KR20130141862A - Organic waste management machine's air supplies - Google Patents

Abstract

The present invention relates to an organic waste treatment apparatus having an air supply part and, in particular, to an air supply part of an organic waste treatment apparatus in which by-products such as killed livestock and chickens generated from a livestock farm and a poultry farm are mixed with microorganisms, aerobic microorganisms, chaff and sawdust, and injected into a reaction tank; high-quality organic compost can be obtained by churning the injected mixture in the reaction tank at a specific temperature; fermentation capability in the reaction tank is improved to prevent the pollution of the natural environment by using both of a method of supplying high-pressure air to the bottom of the reaction tank through a compressor and a method of adopting an air supply part for forming an air supply pipe able to be installed selectively on a top, a side surface and a bottom surface thereof; and the air supply part for supplying air from a bottom surface and a side surface has a guide plate for preventing the phenomenon of clogging a supply hole formed to facilitate air supply.

Description

Organic waste management machine's air supplies

The present invention relates to an organic waste treatment apparatus, and in particular, microorganisms, aerobic microorganisms, rice hulls, and sawdust are mixed with dead livestock or chicks, which are by-products generated from barns and poultry farms, and are introduced into the reaction tank. Agitated at a constant temperature inside the reaction tank, so that high-quality organic compost can be obtained while supplying high-pressure air through the compressor to the bottom of the reaction tank to prevent contamination of the natural environment and the top of the reaction tank. In addition, the air supply unit adopting an air supply unit forming an air supply pipe that can be selectively installed on the side and the bottom can be used. As a result, the fermentation capacity in the reaction tank is improved, and the air supply unit for supplying air from the bottom and the side is provided. In this case, the guide plate is formed to prevent the supply hole from clogging, It relates to the air supply of the organic waste treatment device so that there is no quality.

In general, the treatment of organic waste in barns and poultry farms was mainly treated with landfill or incineration, but in the case of landfill, the soil was contaminated by leachate, and incineration was the main cause of air pollution.

In order to solve this cause, a number of studies have been introduced to compost organic wastes. Composting refers to a process in which organic substrates are decomposed and stabilized by microorganisms under high temperature environmental conditions generated by high temperature microorganisms to make compost-like compost. This stabilizes the organic waste, kills pathogens, and can also remove odors and sewage of organic materials, which is a very useful process that must be passed in the treatment of organic waste.

One of the composting processes is an open type in which the composting process is performed in an open state with the outside, and the other is a closed type in which the composting process is performed in an external and disconnected closed space.

However, the open type requires a large land area, and as the odor spreads widely, it is difficult to apply, and many studies on the closed type have been conducted. Such closed composting devices are known as mixed dry composting systems and reduced pressure dry composting systems.

The mixed drying system is simply installed with relatively stable technology or open top inside a house or building, so it is not only economically expensive to install due to the relatively large site area and expensive initial facility cost, but also because it is not enclosed. There was a problem in operating costs due to the large amount of air pollution and expensive moisture control material to be released.

In addition, the decompression drying composting system mixes and stirs the livestock by fire (manure) and moisture control material in a closed container at a constant rate and heats the bottom while absorbing moisture by drying the inside of it in a limited space. On the other hand, because the final product is produced without being sufficiently stabilized by microorganisms, it is likely to cause problems when used as compost and reduced to arable land.

The present invention relates to an organic waste treatment apparatus having an air supply unit, and in particular, microorganisms, aerobic microorganisms, rice hulls and sawdust are mixed with dead livestock or chicks, which are by-products generated from barns and poultry farms, and injected into the reaction tank. The injected mixture is stirred at a constant temperature inside the reaction tank, so that high-pressure air is supplied to the bottom of the reaction tank through a compressor to prevent contamination of the natural environment while ensuring high quality organic compost. The air supply part that forms an air supply pipe that can be selectively installed on the top, side, and bottom of the reaction tank improves the fermentation capacity in the reaction tank.In the case of the air supply part that supplies air from the bottom and side, the supply hole is blocked. To prevent the air supply To an air supply of a waste treatment apparatus.

