KR101422606B1 - Apparatus for reducing food waste with a power generator - Google Patents

Abstract

The present invention relates to a food waste reduction processor having a power generating means, and more particularly, to a food waste reduction processor equipped with a power generating means, more particularly, to a wind turbine generating power generating device using a wind pressure forcibly discharged from a deodorizer by a blowing fan, A plurality of the sterling generators that generate electricity using the waste heat of the waste gas are partially buried in the deodorizer and the photovoltaic power generation module that generates electricity from the sunlight is installed on the upper part of the weight reduction processor to generate wind power generators, The power generated by the photovoltaic power generation module can be charged into the battery and re-supplied to the driving power source of the weight reduction processor, so that a part of the driving power of the weight loss processor can be supplied to the wind power generator, the sterling generator, And to reduce power consumption significantly. Ruthless relates to food waste reduction processor.

Description

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

The present invention relates to a food waste reduction processor having a power generating means, and more particularly, to a food waste reduction processor equipped with a power generating means, more particularly, to a wind turbine generating power generating device using a wind pressure forcibly discharged from a deodorizer by a blowing fan, A plurality of the sterling generators that generate electricity using the waste heat of the waste gas are partially buried in the deodorizer and the photovoltaic power generation module that generates electricity from the sunlight is installed on the upper part of the weight reduction processor to generate wind power generators, The power generated by the photovoltaic power generation module can be charged into the battery and re-supplied to the driving power source of the weight reduction processor, so that a part of the driving power of the weight loss processor can be supplied to the wind power generator, the sterling generator, And to reduce power consumption significantly. Ruthless relates to food waste reduction processor.

* Prior art documents - Patent Application No. 2010-19682, No. 10-1263366,

The present applicant has filed a patent application No. 2010-19682 with a deodorizing device for a food waste disposal apparatus.

The deodorizing device of the food waste disposal apparatus is provided with a stirring container in which food waste is charged and stored, and a stirring blade for stirring food waste and fermenting microorganisms so that the food waste is fermented and reduced, And a deodorizer for removing the odor from the waste gas (including odor) generated by the fermentation of the food waste from the agitator is installed at one side of the food waste disposal apparatus.

The deodorizer has a structure in which a heater for heating the waste gas to about 300 캜 is provided and a platinum catalyst for removing the odor from the heated waste gas is provided.

In the conventional deodorizing apparatus, the waste gas generated in the food waste disposal apparatus is deodorized in a high-temperature environment to remove the odor. In the course of treating the food waste by discharging the waste gas from which the offensive odor has been removed to the outside, It is.

However, in the conventional deodorizing device for a food waste disposal apparatus, there is a problem that power consumption is increased due to continuous supply of power to the heater during food garbage disposal, and waste gas containing high temperature thermal energy can not be reused There has been a problem that it is released.

In order to solve the above problems, according to the present invention, there is provided a wind turbine generator comprising a wind turbine generating power by using a wind pressure forced by a blowing fan from a deodorizer, and further comprising a high-temperature waste heat of the waste gas passing through the deodorizer A plurality of generating Stirling generators are partially embedded in the deodorizer, and a photovoltaic power generation module for generating electricity from the sunlight is installed on the top of the weight reduction processor to generate electricity generated from the wind power generator, the sterling generator, It is possible to charge a part of the driving power of the weight loss processor by the electricity generated from the wind power generator, the sterling generator and the solar power generation module, thereby significantly reducing the power consumption Provided is a food garbage reduction processor equipped with a power generation means capable of providing a food waste The purpose.

In order to achieve the above object,

A deodorizer (2) provided with a heater (3) for introducing waste gas discharged from the weight reduction processor (1) and heating the waste gas to a high temperature;

A blowing fan 5 for forcibly discharging waste gas deodorized in the deodorizer 2 to the outside through an exhaust pipe 6;

A wind power generator 7 for generating electricity using the wind pressure of waste gas discharged through the exhaust pipe 6; .

According to the present invention, a part of the heater driving power of the deodorizer can be covered by the wind power generator, the Stirling power generator, and the electricity generated by the solar power generation module, thereby remarkably reducing power consumption can be expected .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram illustrating a state where a power generation apparatus of the present invention is installed on a deodorizer;
2 is a block diagram showing a power generation device of the present invention.
3 is a plan view showing a state in which the wind turbine generator of the present invention is installed.
4 is a sectional view showing a state in which the wind turbine generator of the present invention is installed.
5 shows a Stirling generator applied to the present invention.
6 is a cross-sectional view illustrating a state in which a plurality of Stirling generators applied to the present invention are installed on a deodorizer;
7 is a view showing an operating state of a Stirling generator applied to the present invention.

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

According to the above drawings,

A deodorizer (2) provided with a heater (3) for introducing waste gas discharged from the weight reduction processor (1) and heating the waste gas to a high temperature;

A blowing fan 5 for forcibly discharging waste gas deodorized in the deodorizer 2 to the outside through an exhaust pipe 6;

A wind power generator 7 for generating electricity using the wind pressure of waste gas discharged through the exhaust pipe 6; .

