KR200149993Y1 - A device for fermentation compost - Google Patents

Abstract

The present invention relates to an organic matter fermentation apparatus, comprising: a main cabinet having an inlet opening and closing by an opening and closing door and an outlet opening and closing by an opening and closing door; A fermentation tank installed inside the main cabinet and having a feed hole and a blowout hole and having a main heater installed at the bottom thereof; A stirrer rotatably installed inside the fermentation tank, comprising: a first air supply cylinder installed at the bottom of the input opening / closing door and communicating with a suction port, and having an air blowing hole drilled in the main wall; A combined air supply means provided with a second air supply passage extending downward in a range in which a lower end opening thereof does not interfere with the rotation trajectories of the two agitators, and a blower connected to the second air supply passage; In the lower part of the stirrer, it is provided at a position that does not interfere with the rotational trajectory of the stirrer, and is provided with a compressed air supply means for directly supplying compressed air to the organic matter introduced into the fermentation tank to uniformly supply air to the organic matter as a whole By supplying the air to be supplied in advance by heating and supplying the compressed air directly to the organic material to ensure a uniform supply of air and agitation of the organic material smoothly to increase the fermentation efficiency.

Description

Organic Fermentation System

The present invention relates to an organic matter fermentation apparatus for fermenting organic matter such as food waste and using it as feed or fertilizer or disposing treatment, and more particularly, to an organic fermentation apparatus for improving fermentation efficiency.

Recently, the amount of waste of organic matters such as food waste is increasing day by day, and these organic matters are becoming environmental and social problems.

In order to solve this problem, the present applicant has devised an organic fermentation apparatus such as Utility Model Publication No. 95-9455.

The above-mentioned utility model organic fermentation device is to install a fermentation tank made of a porous plate inside the main body cabinet to fill the fermentation promoter in the jacket formed around the fermentation tank, and to install a stirrer inside the fermentation tank, installed in the upper part of the main cabinet When the organic matter such as food waste is put through the inlet, and the stirrer is rotated, the fermented organic matter is stirred while the introduced organic matter is stirred, and the fermented organic matter is taken out through the outlet installed in the front of the main cabinet.

However, in such a device, the heater is installed only at the bottom of the fermentation tank and the outside air is supplied as it is. Therefore, since the injected organic material is heated only at the bottom part and the upper surface part is in contact with relatively cold outside air, the injected organic material is not uniformly heated. There was a problem of this deterioration.

In addition, since a pair of agitators are installed on both sides to rotate in opposite directions, agitation is not performed at the lower side of the center where the agitator blades do not touch, and organic matter is not effectively agitated.

In addition, since the air required for fermentation is simply dependent on the intake of external air accompanying the exhaust by the exhaust fan, the supply of air to organic matter is not smoothly performed, and the intake air is only in contact with the surface of the organic matter. There was a problem that the fermentation efficiency is further lowered because the supply of air cannot be achieved.

In addition, since the stirring of the organic material only depends on the stirrer, the stirring of the organic material is not made effectively, there is a problem that the fermentation efficiency is lowered.

An object of the present invention is to provide an organic fermentation apparatus that can increase the fermentation efficiency by uniformly supplying the air to the injected organic matter as a whole.

Another object of the present invention is to provide an organic fermentation apparatus that can increase the fermentation efficiency by heating the air supplied to the organic material in advance to increase the fermentation efficiency, as well as to save energy, such as the power required to obtain the heat required for fermentation. I will.

Still another object of the present invention is to provide an organic fermentation apparatus for directly supplying compressed air to organic materials to increase oxygen supply efficiency to organic materials and to smoothly stir organic materials to increase fermentation efficiency.

Figure 1 is a front suspension of the organic fermentation apparatus according to the present invention.

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a plan view of the organic fermentation apparatus according to the present invention.

Figure 4 is a cross-sectional view of the composite air supply means according to the present invention.

Figure 5 is a longitudinal side view of the compressed air supply means employed in the present invention.

Figure 6a is a longitudinal front view showing an initial state in which the organic matter is injected.

Figure 6b is a longitudinal front view showing a state after the fermentation of organic matter.

