KR102299306B1 - Waste Organic Matter Blender Using Microorganism - Google Patents

Abstract

The present invention pulverizes waste organic matter such as food, vegetables, waste livestock, etc. to a size suitable for decomposition, and mixes with microorganisms to allow the waste organic matter to be decomposed by microorganisms, and at the same time, suitable for decomposition of waste organic matter Provided is a waste organic matter blender using microorganisms that can further increase the decomposition treatment efficiency of waste organic matter by providing an optimal environment, improve workability by shortening the treatment time, and minimize odor. The organic waste blender of the present invention includes a hopper for putting in waste organic matter and microorganisms, a grinder installed in the hopper and a grinder for pulverizing the input waste organic matter, a stirring tube disposed under the hopper, and a stirring barrel installed in the grinder A stirrer for uniformly mixing the waste organic matter and microorganisms pulverized and introduced into the agitator, a heater installed in the stirring barrel to control the temperature inside the stirring barrel, and a heater installed in the stirring barrel to supply oxygen to the inside of the stirring barrel Including oxygen supply.

Description

Waste Organic Matter Blender Using Microorganism

The present invention relates to a waste organic matter blender, and more particularly, by creating an environment in which waste organic matter can be well decomposed while inputting and mixing waste organic matter such as food, vegetables, and waste livestock with microorganisms, efficient decomposition of waste organic matter is rapid It relates to a waste organic matter blender using microorganisms that make it possible.

In general, a lot of food waste is generated in homes, restaurants, or food manufacturing plants, and when such food waste is reclaimed as it is, the water quality of rivers is deteriorated and groundwater is polluted, and also eutrophication causes eutrophication, contaminating water sources and agricultural water. It has become a major cause of serious environmental pollution by generating odors and pests.

In addition, if foot-and-mouth disease, avian influenza, swine fever, etc. occur in farms raising livestock such as cattle, pigs, and chickens, many livestock are killed and buried. cause serious problems

Therefore, although many devices have been developed for the treatment of waste organic matter such as food, vegetables, and waste livestock, efficient treatment and removal of odors are not achieved, so improvement thereof is urgently needed.

For example, according to the food processor using microorganisms in Korean Patent Registration No. 10-1392700, most of the food wastes, which are mixed with large and small ones, are put into a stirring tank and fermented by microorganisms regardless of size, so that the fermentation is not good or There is a problem in that the processing efficiency of food waste is lowered due to the slow fermentation rate. In addition, when food waste treatment is delayed as described above, bad odors are likely to occur, and the generated odor leaks to the outside of the food processor to contaminate the surrounding air, thereby deteriorating the working environment.

US 10-1392700 B1

The present invention is to solve the conventional problems as described above, the purpose of which is to grind waste organic matter such as food, vegetables, waste livestock, etc. into a size suitable for decomposition, and mix the waste organic matter by microorganisms. Microorganisms that allow decomposition and at the same time provide an optimal environment suitable for decomposition of waste organic matter, which can further increase the decomposition treatment efficiency of waste organic matter, improve workability by shortening the treatment time, and minimize odor To provide a waste organic blender using

In order to achieve the above object, the present invention provides a hopper for inputting waste organic matter and microorganisms; a pulverizer for pulverizing the waste organic matter installed in the hopper; Agitator disposed in the lower part of the hopper: a stirrer installed in the agitator and uniformly mixing the waste organic matter and microorganisms introduced after being pulverized by the pulverizer; a heater installed in the stirring vessel to control the temperature inside the stirring vessel; and an oxygen supply device installed in the stirring barrel to supply oxygen to the inside of the stirring barrel.

In addition, in the present invention, the oxygen supply unit is formed by branching at predetermined intervals along the blower installed outside the stirring barrel, the main connection pipe connected to the blower and arranged in the longitudinal direction of the stirring barrel, and the main connection pipe, The end is characterized in the waste organic matter blender using microorganisms composed of a plurality of oxygen injection tubes that pass through the stirring barrel and are positioned inside the stirring barrel to uniformly supply oxygen to the inside of the stirring barrel.

According to the present invention having the above characteristic configuration, when waste organic materials such as food, vegetables, and waste livestock are put into the hopper together with microorganisms using an input device such as a conveyor or a hoist, the grinder can decompose the waste organic matter into a size suitable for decomposition. It is crushed and introduced into the agitator at the bottom, and the agitator mixes the waste organic matter and microorganisms in the agitator so that the decomposition is made uniformly, and at the same time, the environment inside the agitator is destroyed by the heater and oxygen supply installed in the agitator. Since an environment suitable for decomposing organic matter is created, the decomposition efficiency of waste organic matter can be increased to further reduce the amount of final treated waste.

