KR19990039464A - Food waste extinction processing device using microorganisms - Google Patents

Abstract

The present invention relates to an apparatus for sanitizing and extinguishing food waste in a short time by using microorganisms (mainly aerobic bacteria), and in detail, a suitable amount of biochips and food waste in a treatment tank 35 ℃ suitable for fermentation Maintain a temperature and moisture of ~ 50 ℃, and also put a large amount of air into the treatment tank by using a blowing means or bubbling means so that the aerobic microorganisms that treat food waste while enjoying the air, and proliferate vigorously, In addition, the microorganisms and food wastes inhabiting the biochip are agitated at an appropriate time interval to effectively contact the air, and the air is supplied through a stirring rod to effectively access the air to the microorganisms, so that the aerobic microorganisms in a more pleasant environment By inducing vigorous division and proliferation Which will greatly improve the processing efficiency of the destruction of food waste.

Description

Food waste extinction processing device using microorganisms.

The present invention relates to an apparatus for extinguishing food waste by extinguishing food waste in a short time using microorganisms (mainly aerobic bacteria), and in detail, placing a biochip in a treatment tank while maintaining a proper temperature of 35 ° C to 50 ° C. Stirring at intervals and agitation blades supply a large amount of oxygen to create an environment where aerobic microorganisms can live more comfortably and actively divide, thereby increasing the growth rate (culture) of aerobic microorganisms and greatly improving the efficiency of extinction of food waste. It is.

The main sources of food waste are restaurants, catering establishments, and homes, which account for more than 90% of the total generation, and vegetables account for about 53% of the total generation. Not only that, but it also costs a lot of money to deal with it.

About 90% of these food wastes are disposed of in landfill, and about 2% of the total food waste is recycled in vulnerable ways such as small-scale livestock feeding and composting.

The main problem of food waste is that its moisture content is about 80% or more and it is relatively heavy and easily rots, causing severe odors and sewage due to its own smell and corruption, so it can not be stored for a long time. It is very cumbersome and inconvenient to collect and throw away or dispose of them.

In addition, when left outdoors, dogs, cats, or rats rush into the surroundings, and excessive salt (about 3%) is contained, which is a deterrent to composting.

On the other hand, there are methods for treating food waste, such as landfilling, incineration, grinding, composting and feed, and methanation.In the case of landfill disposal, it is difficult to secure land, odors and harmful gases are generated, and leachate flows out and groundwater is contaminated. It causes secondary environmental pollution, and it takes a lot of money to treat leachate.In case of incineration, the amount of residue is reduced by incineration in the waste incinerator. There are a lot of incineration temperature is lowered, so there is a problem that additional auxiliary fuel must be used.

In addition, in the case of the pulverization treatment method there is a problem that can be used only in a separate sewage treatment facility or installed where the food waste is finely crushed and processed through the sewerage, in the case of the feed treatment method by drying the food waste to feed Odor occurs when dried in such a way, there is a lot of difficulties in the collection and transport, there is a problem in that the economic efficiency due to the problem of mixing of foreign matters and the prevention of corruption.

In addition, in the case of composting treatment method, the waste liquid dehydrated by adding high-temperature hot air and fermentation agent is composted to go through the secondary process of inflowing into the sewage purification plant and the like, and the fermented composting fertilizer is almost deodorized by attaching a deodorizer. Although the deodorized waste liquid does not completely remove odors, secondary pollution occurs when it is stored, and inconvenience of transportation causes considerable inconvenience in urban areas, and high concentrations of salts lead to composting unless the salt concentration is significantly lowered. There is a problem that is almost impossible to use.

In addition, in the case of the methanation treatment method, fermentation of food waste at high temperature to use oxidized methane gas as a fuel source, it is expensive to install, and a certain amount of food waste should be put in daily, and waste water has to be removed from time to time. It is accompanied by low cost and low economy.

Meanwhile, certain types of wood are processed into finely-sized sawdust, and then the physically processed bio chips and food waste are mixed at a reasonable rate, and the next fermentation conditions are made by supplying the appropriate temperature, moisture and air. There is a food waste disposal method that allows the microorganisms native to the food waste to extinguish and destroy the food waste to sanitize and dispose of the food waste.

Therefore, the present invention is a method of extinguishing and extinguishing food waste by using the microorganisms, by increasing the growth rate (culture) of aerobic and microorganisms by creating an environment in which microorganisms are more vigorous and can divide well. It is an object of the present invention to provide a food waste disposal treatment device that greatly improves the waste disposal efficiency.