* Explanation of symbols for main parts of the drawings

10 body cabinet 20 fermenter

30, 40: stirrer 60: compound air supply means

61: first air supply cylinder 62: air intake

63: first air supply hole 64: second air supply container

65: blower 67: air heating heater

70: compressed air supply means 71: guide plate

72: compressed air supply hole 73: compressed air supply pipe

74: compressor 74: compressed air heating heater

To achieve the object of the present invention and the main cabinet having an inlet opening and closing by the closing opening and closing door; A fermentation tank installed inside the main cabinet and having a feed hole and a blowout hole and having a main heater installed at the bottom thereof; A stirrer rotatably installed inside the fermentation tank, comprising: a first air supply cylinder installed at the bottom of the input opening / closing door and communicating with a suction port, and having an air blowing hole drilled in the main wall; A second air supply passage provided at a lower end of both side walls thereof and extending downwardly at an upper end of the agitator rotational trajectory so that the lower end opening thereof does not interfere with the rotational trajectories of the agitator; A composite air supply means having a blower connected to the air supply cylinder; The organic substance fermentation apparatus is provided at the lower portions of the both sides of the stirrer so as to be provided at a position that does not interfere with the rotational trajectory of the stirrer, and the compressed air supply means for directly supplying the compressed air to the organic matter introduced into the fermentation tank.

Hereinafter, the organic fermentation apparatus according to the present invention will be described in detail according to the embodiment shown in the accompanying drawings.

Figure 1 shows an embodiment of the organic fermentation apparatus according to the present invention, in the figure 10 is a main body cabinet is installed so that the organic material inlet 11 is opened and closed by the input opening and closing door 12 on the upper surface, the outlet 13 in the front ) Is installed to be opened and closed by the opening and closing door 14, the take-out guide chute 15 for guiding the organic matter to the container (not shown) is provided on the outside of the outlet (13).

The fermentation tank 20 made of a plate or a porous plate is installed inside the main cabinet 10, and a pair of agitators 30 and 40 are installed inside the fermentation tank 20.

Between the main cabinet 10 and the fermentation tank 20 is formed a space portion 16 is filled with a fermentation accelerator (not shown).

In addition, when the fermentation tank 20 is formed of a porous plate material, a space portion is formed between the moisture control agent and the fermentation accelerator and the main cabinet 10 that have been previously added to the fermentation tank 20.

An exhaust hole 17 is drilled in an upper side of the main cabinet 10, and an exhaust fan 18 is connected to the exhaust hole 17 to exhaust gas generated during fermentation.

The fermentation tank 20 is formed with an injection hole 21 corresponding to the organic material inlet 11 on the upper surface, the lower edge portion is rounded to a radius slightly larger than the rotation radius of the stirrer (30, 40).

In the front of the fermentation tank 20, a blowout hole 22 corresponding to the blowout outlet 13 is drilled, and the blowout hole 22 is opened and closed by a blowout opening / closing door 14 that opens and closes the blowout outlet 13. It is.

The main heater 23 is installed on the bottom of the fermentation tank 20, and the main heater 23 is covered with a heat insulator 24 and insulated.

The stirrers 30 and 40 are composed of horizontally supported rotary shafts 31 and 41, and a plurality of stirring blades 32 and 42 radially fixed to the rotary shafts 31 and 41, respectively. The reference numeral 41 is connected to the drive motor M by transmission means 50 such as a belt / pulley or a chain / sprocket (see FIG. 2).

These stirrers 30 and 40 are staggered so that the stirring blades 32 and 42 do not interfere with each other.

The drive motor M is installed in the machine room 19 provided in the main cabinet 10 as shown in FIG.

Compound air supply means 60 is installed on the upper side of the stirrer 30, 40, and compressed air supply means 70 is provided on the lower side, respectively.

The composite air supply means 60 is a first fixed to the bottom surface of the fermentation tank 20, as shown in Figure 1, 2 and 4, the air suction port 62 and the first air supply hole 63 is formed It is installed inside the air supply cylinder 61 and the first air supply cylinder 61, the lower end of which extends between the rotational trajectories of both stirrers within the range that does not interfere with the stirrers 30, 40 is opened And a second air supply cylinder 64.

The first air supply cylinder 61 is installed in a state in which the bottom surface is blocked and the lower end of both side walls extend in a state in which the uppermost ends of the rotational trajectories of both agitators 30 and 40 are close to each other, and the air inlet 62 is a main cabinet ( It is installed to communicate with the outside of the 10), the first air supply hole 63 is arranged to blow air from the upper side downward than the agitator (30, 40).