The air supply unit of the organic waste treatment apparatus according to the present invention, the reaction tank 10 for stirring the organic waste, the mixing unit 20 formed of a plurality of blades 22 in the reaction tank 10 and the mixing unit ( In the organic waste treatment apparatus consisting of a drive unit 30 for driving the blade 22 of the 20, it is in communication with the air aeration pipe 43 arranged to facilitate the air supply in the bottom of the reaction tank 10 Compressor 26 for supplying high pressure air is combined to improve the fermentation capacity of the reactants.

In addition, according to the air supply unit of the organic waste treatment apparatus of the present invention, forming an air supply pipe 45 to be arranged long inside the reaction tank 10, the blower 41 for supplying air communicates with the inside of the reaction tank 10 Add an air supply unit (A) for supplying air through the supply hole 46 of the air supply pipe 45 arranged in this way: The reaction tank 10 is the first reaction tank 13 on one side and the first agent on the other side The second reaction tank 14 is partitioned by the partition wall 15; The humidity is measured by installing a hygrometer 27 in the first reaction tank 13, and water is injected through a pump 28 connected to a water supply pipe 29 arranged in the first reaction tank 13. To be adjustable: to form a separate exhaust (B) in the reaction tank (10), and when removing the air inside the exhaust reaction tank 10, to pass through the anion deodorizer (63) to purify.

In addition, according to the air supply unit of the organic waste treatment apparatus of the present invention, the exhaust unit (B) includes an exhaust pipe (61) in communication with the reaction tank (10) arranged outside; Anion deodorizer (63) passing through the internal air in the reaction tank (10) discharged from the exhaust pipe (61) and deodorizing action, and a water tank (60) formed at the end of the exhaust pipe (61) extending from the anion deodorizer (63). Including, to remove the bet dust: the air supply pipe 45 so that the supply hole 46 of the air supply pipe 45 forming the air supply unit 40 is formed on the side of the reaction tank (10) Arrangement: The air supply pipe 45 is arranged such that the supply hole 46 of the air supply pipe 45 forming the air supply unit 40 is formed on the bottom surface of the reaction tank 10.

In addition, according to the air supply unit of the organic waste treatment apparatus of the present invention, by fastening the guide plate 70 to form a predetermined space in front of the supply hole 46 to block the phenomenon that the supply hole 46 is blocked: the guide plate 70 Silver, the flange portion 71 formed in a plate shape to be welded or bolted to the inner peripheral surface of the reaction tank (10); A support plate portion 72 extending integrally with the flange portion 71 and being bent roundly; It is configured to include a plurality of guide grooves 73 carved in the support plate 72, so that the air supplied from the supply hole 46 can be easily ejected.

The present invention mixes the microorganisms, aerobic microorganisms, rice hulls and sawdust with by-products generated in the barn and poultry farm to be introduced into the reaction tank that is maintained at a constant temperature to be discharged after being stirred, thereby obtaining a good organic compost It has an effect.

In addition, the present invention can further obtain the effect of preventing pollution of the soil and the air by not embedding or incineration of by-products.

In addition, the mixture can be easily transferred from the first reaction tank on one side to the second reaction tank on the other side by the inclined arm in the course of stirring in the reaction tank.

In addition, in supplying air, one of them improves fermentation capacity through a method of supplying compressed air of high pressure to the bottom of the reaction tank using a compressor and a method of supplying the inside of the reaction tank with a brower operated air supply unit. There is a big advantage.

1 is a block diagram showing an organic waste treatment apparatus according to the present invention.
2 is a view showing an air supply unit and an exhaust unit according to the present invention;
3 is a view showing a fastening form of the guide plate fastened in the reaction tank according to the present invention,
Figure 4 is a perspective view showing a detailed form of the guide plate according to the invention,
5 is a view showing an air supply system of the prior invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to the accompanying drawings.