In addition, aerobic microorganisms that like oxygen and anaerobic bacteria that do not like oxygen grow in the food waste, and organic matter is eaten in the food waste, so there is no need to put a separate fermentable bacterium when processing the food waste.

In addition, among these microorganisms, especially aerobic microbes that like oxygen eat the organic matter of food waste, a large amount of air is put into the treatment tank by using a blowing means or a bubbling means, so that aerobic microorganisms that like air can proliferate vigorously. In order to effectively contact microorganisms and food waste and air inhabiting biochips, the biochips and food wastes are agitated at appropriate time intervals to supply air evenly, and the air is supplied through a stirring rod to supply air. Makes it more effective to access microorganisms.

A plurality of agitating blades installed at a suitable interval for agitation are installed at an angle with good agitation efficiency while having a low load, and air holes are installed in the agitator rod and the agitating blade to heat the air heated to 35 ° C to 50 ° C with an electric heater. Allow to be fed into the stirring bath.

In addition, by forming a heating space on the bottom of the treatment tank to increase the residence time of the heated exhaust air and to install a temperature switch in the treatment tank to maintain a uniform temperature of the treatment tank.

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

1-an external perspective view of the present invention.

2-cross-sectional configuration of the present invention.

3-Cross-sectional configuration of the present invention.

Figure 4-Appearance perspective view of the stirring blade of the present invention.

5-circuit block diagram of the present invention.

* Explanation of symbols for main parts of the drawings

2: base 4: lid

6: case 8: treatment tank

10 biochip 12 food waste

14: stirring rod 16: stirring blade

18: chain 20: chain gear

22: geared motor 24: air passage

26 air inlet 28

30,50: Electric heater 32: Blowing fan

34,56,58: Temperature switch 36: Hot air blower

40: air distribution space 42: connector

44 exhaust passage 46 filter

48: intake fan 52: deodorizing catalyst material

54: plate heater 60: exhaust fan

62,64: motor 66: lid open / close detection switch

68: power switch 70: power indicator

72: check indicator 74: moisture detector

76: power supply unit 78: spark killer

80 treatment chamber lighting 82 LCD display

The present invention digests (fermented) food waste while actively growing microorganisms parasitic on biochips (sawdust) by supplying and maintaining an environment necessary for the growth and reproduction of microorganisms, that is, temperature, moisture, and air. It is extinguished, and carbon dioxide, odor and water generated while the food waste is extinguished is almost eliminated by using high temperature and deodorizing catalyst material.The waste heat generated when deodorizing is heated to a temperature suitable for fermentation. Focusing on the utilization, Figure 1 is an external perspective view of the present invention, Figure 2 is a cross-sectional configuration of the food waste extinction processing apparatus using the microorganism of the present invention.

A material having excellent chemical resistance and heat resistance inside a case 6 having a pedestal 2 and a lid 4, for example, a biomass in which microorganisms live by installing a treatment tank (fermentation tank: 8) having a relatively high content of metal such as stainless steel. The chip 10 and the food waste 12 to be treated are introduced to be treated, and the stirring rod 14 is horizontally installed at an approximately middle height of the treatment tank 8, and the outer surface of the stirring rod 14 is disposed. In accordance with the treatment capacity, the stirring blades 16 are installed at appropriate numbers and intervals, and one end of the stirring rod 14 protrudes out of the treatment tank 8 as shown in FIG. 3, and then the chain 18 and the chain gear. It is connected to the geared motor 22 by a power transmission means such as 20 to enable the biochip 10 and the food waste 12 to be stirred.

The treatment tank 8 has a structure in which the upper portion is opened to allow the biochip 10 or the food waste 12 or the reaction additive to be introduced, and the planar shape may be diversified into a round shape, a square shape, an elliptical shape, and the like. There will be. In addition, the stirring time is rotated for about 2 minutes at about 2-3 RPM and the biochip 10 and the food waste 12 are stirred in a cycle of stopping about 1 hour so as not to break the fermentation rhythm.

An air passage 24 and an air injection port 26 are formed in the stirring rod 14 and the stirring blade 16, respectively, and the inlet port 28, the heat transfer heater 30, and the air blower are formed at the other end of the stirring rod 14, respectively. The fan 32 and the hot air blower 36 provided with the temperature switch 34 are axially connected so that heated air is supplied to the treatment tank 8 through the stirring blade 16.

