KR101808952B1 - Food waste treating apparatus - Google Patents

Abstract

The present invention is to provide a food waste treating apparatus which maximizes an effect of decomposing food waste, prevents sludge from remaining in the final processed water, and thus minimizing the discharge of contaminants. The food waste treating apparatus of the present invention comprises: a fermentation tank (100) which enables food waste to be agitated and decomposed by microorganisms; a first tank (200) which is arranged under the fermentation tank (100) to allow water and sludge, generated from the food waste of the fermentation tank (100), to be inserted therein; a second tank (300) comprising a decomposition tank (300a), which allows a mixture of water and sludge in the first tank (200) to be inserted and decomposed therein, and a discharge tank (300b) which is separated from the decomposition tank (300a) by a separation wall (310) and stores processed water obtained as the mixture of the decomposition tank (300a) is filtered by a filter unit (311); and a processed water discharge pump (321) which discharges the processed water, stored in the discharge tank (300b), to the outside.

Description

[0001] Food waste treating apparatus [

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a food waste disposal apparatus, and more particularly, to a food waste disposal apparatus capable of minimizing the discharge amount of sludge during decomposition treatment of food waste.

Conventionally, food wastes have been treated by methods such as landfill or incineration, and some have been processed by processing with feed or fertilizer to make them recyclable. In recent years, however, due to waste of resources and environmental pollution, Incineration is limited, and processing to feed is limited due to the problem of disease occurrence.

Recently, there has been widely used a liquid waste disposal type food waste disposal apparatus in which a microorganism is put into a fermentation tank containing food waste and fed with appropriate temperature, humidity and air (oxygen), and then fermented and discharged as water and carbon dioxide gas.

As a prior art related to such a liquid waste disposal type food garbage disposal apparatus, Registration Utility Model No. 20-0222007 discloses a method of disposing food waste using microorganisms and recycling the treated liquid waste to reduce the amount of water used A device for disposing of food waste is shown.

However, the apparatus for disposing food waste shown in Registration Utility Model No. 20-0222007 has a problem that the waste water in the drainage tank is circulated immediately to the treatment tank by using the circulation pump, so that the food waste is difficult to be decomposed sufficiently.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a food garbage disposal apparatus capable of minimizing the discharge of contaminants by maximizing the decomposition effect of food waste, have.

In order to achieve the above object, the present invention provides a food waste disposal apparatus comprising: a fermentation tank (100) in which food waste is agitated and decomposed by microorganisms; A first tank 200 provided at a lower portion of the fermentation tank 100 so that water and sludge generated from food waste in the fermentation tank 100 are introduced; A decomposition tank 300a into which a mixture of water and sludge in the first tank 200 is introduced and decomposed therein and a decomposition tank 300a which is partitioned by the decomposition tank 300a and the partition 310, A second tank 300 consisting of a discharge tank 300b in which the mixture of filtrate and treated water filtered by the filter unit 311 is stored; And a process water discharge pump 321 for discharging the process water stored in the discharge tank 300b to the outside.

A first water level sensor 210 for measuring the water level of the mixture in the first tank 200 and a second water level sensor 210 provided in the first tank 200 for decomposing the mixture Further comprising a feed pump (220) for feeding to the bath (300a); The conveyance pump 220 may be operated according to the level detected by the first level sensor 210. [

External air may be supplied to the mixture in the decomposition tank 300a.

An air supply pipe (336) for supplying the air is provided; An air pump 420 for supplying compressed air is connected to the upper end of the air supply pipe 336. A lower end of the air supply pipe 336 is formed with a plurality of holes so as to be submerged in the mixture, .

One side of the bottom of the decomposition tank forming the outer body of the decomposition tank 300a is formed with an inclined portion 303c having an inclined shape and the sludge in the decomposition tank 300a is inclined with respect to the inclined portion 303c And may be gathered in the lower space near the lower end portion to the slope portion 303c.

An air supply pipe 336 is provided to supply external air to the mixture in the decomposition tank 300a and the air supply pipe 336 descends from the upper part of the decomposition tank 300a to the lower part of the decomposition tank 300a, 303c, and the lower end thereof is located near the bottom of the decomposition tank 300a.

