KR20150034548A - A device for treating garbage - Google Patents

Abstract

The present invention relates to a device for fermentation of food waste which minimizes the consumption amount of electricity and constantly maintains the temperature inside a fermentation tank, the device comprising the fermentation tank which is extended at both sides of the inside of the body, formed with a semi-cylindrical unit with the opened top in the lower portion, provided with an agitating blade rotated by a motor in the tank, and provided with a first temperature sensor in an internal side portion; a plurality of heating pipes which are fixedly attached to an outside of the semi-cylindrical unit at a horizontal interval, formed in a semicircular shape, having blocked front and rear ends, and filled with a heat medium inside the pipes; a heating refrigerant circulation pipe which is fixedly connected to be in contact with the heating pipes and provided with a first pump; a refrigerant tank in which both ends of the heating refrigerant circulation pipe are connected thereto, filled with a heated refrigerant therein, and provided with a second temperature sensor for sensing the temperature of the refrigerant therein; a heat pump type heater which is connected to a heating condensing unit in an internal lower portion of the refrigerant tank and heats the refrigerant filled in the refrigerant tank through a heat generation of the heating condensing unit; and a control unit which receives temperature data from the first and second temperature sensors, and controls the first pump and the heat pump type heater.

Description

TECHNICAL FIELD [0001] The present invention relates to a device for fermentation of food waste,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a fermentation apparatus for fermenting food waste, and more particularly, to a fermentation apparatus for fermenting food waste which can keep the internal temperature of the fermentation tank constant while minimizing consumption of electricity.

In general, food waste generated in homes and restaurants becomes a main cause of river pollution when discharged through sewer, and it is also corroded when it is buried in the ground, causing malodor and various kinds of germs.

As a result, the disposal of food waste has become a serious social problem. In recent years, there is a demand for a method of recycling food waste into feed or fertilizer by fermenting food waste by microorganisms.

For example, Korean Patent Laid-Open Publication No. 2002-60669 entitled "Fermentation Tank of Food Waste Treatment Apparatus" (hereinafter referred to as "fermentation tank of conventional food garbage disposal apparatus" ).

A fermentation tank of a conventional food garbage disposal apparatus includes a fermentation tank in which food waste and fermenting microorganisms are introduced into a body provided with a lid opened and closed, an agitation rod provided in the fermentation tank and rotated by driving of a motor, And a plurality of stirrers for stirring the food waste and the microorganisms, which are provided at predetermined intervals around the stirring rod.

The lower portion of the fermentation tank is provided with a heater in the form of a hot wire to be heated by electricity so that the inner space of the fermentation tank can be maintained at a predetermined temperature through the heater to provide an optimal habitat for microorganisms will be.

However, when the fermentation tank of the conventional food waste disposal apparatus configured as described above is used, the interior of the fermentation tank is heated through a heat line operated by electricity, so that the consumption of electricity is increased, I have had a problem to get into.

Korean Patent Publication No. 2002-60669, "Fermentation Tank of Food Waste Treatment Device" (2002.07.18)

Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

An object of the present invention is to provide an apparatus for fermenting food waste, which can keep the internal temperature of the fermentation tank constant while reducing consumption of electricity to a minimum.

Another object of the present invention is to provide a device for fermenting food garbage that further reduces the amount of electricity used by further heating the refrigerant filled in the coolant tank using sunlight.

Another object of the present invention is to provide an apparatus for fermenting food garbage that can enhance the heating efficiency of the fermentation tank by expanding the contact area between the heating tube filled with the heating medium and the outer surface of the fermentation tank.

In order to achieve the above object, a "food waste fermentation treatment apparatus" according to the present invention comprises a main body and a semi-cylindrical portion having an upper portion opened at its lower portion, A fermentation tank having a stirring blade and a first temperature sensor at a side of the fermentation tank; A plurality of heating tubes fixed to the outside of the semicircular tube at left and right intervals and formed in a semicircular shape, the front and rear ends of which are closed, and a heating medium is filled in the semicircular tube; A heating and refrigerant circulation pipe fixedly connected to the heating pipe and having a first pump; A refrigerant tank in which both ends of the heating and refrigerant circulation pipe are connected, a refrigerant being heated is filled in the refrigerant tank, and a second temperature sensor for sensing the temperature of the refrigerant is provided; A heat pump type heater for heating a refrigerant filled in the refrigerant tank through a heat condensation part connected to a lower portion of the inside of the refrigerant tank, A controller for receiving temperature data from the first temperature sensor and the second temperature sensor and controlling the first pump and the heat pump type heater; .

