounted on a mounting table via a support roller for supporting a lower portion and a bearing for holding a shaft rod, and a gear wheel integrally rotating with the stirring drum is attached to the mounting table from a driving motor And receives the power through the power transmitting member and rotates.

The stirring drum is equipped with a spiral blade so as to push out the waste fermented by the outlet formed at the rear of the stirring drum and narrower than the stirring drum inner diameter.

Wherein the discharge pipe is provided with a branch pipe in a radial direction at an end thereof and a jet port is formed in one direction in the branch pipe so as to form a rotating airflow inside the stirring drum.

The stirring drum is characterized in that a heat ray is arranged on the outer circumferential surface and a heat insulating material is coated thereon.

The stirring drum is provided with a first door and a second door adjacent to each other for opening and closing the inlet so as to enlarge the size of the inlet, and a door frame between the first door and the second door is detachably installed on the stirring drum .

The stirring drum is equipped with a cover material of rubber material so that the outlet of the stirring drum is fixed to the outlet and the outlet of the stirring drum is closed to allow the fermented waste to be pushed out.

And a controller for automatically controlling the drying and fermentation processes of the waste by controlling the driving motor, the blower and the heater on / off according to the set operating conditions.

According to the present invention, organic wastes are transported at a low speed in accordance with the rotation of the stirring drum while maintaining the temperature inside the stirring drum at a constant level. Thus, organic wastes, The waste can be fermented at a low cost and converted into resources (compost, feed, etc.).

Further, according to the present invention, the discharge port is sealed, but the waste can be discharged without any operation, thereby reducing the occurrence of odor.

According to the present invention, the drying process and the fermentation process are suitably performed according to the characteristics of the waste, thereby reducing the energy and increasing the fermentation efficiency of the waste.

1 is a perspective view of an eco-friendly waste fermentation drying apparatus according to the present invention,
2 and 3 are sectional views showing the internal structure of an eco-friendly waste fermentation drying apparatus according to the present invention,
4 is a detailed view of a stirring blade of the eco-friendly waste fermentation drying apparatus according to the present invention,
FIG. 5 is a detailed view of the inlet of the environmentally-friendly waste fermentation drying apparatus according to the present invention,
FIG. 6 is a detailed view of an outlet of an eco-friendly waste fermentation drying apparatus according to the present invention,
7 is a control block diagram of an eco-friendly waste fermentation drying apparatus according to the present invention.

Hereinafter, preferred embodiments of the eco-friendly waste fermentation drying apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

First, the present invention lowers the cost of organic wastes containing water such as manure, cattle sludge, sewage sludge, food waste and livestock carcass at low cost to make resources (compost, feed, etc.) The present invention relates to an eco-friendly waste fermentation drying device capable of being treated, and the object to be treated is not limited to the examples listed above.

1 to 4, an embodiment according to the present invention includes a mounting bracket 10, a rotatable mounting bracket 10 mounted on the mounting bracket 10 and rotatably receiving power from the driving motor 20, An agitating drum 30 provided with a shaft rod 31 and a discharge port 32 formed at the other end thereof and having an inlet 40 capable of being opened and closed on an outer circumferential surface of one side thereof; A stirring blade 35 having one end bent upwardly inclined and the other end bent downwardly so as to allow the wastes to be lifted up and dropped upward in the rotation direction of the centrifugal separator 30 to move gradually toward the discharge port 32, A blower 70 for blowing hot air heated by the heater 60 into the stirring drum 30 is provided.

In the above technical arrangement, the mounting table 10 is a structure for rotatably mounting the stirring drum 30 and supporting it from the ground.

The stirring drum 30 may have an elongated cylindrical shape. For example, when the outer diameter of the stirring drum 30 is 1,300 mm, the length may be 6,000 mm.

Also, the stirring drum 30 is provided with a hollow shaft rod 31 at one end thereof and communicated with the outside, and a discharge port 32 is provided at the other end thereof to communicate with the outside.

The stirring drum 30 has a sealing structure by a door that can open and close the inlet 40 to prevent water leakage during rotation. The door will be described later.

The discharge pipe 50 is drawn into the stirring drum 30 through the shaft rod 31 and is filled with a heater 60 to blow hot air into the stirring drum 30.

The discharge tube 50 is installed so as not to interfere with the shaft rod 31 integrally rotating with the stirring drum 30 and is disposed inside the stirring drum 30 in a gap between the shaft rod 31 and the discharge tube 50. [ The outer diameter of which is selected so as to minimize the leakage of gas of the gas.

Of course, the discharge pipe 50 may be fixedly mounted on the rotating shaft 31 via a bearing.

The blower 70 blows the gas heated by the heater 60 into the stirring drum 30 through the shaft rod 31 by blowing the air through the discharge tube 50.

The heater 60 is satisfactorily realized by the heat transferring rods charged in the discharge tube 50.

When the power is applied to the driving motor 20 in a state in which the waste material is put into the stirring drum 30 through the charging port 40 and the charging port 40 is closed, So that the waste is stirred.