The lower part of the partition 310 isolates the lower space of the decomposition tank 300a and the discharge tank 300b from each other and the filter part 311 is provided on the upper part of the partition 310; The filter unit 311 may be vertically erected so that the water in the decomposition tank 300a may pass through the filter unit 311 in the horizontal direction and may be introduced into the exhaust tank 300b .

A water splash part 324 for spraying water in a downward direction toward the filter part 311 is provided on the upper part of the discharge tank 300b and the filter part 311 And the sprayed water may be introduced into the decomposition bath 300a.

A plurality of rows of spray holes 324a may be formed in the water distributing portion 324 so that the water sprayed from the water distributing portion 324 is sprayed from the upper portion to the lower portion of the filter portion 311. [

A second water level sensor 337 for detecting the water level of the decomposition tank 300a is provided; At least a part of the filter unit 311 is immersed in the water when the water level is detected by the second water level sensor 337 and the process water discharge pump 321 may be operated to discharge the treated water to the outside.

If the water level detected by the second water level sensor 337 is lower than the set value and lower than the lower end of the filter unit 311, water may be sprayed from the water distributing unit 324.

A circulation pump 331 for circulating the mixture inside the decomposition tank 300a into the fermentation tank 100 may be provided at a lower side of the decomposition tank 300a.

One side of the bottom of the tank body surrounding the decomposition tank 300a is formed with an inclined portion 303c having an inclined shape and the sludge inside the decomposition tank 300a descends along the inclined portion 303c, And is collected in a lower space near the lower end of the slope portion 303c; The circulation pump 331 may be provided in the lower space.

A sludge discharge pump 334 for discharging the collected sludge to a lower position than the circulation pump 331 may be provided in the decomposition tank 300a.

A plurality of cutters 650 for crushing sludge are provided at an inlet side of the circulation pump 331 through which the mixture flows, and sludge pulverized by the cutter 650 is introduced into the fermentation tank 100 have.

The second tank 300 includes a tank body inner side part 302 provided at a position close to the fermentation tank 100 and a tank body outer side part 302 provided opposite to the tank body inner side part 302 at a position spaced outwardly from the tank body inner side part 302. [ (301) and a tank body circumference portion (303) connecting the outer periphery of the tank body (301) and the periphery of the tank body inner side portion (302); An opening portion 304 in which a part of the inner side of the tank body 302 is cut is formed so that the inner space of the second tank 300 is in contact with the outer surface of the fermentation tank 100; A communication hole 105 is formed in the fermentation tank 100 in contact with the inner space of the second tank 300 so that when the second water level sensor 337 detects the water level of the second tank 300, The mixture of the decomposition tank 300a may be introduced into the fermentation tank 100 through the hole 105. [

An air supply pipe (336) for supplying the air is provided; The lower end of the air supply pipe 336 may be located near the bottom of the decomposition tank 300a.

According to the present invention, the food waste is decomposed while passing through the decomposition tank of the fermentation tank, the first tank, and the second tank sequentially, and then filtered by the filter unit and then discharged through the discharge tank. The final treated water can be discharged to the outside in a clean state.

The size of the food waste disposal apparatus can be minimized by disposing a first tank at a lower portion of the fermentation tank and a second tank at a side portion of the fermentation tank, The food waste can be completely decomposed as it goes through several stages.

In addition, since the decomposing tank and the discharge tank are provided on both sides of the vertically installed filter unit, even if the water level rises to the uppermost level of the filter unit, only clear water filtered by the reverse osmosis system can be discharged without clogging the filter unit. Therefore, the apparatus can be continuously operated without clogging the filter unit.

In addition, since the water splashing portion for automatically cleaning the filter portion is provided, it is possible to prevent the occurrence of faults due to clogging of the filter portion. At the same time, the water sprayed from the water splashing part is introduced into the decomposition tank, thereby optimizing the microbial habitat condition of the decomposition tank, thereby improving the decomposition performance of the food waste.

Further, the bottom of the decomposition tank is inclined, and the pump is provided on the lower side of the inclined portion, so that the discharge of the sludge can be smoothly performed.