Further, the "apparatus for fermenting food garbage" according to the present invention is provided in an upper part of the building, and a refrigerant circulation pipe is provided in the inside of the building so as to be bent by a plurality of bends to heat the refrigerant passing through the refrigerant circulation pipe by solar heat ; A refrigerant supply pipe connected between one end of the refrigerant circulation pipe and the refrigerant tank and having a second pump in the middle; A refrigerant discharge pipe connected between the other end of the refrigerant circulation pipe and the refrigerant tank; And the control unit further controls the second pump.

Further, the heat pump type heater of the "food waste fermentation treatment apparatus" according to the present invention comprises an evaporator, the heating condenser provided in the lower portion of the inside of the refrigerant tank, and the evaporator and the heating condenser, And a first refrigerant pipe provided with an inverter compressor.

Further, the heat pump type heater of the "food waste fermentation treatment apparatus" according to the present invention is connected to the evaporator, the second and third refrigerant pipes, and is connected to the main body and the air inlet pipe, Further comprising: a drying condenser for drying the air and discharging the air to the deodorizer through the air discharge pipe; a compressor provided in the second refrigerant pipe and connected to the control unit; and an expansion valve provided in the third refrigerant pipe, The dry condenser includes a case having the air inlet pipe and the air discharge pipe connected to communicate with the inside and having a drain pipe at a lower portion thereof and a case connected to the second and third refrigerant pipes, And a bending condenser tube for drying the humid air of the condenser tube.

Further, each of the heating tubes of the "food waste fermentation apparatus" according to the present invention is attached and fixed to the outer surface of the semicircular tube portion of the fermentation tank by a welding portion, And is fixed by a welding portion.

The present invention as described above has an effect of providing a power-saving type fermentation apparatus capable of keeping the internal temperature of the fermentation tank constant while reducing consumption of electricity to a minimum.

The present invention also has the effect of further reducing the amount of electricity used by further heating the refrigerant filled in the coolant tank by solar heat.

Further, the present invention has an effect of increasing the internal temperature of the fermentation tank to a constant temperature in a short time by increasing the contact area between the heating tube filled with the heating medium and the outer surface of the fermentation tank, thereby improving the heating efficiency of the fermentation tank.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a general view showing a fermentation treatment apparatus of the present invention. FIG.
2 is an enlarged cross-sectional view of a fermentation tank according to the present invention.
3 is an enlarged view of a main part of the present invention.
FIG. 4 is a bottom perspective view of a fermentation tank according to the present invention. FIG.
5 is an enlarged perspective view of a heat absorbing plate according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood, however, that the invention can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

Fig. 1 is an overall configuration diagram showing the fermentation apparatus of the present invention. Fig. 2 is an enlarged cross-sectional view of a fermentation tank according to the present invention. Fig. FIG. 5 is an enlarged perspective view of a heat absorbing plate according to the present invention. FIG.

As shown in the figure, the fermentation treatment apparatus of the present invention comprises a main body 1, a fermentation tank 2 which is provided on both sides inside the main body 1 and is filled with food wastes and includes a first temperature sensor 23, A plurality of heating tubes 3 fixedly attached to the lower outer side of the fermentation tank 2 at left and right intervals and filled with a heating medium therein and fixedly connected to the heating tube 3, A heating and refrigerant circulation pipe 4 having a pump 41 and both ends of the heating and refrigerant circulation pipe 4 are connected to each other and a refrigerant heated therein is filled with a second temperature sensor A heating condenser 62 is connected to a lower portion of the inside of the refrigerant tank 5 to heat the refrigerant tank 5 through heat generated by the heating condenser 62, A heat pump type heater 6 for heating the filled refrigerant, and a control unit 8 for controlling the apparatus.

The main body 1 is formed on the ground and has a box shape. A cover for opening and closing the upper part of the fermentation tank 2 is provided at the center of the upper part. The structure of the main body 1 is already known A detailed description thereof will be omitted.