In addition, the cross-sectional shape of the stirring blade 16 can be made into the "V" shape as shown in FIG. 4, or the "W" shape which made the stirring amount larger, and the thickness of the stirring blade 16 is bent by stirring load. This does not occur, and the thickness of the space 40 is formed so that the air hole or air can be flowed into the inside, and the air injection port 26 is formed on the rear surface of the stirring blade 16 to prevent clogging of the hole. Do not In addition, the stirring blade 16 is protruded to a length that can almost touch the bottom or sidewall of the treatment tank 8 as shown in FIG. 2 and slightly protrudes to the top of the biochip 10, the biochip 10 And food waste 12 is stirred sufficiently.

The hot air blower 36 and the stirring rod 14 are connected to the connector 42 such as a rotary connector so that the hot air blower 36 does not rotate along the stirring rod 14, and is treated through the air injection hole 26. The heated air supplied to the bath 8 is kept at a constant temperature of 35 ° C. to 50 ° C., which is a temperature suitable for the fermentation condition, by the temperature switch 34 connected to the heat transfer heater 30.

An exhaust path 44 is formed between the case 6 and the treatment tank 8 to discharge the carbon dioxide, odor and water in the food waste 12 decomposed by the action of microorganisms and the fermentation heat. The filter 46 is installed at the inlet of the exhaust passage 44 connected to the treatment tank 8 so that the filter 46 can be detached and attached, and the inside of the treatment tank 8 is located at the inlet side of the exhaust passage 44. Intake fan 48 for sucking carbon dioxide and odor and moisture out of the case 6, and an electric heater for deodorizing and evaporating moisture by heating carbon dioxide and moisture discharged by the intake fan 48 ( 50) and a deodorizing catalyst 52 which completely deodorizes a small amount of odor that could not be deodorized from the electric heater 50 is installed so that clean air is discharged.

The heat transfer heater 50 is electrically connected to the temperature switch 34 installed in the exhaust passage 44 so that the exhaust temperature is maintained at a constant temperature of 250 ° C to 300 ° C so that the discharged moisture and fermentation gas are heated. And the catalyst material 52 is heated and regenerated to a temperature of 300 ° C. to 350 ° C., which is about 50 ° C. higher than the ambient temperature of the exhaust path 44 by the above temperature, so that the catalyst material 52 cannot be deodorized at high temperature. Decomposes chemical radicals of odor molecules and deodorizes them completely.

The catalyst material 52 is formed by coating, depositing, plating, or the like a metal film such as platinum or palladium on the surface of the honeycomb structured ceramic having a plurality of holes formed in the longitudinal direction, and the number of installation is one or the same. Two or more pieces are provided and length is set to about 2 cm-10 cm.

On the other hand, the exhaust passage 44 is formed so as to surround most of the outer surface (outer surface) of the treatment tank 8 to configure a wide contact area with the treatment tank 8, the treatment tank 8 by the exhaust temperature discharged after deodorization ) Is heated, and the plate heater 54 of the plate shape is fixed on the outer surface of the treatment tank 8 at an appropriate angle, interval, and number so as to extend the residence time of the exhausted air to treat waste heat generated in the deodorizing process. The bath 8 is heated to utilize waste heat.

The plate heater 54 is made of a metal material such as stainless steel having excellent chemical resistance and heat resistance as in the treatment tank 8, and the fixed angle is fixed at an angle having no significant influence on the exhaust. In addition, after the temperature switches 56 and 58 are respectively installed in the inner sidewall of the treatment tank 8 and in the discharge pipe 86, the exhaust fan 60 is installed at the outlet of the exhaust path 44 and the discharge pipe 86. The temperature of the treatment tank 8 can be adjusted by connecting to the.

In other words, even if the temperature of the processing tank 8 is raised or lowered too much, the fermentation is stopped or the fermentation efficiency is lowered. Interrupt the rotation of (60).

In addition, a moisture detector 74 for controlling the heat transfer heater 50 and the exhaust fan 60 is provided on the lower side of the treatment tank 8 so that the moisture in the treatment tank 8 is maintained at 40% to 70%. . If the detected moisture in the treatment tank 8 exceeds 70%, the exhaust fan 60 and the heat transfer heater 50 are operated to raise the temperature in the treatment tank 8 and increase the amount of air discharged. ) Is maintained at the temperature required for fermentation, and the water content is reduced.