The organic waste treating apparatus according to the present invention has a function of producing compost by mixing microorganisms, aerobic microorganisms, rice hulls, sawdust, etc. without treating dead animals, chicks, etc., which are by-products generated in barns, poultry farms, etc., with landfill or incineration. As shown in FIG. 1, the reaction tank 10, the mixing unit 20, the driving unit 30, the air supply unit A, the hot water supply, the circulation unit 50, and the exhaust unit B are constituted. .

Here, the reaction tank 10 is to be sealed and insulated at the same time to block the inside, the outside to be insulated, the inlet 11 is provided on one side of the upper, that is, the first reaction tank 13 to be described later on both sides and Discharge ports 12 are provided at the bottom of the second reaction tank 14, respectively.

The reaction tank 10 is the first reaction tank 13 of one side and the second reaction tank 14 of the other side is partitioned by the partition wall 15, one side by the blade 22 of the mixing section 20 to be described later The mixture can be transferred from to to the other side.

The lower portion of the first reaction tank 13 and the second reaction tank 14 is provided with a hot water jacket 17 wrapped by a heat insulating wall 16 to prevent a constant temperature localized, while maintaining a constant temperature at all times. By doing so, it is comprised so that efficiency of regeneration may be improved.

The partition 15 is formed with a through flow path 151 having a predetermined diameter or area so that the mixed mixture in the first reaction tank 13 can be moved or transferred to the second reaction tank 14. It is.

The opening and closing door part 18 is coupled to the through flow path hole 151 to adjust the amount of the mixture transferred from the first reaction tank 13 to the second reaction tank 14.

The opening / closing door part 18 is coupled to the screw shaft 182 rotatably upright on the upper portion of the door panel 181 having a semi-circular shape is open, the handle ( 183) are combined.

The screw shaft 182 is screwed to the screw shaft guide 184 provided in the partition wall 15, so that the door panel 181 from the upper to the lower by the screw shaft 182 according to the rotation of the handle 183. Alternatively, the cross-sectional area of the through passage hole 151 formed in the partition wall 15 by moving from the bottom to the top is adjusted.

The mixing unit 20 has a function of forming a blade 22 so that the mixture is mixed so that the mixture introduced into the reaction tank 10 is easily fermented, and the mixture is rotated inside the reaction tank 10. A plurality of blades 22 are configured to be coupled to the horizontal rotating shaft 21 provided as possible.

The blade 22 is configured such that the boss 221 is coupled to the horizontal rotating shaft 21, and a plurality of arms 223 having a mixing piece 222 are coupled to the outer circumferential surface of the boss 221. The arm 223 preferably has a radial shape on the outer circumferential surface of the boss 221.

The arm 223 is formed to be inclined from left to right to increase the mixing rate and to be moved from one side to the other side in the process of mixing the mixture.

The driving unit 30 has a function to rotate the mixing unit 20 at a constant speed, and one side of the chain 33 is engaged with the driving sprocket wheel 32 of the reduction motor 31, and the chain 33 The other side is configured to be engaged with the driven sprocket wheel 34 coupled to the horizontal rotating shaft (21).

On the other hand, the part with the big features of this invention is as follows. That is, in the present invention, the reaction tank 10 for agitating the organic waste, the mixing unit 20 formed of a plurality of blades 22 in the reaction tank 10 and the blade 22 of the mixing unit 20 The present invention relates to an organic waste treatment apparatus including a driving unit (30) for driving. The compressor is configured to communicate with an air aeration pipe (43) arranged to smoothly supply air from the bottom of the reaction tank (10) to supply high pressure air. By combining (26), the fermentation ability of the reactants is improved.

Then, the air supply pipe 45 is formed to be elongated to the inside of the reaction tank 10, and the blower 41 for supplying air communicates with the supply hole of the air supply pipe 45 arranged inside the reaction tank 10. It is preferable to add the air supply part A which made it possible to supply air through the 46.