In addition, air and water are supplied toward the bottom of the decomposition tank to optimize habitat conditions of the microorganisms, thereby maximizing the decomposition effect.

1 is an external perspective view of a garbage disposal apparatus of the present invention
Fig. 2 is a cross-sectional perspective view along the line AA in Fig.
Fig. 3 is a cross-sectional perspective view along the line BB in Fig.
4 is a cross-sectional perspective view along the CC line of Fig.
Fig. 5 is a perspective view showing a state in which the outer cover is removed from the food garbage disposal apparatus of Fig. 1; Fig.
FIG. 6 is a perspective view showing a state in which the second tank is separated from the side surface of the fermentation tank in the state of FIG. 5;
7 is a perspective view showing the internal structure of the second tank in the food garbage disposal apparatus of FIG.
8 is a view showing a state in which a cutter is provided inside a circulation pump according to the present invention;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

A food garbage disposal apparatus according to an embodiment of the present invention will be described with reference to FIGS. 1 to 7. FIG.

Referring to FIG. 1, the food waste disposal apparatus 1 of the present invention is provided with a fermentation tank 100, an outer cover 10 surrounding the outer sides of the first tank 200 and the second tank 300. The outer cover 10 has a substantially rectangular parallelepiped shape. The upper surface of the outer cover 10 is rotatably connected to a hinge (not shown) on one side thereof, and an inlet 20 for providing a space for introducing the food garbage Respectively. An operation panel 30 having a plurality of operation buttons for operating the overall operation of the food waste disposal apparatus 1 is provided at the upper end of the outer cover 10. In addition, an RFID reader (not shown) may be provided to read the information input to the RFID card when the user contacts the RFID card and detect the user's personal information.

Referring to FIGS. 4 and 5, agitation means 150 for agitating the food waste in the fermentation tank 100 is provided. The stirring means 150 includes a rotating shaft 151 provided in the inner space of the fermentation tank 100 in which the food waste is accommodated, the rotating shaft 151 being spaced apart from each other along the longitudinal direction of the rotating shaft 151, A stirring blade 153 coupled to an end of the connecting member 152 and a motor 155 for providing a driving force to the rotating shaft 151. [ The driving force of the motor 155 is transmitted to the rotating shaft 151 through a belt (not shown) and a gear 156.

In the fermentation tank 100, a biostar (not shown) for the aerobic microorganism to biodegrade food waste may be disposed.

The food waste contained in the fermentation tank 100 is agitated by rotation of the rotating shaft 151, the connecting member 152 and the stirring vane 153 driven by the motor 155 and is biodegraded by microorganisms to be biodegraded . By such agitation and biodegradation, food waste is separated into water, decomposition products and sludge in undifferentiated state.

A plurality of holes (not shown) are formed on the bottom surface of the fermentation tank 100 to limit the size of the sludge falling into the first tank 200 located below the fermentation tank 100. Therefore, in the fermentation tank 100, a mixture of water and decomposition products generated from food waste and a relatively small-sized sludge fall through the holes into the first tank 200, and the sludge, which is larger than the size of the holes, The biodegradation may be performed in the fermentation tank 100 until it is decomposed to a size smaller than the size of the first tank 200.

In the first tank 200, water and sludge (hereinafter referred to as 'mixture') passing through the holes of the fermentation tank 100 are stored. The mixture stored in the first tank 200 is transferred to the decomposition tank 300a of the second tank 300 by the transfer pump 220 provided in the first tank 200. [ A transfer pipe 410 is connected between the transfer pump 220 and the decomposition tank 300a. The transfer pipe 410 is connected to the discharge port of the transfer pump 220 through the first tank 200.

The transfer pump 220 consists of an underwater pump which operates in a state of being immersed in the mixture.

In the first tank 200, a first water level sensor 210 for detecting the water level is provided. The operation of the transfer pump 220 can be controlled based on the water level detected by the first water level sensor 210.

It takes some time until the mixture is introduced into the first tank 200 and transferred to the second tank 300 by the transfer pump 220. Therefore, while the mixture remains in the first tank 200, decomposition is continued, and the amount of food waste in the undisrupted state is reduced to be transferred to the second tank 300.