On the contrary, when the detected moisture is less than 40%, the heat transfer heater 50 is turned off or the amount of heat is reduced to suppress the increase in water, and the amount of air is maintained at 40% to 70% by reducing the amount of air discharged by the exhaust fan 60. To be.

In the present invention, the shape of the intake portion of the exhaust passage 44 in which the heat transfer heater 50 and the deodorizing catalyst material 52 is installed may be variously configured in the shape of a rectangle, a square, a circle, an oval triangle, a polygon, and the like. .

5 is a circuit block diagram of the present invention, the temperature switch 34, 56, 58, the electric heater 30 and the geared motor 22 at the input and output terminals of the central processing unit (CPU) or MICOM (MICOM). Door switch 66, power switch 68, power indicator 70, and check indicator to detect the opening / closing and exhaust fan (48) (60) drive motor (62) (64). 72, a moisture detector 74 installed in the processing tank 8, a power supply unit 76, a spark killer 78 composed of a capacitor and a coil, a processing tank lamp 80, a ground wire 82, and the like, respectively, are connected. , Reference numeral 84 is a drainage network, 88 is a handle, and 90 is a power cord line.

In the present invention, the discharge doors 49 and 51 having the locking means 45 and 47 are installed at one side of the treatment tank 8 and the case 6 so that the biochip 10 at the end of its life can be discharged. In addition, the biochip 10 may be incinerated or used as a feed.

In addition, when the capacity of the treatment tank 8 is large, an integrated ladder may be installed in the front of the case 6, and the ladder may be configured in a fixed type or a folding type, and preferably configured in a folding type.

In addition, it is possible to protect the device of the present invention from rain or snow by installing a pillar that can be disassembled and assembled at the corner of the case 6 so that the roof or the sunshade can be covered on the lid 4.

According to the present invention configured as described above, the food waste 12 and the biochip 10 are disposed in a treatment tank 8 in which a constant temperature of 35 ° C. to 50 ° C. is maintained by opening and closing the lid 4. When the mixture is added at a volume ratio of 4 to 1: 6 and periodically stirred, the microorganisms living in the biochip 10 actively reproduce and process food waste 12 by digesting and fermenting food waste 12. According to the kind of difference may vary somewhat, but the experiments showed that the microbial eats about 99.1% or more of the food waste (12) within 24 hours, so that the food waste (12) almost disappeared.

Since the food contains about 70% or more water, most of the food waste 12 is decomposed into carbon dioxide and water vapor by the action of microorganisms, so that almost no food waste 12 remains after treatment, and therefore, food waste 12 should be discarded. No hassle.

In the present invention, since the intake fan 60 may be overheated and melted due to the high temperature of the heat transfer heater 30, the intake fan 60 is continuously rotated while the power is supplied to protect the intake fan 48, and by the continuous operation of the intake fan 48. The gas and moisture generated in the treatment tank 8 are continuously discharged, the air is smoothly supplied, and excessive rise of the fermentation temperature is prevented.

On the other hand, carbon dioxide, moisture and odor generated during fermentation are discharged out of the case 6 through the exhaust passage 44 and the discharge pipe 86, and the smell and moisture are deodorizing apparatus installed in the exhaust passage 44, that is, heat transfer. Completely deodorized by the heater 30 and the catalyst material 52 and then discharged out of the case 6.

In addition, the stirring blade 16 is rotated for about 2 minutes at 2-3 RPM, and the biochip 10 and the food waste 12 are stirred at a cycle of about 1 hour stop so that they are evenly mixed, and the stirring blade 16 is mixed. Since the air warmed by the heat transfer heater 50 is continuously supplied to the inside of the treatment tank 8 through the blower fan 32, the aerobic microorganisms that like air are actively grown (divided) and collect the food waste 12. Destroy quickly.

The food waste 12 that can be treated in the present invention is organic materials including foods that can be eaten mostly by humans, and synthetic resins or animal bones, cigarette butts, drugs or antibiotics do not mix them because they cause the death of microorganisms. It is not desirable, and tangerine or soybeans, eggs, crabs, shrimp shells, fish and chicken bones, it takes some time to break down.

In addition, the biochip is deformed or crushed by the agitation of the biochip 10, and clogging of cells is caused by the inflow of dead bodies or foreign bodies of naturally-occurring microorganisms, and the lifespan of the biochip 10 is about 6 months. It is about a year, so you only need to replace the biochip 10 once every six months to a year.

