KR101434485B1 - Food waste disposer of low temperature heating type - Google Patents

Abstract

The present invention relates to a food waste treatment apparatus using a low-temperature heating method. More specifically, the food waste treatment apparatus using the low-temperature heating method comprises a food fermentation tank in which a food waste is placed and fermented; a heater heating the inside of the food fermentation tank and fermenting the food; and a dehumidifier removing moisture of food gas generated from the fermented food. In the present invention, the dehumidifier formed in the food waste treatment apparatus is located inside the food fermentation tank so that a large-volume dehumidifier can be used in the food waste treatment apparatus. Accordingly, a refrigerant circulation pipe formed long and compact can be used inside the dehumidifier to increase the heat exchanging area between a refrigerant flowing in the refrigerant circulation pipe and the food gas, thereby improving the dehumidifying efficiency of the dehumidifier.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a food waste disposal apparatus,

The present invention relates to a low-temperature heating type food waste disposal apparatus, and more particularly, to a disposal apparatus for a food waste disposal apparatus that improves the dehumidification efficiency of moisture contained in a food gas by placing a dehumidifier included in the food waste disposal apparatus in a food fermentation tank, The present invention relates to a food garbage disposal apparatus of a low-temperature heating type, which is capable of preventing the occurrence of environmental pollution and odor due to leakage of food gas, facilitating the maintenance of the dehumidifier, and keeping the heating temperature for treating food garbage low. will be.

Generally, food waste refers to food waste discharged from a restaurant, a home or a group food service station, and logistics waste generated from the process of production, distribution, processing, cooking, etc. of foods, and most of these food waste ingredients Is composed of leachate and water, and accompanies severe odor.

Accordingly, a device capable of treating food waste has been developed and used.

For example, food waste is dried and crushed or crushed or compressed to be buried or incinerated. However, it is difficult to continuously treat food waste continuously in a large quantity, and when food waste is buried or incinerated, water pollution or soil Secondary pollution problems such as pollution or pollution occur.

In addition, although the amount of food waste can be reduced by using a device capable of treating food waste, there is a limitation in reducing food waste by merely performing a simple compression function in which moisture is not completely removed.

As another example, food waste is buried in a landfill, but most of the food waste includes leachate, so that the leachate of the buried food waste is absorbed into the buried soil, which not only accompanies bad odor but also pollutes the soil .

Accordingly, hygienic landfill is constructed in which leachate such as food waste flows to a certain reservoir by installing a catchment on the bottom surface. However, since leachate flows through the embankment around the aquarium and flows into nearby rivers and the like, Pollution causing pollution occurs, and food waste is directly discarded in a river or mountainous area other than a landfill, environmental pollution is further increased.

In addition, currently, there is a policy to compost, feed, or fuelize the food waste so that it can be used as a resource. However, when food waste is put into a composting container for composting and fermented for composting, And heavy metals are contained therein, which causes harm to plants.

In addition, although a factory has been established to feed food waste for feed conversion, wastewater from feedstuffs of food waste is generated, and the measured values of BOD and COD of these wastewater are 2000 ppm and 1000 ppm, Resulting in increased pollution of the environment.

In addition, household waste containing food waste is put into the incinerator for incineration, but the water content of the plant waste lowers the incineration temperature, and harmful components such as dioxins are generated when incinerated.

Korean Patent Laid-Open Publication No. 10-2006-0000841 discloses another method of treating food waste, which comprises a fermentation tank of a predetermined size into which a predetermined decomposition medium and food waste are charged and fermented, agitation means for agitating the fermentation product in the fermentation tank, And a heating means for appropriately maintaining the temperature inside the fermentation tank, comprising: a discharge port formed at one side of the fermentation tank and discharging the exhaust gas by positive pressure formed in the fermentation tank; An injection port formed at the other side of the fermentation tank so as to be spaced apart from the discharge port and into which a continuously circulating exhaust gas is injected; A circulation pipe communicating between the outlet of the fermentation tank and the injection port and having a predetermined diameter through which exhaust gas is circulated; A condenser installed on the circulation pipe to cool the exhaust gas discharged through the discharge port to condense moisture contained in the exhaust gas; A blower installed in the vicinity of the injection port for forcibly injecting the exhaust gas with moisture removed into the fermentation tank; And an air inlet valve installed on a circulation pipe between the blower and the condenser to receive air in an amount corresponding to the amount of moisture removed from the condenser.