In the weight loss processor (1), an agitating barrel for introducing food waste is provided, and a stirring wing for agitating the food wastes is rotatably installed in the agitating barrel.

As the stirring wing rotates and stirs the food waste, the food waste is fermented by the microorganisms injected into the stirring bar and dried in a reduced amount. In this process, waste gas is generated and supplied to the deodorizer (2).

The deodorizer (2) is provided with a heater (3) for heating the waste gas to a high temperature, and a platinum catalyst for collecting and removing odor particles contained in the waste gas is provided.

A blowing fan 5 is provided at one side of the deodorizer 2 for forcibly discharging the waste gas in the deodorizer 2 through the exhaust pipe 6 to the outside.

In the present invention, the wind turbine generator 7 generating electricity by using the wind pressure of the waste gas forcibly discharged by the blowing fan 5 is installed in the exhaust pipe 6 and the heater 3 ) Is generated in the deodorizer (2) by using the waste heat of the waste gas heated to about 300 캜 by the steam generator (4).

The electric power generated by the Stirling generator 4 and the wind power generator 7 is supplied to the driving power source of the weight reduction processor 1 by the power supply means so as to drive the components such as the heater 3 and the blower fan 5 So that a part of the power consumed in the weight reduction processor 1 can be covered by electricity generated by the sterling generator 4 and the wind power generator 7, thereby reducing power consumption.

The wind turbine (7)

A blade cover (61, 62) formed on both sides of the exhaust pipe (6) so as to face each other;

Shafts 71 and 72 installed vertically in the wing covers 61 and 62;

Blades 73a and 73b installed on the upper portions of the shafts 71 and 72 for rotating the shafts 71 and 72 in opposite directions while being rotated in opposite directions due to the wind pressure discharged through the exhaust pipe 6;

A plurality of permanent magnets 74 annularly installed at the lower end of the shaft 71;

A rotation cover (75) coupled to the shaft (71) to receive the permanent magnet (74) and having an outer gear (77) formed on its outer periphery;

A coil 76 installed on the inner circumferential surface of the rotary cover 75 so as to face the permanent magnet 74;

A driving gear 78 installed at the lower end of the shaft 72 and rotating the outer gear 77 through the connecting gear 79 to rotate the rotating cover 75 in the opposite direction to the shaft 71; .

As shown in Figs. 3 and 4, vane covers 61 and 62 are formed so as to face each other in the middle of the exhaust pipe 6, and wings 73a and 73b ) Can be installed.

The shafts 71 and 72 are installed vertically in the wing covers 61 and 62, respectively, as shown in the figure. The shafts 71 and 72 pass through the underside of the wing covers 61 and 62, (1).

A plurality of permanent magnets 74 are annularly provided at the lower end of one shaft 71 and a rotary cover 75 for receiving the permanent magnets 74 is coupled to the shaft 71 by bearings, 75 are independently rotatable with respect to the shaft 71.

On the other hand, on the inner circumferential surface of the rotary cover 75, a coil 76 that generates electricity by a change in magnetic flux when it crosses the permanent magnet 74 is provided. The coil 76 is opposed to the permanent magnet 74 An outer gear 77 for receiving the rotational force of the shaft 72 is formed on the outer circumference of the rotary cover 75. [

The driving gear 78 formed at the lower end of the shaft 72 is engaged with the coupling gear 79 so that the rotational force of the shaft 72 is transmitted to the outer gear 77 And is transmitted to the rotary cover 75 by the driving gear 78 and the connecting gear 79 so that the rotary cover 75 can rotate in the opposite direction to the shaft 71.

Accordingly, since the permanent magnet 74 and the coil 76 rotate in opposite directions, the power generation rate can be made higher than when only one of the permanent magnet 74 and the coil 76 is rotated.

The electricity generated in the coil 76 is supplied to the charger 11 through the voltage current controller 10 to be charged.

On the other hand, in the present invention, the sterling generator 4, which generates electricity using the waste heat of the waste gas heated to about 300 ° C. by the heater 3 in the deodorizer 2, is installed in the deodorizer 2 to generate electricity In addition, the solar power generation module 8 is installed on one side of the upper portion of the weight loss processor 1 so as to generate electricity using solar light.

5 shows a Stirling generator used in the present invention.

The Stirling generator (4)

The lower end of the cooling cylinder 44 is fitted to the wall surface of the deodorizer 2 so that most of the cooling cylinder 44 is exposed to the outside of the deodorizer 2, And the heating tube 41 connected to the heating tube 41 is coupled to the heating tube 41 so that the heating tube 41 is present inside the deodorizer 2 and the heating element 41 made of metal having high thermal conductivity So that the air inside the heating tube 41 is rapidly heated to a high temperature so that the expansion pressure can be applied to the cooling cylinder 44 through the flow hole 43. [

A piston 45 capable of reciprocating up and down by the expansion and contraction of the air supplied from the heating pipe 41 is provided in the cooling cylinder 44, The connecting rod 48 is coupled to the upper end of the permanent magnet 47 and the flywheel 52 is rotated at the end of the supporting rod 51 extending from the cooling cylinder 44 And eccentrically connects the end of the connecting rod 48 to the flywheel 52. [

When the air inside the heating pipe 41 is heated to a high temperature, the expansion pressure of the heated air acts in a direction to push out the piston 45. In this state, the operator manually rotates the flywheel 52 to rotate the piston 45 The heated air inside the heating pipe 41 is inflated and flows into the cooling cylinder 44 through the flow hole 43 as shown in FIG. 5B. When the piston 45 reaches the top dead center as shown in FIG. 5C The piston 45 descends again in the cooling cylinder 44 due to the inertia of the flywheel 52. When the piston 45 reaches the top dead point, The air is heat-exchanged with the outside air at low temperature by the cooling cylinder 44 exposed to the outside of the deodorizer 2, and is rapidly cooled and shrunk to facilitate the descent of the piston 45.