That is, the present invention through the compressor 26 to supply high-pressure air into the reaction tank 10, the high-pressure air of the compressor 26 to the air aeration pipe 43 arranged on the bottom of the reaction tank 10 To supply. When high pressure air is supplied into the reaction tank 10 through the nozzle of the air aeration pipe 43, the fermentation is improved and the fermentation of the mixture is promoted. In the present invention for the similar action to form a separate air supply (A) in the reaction tank (10). 1 and 2 show an embodiment in which an air supply pipe 45 is installed on the upper end of the reaction tank 10, and air is supplied to the air supply pipe 45 through the brower 41. When air is supplied from the brower 41, the air enters the inside of the air supply pipe 45, and the air is injected into the reaction tank 10 through a plurality of nozzles formed in the air supply pipe A. This is to adjust the proper pressure and air volume.

On the other hand, in the present invention, as shown in Fig. 1 and 2, also has an air exhaust (B) separately. That is, a separate exhaust portion B is formed in the reaction tank 10, and when the air inside the reaction tank 10 to be exhausted is removed, the anion deodorizer 63 is passed through and purified.

Exhaust portion (B) is to draw out the bets in the reaction tank 10 at a suitable time, sometimes due to the active fermentation is increased pressure in the reaction tank 10 may cause problems. This exhaust part (B) is to solve this problem, and to continue to fermentation to produce a good compost. In particular, the exhaust portion (B) of the present invention by applying an anion deodorizer (63) in order to remove the odor generated when the carcasses of the livestock proceeds to prevent damage to the surrounding environment.

In more detail, an embodiment of the exhaust unit B implemented in the present invention, the exhaust unit B has an exhaust pipe 61 which is in communication with the reaction tank 10 and arranged outside, and is discharged from the exhaust pipe 61. It includes an anion deodorizer 63 passing through the internal air in the reaction tank 10 and deodorizing action, and a water tank 60 formed at the end of the exhaust pipe 61 extending from the anion deodorizer 63. .

1 and 2, the exhaust pipe 61 is in communication with the reaction tank 10, is arranged outside the reaction tank 10 is connected to the anion deodorizer 63 on one side. When the bet including the odor inside the reaction tank 10 is ejected through the exhaust pipe 61, the deodorizing action occurs while passing through the anion deodorizer 63. The bet inside the deodorized reaction tank 10 enters the water tank 60 formed at the end of the exhaust pipe 61. An end of the exhaust pipe 61 is formed with a water tank 60, and the exhaust pipe 61 is inserted into the water tank 60. Depending on the amount of water 64 present in the interior of the water tank 60, the bet inside the exhaust pipe 61 is discharged using the water pressure. Depending on how much the water level in the water tank 60 is compared to the end of the exhaust pipe 61 contained in water, the water pressure according to the height difference will block the exhaust pipe 61 to block the bet ejected from the exhaust pipe 61. When the bet pressure inside the reaction tank 10 increases, the bet is ejected to the outside as much as it beats the water pressure. During this ejection process, a lot of dust or odor present in the bet is filtered through the anion deodorizer 63 and the water 64 of the water tank 60, and the bet discharged to the outside is ejected in a purified state.

As a result, the air supply unit A of the present invention supplies air to promote the fermentation process, and the adjustment of the pressure in the reaction tank 10 generated during the fermentation is controlled according to the action of the exhaust unit B. The pressure inside the reaction tank 10 of the present invention is controlled and adjusted using natural water pressure.

The hot water supply and circulation unit 50 has a function of maintaining a constant temperature of the lower portion of the reaction tank 10 is configured to continuously supply and circulate the hot water so as to surround the lower portion of the reaction tank 10 have.

To this end, the hot water supply, the circulation unit 50 is provided with a heater 52 inside the hot water boiler 51 is supplied with direct water. The hot water heated by the circulation pump 53 connected to the hot water boiler 51 is configured to circulate the hot water jacket 17 provided under the reaction tank 10.

In the organic waste treatment apparatus having such a configuration, first, a mixture of microorganisms, aerobic microorganisms, rice hulls, and sawdust mixed with dead livestock and chicks which are by-products generated in a barn, poultry farm, etc. Make sure that about two-thirds are filled.