In addition, the present invention provides rapid decomposition treatment of waste organic matter by inputting microorganisms and creating an environment in which microorganisms can be actively active, thereby increasing the processing capacity of waste organic matter, and generating odor while organic waste is decomposed It has the effect of improving the surrounding working environment by minimizing

1 is a cross-sectional view of a waste organic matter blender according to the present invention from the front.
Figure 2 is a cross-sectional view taken along line AA of Figure 1;
3 is a cross-sectional view taken along line BB of FIG. 1 .
Figure 4 is a front view of the waste organic matter blender showing the oxygen supply in the present invention.
Figure 5 is a plan view showing the grinder in the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in detail based on the accompanying drawings.

1 to 3 show a waste organic matter blender using the microorganism of the present invention, and as shown, the organic waste blender of the present invention is provided with a hopper 10 for inputting the waste organic matter and microorganisms.

The hopper 10 is formed in a cylindrical shape with an open top and a bottom and is fixedly installed on the upper end of the support frame, and the upper part is wide and the lower part is narrow. and a pulverizer 20 for pulverizing the waste organic matter put into the hopper 10 is installed at the lower portion of the hopper 10 .

The pulverizer 20 is for pulverizing large-sized waste organic matter into a small size so that the decomposition by microorganisms is well made, and is composed of an electric motor 21 and a pair of pulverizing rollers 22 .

The electric motor 21 is fixedly installed on the support frame 11 outside the hopper 10 , and a pair of grinding rollers 22 are arranged side by side in the lower part of the hopper 10 in the horizontal direction and are rotatably installed.

The pair of crushing rollers 22 are provided with a prime mover gear 23 and a driven gear 24 that are meshed with each other on the same shaft, respectively, as shown in FIG. 5, and the prime mover gear 23 side is the electric motor 21 ) is connected to the axis of Accordingly, by the driving of the electric motor 21, the driven gear 23 and the driven gear 24 are meshed and rotated, so that the pair of crushing rollers 22 are rotated to crush the organic waste.

Referring again to FIGS. 1 to 3 , the stirring barrel 12 is disposed at the lower portion of the hopper 10 and is firmly fixedly installed on the support frame 11 . The stirring barrel 12 is formed of a semi-cylindrical part 12a with an open upper part and a closed lower part, and accommodates waste organic matter that is pulverized by the grinder 20 of the hopper 10 and falls to the lower part.

A stirrer 30 is installed in the stirring barrel 12 to uniformly mix the organic waste and microorganisms introduced therein.

The agitator 30 is composed of an electric motor 31, agitating blades 32, and a power transmission mechanism 33, and the electric motor 31 is fixedly installed on the support frame 11 outside the stirrer 12 and , The stirring blade 32 is to be installed inside the semi-cylindrical part 12a of the stirring barrel 12, and the stirring shaft 34 is disposed in the longitudinal direction of the stirring barrel 12 in the semi-cylindrical part 12 and rotates It is freely installed, and a plurality of stirring blades 32 are arranged at predetermined intervals on the stirring shaft 34 and provided.

The power transmission mechanism 33 is for transmitting the rotational force of the electric motor 31 to the stirring blades 32 , and fixing the driven pulley 33a to the shaft of the electric motor 31 , and stirring the stirring blades 32 . The driven pulley 33b is fixed to the shaft 34, and the driven pulley 33a and the driven pulley 33b may be connected by a belt 33c. The configuration of the power transmission mechanism 33 is only one embodiment, and any configuration that can transmit the rotational force of the electric motor 31 to the stirring blade 32 is applicable.

On the other hand, as shown in FIGS. 3 and 4, the stirring barrel 12 has a heater 13 and an oxygen supply unit 40 for creating an environment in which the inside of the stirring barrel 12 can be well decomposed by microorganisms. ) is installed.

The heater 13 is for controlling the temperature inside the stirring barrel 12, and it is preferable to install it in the semi-cylindrical part 12a under the stirring barrel 12 to heat the lower part of the stirring barrel 12, and the heater As (13), a planar heating heater, a silicone rubber heater, or a film heater can be attached to the outer surface of the semi-cylindrical portion 12a of the stirring cylinder 12 to be configured.

The oxygen supply unit 40 is to supply oxygen to the inside of the stirring barrel 12 to activate the microorganisms introduced together with the waste organic matter to further increase the decomposition efficiency of the waste organic matter, and the blower 41, the main connection pipe 42 and a plurality of oxygen injection pipes 43 .

The blower 41 is for sucking in and supplying external air, and it is fixedly installed on the support frame 11 outside the stirring barrel 12, and the main connection pipe 42 is connected to the exhaust port side of the blower 41 and stirred. It is disposed on the outside of the barrel 12 in the longitudinal direction, and a plurality of oxygen injection pipes 43 are branched and connected at predetermined intervals along the main connection pipe 42, and the ends pass through the stirring barrel 12 and are connected to the stirring barrel ( 12) It is located inside.

Therefore, the external air sucked through the blower 41 can be uniformly supplied with oxygen to the inside of the stirring vessel 12 through the main connection pipe 42 and the plurality of oxygen injection pipes 43 .