The second tank 300 will be described with reference to Figs. 2, 3, 6 and 7. Fig.

The second tank 300 is located at the side of the decomposition tank 100 and has a predetermined thickness in the lateral direction, and has a flat cross-section viewed in a lateral direction (direction A in FIG. 4). Here, the lateral direction means the direction in which the second tank 300 is provided at the center of the food waste disposal apparatus 1 and the direction opposite thereto.

A decomposition tank 300a in which the mixture transferred from the first tank 200 is stored is provided in the second tank 300 and a decomposition tank 300b is disposed in the filter unit 311 after decomposition in the decomposition tank 300a. And a discharge chamber 300b for discharging the filtered water to the clean state is formed in a state partitioned by the partition 310. [

An air supply pipe 336 for supplying external air to the stored mixture is provided in the decomposition tank 300a and compressed air is supplied to the air supply pipe 336 at an upper end of the air supply pipe 336 An air pump 420 is connected. When air is supplied to the mixture and water is supplied as described later, the inside of the decomposition tank 300a becomes an aerobic condition and optimal decomposition conditions are formed, so that decomposition is performed again by microorganisms. The air pump 420 is provided on the upper surface 303a (FIG. 6) of the tank body peripheral portion 303.

In the mixture stored in the decomposing tank 300a, the sludge having a high specific gravity is submerged in the lower portion, and water and decomposition products relatively smaller in specific gravity than the sludge are floated on the upper side of the sludge. Therefore, the lower part of the air supply pipe 336 is immersed in the mixture, and the lower end part 336a thereof is positioned near the bottom of the decomposition tank 300a in which the sludge is collected, thereby improving the decomposition rate of the sludge.

The air supply pipe 336 descends from the upper part of the decomposition tank 300a to the lower side and the lower end 336a of the air supply pipe 336 is connected to the decomposition tank 300a along the inclined part 303c, Toward the lower space near the bottom of the bottom wall. Therefore, the air is injected into the space where the sludge is concentrated.

A plurality of holes (not shown) may be formed in the lower end 336a of the air supply pipe 336. [ The air flowing inside the air supply pipe 336 is discharged in the form of minute bubbles when discharged through the plurality of holes. When air is discharged in the form of fine bubbles, the contact area between water and air is widened, and the oxygen supply amount to the sludge is increased, so that the decomposition rate of the sludge can be further improved.

6, the decomposition tank body constituting the outer body of the decomposition tank 300a includes a tank body outer side portion 301 and a tank body inner side portion 302, which are disposed so as to face each other at one side of the food waste disposal apparatus 1, 303a, 303b, 303c, 303d, and 303e for connecting the outer sides of the tank body 301 and the sides of the tank body inner side 302, respectively.

The tank body inner side 302 is located near the fermentation tank 100 and the tank body outer side 301 is located at a position spaced outwardly.

An opening portion 304 in which a part of the inner side of the tank body 302 is cut is formed so that the inner space of the second tank 300 is brought into contact with the outer surface of the fermentation tank 100. A communicating hole 105 is formed in the body 101 of the fermenter 100 in contact with the inner space of the second tank 300. Therefore, when the second water level sensor 337 for detecting the water level of the second tank 300 fails, the mixture of the decomposition tank 300a flows into the fermentation tank 100 through the communication hole 105, It is possible to prevent the mixture in the decomposition tank 300a from overflowing to the outside. Further, when the mixture of the decomposition tank 300a flows into the fermentation tank 100, a large amount of microorganisms contained in the mixture of the decomposition tank 300a is mixed with the food waste of the fermentation tank 100, .

An inclined portion 303c having an inclined shape is formed at a lower side of one side of the disassembling body. The sludge in the decomposition tank 300a descends along the inclined portion 303c and collects in the lower space near the lower end of the inclined portion 303c.

In the lower space, a circulation pump 331 and a sludge discharge pump 334 are provided. The circulation pump 331 and the sludge discharge pump 334 are composed of submersible pumps operated in a state of being immersed in the mixture.