The above-described food garbage disposing apparatus 1 comprises an external circulation duct 11 installed outside of a fermentation tank 3, as shown in Fig. 1, an exhaust gas discharged through an exhaust part 5 of a fermentation tank 3, The water contained in the hot and humid exhaust gas is cooled to below the dew point and condensed, and the condensed condensed water is discharged to the outside.

The hot and humid exhaust gas generated in the fermentation tank 3 is circulated along the external circulation duct 11 and water contained in the exhaust gas is condensed while passing through the condenser 14 and condensed in the condenser 14 Is stored in the water storage tank 18 and then discharged to the outside.

However, the above-mentioned technology has a problem that the dehumidifying efficiency of the dehumidifier is remarkably lowered because the dehumidifier (condenser) for removing moisture contained in the food gas is provided outside, and the heating temperature for fermenting the food is high, There is a problem that power consumption is increased during processing.

In addition, there is a problem that when the food gas flows into the dehumidifier through the pipe, it flows in one direction, causing a blind spot in which heat exchange between the food gas and the refrigerant is not performed, and the food gas flows into the dehumidifier through another pipe There is a problem that the food gas leaks from the connection portion between the dehumidifier and the pipe, thereby causing environmental pollution and odor.

Disclosure of Invention Technical Problem [8] The present invention has been devised to solve the above-mentioned problems, and it is an object of the present invention to provide a dehumidifier for a food waste treatment apparatus, The object of the present invention is to provide a food garbage disposal apparatus of a low temperature heating type which can prevent the occurrence of environmental pollution and odor due to the heating of the dehumidifier and easily maintain the dehumidifier and to keep the heating temperature for treating the food garbage low. have.

The object of the present invention is to provide a food fermentation tank in which food waste is charged and fermented, a heater for fermenting the food by heating the inside of the food fermentation tank, and a dehumidifier for removing moisture of the food gas generated from the fermented food A food garbage disposal apparatus of a low-temperature heating type, wherein the dehumidifier is provided in the food fermentation tank, wherein the dehumidifier has a first food gas outlet through which a food gas heat-exchanged with a refrigerant is discharged, A case having a plurality of upper food gas inflow holes through which gas is introduced; And a refrigerant circulation tube provided inside the case and formed to have a plurality of rows and columns and through which a refrigerant for heat exchange with the food gas introduced through the upper food gas inlet hole flows, A plurality of gas inflow holes are formed from one end of the first food gas outlet to a second end of the first food gas outlet at a predetermined distance along the length of the first food gas outlet and gradually increase in size toward the other end. And a controller for controlling the heater according to an internal temperature of the food fermenter to maintain the internal temperature of the food fermenter at a predetermined temperature, ≪ / RTI >
And the other side of the case is opened.
And a side food gas single hole into which the food gas flows is formed on the other side of the case.
And the predetermined temperature is 40 to 50 ° C.

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Further, the outer surface of the refrigerant circulation pipe is provided with heat conductive fins, and the heat conductive fins are formed in a spiral shape along the longitudinal direction.

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Further, the heat transfer fin is rotated inward in a state where one side edge of the heat transfer fin is welded to the refrigerant circulation tube, and then the other side edge is welded.

As described above, the low-temperature-heating food waste disposal apparatus of the present invention allows the dehumidifier having a large volume to be used in the food waste disposal apparatus by placing the dehumidifier included in the food waste disposal apparatus inside the food fermentation tank, It is possible to use a coolant circulation pipe having a long length and a dense shape in the interior of the refrigerant circulation pipe to increase the heat exchanging area between the refrigerant and the food gas flowing through the refrigerant circulation pipe to improve the dehumidification efficiency of the dehumidifier, It is possible to effectively remove the moisture contained in the food.