Meanwhile, in the process of circulating the hot water jacket 17 provided under the reaction tank 10 by the circulation pump 53, the hot water heated by the heater 52 of the hot water boiler 51 of the present invention ( The inside of 10) is heated. In other words, oxygen is supplied while the proper temperature is maintained inside the reaction tank 10 to facilitate fermentation.

Next, as the reduction motor 31 of the driving unit 30 is rotated, the chain 33 connected to the driving sprocket wheel 32 is driven and driven by the driven sprocket wheel 34 according to the driving of the chain 33. It is rotated on the horizontal rotating shaft (21).

Next, the arm 223 having the mixing piece 222 is rotated according to the rotation of the horizontal rotating shaft 21 so that the by-products inside the reaction tank 10 are mixed. The first reaction tank 10 is to be transferred to the second reaction tank (10). At this time, while rotating the handle 183 of the opening and closing door portion 18 is coupled to the lower portion of the screw shaft 182 as the screw shaft 182 is moved to the upper or lower portion along the screw shaft guide 184. By adjusting the cross-sectional area of the through-flow path hole 151 formed in the partition wall 15 by the door panel 181, the movement amount of the dispersion is controlled.

Next, the gas generated in this process is an anion deodorizer 63 in the process of exhausting the exhaust pipe 61 coupled to the upper portion of the first reaction tank 13 and the second reaction tank 14 of the reaction tank 10. As it passes through, it is discharged with the odor removed.

Thereafter, by opening the respective exhaust ports 62 provided in the first reaction tank 13 and the second reaction tank 14 of the reaction tank 10, it is possible to take out the composted products.

Each of the more specific embodiments of the present invention will now be described.

In the reaction tank 10 according to the present invention, the first reaction tank 13 on one side and the second reaction tank 14 on the other side are partitioned by the partition wall 15, and the first reaction tank 13 Humidity meter 27 is installed to measure the humidity, and the water is injected through the pump 28 connected to the water supply pipe 29 arranged in the first reaction tank 13 to control the humidity.

In the above, a method of introducing air into the reaction tank 10 through the air supply unit A has been described, but the present invention has another means for supplying water. In order for the mixture in the reaction tank 10 to be actively fermented, temperature, humidity and pressure must be appropriate. In the present invention, as shown in Figure 1 for controlling the humidity, the reaction tank 10 is equipped with a hygrometer 27 that can measure the humidity inside the reaction tank 10. The hygrometer 27 measures the humidity inside the first reaction tank 13, and water is supplied through the water supply pipe 29 according to the measured humidity. A pump 28 formed at the end supplies water to the inside of the water supply pipe 29, and the supplied water is introduced into the first reaction tank 13 to adjust humidity.

Meanwhile, the present invention proposes the air supply unit A described above in more detail as follows.

First, the air supply pipe 45 is arranged such that the supply hole 46 of the air supply pipe 45 forming the air supply unit A is formed at the side of the reaction tank 10. Second, the air supply pipe 45 is arranged such that the supply hole 46 of the air supply pipe 45 forming the air supply unit 40 is formed on the bottom surface of the reaction tank 10. In FIG. 1, an embodiment in which the air supply pipe 45 of the air supply unit A is installed on the reaction tank 10 is illustrated, but the present invention is not limited thereto, and the air supply pipe A and the reaction tank ( The supply hole 46, which is a communication portion of 10), may be formed on the side or bottom of the reaction tank 10.

When the supply hole 46 of the air supply pipe A is formed at the upper end of the reaction tank 10, there is no fear that the supply hole 46 of the air supply pipe A is blocked by the mixing action of the mixture. However, if formed on the side and bottom, the mixture was being mixed in the reaction tank 10 may block the supply hole 46 may cause a problem in supplying air. In order to solve the above problems, the present invention proposes the following in order to form the air supply pipe A on the side or bottom of the reaction tank 10.

By fastening the guide plate 70 to form a predetermined space in front of the supply hole 46 is to block the phenomenon that the supply hole 46 is blocked.

The guide plate 70 forms a blocking film on the entire surface of the supply hole 46 in order to prevent the mixture in the reaction tank 10 from blocking the supply hole 46 due to gravity. The supply hole 46 is always kept in a constant space rupture state has no effect on the blowing of air, but is to prevent the mixture from blocking the supply hole 46.