The circulation pump 331 circulates a part of the mixture in the decomposition tank 300a into the fermentation tank 100. Since a large amount of microorganisms exist in the mixture in the decomposition tank 300a, decomposition of the food waste in the fermentation tank 100 is accelerated by the mixture circulated in the fermentation tank 100. [ Among the mixture in the decomposition tank 300a, there are many microorganisms in the sludge. Therefore, it is preferable that the circulation pump 331 is located in the lower space near the lower end of the inclined portion 303c where the sludge is gathered. The circulation pump 331 and the fermentation tank 100 are connected by a circulation pipe 333. The circulation pump 331 is supported by a circulation pump supporter 332 so that its lower end is spaced upward from the bottom of the decomposition tank 300a.

The sludge discharge pump 334 discharges the sludge collected at the bottom of the decomposition tank 300a to the outside. Therefore, the sludge discharge pump 334 is provided near the bottom of the decomposition tank 300a, which is lower than the circulation pump 331. A sludge discharge pipe 335 is connected to the sludge discharge pump 334, and the sludge is discharged to the outside through the sludge discharge pipe 335.

A second water level sensor 337 for detecting the water level of the mixture is provided in the decomposition tank 300a. The second water level sensor 337 is composed of three electrodes and can be configured such that a full water level or a low water level is detected.

The partition 310 separating the decomposition tank 300a and the discharge tank 300b is divided into an upper portion and a lower portion. The lower part of the partition wall 310 isolates the lower space of the decomposition tank 300a and the discharge tank 300b from each other so that the inner space of the decomposition tank 300a and the inner space of the discharge tank 300b communicate with each other Do not. A plurality of openings opened in a lattice shape are formed in the upper part of the partition 310, and the filter unit 311 blocks the openings. The filter unit 311 is formed of a mesh having fine holes. Therefore, the water in the decomposition tank 300a flows into the discharge tank 300b through the fine holes, and the foreign matter is filtered by the filter unit 311. [

The partition 310 and the filter unit 311 are vertically installed. Accordingly, when the lower end of the filter unit 311 is immersed in the mixture as the water level in the decomposition tank 300a gradually increases, the filtered clear water passes through the filter unit 311 in the horizontal direction, ≪ / RTI > Thereafter, the water level of the decomposition tank 300a and the discharge tank 300b are kept at substantially the same level, and the water level is continuously raised. One side of the filter unit 311 is immersed in the mixture of the decomposition tank 300a, And the other side of the discharge port 311 is submerged in the treated water in the discharge tank 300b. In this state, since the concentration of the mixture in the decomposition tank 300a is higher than the concentration of the treated water in the discharge tank 300b, only the clear water component in the mixture in the decomposition tank 300a passes through the filter unit 311 And the sludge component, which is the remaining foreign substance, is trapped in the filter unit 311 and remains in the decomposition tank 300a. According to such a structure, as the water level of the mixture rises, foreign matter is sequentially filtered from the lower portion of the filter portion 311 to the upper portion thereof, thereby reducing clogging of the filter portion 311.

The treated water stored in the discharge tank 300b is discharged to the outside through the treated water discharge pipe 323 by the treated water discharge pump 321. [ In this case, the treated water discharge pump 321 may be configured to operate when the first water level sensor 337 detects the full water level. That is, when the water level is detected by the second water level sensor 337, most of the filter portion 311 is immersed in water, and when the water level is lower than the filter portion 311, (321) is operated to discharge the treated water to the outside. The treated water discharge pump 321 is installed on the discharge pump support 322.

An upper part of the discharge tank 300b is provided with a water distributing part 324 for spraying water downward toward the filter part 311 to clean the filter part 311. The water splashing section 324 may be configured to spray water when the water level of the decomposition tank 300a and the discharge tank 300b is lower than the lower end of the filter section 311. The water level is higher than the second water level sensor 337 ).

The water distributing unit 324 is connected to a water supply pipe 325 for supplying water from the outside.