Further, a plurality of upper food gas inflow holes are formed in the dehumidifier to allow the food gas to flow into the interior of the dehumidifier through a wide space, thereby preventing the occurrence of a dead zone in which no heat exchange occurs between the food gas and the refrigerant , The food gas flows into the dehumidifier without passing through the separate piping, thereby preventing environmental pollution and odor generated due to leakage of the food gas on the connection portion between the dehumidifier and the pipe.

In addition, since the dehumidifier is located below the lid of the food garbage disposal apparatus, the dehumidifier can be cleaned using the washing water in a state that the lid is opened, so that the maintenance of the dehumidifier can be easily performed. The dehumidifying efficiency of the dehumidifier can be improved by providing the heat transfer fin more densely in the refrigerant circulation pipe by simplifying the joining structure of the heat transfer fins and reducing the manufacturing cost required when the refrigerant circulation pipe and the heat transfer fin are combined It is effective.

Brief Description of the Drawings Fig. 1 is a schematic view showing a conventional food waste disposal apparatus. Fig.
2 is a perspective view showing a food garbage treating apparatus of a low-temperature heating type according to the present invention.
3 is a schematic view showing a food garbage treating apparatus of a low-temperature heating type according to the present invention.
4 is a perspective view showing a dehumidifier provided in a food waste disposal apparatus of a low-temperature heating type according to a first embodiment of the present invention, and FIG. 4 (b) is a sectional view taken along the line A-A '.
5 is a perspective view illustrating a dehumidifier included in a low-temperature heating type food waste disposal apparatus according to a second embodiment of the present invention.
FIG. 6 is a perspective view of a dehumidifier included in a low-temperature-heating type food waste disposal apparatus according to a third embodiment of the present invention; FIG.
7 is a perspective view showing a state in which a heat conductive fin is provided outside the refrigerant circulation tube;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a garbage disposal apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view showing a low-temperature-heating type food garbage disposing apparatus according to the present invention, and FIG. 3 is a perspective view showing a food garbage disposal apparatus according to the present invention Fig.

4 is a perspective view (b) of a dehumidifier included in (a) a low-temperature heating type food waste disposal apparatus according to the first embodiment of the present invention, and FIG. 5 is a cross- 6 is a perspective view illustrating a dehumidifier included in a low-temperature-heating food waste disposal apparatus according to a third embodiment of the present invention. FIG. 6 is a perspective view showing a dehumidifier included in a low- And FIG. 7 is a perspective view showing a state in which a heat transfer fin is provided outside the refrigerant circulation pipe.

As shown in FIGS. 2 and 3, the low-temperature-heating type food waste disposal apparatus 20 according to the first embodiment of the present invention includes a food fermentation tank 100 in which food waste is received and fermented, A heater 700 provided at a lower portion of the food fermentation tank 100 to heat the inside of the food fermentation tank 100 to ferment foodstuffs and a heater 700 according to an internal temperature of the food fermentation tank 100, The control unit 800 controls the temperature of the food fermentation tank 100 to be maintained at a temperature of 40 to 50 ° C by controlling the temperature of the food fermentation tank 100. The control unit 800 is provided in the food fermentation tank 100, A dehumidifier 200 for removing moisture and an evaporator 300 for supplying a refrigerant to be heat-exchanged with a food gas passing through the dehumidifier 200; a compressor 400 connected to the evaporator 300 to circulate the refrigerant; , And a condenser 500 for heating the moisture-removed food gas to a predetermined temperature.

The food fermentation tank 100 is filled with a predetermined decomposition medium containing microorganisms and food waste and is fermented. The inside of the food fermentation tank 100 is heated by the heater 700 or the heating medium, 800 < / RTI > in a state where the temperature is maintained at about 40 to 50 < 0 > C.