The fermentation tank 2 is long in both sides of the main body 1 and is open at its upper part. The lower part of the fermentation tank 2 is formed with a semicircular tubular part 21 having an open top, and a stirring blade 22 are provided. A first temperature sensor 23 for sensing the temperature inside the fermentation tank 2 is provided on the side of the inner side of the fermentation tank 2 and a first temperature sensor 23 is connected to the control unit 8 .

The heating tube 3 is attached and fixed to the outer side of the semicircular tubular portion 21 at right and left intervals to serve to heat the food waste filled in the fermentation tank 2. The heating tube 3 having such a function is formed in a semicircular shape, the front and rear ends are closed, and the inside is filled with the heating medium.

 That is, the heating tube 3 is formed by bending a tube, and it is preferable to use a copper tube or an aluminum tube having high corrosion resistance and excellent thermal conductivity. Each of the heating tubes 3 is preferably fixed to the outer surface of the semicircular tube portion 21 by welding portions W so as to enlarge a contact area between the heating tube 3 and the semicircular tube portion 21. [ That is, by enlarging the contact area between the heating tube 3 and the fermentation tank 2, the heating efficiency of the fermentation tank 2 is improved to raise the internal temperature of the fermentation tank 2 to a constant temperature in a short time There are advantages to be able to. In addition, it is preferable to use insulating oil for a transformer in which the temperature is rapidly increased when water is used or heat is applied to the heating medium.

The heating and cooling circulation pipe 4 is fixedly connected to the heating tube 3 to transmit heat to the heating tubes 3. The heat-refrigerant circulation pipe 4 having such a role is preferably a copper pipe or an aluminum pipe having high corrosion resistance and excellent thermal conductivity. As described above, the heating and refrigerant circulation pipe 4 is provided with a first pump 41 for circulating the refrigerant. It is preferable that the heating and cooling circulation pipe 4 is fixedly attached to the lower center of each heating pipe 3 by a welding portion W so as to improve thermal conductivity.

The refrigerant tank 5 is connected to both ends of the heating / refrigerant circulation pipe 4 as described above. The inside of the coolant tank 5 is filled with a coolant, and a lid is formed on the upper portion and the second temperature sensor 51 for sensing the temperature of the coolant is provided on the side. It is preferable to use insulating oil for a transformer in which the temperature is rapidly raised when water is used or heat is applied to the refrigerant. It is preferable that the outer surface of the coolant tank 5 is coated with a heat insulating material so as to minimize the heat loss of the coolant.

The heat pump type heater (6) serves to heat the refrigerant filled in the refrigerant tank (5). The heat pump type heater 6 having the above function is provided with an evaporator 61 and a heating condenser 62 provided in the lower portion of the refrigerant tank 5 for heating the refrigerant filled in the refrigerant tank 5 And a first refrigerant pipe 63 connecting the evaporator 61 and the heat condenser 62 to each other and having an inverter compressor 64 in the middle thereof. The configuration of the inverter compressor 64 is already known, and a detailed description thereof will be omitted.

The control unit 8 receives temperature data from the first temperature sensor 23 of the fermentation tank 2 and the second temperature sensor 51 of the refrigerant tank 5 and receives the temperature data from the first pump 41, And controls the heat exchanger 6. The detailed control will be described later.

Hereinafter, the operation of the present invention will be described.

As shown in FIGS. 1 to 5, when the fermentation apparatus for food waste according to the present invention is operated, first, stirring vanes 22 in the fermentation tank 2 are rotated through an external operation. Then, food waste and microorganisms are introduced in a state where the lid of the main body 1 is opened.

The heat pump type heater 6 is operated by the control unit 8 by the following external operation so that the refrigerant whose temperature has been raised to the heat condensing unit 62 provided in the inside of the refrigerant tank 5 is supplied, The temperature of the coolant filled in the coolant tank 5 is raised.

When the temperature of the refrigerant rises above a predetermined temperature while the refrigerant filled in the refrigerant tank 5 is heated, the control unit 8 controls the output of the second temperature sensor 51 provided in the refrigerant tank 5, And the first pump 41 provided in the heating / refrigerant circulation pipe 4 is operated to circulate the refrigerant heated by the heating / refrigerant circulation pipe 4. Then, the refrigerant filled in the heating tube 3 provided at the lower part of the fermentation tank 2 is heated to raise the internal temperature of the fermentation tank 2.