At this time, when electricity is supplied to the heater 60 and the blower 70, hot air is supplied into the stirring drum 30 through the discharge pipe drawn into the hollow shaft rod 31.

The internal temperature of the stirring drum 30 is adjusted to 50 to 60 ° C in order to increase the fermentation efficiency. To this end, the heater 60 and the blower 70 operate intermittently.

The stirring drum 30 is provided therein with a stirring blade 35 at predetermined intervals so that the waste can be stirred during rotation. The stirring blade 35 is bent at one end upwardly inclined and at the other end downwardly inclined.

Specifically, the stirring blade 35 is installed in a plate shape in such a manner that one side end 36 is bent upward and the other side end 37 is bent downwardly and inclined so as to protrude from the inner wall of the stirring drum 30.

Therefore, when waste toner is burned up by the stirring blade 35 when the stirring drum 30 rotates and the stirring blade 35 is inclined toward the rotation axis as the stirring drum 30 further rotates, .

At this time, the other side end 37 of the stirring blade 35 is bent downward, so that part of the waste flows along the inclined surface and gradually moves to the discharge port 32 side.

In the present invention, the waste is stirred by the stirring blade 35 and gradually moved to the discharge port 32. At a low speed rotation of the stirring drum 30, the waste is subjected to drying and fermentation processes for 10 to 20 hours or more, do.

Therefore, the waste is fermented under a certain temperature condition and is transported to the rear of the agitating drum 30 and discharged to the outside through the discharge port 32.

The waste introduced through the inlet port 40 is conveyed by the rotation of the stirring drum 30 so that the rotational speed of the stirring drum 30 is set so that sufficient fermentation is achieved when the waste reaches the rear of the stirring drum 30. That is, the lower the rotation speed of the stirring drum 30, the longer the time for the waste to remain in the stirring drum 30, so that a sufficient fermentation time can be obtained.

The stirring drum 30 is rotatably installed on the mounting table 10 via a bearing 100 for holding a support roller 90 and a shaft rod 31 supporting the lower portion of the stirring drum 30, The gear wheel 110 rotates integrally and receives power from the driving motor 20 attached to the mounting table 10 through the power transmitting member 111 and rotates.

According to the above technical arrangement, the stirring drum 30 is supported by the bearing 100 via a shaft rod 31 integrally formed with the stirring drum 30, and the lower part is supported by the supporting roller 90, (10).

The stirring drum 30 is rotatably supported by a driving motor 30 attached to the mounting table 10 through a power transmitting member 111, such as a belt, a chain, (20). Of course, the rotational speed of the stirring drum 30 may vary depending on the rotational speed of the drive motor 20 or the configuration of the power transmitting member 111. [

Next, the stirring drum 30 is provided with a spiral blade 120 for pushing out the waste fermented by the discharge port 32, which is narrower than the inner diameter of the stirring drum 30, at the rear.

In the above technical arrangement, the waste moves upward in the direction of the stirring blade 33 as the stirring drum 30 rotates, and then agitated by pouring down as the stirring blade 33 further rotates.

At this time, since the stirring blade 33 is inclined at a predetermined angle toward the discharge port 32, when the waste is poured in the stirring blade 33, the stirring blade 33 is directed toward the discharge port 32. As the stirring drum 30 continues to rotate, And gradually moves to the discharge port 32 side in the course of the stirring.

In addition, in the process of moving backward of the stirring drum 30, the fermented waste is pushed up by the spiral blade 120 and discharged through the discharge port 32.

A branch tube 51 is radially provided at the tip of the discharge tube 50 drawn into the stirring drum 30 through the shaft rod 31 and a rotating airflow is formed inside the stirring drum 30 The outlet port is perforated in one direction in the branch pipe (51).

In detail, a plurality of branch pipes 51 are radially provided at the tip of the discharge pipe 50 drawn into the stirring drum 30 so as to diffuse hot air evenly in the stirring drum 30, The jet port is punched in one direction so as to face the inner wall surface of the stirring drum 30 without interfering with the branch pipe adjacent to the jetting port of the hot air.

Therefore, the hot air blown out from the branch pipe 51 radially disposed and punctured in the one-way direction forms a rotating air stream to increase the hot air retention time in the stirring drum 30 to increase the heat exchange rate with the waste, 30), the stirring efficiency can be improved by dropping the waste adhering to the inner wall.

Next, the stirring drum 30 is arranged on the outer circumferential surface with a heat ray 130, and the heat insulating material 140 is coated thereon.

That is, the heat ray 130 is spirally or zigzag on the outer circumferential surface of the stirring drum 30, and the heat insulating material 140, for example, urethane is placed on the outer circumferential surface of the stirring drum 30, or a steel plate is covered on the urethane, And supplies electric power to the hot wire 130 through the slip ring.

With the above configuration, even when the outside temperature such as winter is low, the temperature inside the stirring drum 30 can be maintained at an appropriate temperature, and the fermentation efficiency can be increased.

Referring to FIG. 5, the stirring drum 30 includes a first door (not shown) for opening and closing the loading port 40 so as to extend the size of the loading port 40 And a door frame 42 between the first door 40a and the second door 40b is detachably attached to the stirring drum 30. The second door 40a and the second door 40b are disposed adjacent to each other.