The heater 700 is formed so as to surround the lower surface of the food fermentation tank 100. The food waste contained in the food fermentation tank 100 is dried and fermented by the heat of the heater 700 and a predetermined decomposition medium do.

The control unit 800 senses the internal temperature of the food fermentation tank 100 and drives the heater 700 according to the sensed internal temperature so that the internal temperature of the food fermentation tank 100 is maintained at 40 to 50 ° C .

The dehumidifier 200 is provided inside the food fermentation tank 100 and uses the refrigerant to lower the temperature of the food gas generated from the food waste by the heating of the heater 700 to a temperature below the dew point, The contained water is condensed with condensed water to remove moisture. The condensed water generated at this time is transferred to and stored in the condensed water storage tank 600 through the condensed water outlet 260 provided on the lower surface of the food fermentation tank 100.

In the present invention, a dehumidifier 200 having a large volume can be used by locating the dehumidifier 200 in the food fermentation tank 100. Accordingly, the dehumidifier 200 is formed long and densely inside the dehumidifier 200, The heat transfer area of the refrigerant and the food gas flowing through the refrigerant circulation pipe 220 is increased to improve the dehumidification efficiency of the dehumidifier 200. [

Also, since the dehumidifier 200 is located inside the food fermentation tank 100, the food gas is not introduced into the dehumidifier 200 through the separate piping, so that the environmental pollution caused by the food gas leaking from the connection between the dehumidifier 200 and the pipe And odor can be prevented.

In addition, since the dehumidifying efficiency of the dehumidifier 200 is improved, even if the internal temperature of the food fermenter 100 is maintained at a low temperature of about 40 to 50 ° C, the moisture contained in the food is effectively removed, thereby reducing power consumption .

As shown in FIG. 4, the dehumidifier 200 according to the present invention includes a case 210, a refrigerant circulation pipe 220 provided inside the case 210 and through which a refrigerant for heat exchange with food gas flows, .

A plurality of upper food gas inflow holes 211 are formed on the upper surface of the case 210 so that the food gas generated as the food is fermented by the heating of the heater 700 is introduced into the case 210, A first refrigerant outlet port 240 is formed on the other side of the first refrigerant inlet port 230 and a first food gas outlet port 250 through which food gas heat-exchanged with the refrigerant is discharged. do.

The refrigerant circulation pipe 220 is installed inside the case 210 to allow the refrigerant flowing through the first refrigerant inlet 230 to flow so that the food gas flowing through the upper food gas inlet hole 211 The refrigerant is heat-exchanged to remove moisture contained in the food gas.

The refrigerant discharged through the second refrigerant outlet 310 of the evaporator 300 and flowing through the first refrigerant inlet 230 circulates through the refrigerant circulation tube 220 and flows into the upper food gas inlet hole 211, The refrigerant is discharged through the first refrigerant outlet 240 to remove moisture contained in the food gas.

The moisture-removed food gas is discharged through the first food gas discharge port 250, flows into the condenser 500 through the first food gas inlet port 530, and then is raised to a certain temperature. Then, the second food gas discharge port 540 to be introduced into the food fermentation tank 100 again.

The food fermenter (100) of the present invention dries food at a low temperature of about 40 to 50 ° C. The food gas, from which water has been removed, is heated to a certain degree using heat generated in the condenser (500) So that the drying efficiency of the food fermentation tank 100 can be improved and the power consumption can be greatly reduced as compared with the case where only the heating of the heater 700 is performed.

Meanwhile, the upper food gas inflow hole 211 provided on the upper surface of the case 210 may be divided into a plurality of portions from the one side provided with the first food gas outlet 250 to the other end, So that the size gradually increases toward the other side.

Accordingly, when the food gas flows into the case 210 through the upper food gas inlet hole 211, the food gas is introduced from the first food gas outlet 250 at a predetermined distance, and the first food gas outlet 250 So that the contact time of the food gas with the refrigerant circulation pipe 220 is increased before the food gas is discharged through the first food gas discharge port 250, So that the dehumidification efficiency of the dehumidifier 200 can be greatly improved.