The prior art in this part is described for reference. 5 shows an air supply system (registered patent No. 10-1133925) of the conventional by-product processing apparatus (hereinafter, reference numerals of FIG. 5 of the prior art drawings). Referring to the drawings, a high pressure air pump is provided outside the treatment tank to forcibly inject air into the treatment tank, and the high pressure air generated by the air pump passes through the first air flow passage 43, and then Branched to the second air flow pipe 44 and delivered to each air supply chamber 41 provided separately on one side of the lower side of the treatment tank, it is distributed through a myriad of fine vent holes 42 and installed to flow into the treatment tank to be.

The conventional invention structure is complicated in the manufacturing process because it must form a plurality of fine vent holes 42 in the treatment tank, it can not completely block the phenomenon. This prior art merely injects air into the air supply chamber 41, and there is only a vague expectation that air can penetrate a weak portion of the many vent holes 42 and supply air into the treatment tank 10. It is a technique without consideration except for the problem that all the ventilation holes 42 are strongly blocked.

As a result, the guide plate 70 of the present invention (see reference numerals of the present invention) in a way that can solve the problems of the prior art is formed in a plate shape so that the welding or bolted to the inner peripheral surface of the reaction tank 10 Formed to form a flange portion 71, the support plate portion 72 is formed by extending and rounded and bent integrally with the flange portion 71, and formed by forming a plurality of guide grooves 73 carved in the support plate portion 72 do. As a result, the air supplied from the supply hole 46 can be easily ejected.

3 and 4 shown in the reaction tank 10, the supply hole 46 of the air supply pipe 45 is in communication with each other, and the support plate portion such as a partial blocking film in front so that the supply hole 46 is not blocked ( 72). The guide plate 70 is firmly fastened to the inner circumferential surface of the reaction tank 10 through the flange portion 71, and can be fastened by bolts or welding. In addition, a plurality of guide grooves 73 are formed on the inner surface of the support plate 72 to face the air of the supply hole 46 to eject the air. Air is ejected into the reaction tank 10 along the guide groove 73 to promote the progress of the fermentation.

10; Reaction tank 20; Mixing section
22; Blade 30; The driving unit
41; Brower 45; Air supply pipe

Claims (4)

A reaction tank 10 for agitating organic waste, a mixing unit 20 formed of a plurality of blades 22 in the reaction tank 10, and a blade 22 of the mixing unit 20;
Combining the compressor 26 to communicate with the air aeration pipe 43 arranged to facilitate the air supply in the bottom of the reaction tank 10 to supply high-pressure air,
A supply hole of the air supply pipe 45 arranged in the reaction tank 10 is formed by forming an air supply pipe 45 arranged to be long inside the reaction tank 10, and communicating a blower 41 for supplying air ( In the air supply unit of the organic waste treatment apparatus consisting of an air supply unit (A) to supply air through 46,
Air supply unit of the organic waste treatment apparatus, characterized in that the air supply pipe 45 is arranged so that the supply hole 46 of the air supply pipe 45 forming the air supply unit (A) is formed on the side of the reaction tank (10) . The method of claim 1,
Air supply unit of the organic waste treatment apparatus, characterized in that the air supply pipe 45 is arranged such that the supply hole 46 of the air supply pipe 45 forming the air supply unit (A) is formed on the bottom surface of the reaction tank 10. .
3. The method according to claim 1 or 2,
Air supply unit of the organic waste treatment apparatus, characterized in that blocking the phenomenon that the supply hole 46 is blocked by fastening the guide plate 70 to form a predetermined space in front of the supply hole (46).
The method of claim 3,
Guide plate 70,
A flange portion 71 formed in a plate shape to be welded or bolted to the inner circumferential surface of the reaction tank 10;
A support plate portion 72 extending integrally with the flange portion 71 and being bent roundly;
And a plurality of guide grooves 73 engraved in the support plate 72, so as to easily eject the air supplied from the supply hole 46. .

Images