KR101796416B1 - Food waste disposal equipment using microorganism - Google Patents

Abstract

The present invention relates to a food garbage disposal apparatus using microorganisms which is capable of minimizing reinjection of the microorganisms by providing an optimal condition enabling the microorganisms to be proliferated when decomposing and disposing injected food garbage using the microorganisms, and which is formed in a vertical structure such that space utilization can be maximized. To this end, the food garbage disposal apparatus of the present invention comprises: a driving part including a driving motor and a heater; and a disposal part which is installed in an upper part of the driving part to decompose and dispose the injected food garbage. The disposal part includes: an inner wall which contains food garbage; an outer wall which is disposed to be spaced apart from the inner wall at predetermined intervals; an induction pipe which is installed between the inner wall and the outer wall and flows in gas generated from an inner side of the inner wall to induce the gas to the heater; a rotation shaft which is installed in a vertical direction in a central portion of the inner wall, wherein the inside of which is penetrated, and to which rotary power of the driving motor is applied such that the rotation shaft is rotated; a screw which is installed on the rotation shaft in a spiral direction; and a plurality of air nozzles which are installed in the rotation shaft in a circumferential direction, and are arranged in a vertical direction.

Description

TECHNICAL FIELD [0001] The present invention relates to a food waste disposal apparatus using microorganisms,

The present invention relates to a food garbage disposal apparatus using microorganisms, and more particularly, to an apparatus and a method for disposing food garbage using microorganisms, which can decompose the food garbage and provide optimal conditions for the microorganisms to multiply, The present invention relates to a food garbage disposal apparatus using microorganisms capable of maximizing space utilization.

Food wastes (food wastes), organic wastes represented by food, are emerging as the biggest environmental pollution problem in the 21st century. In Korea, landfilling methods have been used for decades, but food wastes with high water content along with proteins, carbohydrates, fats and fibrils will release various pollutants when they are landfilled. In addition to groundwater pollution due to landfill leachate, Causing air pollution and other serious environmental pollution.

Food waste includes organic matter such as starch, proteins, oils, and cellulose derived from cooking debris of various food materials and remaining food. Among the wastes separated as burnable garbage, especially food waste, Because of the high water content, this requires a lot of energy for incineration.

That is, there is a growing interest in technologies for drying and reducing food waste without disposing of food waste, or for decomposing it using microorganisms.

Accordingly, various techniques for dissolving food garbage using microorganisms have been developed. As a food garbage disposal apparatus using microorganisms, Japanese Patent Application Laid-Open No. 10-1131935 discloses an apparatus for disposing a food garbage liquid.

The above-described technique is a method of mixing food waste into a stirring tank and then treating the mixture with a microorganism while mixing and softening the mixture with a stirring blade. The mixing shaft having one end connected to the reduction gear and the driving motor to rotate, And a stirring shaft coupling is welded to both ends thereof. The stirring shaft coupling is screwed to the drive shaft coupling or the support shaft coupling, and the joint portion between the other shaft of the drive shaft and the support shaft and the stirring tank is prevented from corrosion And a bearing abrasion preventing means composed of a bearing and a cover, wherein the stirring blade has a first agitating blade and a second agitating blade rotatably supported by a predetermined And the driving motor for rotating the stirring blade is formed by a BLDC motor Characterized in that the configuration using.

However, in the above technology, the charged food waste is horizontally moved while being horizontally moved by the stirring shaft. In the process of operating the food waste treatment apparatus, the upper part of the stirring tank exists as an empty space and can not be utilized. There arises a problem that space is required.

Thus, a vertical screw-type microorganism food processing machine is disclosed in Japanese Patent Application Laid-Open No. 10-2016-0094594.

When the food waste and the microorganism are put into the agitator, the above-mentioned technology compresses and cuts the water by using a screw and a cutting blade rotated by a decelerating motor. Then, the generated sludge and leachate are introduced into a two- And the sludge is again collected by an agitator and discharged to the discharge cylinder after drying.

Since the above-described technology is vertically manufactured, it is advantageous in that a relatively narrow installation space is required as compared with a horizontal type food processing apparatus. However, since the environment in which microorganisms are grown is not provided and microorganisms are frequently input, Accordingly, the microorganisms must be repeatedly charged in accordance with the treatment of the food garbage, which increases the cost of food garbage disposal.

KR 10-11321935 B1 (March 23, 2012) KR 10-2016-0094594 A (Aug. 10, 2016)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art, and it is an object of the present invention to overcome the problems of the prior art by providing a vertical structure, The present invention provides a food garbage disposing apparatus using microorganisms capable of providing optimal conditions for a food garbage disposal apparatus.