The operation of the present invention having such a configuration will be described as follows. 1 and 3, using an input device such as a conveyor or a hoist, waste organic materials such as food, vegetables, and waste livestock are put into the hopper 10 together with aerobic microorganisms, and the electric motor 21 of the grinder 20 ), the intermeshing prime mover gear 23 and driven gear 24 rotates to rotate a pair of crushing rollers 22, which causes large-sized waste organic matter to be converted into a pair of crushing rollers ( 22) After passing through, it is pulverized to a size suitable for decomposition, and then falls to the bottom and flows into the stirrer 12 together with the microorganisms.

Then, when the electric motor 31 of the stirrer 30 is driven, the rotational force of the electric motor 31 is transmitted to the stirring shaft 34 through the power transmission mechanism 33 to rotate the stirring blade 32 . , the organic waste and microorganisms introduced into the stirring barrel 12 are uniformly mixed, and the microorganisms decompose the organic waste.

In this case, the microorganism is an aerobic microorganism, and the environment inside the stirring vessel 12 is maintained in a condition in which the aerobic microorganism can be actively activated, thereby further increasing the decomposition efficiency of the waste organic matter.

That is, if the stirring barrel 12 is heated by operating the heater 13 installed in the semi-cylindrical portion 12a of the lower portion of the stirring barrel 12, the temperature inside the stirring barrel 12 can be increased, and thereby microorganisms By secreting enzymes that break down the fibrin of waste organic matter through active activity, it can dissolve and remove waste organic matter finely. It can reduce the amount of waste organic matter waste.

In addition, when the blower 41 of the oxygen supply unit 40 is driven, external air containing oxygen can be supplied into the stirring vessel 12 through the main connection pipe 42 and a plurality of oxygen injection pipes 43, The plurality of oxygen injection pipes 43 are spaced apart from each other at predetermined intervals along the longitudinal direction of the stirring cylinder 12 to uniformly supply oxygen to the entire interior of the stirring cylinder 12 . This provides an environment in which the organic waste stirred by the agitator 30 can be more decomposed by microorganisms, thereby further increasing the decomposition efficiency of the organic waste, thereby significantly reducing the final amount of waste organic matter. .

In addition, as the decomposition treatment time of waste organic matter is shortened, the amount of waste organic matter treatment can be increased, and the odor generated during the decomposition treatment of waste organic matter can be minimized to improve the surrounding working environment.

The embodiments described so far are merely illustrative of preferred embodiments of the present invention, and the scope of the present invention is not limited to the described embodiments, and within the spirit and claims of the present invention, those skilled in the art can Various changes, modifications or substitutions will be possible by this, and such embodiments should be understood to fall within the scope of the present invention.

10: hopper 12: stirring barrel
13: heater 20: grinder
21,31: electric motor 22: grinding roller
30: agitator 32: stirring blades
33: power transmission mechanism 40: oxygen supply

Claims (2)

a hopper 10 having an open upper and lower tubular shape to input waste organic matter and microorganisms and fixedly installed on the upper end of the support frame 11;
It is installed in the lower part of the hopper 10 from the upper end of the support frame 11, and is installed in the horizontal direction by the driving of the electric motor 21 fixedly installed on the upper end of the support frame 11 outside the hopper 10. a pulverizer 20 for pulverizing the waste organic matter input to the lower part of the hopper 10 in a configuration in which a pair of pulverizing rollers 22 in which the prime mover gear 23 and the driven gear 24 are engaged are rotated side by side;
A semi-cylindrical part ( Stirring vessel 12 formed of 12a):
Agitating blades 32 are arranged at predetermined intervals in the longitudinal direction inside the agitator 12, and the agitator 30 is pulverized by the pulverizer 20 and mixes the introduced waste organic matter and microorganisms - here the stirrer ( 30) is a stirring shaft 34 disposed in the longitudinal direction on the stirring barrel 12 to transmit the rotational force of the electric motor 31 to the stirring blade 32, and a driven pulley fixed to the stirring shaft 34 ( 33b), a driven pulley (33a) fixed to the shaft of the electric motor 31, and a belt (33c) connecting the driven pulley (33a) and the driven pulley (33b), the stirring blade ( 32) three are arranged at equal intervals in the radial direction of the stirring shaft 34 orthogonal to the longitudinal direction;
a heater (13) installed on the lower outer surface of the semi-cylindrical portion (12a) of the stirring barrel (12) to adjust the temperature inside the stirring barrel (12); and
In order to supply oxygen to the inside of the stirring barrel 12, the blower 41 installed outside the stirring barrel 12, and the blower 41 are connected to the stirring barrel 12 at the upper end of the stirring barrel 12 ( 12), the main connector 42 arranged in the longitudinal direction, and the main connector 42 are branched at predetermined intervals along the main connector 42, and the end of the stirring tube 12 passes through the stirring tube 12. Waste organic matter blender using microorganisms, characterized in that it comprises an oxygen supply unit (40) consisting of a plurality of oxygen injection pipes (43) so as to uniformly supply oxygen to the inside of the stirring vessel (12) by being located inside. delete

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