The inlet 40 is provided with a first door 40a and a second door 40b which are openable and closable and are disposed adjacent to the inner peripheral surface of the doors 40a and 40b to improve the sealing performance of the doors 40a and 40b. The door frame 41 is formed.

The detachable door frame 42 located between the first door 40a and the second door 40b is mounted on the upper side of the stirring drum 30 so as to be engaged with the outer peripheral surface of the stirring drum 30, (43) is formed.

Therefore, the size of the loading port 40 can be expanded by removing the detachable door frame 42 from the stirring drum 30 while the first door 40a and the second door 40b are opened.

Referring to FIG. 6, the stirring drum 30 is installed in the discharge port 32 and is attached to the stationary barrel 85 to close the discharge port 32, but the fermented waste is pushed out and discharged A cover member 80 made of rubber is provided.

More specifically, a fastening nut 86 is mounted in the middle of the fastening bolt 85 and a fastening bolt 87 is provided in correspondence with the fastening nut 86 so that the cover 80 is fastened to the fastening holes 86 and 87 (Not shown).

Accordingly, the fermented waste is pushed up by the spiral blade 120 and reaches the discharge port 32. At this time, the cover material 80 is made of a rubber material having an elastic force so that only the portion of the fermentation waste pushed is opened, Thereby maintaining the sealed state.

Thus, the discharge port 32 is closed to reduce heat loss and odor generation, and the fermentation waste can be discharged through the discharge port 32 without any separate opening and closing operations.

Referring to FIG. 7, a controller (not shown in the drawing) refers to the above-described drawings. The controller controls the driving motor, the blower, and the heater on / (200).

That is, in order to ferment the waste, the internal temperature of the stirring drum 30 and the moisture content of the waste should be maintained at an appropriate value. Therefore, when the waste in the humid condition is put in, a drying process is performed to lower the water content of the waste to an appropriate value , And then the fermentation process is performed by maintaining the internal temperature of the stirring drum 30 at an appropriate temperature. Of course, when oxygen supply is required during the fermentation process, only the blower 70 may be operated to supply outside air.

Therefore, the user sets operating conditions (operation mode, rotation speed, temperature, etc.) for performing the necessary drying or fermentation process based on the type of waste, moisture content, and amount of waste.

Depending on the type of waste to be supplied to the stirring drum 30, sawdust or rice hull can be mixed and fermented, and microorganisms may be added to promote fermentation.

It is to be understood by those skilled in the art that the foregoing description is not intended to limit the present invention to the understanding of the present invention and that various modifications may be made without departing from the scope of the present invention.

10: mounting base 20: drive motor
30: stirring drum 31: shaft rod
32: outlet 33: stirring blade
40: inlet 40a: first door
40b: second door 41: door frame
42: detachable door frame 43:
50: discharge pipe 51: branch pipe
60: heater
70: blower 80: cover member
90: Support roller 100: Bearing
110: gear wheel 111: power transmitting member
120: Spiral blade 130: Hot wire
140: Insulation material 200: Controller

Claims (8)

A mounting table,
An agitating drum rotatably installed on the mounting table and rotated by receiving power from a driving motor, a shaft rod at a side of the hollow shaft, a discharge port formed at the other end of the shaft,
And the waste is drawn upward to drop the wastes introduced during the rotation of the agitating drum. The waste is gradually bent upwards so as to be able to move toward the outlet, and the other end is bent downward A stirring blade,
And an air blower for blowing hot air heated by the heater into the stirring drum is provided to the discharge pipe. The method according to claim 1,
Wherein the stirring drum is rotatably installed on the mounting table via a support roller for supporting the lower portion and a bearing for holding the shaft rod, and a gear wheel integrally rotating on the stirring drum is attached to the mounting table Wherein the power is transmitted from the drive motor through the power transmitting member and rotated. The method according to claim 1,
Wherein the agitating drum is provided with a spiral blade behind the agitating drum so as to push out the waste fermented by the outlet formed to be narrower than the stirring drum inner diameter. The method according to claim 1,
Wherein the discharge pipe is provided with a branch pipe in a radial direction at an end thereof and an outlet port is formed in the branch pipe in one direction so as to form a rotating air flow inside the stirring drum. The method according to claim 1,
Wherein the stirring drum has a heat ray disposed on an outer circumferential surface thereof, and a heat insulating material is coated thereon. The method according to claim 1,
The stirring drum has a first door and a second door adjacent to each other for opening and closing the loading port so as to enlarge the size of the loading port and a door frame between the first door and the second door is disposed in the stirring drum Wherein the drying unit is installed so as to be detachable. The method according to claim 1,
Wherein the agitating drum is provided with a cover member made of rubber so as to be fixed to the discharge port and attached to the fixed piece to seal the discharge port so that the fermented waste can be discharged and discharged. The method according to claim 1,
Further comprising a controller for automatically controlling the drying and fermentation processes of the waste by controlling the driving motor, the blower and the heater on / off according to the set operating conditions.

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