When the temperature detected by the first temperature sensor 23 provided in the fermentation tank 2 is sensed, the control unit 8 recognizes the signal output from the second temperature sensor 51, The operation of the first pump 41 provided in the pipe 4 is stopped. The control unit 8 receives the sensing signal from the first temperature sensor 23 in real time and repeats the process of turning on or off the first pump 41 to proceed with the fermentation of the food waste.

Then, when the fermentation is finally completed, the operation of the first pump 41 and the heat pump type heating is turned off through an external operation.

Accordingly, the refrigerant is heated in the refrigerant tank 5 through the heat pump type heater 6 and the heated refrigerant is circulated through the heating and cooling circulation pipe 4 to heat the inside of the fermentation tank 2, The internal temperature of the fermentation tank 2 can be kept constant while the consumption of electricity is minimized. That is, the present invention provides an advantage of providing a device for fermenting food waste of a power-saving type by heating the refrigerant in the refrigerant tank 5 by using a small amount of electric power by providing the inverter compressor 64 in the heat pump type heater 6 .

Further, by using the nighttime power as the electric power for heating the refrigerant in the coolant tank 5, the use cost of electricity can be further reduced. In the case of using the midnight power, the control unit 8 is provided with a timer so that the midnight power can be used only for the set time. When the refrigerant in the refrigerant tank 5 is heated using the nighttime power in the control unit 8, the control unit 8 receives the sensed data of the second temperature sensor 51 provided in the refrigerant tank 5, 6) is turned on or off.

Meanwhile, the fermentation apparatus of the present invention is provided on the upper part of the building, and a refrigerant circulation pipe (71) is provided in a bent state by a plurality of bends to allow the refrigerant passing through the refrigerant circulation pipe (71) A refrigerant supply pipe 72 connected between one end of the refrigerant circulation pipe 71 and the refrigerant tank 5 and having a second pump 721 in the middle, And a refrigerant discharge pipe (73) connected between the other end of the refrigerant circulation pipe (71) and the refrigerant tank (5). Further, the controller 8 is configured to further control the second pump 721.

Therefore, it is possible to heat the refrigerant filled in the refrigerant tank 5 using solar heat through the heat absorbing plate 7. The operation of the heat pump type heater 6 is stopped through the control of the control unit 8 while the sunlight is present and the second pump 721 is operated to start the refrigerant circulation pipe The refrigerant in the refrigerant tank 5 is heated by the refrigerant tank 71, thereby further reducing the amount of electricity used. On the other hand, if the temperature of the refrigerant is less than 75 degrees in the process of heating the refrigerant through the heat absorbing plate 7, the heat pump type heater 6 may be operated to raise the temperature of the refrigerant to 75 degrees or more.

The heat pump type heater of the present invention is connected to the evaporator 61 by the second and third refrigerant pipes 66 and 67 and connected to the main body 1 by the air inlet pipe 652, A drying condenser 65 for drying the high temperature and high humidity air and discharging the dehumidified air through the air discharge pipe 653 and a compressor 68 provided in the second refrigerant pipe 66 and connected to the control unit 8, And an expansion valve (69) provided in the third refrigerant pipe (67).

The dry condenser 65 includes a case 651 having the air inlet pipe 652 and the air discharge pipe 653 connected to communicate with each other and having a drain pipe 655 at a lower portion thereof, And a bending and condensing pipe 654 connected to the pipes 66 and 67 for drying the high temperature and high humidity air introduced into the case 651.

Accordingly, by operating the compressor 68 through the control unit 8, heat is radiated from the bending condensation pipe 654 of the dry condensing unit 65, so that odor air passing through the inside of the case 651 It is possible to remove moisture contained in the water. On the other hand, the malodorous air flows into the inside of the drying condenser 65 through a suction force of a pump (not shown) provided in the deodorizer and is discharged.

Therefore, the moisture of the odor air containing moisture discharged from the inside of the fermentation tank 2 is removed through the drying condenser 65, and the deodorizing efficiency through the deodorizer There is also an advantage to be improved.