Another object of the present invention is to provide a food garbage disposal apparatus using microorganisms capable of proliferating microorganisms and allowing microorganisms to survive for a long time by re-introducing air at an elevated temperature according to the activities of the microorganisms.

In order to solve the above-mentioned problems, the apparatus for treating food waste using microorganisms according to the present invention comprises a driving unit including a driving motor and a heater, and a processing unit disposed above the driving unit for decomposing the food waste, The processing unit includes an inner wall for accommodating food waste; An outer wall disposed at a predetermined distance from the inner wall; An induction pipe installed between the inner wall and the outer wall for introducing gas generated inside the inner wall and guiding the gas to the heater; A rotating shaft installed in a central portion of the inner wall in a vertical direction and passing through the inside thereof and rotated by receiving a rotational force of the driving motor; A screw installed on the rotating shaft in a spiral direction; And a plurality of air nozzles arranged in the circumferential direction on the rotating shaft, the air nozzles being arranged in the vertical direction.

The driving unit may include a driving motor; A decelerator for decelerating a rotational force output from the drive motor; A blower for sucking and discharging outside air; A heater for heating and discharging the air discharged through the blower and the induction pipe to a predetermined temperature; And a rotary joint for supplying heated air discharged from the heater to the rotating shaft.

Here, the output rotation speed of the speed reducer may be configured to be rotated two to three times per minute.

In addition, wood in which microorganisms have been propagated may be introduced into the inside wall.

In addition, the air nozzle may include a nozzle body installed to receive the through-hole of the rotating shaft; And a nozzle hole formed in the nozzle body so as to be inclined downward.

According to the present invention, it is possible to treat a large amount of food waste in comparison with a food waste disposal apparatus of the same capacity having a vertical structure and having a horizontal structure, and it is possible to increase utilization of installed space.

In addition, since it provides optimal conditions for the growth and activity of microorganisms decomposing food waste, there is an advantage that cost for operation of food waste can be reduced.

1 is a perspective view of an embodiment of a food waste disposal apparatus using microorganisms according to the present invention.
2 is a cross-sectional view taken along line A-A '
3 is a sectional view taken along the line B-B 'in Fig.
4 is a plan view of a driving part applied to a food garbage disposal apparatus using microorganisms according to the present invention.
5 is a sectional view of an air nozzle applied to a food garbage disposal apparatus using microorganisms according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention is directed to a method for disposing food waste using microorganisms, which can minimize the re-introduction of microorganisms by providing an optimal condition for microbial growth, and by using a microorganism capable of maximizing space utilization And a food garbage disposal apparatus.

FIG. 1 is a perspective view of an embodiment of a food waste disposal apparatus using microorganisms according to the present invention, FIG. 2 is a sectional view taken along line A-A 'of FIG. 1, and FIG. 3 is a sectional view taken along line B- Fig.

1 and 2, a food waste disposal apparatus using microorganisms according to the present invention is roughly divided into a lower driving unit 100 and a processing unit 200 installed on the upper side of the driving unit 100, Food waste is injected from the top and decomposed and processed through vertical movement.

First, the driving unit 100 located at a lower position will be described.

The driving unit 100 provides an environment for the survival of the power and microorganisms required in the processing unit 200 and includes a driving motor 110, a speed reducer 120, a blower 130, a heater 140, (150).

In addition, a wheel 160 for providing mobility of the microorganism treatment apparatus may be installed under the driving unit 100.

The driving motor 110 is installed on the upper side of the driving unit 100 and outputs a rotational force according to the application of power.

The decelerator 120 decelerates and outputs the rotational force output from the driving motor 110, and a plurality of gears for decelerating and outputting the number of rotations applied thereto are formed in the engaged state. The rotational force of the driving motor 110 is decelerated but the torque is increased through the speed reducer 120.

The rotating force output from the speed reducer 120 is transmitted to the rotating shaft 240. The rotating shaft 240 may be a bevel gear, a helical gear, or a worm gear, for transmitting rotational force between the speed reducer 120 and the rotating shaft 240. [ Etc. may be installed.

Also, the number of revolutions output from the speed reducer 120 greatly affects the survival and proliferation environment of the input microorganisms. For example, when the number of revolutions is reduced, the leachate is stacked on the lower part of the processing unit 200, so that the contact between the lower aerobic microorganisms and the air is blocked, and thus the aerobic microorganisms can be killed. Also, if the number of revolutions is increased, the microorganisms may be separated from the food waste, and the decomposition ability of the food waste may be lowered.

Accordingly, the output rotation speed of the speed reducer 120 may be configured to be rotated 2 to 3 times per minute, but the rotation speed may be configured to be adjustable by a user's operation.

A blower (blower) 130 sucks and discharges outside air, and is installed at a lower side of the driving unit 100 and is operated by application of power.