Also, the food gas is introduced into the large space through the upper food gas inlet hole 211, thereby preventing a blind spot in which heat exchange between the food gas and the coolant does not occur.

5, in the second embodiment of the present invention, a plurality of side food gas inflow holes (not shown) are formed on the other side of the case 210 opposite to one side of the first food gas outlet 250, The food gas can be introduced into the dehumidifier 200 through the upper food gas inlet hole 211 and the side food gas inlet hole 213. As shown in Figure 6, The other side of the case 210 opposite to the side where the first food gas outlet 250 is formed may be opened so that the upper food gas inlet hole 211 and the other side So that the food gas can be introduced into the dehumidifier 200.

In the present invention, a plurality of upper food gas inflow holes 211 are formed on the upper surface of the case 210 constituting the dehumidifier 200, the side food gas inflow holes 213 are formed on the other side, or the other side is opened The food gas does not flow into the limited space but flows into the wide space in various directions, thereby preventing the occurrence of a blind spot in which no heat exchange occurs between the refrigerant and the food gas.

Also, since the dehumidifier 200 is located inside the food fermentation tank 100, the dehumidifier 200 can be positioned below the lid 21 of the food garbage apparatus, When the gas oil is accumulated, the washing water is sprayed onto the dehumidifier 200 while the lid 21 is opened, so that the washing water is sprayed onto the refrigerant circulation pipe 220 through the upper food gas inlet hole 211, The oil accumulated in the outer surface of the dehumidifier 200 can be removed, and maintenance of the dehumidifier 200 can be more easily performed.

As shown in FIG. 7, the outer surface of the refrigerant circulation pipe 220 is provided with a heat transfer fin 221 so as to increase the heat transfer rate, and the heat transfer fin 221 is formed in a spiral shape along the longitudinal direction.

The first end of the heat transfer fin 221 is welded to the refrigerant circulation pipe 220 and then the heat transfer fin 221 is connected to the heat transfer fin 221. [ The heat transfer fin 221 is coupled to the refrigerant circulation pipe 220 by welding the other end edge of the heat transfer fin 221 to the refrigerant circulation pipe 220 by welding.

It is not necessary to weld the entire heat conductive fins 221 to the refrigerant circulation pipe 220 in order to couple the refrigerant circulation pipe 220 and the heat conductive fins 221 to the refrigerant circulation pipe 220, The pin 221 can be easily coupled and the cost can be reduced.

When the heat conductive fin 221 is rotated, the inner diameter of the heat conductive fin 221 is reduced. At the same time, the heat conductive fin 221 is tightly adhered tightly in the longitudinal direction to closely contact the outer surface of the refrigerant circulating pipe 220 The dehumidifying efficiency of the dehumidifier 200 is greatly improved.

Hereinafter, an operation process of the garbage disposal apparatus 20 having the above-described structure will be described in detail.

3, when the food waste contained in the food fermentation tank 100 is heated through the heater 700, a food gas containing moisture is generated from the food, and the generated food gas is supplied to the food fermenter 100, And is introduced into the dehumidifier 200 through the upper food gas inflow hole 211 and the side food gas inflow hole 213 of the dehumidifier 200 provided inside the dehumidifier 200.

At this time, the controller 800 senses the internal temperature of the food fermenter 100 and controls the intensity of the heater 700 so that the internal temperature of the food fermenter 100 is maintained at a temperature of 40 to 50 ° C.

Meanwhile, the refrigerant discharged through the second refrigerant outlet 310 of the evaporator 300 flows into the refrigerant circulation pipe 220 through the first refrigerant inlet 230 and is provided with a spiral heat conductive fin 221 on the outer side thereof The refrigerant circulates through the refrigerant circulation pipe 220, thereby exchanging heat with the food gas, thereby removing moisture contained in the food gas.