The second air supply cylinder 64 penetrates the bottom surface of the first air supply cylinder 61 and is installed in a state in which five surfaces except the bottom surface are blocked.

An air suction hole 64 ′ is drilled in the second air supply cylinder 64, and is connected to the blower 65 by a hose 66, and an air heating heater 67 for heating the air supplied therein is provided therein. It is built.

The blower 65 may be installed in the machine room 19 of the main cabinet 10 or externally, and a valve may be installed in the middle of the hose 66 to adjust the interruption or the amount of blown air supplied from the blower 65. It is desirable to be able to.

The air heating heater 67 may use a conventional pipe heater, a fin heater having a plurality of fins on the outer circumferential surface of the pipe heater, a far infrared heater, or the like, and in terms of fermentation efficiency, may penetrate and heat the inside of the organic material. It is preferable to use a far infrared heater.

The compressed air supply means 70 is a guide plate 71 formed in a substantially triangular cross section between the rotational trajectories of both agitators 30 and 40, as shown in FIGS. 1, 2 and 5, and the guide plate 71. Compressed air supply pipe (73) is installed in the interior, and a plurality of compressed air supply holes (72) are perforated at both bottom edges of the guide plate (71).

The compressed air supply pipe (73) is connected to the compressor (74) by a hose (75), and the high pressure air, which is supplied only at the front end and supplied, may be ejected from the front end into the guide plate (71). A plurality of blowholes may be drilled in the hole.

The compressed air supply hole 72 is arranged on both sides of the guide plate 71 at regular intervals in the longitudinal direction.

The compressor 74 may be installed in the machine room 19 of the main cabinet 10, but is not necessarily limited thereto, and the compressed air supply pipe 73 is connected to the compressed air facility by a hose in a place equipped with an existing compressed air facility. You may.

In the middle of the hose (75), it is preferable to install the valve (76) for controlling the interruption or supply amount of the compressed air.

Here, the compressed air injected through the compressed air supply pipe 73 is preferably about 0.1 to 1.0Kg / cm ² used.

In addition, the inside of the compressed air supply pipe (73) is a built-in compressed air heating heater (77) it is preferable to supply the compressed air in a heated state.

The compressed air heating heater 77 is a conventional tubular heater is used, it is preferable to use a plurality of fins (fin) is installed on the outer peripheral surface in order to increase the heat exchange effect.

Hereinafter, the effect of the organic fermentation apparatus according to the present invention.

First, the input opening and closing door 12 is opened and the organic material is introduced into the fermentation tank 20 through the inlet 11 and the inlet 21.

At this time, the compound air supply means is installed on the bottom of the input opening and closing door 12, so as not to cause interference when the organic material is added.

When the addition of organic matter is completed, the closing opening and closing door 12 is closed, and then the driving motor M is operated to rotate the agitators 30 and 40, and the exhaust fan 18, the blower 65, the compressor 74 and The main heater 23 and the air heating heater 67 and the compressed air heating heater 77 are operated.

As the stirrers 30 and 40 are rotated, the injected organic material starts to be stirred, and the stirred organic material is heated by the main heater 23 installed at the bottom of the fermentation tank 20 and the moisture control agent previously introduced into the fermentation tank 20. The fermentation action of the basic organic fermentation medium is fermented by the action of the fermentation accelerator and the fermentation accelerator filled in the space 16.

On the other hand, as the air in the fermentation tank 20 is discharged through the exhaust hole 17 as the exhaust fan 18 operates, external air is sucked through the air inlet 62 to puncture the air supply cylinder 61. Through the first air supply hole 63 is blown toward the upper surface of the organic matter, at this time, the second air supply cylinder 64 is installed inside the air supply cylinder 61 of the second air supply cylinder 64 Since the air heating heater 67 is built therein, the air sucked in the air inlet 61 is heated while passing through the inside of the air supply 61, and then the fermentation tank 20 through the first air supply hole 63. Are fed into.

In addition, according to the operation of the blower 65, the air supplied to the second air supply cylinder 64 through the hose 66 is heated by the air heating heater 67, and then the lower end of the second air supply cylinder 64. It is supplied into the fermentation tank 20 through the opening. At this time, since the lower end of the second air supply cylinder 64 extends between the rotation trajectories of both side agitators 30 and 40, air A2 is supplied as shown in FIG. 1.