The water jetted from the water splashing section 324 collides with the filter section 311 and foreign substances attached to one surface of the filter section 311 on the side of the decomposition tank 300a fall and fall on the mixture of the decomposition tank 300a . At the same time, a part of the sprayed water falls onto the discharge tank 300b by collision with the filter unit 311. [

When the foreign substance in the filter unit 311 is dropped, water flows into the internal space of the decomposition tank 300a through the fine holes of the filter unit 311. The decomposition tank 300a continues to be decomposed by the microorganisms. If the mixture in the decomposition tank 300a is too high, the microorganism will not be suitable as a habitat condition. Therefore, when the water sprayed from the water dispersing unit 324 passes through the filter unit 311 and flows into the decomposing tank 300a in a state where the water level in the disassembling tank 300a is low, the habitat condition of the microorganisms can be optimized .

A plurality of rows of spray holes 324a may be formed in the water distributing portion 324. In addition, the spraying hole 324a of the water distributing portion 324 is formed so that the water sprayed from the water distributing portion 324 is inclined downward. Accordingly, the number of rows of the injection holes 324a and the inclination direction can be set so that the water injected through the plurality of rows of injection holes 324a is injected from the upper portion to the lower portion of the filter portion 311. [

A circulation pump 600 according to another embodiment of the present invention will be described with reference to FIG.

In the circulation pump 600, a rotating shaft 630, a blade 640 coupled to the rotating shaft 630 for feeding the fluid, and a blade 640 coupled to the rotating shaft 630, 650a, 650b, 650c, and 650d for crushing the decomposition product and the sludge while rotating at a mutually spaced position along the direction of flow of water, decomposition products and sludge. An inlet 610 is formed at one side of the circulation pump 600 and an outlet 620 is formed at the other side.

The cutter 650 is provided at the inlet side of the circulation pump 331 through which the mixture flows. With this configuration, the decomposition product passing through the circulation pump 600 and the sludge mixed with the decomposition product and then introduced into the circulation pump 600 are pulverized again, so that the decomposition of the sludge introduced into the fermentation tank 100 is further promoted .

According to the present invention, the food waste is decomposed while the fermentation tank 100, the first tank 200 and the decomposition tank 300a of the second tank 300 are sequentially passed through the filter unit 311, And then discharged through the discharge tank 300b. Therefore, it is possible to induce complete decomposition of the food waste, thereby discharging the final treated water to the outside in a clean state.

1: food waste disposal apparatus 10: outer cover
20: input port 30: operation panel
100: Fermentation tank 101: Body part
105: communicating hole 150: stirring means
151: rotating shaft 152: connecting member
153: stirring wing 155: motor
200: first tank 210: first water level sensor
220: Transfer pump 300: Second tank
300a: decomposition tank 300b: exhaust tank
301: outer side of the tank body 302: inner side of the tank body
303: tank body circumference 304: opening
310: partition wall 311: filter part
321: process water discharge pump 322: discharge pump support
323: process water discharge pipe 324:
324a: injection hole 331: circulation pump
332: circulation pump support 333: circulation pipe
334: Sludge discharge pump 335: Sludge discharge pipe
336: air supply pipe 337: second water level sensor
410: transfer pipe 420: air pump
600: circulation pump 630: rotating shaft
640: blade 650: cutter

Claims (17)