The heater 140 heats the air discharged from the blower 130 to a predetermined temperature and discharges the air, and is installed on the inner bottom surface of the driving unit 100.

Here, the survival and growth environment of microorganisms is affected by temperature and humidity. That is, the microorganisms have different survival periods depending on the temperature and the humidity, and the environment in which the microorganisms can grow can be changed. Temperature and humidity also affect the kinds of microorganisms.

The general microbial environment should meet the conditions of temperature 60 ~ 70 ℃ and humidity 30 ~ 70%.

The rotary joint 150 supplies the heated air discharged from the heater 140 to the rotating shaft 240 and supplies the heated air discharged from the heater 140 to the rotating rotating shaft 240 .

4 is a plan view of a driving unit applied to a garbage disposal apparatus using microorganisms according to the present invention.

In FIG. 4, the drive motor 110, the speed reducer 120, and the rotary joint 150 are omitted.

A heater 140 is installed on the inner bottom surface of the driving unit 100 to heat the air supplied from the blower 130.

The microorganisms are affected by the temperature. In the method in which the heater for providing the living environment of the microorganisms is installed on the wall where the microorganisms exist and the wall is directly heated, the wall itself is maintained at a high temperature at which the microorganisms can not survive On the other hand, the central portion of the microorganism is maintained at a low temperature at which microorganisms are hard to act, which may cause the microorganisms not to survive uniformly throughout the treatment portion.

Therefore, in the present invention, by supplying the heated air through the indirect heating system to the treatment unit, it is possible to provide a condition in which the microorganisms can survive or proliferate uniformly throughout the treatment unit.

Next, the processing unit 200 installed on the upper part of the driving unit 100 will be described.

The treatment unit 200 is provided with an environment for survival of the power and microorganisms transmitted from the driving unit 100 and destroys the food waste. The treatment unit 200 includes an inner wall 210, an outer wall 220, an induction pipe 230, A nozzle 250, an air nozzle 260, an inlet door 270, and an outlet door 280. As shown in FIG.

The processing unit 100 is constructed of a double wall structure including an inner wall 210 and an outer wall 220. Food waste is accommodated in the inner wall 210 and the outer wall 220 is spaced apart from the inner wall 210 by a predetermined distance .

At this time, a heat insulating material for preventing heat transmission may be installed between the inner wall 210 and the outer wall 220.

The inner wall 210 and the outer wall 220 may be formed of STS material having high corrosion resistance in order to prevent corrosion due to contact with water, sodium or the like contained in food waste, more preferably STS 304 material ≪ / RTI >

The induction pipe 230 is installed between the inner wall 210 and the outer wall 220 to introduce gas generated from the inner side of the inner wall 210 to the heater 140. One end of the induction pipe 230 is connected to the inner wall 210 And the other side is connected to the heater 140. The heater 140 is connected to the heater 140 at a predetermined temperature.

The inside of the inner wall 210 is maintained at a temperature of 60 to 70 ° C which is the temperature at which the microorganisms decompose the food waste. The temperature of the air transferred through the induction pipe 230 is maintained at 40 to 50 ° C And is mixed with the air supplied to the blower 130 and heated by the heater 140.

That is, when the heater 140 is heated by introducing air at an external normal temperature (about 20 ° C or so), a large amount of heat is required. However, if the heater 140 is heated to a temperature relatively higher than the normal temperature, It is possible to save electric energy.

The rotating shaft 240 is installed in the center of the inner wall 210 in a vertical direction and has an empty through hole 241. The rotating shaft 240 is rotated by receiving the rotating force of the driving motor 110, Bearings may be provided on each of the upper and lower portions.

The screw 250 is installed in the spiral direction on the rotary shaft 240 and rotates by the rotation of the rotary shaft 240 to perform the function of transferring the lower food waste to the upper part while mixing the food waste.

A plurality of air nozzles 260 are provided in the circumferential direction on the rotary shaft 240, and a plurality of air nozzles 260 are arranged in the vertical direction.

That is, the air nozzle 260 discharges the air introduced into the inner through-hole 241 of the rotating shaft 240 into the space of the inner wall 210.

5 is a cross-sectional view of an air nozzle applied to a food garbage disposal apparatus using microorganisms according to the present invention.

5, the air nozzle 260 includes a nozzle body 261 installed to receive the through-hole of the rotary shaft, and a nozzle hole 262 formed downwardly inclined on the nozzle body 261 .

Here, the nozzle hole 262 is formed to be downwardly inclined so that the heated air is discharged downward, and the heated air discharged downward penetrates into the food garbage and the environment where aerobic microorganisms can survive and multiply . In addition, since the nozzle hole 262 is formed in a downward sloped shape, the inserted food waste and the food waste raised by the screw 250 can be prevented from falling, thereby preventing the nozzle hole from being blocked.