Here, since the lower ends of both side walls of the first air supply cylinder 61 extend in a state where the uppermost ends of the rotational trajectories of the both side agitators 30 and 40 are close to each other, the air A1 supplied from the first air supply hole 63. And the air A2 supplied from the lower end opening of the second air supply cylinder 64 do not interfere with each other.

On the other hand, in the compressed air supply means, the compressed air supplied from the compressor 74 is discharged to the compressed air supply pipe 73 through the hose 75, and is blown into the interior of the guide plate 71, and then the lower end of the guide plate 71 It is supplied into the organic material from the lower side of the stirrer (30, 40) through the compressed air supply hole 72 perforated on both edges.

As described above, in the organic fermentation apparatus according to the present invention, the air required for fermentation is supplied through the first air supply cylinder 63 of the first air supply cylinder 61 by the action of the exhaust fan 18, Heated air blown by the blower 65 and heated in the second air supply cylinder 64 and then supplied by the compressed air supplied by the compressor 74 and heated in the guide plate 71 and then directly supplied into the organic material by heated compressed air. Since the supply of air to the organic material is not only uniformly made as a whole, but also to supply the cold air of the outside as it is, it is heated to supply it is to further improve the fermentation effect.

On the other hand, when the first organic material is added, the agitator (30, 40) as shown in Figure 6a, but the organic material is buried, but as the organic fermentation proceeds, the volume of the organic material is reduced, the center portion is lowered as shown in Figure 6b In the present invention, since the lower end of the second air supply cylinder 64 extends downward as far as possible without causing interference with the stirrers 30 and 40, the heated air can be supplied at a position sufficiently close to the organic matter. The supply of air necessary for fermentation is made more smoothly, and thus the fermentation efficiency is improved.

As described above, according to the present invention, the air caused by the exhaust and the air by blowing is heated and supplied, and the air by the blowing is always provided in close proximity to the surface of the organic material, and the compressed air is directly supplied to the organic material. The supply of air is made to be uniform throughout, it is possible to increase the fermentation efficiency.

In addition, it is possible to improve the fermentation efficiency, as well as to save energy, such as the power required to obtain the heat required for fermentation, because the air and the compressed air and the compressed air by the exhaust according to the exhaust in advance to supply.

In addition, by directly supplying compressed air into the organic material, the oxygen supply efficiency to the organic material is increased, and the stirring of the organic material is performed smoothly by the stirring action by the compressed air in addition to the stirring by the stirrer, thereby further increasing the fermentation efficiency of the organic material.

Claims (5)

A main cabinet having an inlet opening / closing opening and closing by an inlet opening and closing door; A fermentation tank installed inside the main cabinet and having a feed hole and a blowout hole and having a main heater installed at the bottom thereof; A stirrer rotatably installed inside the fermentation tank, comprising: a first air supply cylinder installed at the bottom of the input opening / closing door and communicating with a suction port, and having an air blowing hole drilled in the main wall; A second air supply passage provided at a lower end of both side walls thereof and extending downwardly at an upper end of the agitator rotational trajectory so that the lower end opening thereof does not interfere with the rotational trajectories of the agitator; A composite air supply means having a blower connected to the air supply cylinder; Organic material fermentation apparatus characterized in that it is provided in the lower portion of the both sides of the stirrer at a position that does not interfere with the rotational trajectory of the stirrer, the compressed air supply means for directly supplying the compressed air to the organic matter introduced into the fermentation tank. The method of claim 1, wherein the second air supply cylinder is connected to the blower, an air heating heater therein is configured to directly heat the second air and indirectly configured to heat the first air. Organic fermentation apparatus. The guide plate of claim 1, wherein the compressed air supply means is installed in a triangular cross section at a position that does not interfere with the rotational trajectory of the stirrer, and a plurality of compressed air supply holes are drilled at the lower edges on both sides thereof. Organic fermentation device, characterized in that consisting of a compressed air supply pipe is connected to the compressor. 4. The organic fermentation apparatus according to claim 3, wherein the compressed air supply means includes a compressed air heating heater for heating the compressed air. 5. The organic fermentation apparatus according to claim 3 or 4, wherein the compressed air heating means is disposed in the compressed air supply pipe and is formed such that a compressed air supply passage is formed at an outer circumference thereof.