The refrigerant circulated through the refrigerant circulation pipe 220 flows into the evaporator 300 through the third refrigerant inlet 330 and then is discharged through the third refrigerant outlet 340 and then flows into the fourth refrigerant inlet 410, The high-temperature and high-pressure gaseous refrigerant is discharged through the fourth refrigerant outlet 420 of the compressor 400 and then flows through the fifth refrigerant inlet 510 to the condenser 500 ≪ / RTI >

When the high-temperature and high-pressure gaseous refrigerant in the condenser 500 is condensed into liquid and generates heat, moisture is removed through the dehumidifier 200 and the food gas introduced into the condenser 500 by the fan 251 is generated And is heated to a certain extent through the heat generated.

The low temperature and low pressure refrigerant condensed in the condenser 500 is discharged through the fifth refrigerant outlet port 520 and then flows into the evaporator 300 through the expansion valve 521 and the second refrigerant inlet port 320 And is then supplied to the dehumidifier 200 through the second refrigerant outlet 310.

Meanwhile, the food gas heated to a certain extent by the condenser 500 is discharged through the second food gas outlet 540 formed in the condenser 500 and then introduced into the food fermentation tank 100 to thereby improve the drying efficiency of the food fermenter 100 And reduce power consumption.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, the above description does not limit the scope of the present invention, which is defined by the limitations of the following claims.

20: food waste disposal device 21: lid
100: food fermentation tank 200: dehumidifier
210: Case 211: Upper food gas inlet hole
213: side food gas inlet hole 220: refrigerant circulation tube
221: Heat transfer pin 221a: Through hole
230: first refrigerant inlet port 240: first refrigerant outlet port
250: first food gas outlet 251: fan
A second refrigerant inlet port, a third refrigerant inlet port, and a third refrigerant outlet port,
400: compressor 410: fourth refrigerant inlet
420: fourth refrigerant outlet port 500: condenser
510: fifth refrigerant inlet port 520: fifth refrigerant outlet port
521: expansion valve 530: first food gas inlet
540: second food gas outlet 600: condensate storage tank
700: heater 800:

Claims (7)

A food fermentation tank in which food waste is charged and fermented, a heater for heating the inside of the food fermentation tank to ferment food, and a dehumidifier for removing moisture of the food gas generated from the fermented food, In this case,
Wherein the dehumidifier is provided inside the food fermenter,
The dehumidifier,
A first food gas discharge port through which food gas heat exchanged with the refrigerant is formed, and a plurality of upper food gas inlet holes through which food gas flows into the upper surface; And
A refrigerant circulation tube provided inside the case and formed to have a plurality of rows and columns and through which a refrigerant for heat exchange with the food gas introduced through the upper food gas inlet hole flows;
, ≪ / RTI >
The upper food gas inlet hole
Wherein a plurality of the first food gas discharge ports are formed at a distance from the first end of the first food gas discharge port at a predetermined distance along the length of the first food gas discharge port and gradually increase in size toward the other end,
The food garbage disposal apparatus includes:
A controller for controlling the heater according to the internal temperature of the food fermenter to maintain the internal temperature of the food fermenter at a predetermined temperature;
Wherein the low-temperature heating type food garbage disposal apparatus further comprises a low-temperature heating type food garbage disposal apparatus.
The method according to claim 1,
And the other side of the case is opened.
The method according to claim 1,
And a side food gas inflow hole into which food gas flows is formed on the other side of the case.
The method according to claim 1,
Wherein the predetermined temperature is 40 to 50 ° C.
delete The method according to claim 1,
Wherein a heat transfer fin is provided on an outer surface of the refrigerant circulation pipe,
Wherein the heat transfer fins are formed in a spiral shape along the longitudinal direction.
The method according to claim 6,
Wherein the heat conductive fins are rotated inward in a state where one side edge of the heat conductive fins is welded to the refrigerant circulation tube, and then the other side edge is welded to the heat conductive fins.

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