At this time, the downward inclination angle of the nozzle hole 262 may be in the range of 30 to 60 °, preferably in the range of 40 to 50 °.

In addition, when the downward inclination angle of the nozzle hole 262 is formed to be less than 30 degrees, the nozzle hole 262 can be blocked by falling food waste, and when it exceeds 60 degrees, There may be a disadvantage that can occur.

The inlet door 270 is formed on the upper portion of the processing unit 100 so that food waste and microorganisms are introduced. The discharge door 280 is formed on the lower side of the processing unit 100, And the like.

In such a configuration, the microorganisms injected into the treatment unit 100 may be composed of a complex microorganism that can dissolve and extinguish the food garbage as the food garbage is consumed in the wood.

These types of complex microorganisms can be divided into microorganisms decomposing proteins and lipids, acid-producing microorganisms, microorganisms decomposing organic compounds and refractory substances, and nitrifying microorganisms.

Microorganisms that degrade proteins and lipids include Bacillus sp., An acid-producing microorganism that oxidizes hydrogen sulfide (H ₂ S) or sulfur (S) to remove offensive odors. THIOBACILLUSSP., ALCALIGENES SP., And FLAVOBACTRIUM SP.).

In addition, it is a microorganism that decomposes hydrates and organic compounds and refractory substances of ABS, HEXANE, PHENOL, HYDROCARBON, PURPLE NON-SULFUR BACTERIA, PSEUDOMONAS SP. NITROBACTERSP., NITROCOCCUS SP.) Are present as the nitrifying microorganisms. Examples of the nitrifying bacteria include NITROSOMONAS SP., NITROBACTERSP., NITROCOCCUS SP. do.

In the present invention, the above-mentioned microorganisms can be mixed and used.

The microorganisms may be added to the treatment unit 200 in a state of being attached to the wood, and the kinds of wood may be oak, bamboo, paulownia or the like.

At this time, the larger the size of the wood, the greater the efficiency of treating food waste as the number of attached microorganisms increases, but it is made up of wood having a predetermined volume, which is 1/100 to 5/100 of the capacity of the treatment section 200 However, the size of the screw 250 may be varied depending on the capacity of the processing unit 100 and the size of the screw 250.

According to the present invention, it is possible to process a large amount of food waste in comparison with a food waste disposal apparatus of the same capacity having a vertical structure and having a horizontal structure, and it is possible to increase utilization of installed space.

In addition, since it provides optimal conditions for the growth and activity of microorganisms decomposing food waste, there is an advantage that cost for operation of food waste can be reduced.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: driving part 110: driving motor
120: Reducer 130: Blower
140: heater 150: rotary joint
160: wheel 200:
210: inner wall 220: outer wall
230: Guide tube 240: Rotary shaft
250: screw 260: air nozzle
261: nozzle body 262: nozzle ball
270: Inlet door 280: Outlet door

Claims (5)

1. A food garbage disposal apparatus using microorganisms comprising a driving unit including a driving motor and a heater, and a processing unit disposed on an upper portion of the driving unit for decomposing the inputted food garbage,
Wherein,
An inner wall for receiving food waste;
An outer wall disposed at a predetermined distance from the inner wall;
An induction pipe installed between the inner wall and the outer wall to introduce a gas generated from the inner side of the inner wall into the heater, the induction pipe having one side connected to the upper side of the inner wall and the other side connected to the heater;
A rotating shaft installed in a central portion of the inner wall in a vertical direction and passing through the inside thereof and rotated by receiving a rotational force of the driving motor;
A screw installed on the rotating shaft in a spiral direction; And
A plurality of air nozzles arranged in the circumferential direction on the rotating shaft, the air nozzles being arranged in the vertical direction;
, ≪ / RTI >
The driving unit includes:
A drive motor;
A decelerator for decelerating a rotational force output from the drive motor;
A blower for sucking and discharging outside air;
A heater for heating and discharging the air discharged through the blower and the induction pipe to a predetermined temperature; And
A rotary joint for supplying heated air discharged from the heater to the rotating shaft;
Lt; / RTI >
A wood having a volume of 1/100 to 5/100 of the capacity of the processing unit is selected from oak, bamboo, and paulownia trees in which microorganisms have been propagated,
The air nozzle
A nozzle body installed to receive the through-hole of the rotating shaft; And
A nozzle hole formed in the nozzle body so as to be inclined downward in a range of 40 to 50 degrees;
/ RTI >
Wherein the inside of the inner wall is maintained at a temperature of 60 to 70 캜.
delete The method according to claim 1,
And the output rotation speed of the speed reducer is rotated two to three times per minute. delete delete

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