As described above, according to the present invention, an environment suitable for the growth and fermentation of microorganisms is formed so that food wastes can be extinguished in a short time, and food wastes containing about 70% or more of moisture are carbon dioxide by the action of microorganisms. Since it is mostly decomposed into water vapor and the like, there is almost no food waste after treatment, and thus it is a very useful invention having the effect of eliminating the trouble such as having to discard food waste.

Claims (7)

In the apparatus for extinguishing and extinguishing food waste using microorganisms (bacteria), a treatment tank (fermentation tank: 8) having an open top is provided inside a case 6 having a pedestal 2 and a lid 4. To feed the biochip 10 where the microorganism resides and the food waste 12 to be treated, and horizontally install the stirring rod 14 at approximately the middle height of the treatment tank 8, A plurality of stirring blades 16 are provided on the outer surface of the 14 and connected to the geared motor 22 by a power transmission means at one end of the stirring rod 14 protruding outward of the treatment tank 8 to provide a biochip ( 10) and the food waste 12 can be stirred, and an exhaust path 44 is formed between the case 6 and the treatment tank 8 to be connected to the outside of the case 6 to process the food waste 12 during the treatment. The generated carbon dioxide, odor and moisture are discharged to the outside of the case (6), and connected to the treatment tank (8). On the inlet side of the exhaust path 44, the filter 46, the intake fan 48 that sucks the carbon dioxide gas, the smell and the moisture inside the treatment tank 8, and the carbon dioxide gas and the water discharged by the intake fan 48 Is heated to a high temperature of 200 ℃ to 300 ℃ to deodorize the odor and evaporate the water, the heat transfer heater 50, and the deodorizing catalyst 52 for completely deodorizing a small amount of odor that could not be deodorized from the heat transfer heater 50 Food waste extinction processing apparatus using a microorganism, characterized in that the clean air is discharged by installing a plurality of dogs or more. The exhaust passage 44 is formed so as to surround most of the outer surface (outer surface) of the treatment tank 8, so as to configure a wide contact area with the treatment tank 8, and to the outer surface of the treatment tank 8 Fixing a plurality of plate heaters (54) by heating waste heat generated in the deodorization process to heat the treatment tank (8) to use the waste heat, characterized in that the waste food waste treatment method using microorganisms. The method according to claim 1, wherein the temperature switch (56, 58) is provided on the inner bottom plate and the inner side wall of the treatment tank (8), and the exhaust fan (60) installed at the outlet of the exhaust path (44) is intermittent. Food waste extinction treatment apparatus using a microorganism, characterized in that the temperature of the treatment tank (8) is adjusted to be close to the fermentation temperature. The method of claim 1, wherein the stirring time is rotated for about 2 minutes at about 2-3 RPM and the biochip 10 and the food waste 12 are stirred at a cycle of about 1 hour so as not to break the fermentation rhythm. Food waste extinguishing processing apparatus using microorganisms. The air inlet 24 and the air injection port 26 are formed in the stirring rod 14 and the stirring blade 16, respectively, and the inlet port 28 and the heat-transfer heater at the other end of the stirring rod 14 are formed. (30) and the blower fan 32 and the hot air blower (36) provided with the temperature switch 34 is axially connected to the connection port 42, the heating air is treated through the air injection port 26 of the stirring blade (16) ( 8) Food waste extinction processing device using a microorganism, characterized in that to be supplied to. The cross-sectional shape of the stirring blade 16 is formed in a "W" shape to increase the stirring capacity, and the air injection port 26 is formed on the rear surface of the stirring blade 16 so that no hole blockage occurs. Garbage extinction processing device using a microorganism characterized in that. The controller of claim 1, wherein the controller absorbs the temperature switches 34, 56, 58, the electric heater 30, and the geared motor 22 to the input and output terminals of the central processing unit (CPU) or MICOM. , Exhaust fan (48) (60) drive motors (62) (64), lid open / close detection switch (66), power switch (68), power indicator (70), inspection indicator (72), treatment tank ( 8) Food and beverages using microorganisms comprising controllers by connecting a moisture detector 74, a power supply unit 76, a spark killer 78 composed of a capacitor and a coil, a treatment tank lamp 80, a ground wire 82, and the like, respectively, installed in the container. Garbage Disposal Equipment.