A fermenter (100) in which food waste is agitated and decomposed by microorganisms;
A first tank 200 provided at a lower portion of the fermentation tank 100 so that water and sludge generated from food waste in the fermentation tank 100 are introduced;
A decomposition tank 300a into which a mixture of water and sludge in the first tank 200 is introduced and decomposed therein and a decomposition tank 300a which is partitioned by the decomposition tank 300a and the partition 310, A second tank 300 consisting of a discharge tank 300b in which the mixture of filtrate and treated water filtered by the filter unit 311 is stored;
A process water discharge pump 321 for discharging the process water stored in the discharge tank 300b to the outside;
Lt; / RTI >
The lower part of the partition 310 isolates the lower space of the decomposition tank 300a and the discharge tank 300b from each other and the filter part 311 is provided on the upper part of the partition 310;
The filter unit 311 is vertically erected so that the water in the decomposition tank 300a passes through the filter unit 311 in the horizontal direction and then flows into the discharge tank 300b.
A water splash part 324 for spraying water in a downward direction toward the filter part 311 is provided on the upper part of the discharge tank 300b and the filter part 311 And the waste water is introduced into the decomposition tank 300a, The method according to claim 1,
A first water level sensor 210 for measuring the water level of the mixture in the first tank 200 and a second water level sensor 210 provided in the first tank 200 for decomposing the mixture Further comprising a feed pump (220) for feeding to the bath (300a);
Wherein the feed pump (220) is operated according to a level detected by the first level sensor (210) The method according to claim 1,
Wherein external air is supplied to the mixture in the decomposition tank (300a) The method of claim 3,
An air supply pipe (336) for supplying the air is provided;
An air pump 420 for supplying compressed air is connected to the upper end of the air supply pipe 336. A lower end of the air supply pipe 336 is formed with a plurality of holes Food Waste Disposal System The method according to claim 1,
One side of the bottom of the decomposition tank forming the outer body of the decomposition tank 300a is formed with an inclined portion 303c having an inclined shape and the sludge in the decomposition tank 300a is inclined with respect to the inclined portion 303c And is collected in a lower space in the vicinity of the lower end portion in the inclined portion (303c) 6. The method of claim 5,
An air supply pipe 336 is provided to supply external air to the mixture in the decomposition tank 300a and the air supply pipe 336 descends from the upper part of the decomposition tank 300a to the lower part of the decomposition tank 300a, And the lower end thereof is positioned in the vicinity of the bottom of the decomposition tank (300a). ≪ RTI ID = 0.0 > delete delete The method according to claim 1,
Wherein a plurality of rows of spray holes (324a) are formed in the water dispersing part (324) so that the water sprayed from the water distributing part (324) is sprayed from the upper part to the lower part of the filter part (311) The method according to claim 1,
A second water level sensor 337 for detecting the water level of the decomposition tank 300a is provided;
At least a part of the filter unit 311 is immersed in the water when the water level is detected by the second water level sensor 337 and the process water discharge pump 321) is operated to discharge the treated water to the outside. The food garbage disposal apparatus 11. The method of claim 10,
Water is sprayed from the water dispersing section (324) when the water level detected by the second water level sensor (337) is lower than a set value and lower than the lower end of the filter section (311) The method according to claim 1,
And a circulation pump (331) for circulating the mixture inside the decomposition tank (300a) to the inside of the fermentation tank (100) is provided at a lower side of the decomposition tank (300a) 13. The method of claim 12,
One side of the bottom of the tank body surrounding the decomposition tank 300a is formed with an inclined portion 303c having an inclined shape and the sludge inside the decomposition tank 300a descends along the inclined portion 303c, And is collected in a lower space near the lower end of the slope portion 303c;
Wherein the circulation pump (331) is provided in the lower space 14. The method of claim 13,
And a sludge discharge pump (334) for discharging sludge collected at a lower position than the circulation pump (331) to the outside is provided in the decomposition tank (300a) 13. The method of claim 12,
A plurality of cutters 650 for crushing sludge are provided at an inlet side of the circulation pump 331 through which the mixture is introduced and sludge pulverized by the cutter 650 is introduced into the fermentation tank 100 Food garbage disposal system The method according to claim 1,
The second tank 300 includes a tank body inner side part 302 provided at a position close to the fermentation tank 100 and a tank body outer side part 302 provided opposite to the tank body inner side part 302 at a position spaced outward from the tank body inner side part 302. [ (301) and a tank body circumference portion (303) connecting the outer periphery of the tank body (301) and the periphery of the tank body inner side portion (302);
An opening portion 304 in which a part of the inner side of the tank body 302 is cut is formed so that the inner space of the second tank 300 is in contact with the outer surface of the fermentation tank 100;
A communication hole 105 is formed in the fermentation tank 100 in contact with the inner space of the second tank 300 so that when the second water level sensor 337 detecting the water level of the second tank 300 is in failure, Wherein a mixture of the decomposition tank (300a) is introduced into the fermentation tank (100) through a hole (105) The method of claim 3,
An air supply pipe (336) for supplying the air is provided;
Wherein the lower end of the air supply pipe (336) is positioned near the bottom of the decomposition tank (300a)

Images