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. It is clear that the present invention can be suitably modified and applied in the same manner. Therefore, the above description does not limit the scope of the present invention, which is defined by the limitations of the following claims.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

1: Body
2: Fermentation tank
21: Semicircular tongue
22: stirring wing
23: first temperature sensor
3: Heating tube
4: Heated refrigerant circulation pipe
41: first pump
5: Refrigerant tank
51: second temperature sensor
6: Heat pump type radiator
61: Evaporator
62: Heating condenser
63: First refrigerant piping
64: Inverter computer
65: Dry condensing part
651: case, 652: air inlet pipe, 653: air outlet pipe,
654: bending condenser tube, 655: drain tube
66: second refrigerant piping
67: Third refrigerant piping
68: Compressor
69: Expansion valve
7: Endothermic plate
71: Refrigerant circulation pipe
72: Refrigerant supply pipe
721: Second pump
73: Refrigerant discharge pipe
8:
W: Weld

Claims (5)

A semicircular tube portion 21 having an upper portion opened is formed in the lower portion of the main body 1, and a stirring vane 22 rotated by a motor is provided in the lower portion. A fermentation tank 2 having a temperature sensor 23;
A plurality of heating tubes 3 fixedly attached to the outside of the semicircular tubular portion 21 at left and right intervals and formed in a semicircular shape and having front and rear ends closed and filled with a heating medium;
A heating and refrigerant circulation pipe 4 fixedly connected to the heating pipe 3 and having a first pump 41;
A refrigerant tank 5 having both ends of the heating and refrigerant circulation pipe 4 connected to each other and filled with heated refrigerant and having a second temperature sensor 51 for sensing the temperature of the refrigerant;
A heat pump type heater 6 which is connected to a heat condensing part 62 at an inner lower part of the refrigerant tank 5 and heats the refrigerant filled in the refrigerant tank 5 through heat generated by the heat condensing part 62, ;
A control unit 8 for receiving temperature data from the first temperature sensor 23 and the second temperature sensor 51 and controlling the first pump 41 and the heat pump type heater 6;
Wherein the fermentation apparatus further comprises a feeder for feeding the fermented food waste.
The method according to claim 1,
The fermentation treatment device comprises:
A heat absorbing plate 7 provided at an upper portion of the building and having therein a refrigerant circulation pipe 71 bent by a plurality of bent portions to heat the refrigerant passing through the refrigerant circulation pipe 71 by solar heat;
A refrigerant supply pipe (72) connected between one end of the refrigerant circulation pipe (71) and the refrigerant tank (5) and having a second pump (721) in the middle;
A refrigerant discharge pipe (73) connected between the other end of the refrigerant circulation pipe (71) and the refrigerant tank (5); Further included,
Wherein the controller (8) further controls the second pump (721).
3. The method according to claim 1 or 2,
The heat pump type heater (6)
An evaporator 61,
The heating condenser 62 provided in the lower portion of the interior of the refrigerant tank 5,
A first refrigerant pipe 63 connecting the evaporator 61 and the heat condenser 62 and having an inverter compressor 64 in the middle,
Wherein the fermentation apparatus further comprises a feeder for feeding the fermented food waste.
The method of claim 3,
In the heat pump type heater,
The high temperature and high humidity air which is connected to the main body 1 by the evaporator 61 and the second and third refrigerant pipes 66 and 67 and is connected to the main body 1 through the air inflow pipe 652, A drying condenser 65 for discharging the dehydrated water through the deodorizer 653,
A compressor 68 provided in the second refrigerant pipe 66 and connected to the control unit 8,
Further comprising an expansion valve (69) provided in the third refrigerant pipe (67)
The dry condenser (65)
A case 651 having the air inlet pipe 652 and the air outlet pipe 653 connected to communicate with the inside and having a drain pipe 655 at the bottom,
And a bending and condensing pipe 654 connected to the second and third refrigerant pipes 66 and 67 for drying the high temperature and high humidity air introduced into the case 651, A device for fermenting food waste.
3. The method according to claim 1 or 2,
Each of the heating tubes 3 is fixedly attached to the outer surface of the semicircular tube portion 21 of the fermentation tank 2 by a weld W,
Wherein the heating and refrigerant circulation pipe (4) is fixedly attached to the lower center of each heating tube (3) by a weld (W).

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