5A, when the piston 45 reaches the bottom dead center, the air that has moved to the heating pipe 41 is rapidly heated while being rapidly heated by the heating element 42 to accelerate the upward movement of the piston 45 So that the piston 45 continuously reciprocates due to expansion and contraction of the air.

A guide tube 49 having a predetermined length is provided from the upper side of the cooling cylinder 44 to guide the linear movement of the permanent magnet 47. A permanent magnet 47 is moved on the outer peripheral surface of the permanent magnet 47 And the coil 50 that generates electricity by the change of the magnetic field generated when the coil 50 is wound.

The guide tube 49 is formed as a tube having a small thickness so that the permanent magnet 47 and the coil 50 come close to each other so that the permanent magnet 47 moves up and down in association with the reciprocating motion of the piston 45. [ So that electricity can be generated in the coil 50 by the changing magnetic field.

The electricity generated in the coil 50 is supplied to the charger 11 through a voltage current controller 10 which is in a loop.

In the present invention, a plurality of the above-described Stirling generators 4, for example, 50 Stirling generators 4 are modularized so that the electricity generated by each Stirling generator 4 can be collected and used.

2) for supplying the electricity generated by the sterling generator 4, the wind power generator 7 and the solar power generation module 8 to the driving power source of the weight loss processor 1, Further,

The power supply means,

A battery 12 for charging electricity generated by the Stirling generator 4, the wind power generator 7 and the solar power generation module 8;

A battery voltage sensing unit 13 for sensing a charging voltage charged in the battery 12;

A charger 11 for charging the battery 12 with electricity generated from the Stirling generator 4, the wind power generator 7 and the solar power generation module 8;

A solar controller 9 for supplying electricity generated by the solar power generation module 8 to the charger 11;

A voltage current controller 10 for supplying electricity generated by the Stirling generator 4 and the wind power generator 7 to the charger 11 and switching the switch unit 14 according to the voltage sensed by the battery voltage sensing unit 13 )Wow;

A switch unit 14 for performing a switching operation under the control of the voltage and current controller 10 to supply a charging voltage or an external input voltage of the battery 12 to the inverter 15;

An inverter 15 for outputting driving power for driving the weight loss processor 1 with the voltage supplied through the switch unit 14; .

The voltage current controller 10 switches the switch unit 14 to the external input voltage when the battery charge voltage is 10% or less so that the heater 3 operates by the external input voltage. When the battery charge voltage is 90% (14) is switched to the battery side so that the weight reduction processor (1) can be operated by the voltage charged in the battery (12).

Hereinafter, the operation of the power supply means will be described.

The voltage current controller 10 controls the switching operation of the switch unit 14 according to the battery charging voltage sensed by the battery voltage sensing unit 13.

That is, when the battery charge voltage is 10% or less, the voltage current controller 10 switches the switch unit 14 to the external input voltage side so that the external input voltage is supplied to the inverter 15, And the heater 3, the blowing fan 5, etc. constituting the weight loss processor 1 are driven by supplying a voltage for driving the weight loss processor 1 with a voltage.

At this time, the electricity generated from the Stirling generator 4, the wind power generator 7 and the solar power generation module 8 is supplied to the battery 12 through the charger 11, so that the battery 12 is continuously charged.

The electricity generated by the solar power generation module 8 is supplied to the charger 11 by the solar controller 9 to be charged into the battery 12.

When the charging voltage of the battery 12 becomes 90% or more, the voltage current controller 10 switches the switch unit 14 to the battery side so that the voltage charged in the battery 12 is supplied to the inverter 15, (15) drives the weight loss processor (1) by the voltage discharged from the battery (12).

Electric power generated by the wind turbine generator 7 that generates electricity using the wind pressure of a plurality of Stirling generators 4 and exhaust pipes 6 that generate electricity using the waste heat generated in the deodorizer 2 as described above, It is possible to drive the weight loss processor 1 as electricity generated by the power generation module 8, thereby reducing the power consumption of the entire weight loss processor 1.

1: weight loss processor, 2: deodorizer,
3: heater, 4: sterling generator,
6: exhaust pipe, 7: wind turbine generator,
8: solar module, 9: solar controller,
10: voltage current controller, 11: charger,
12: a battery, 13: a battery voltage detecting unit,
14: switch unit, 15: inverter,
41: heating tube, 42: heating element,
43: flow hole, 44: cooling cylinder,
45: piston, 46: shaft,
47: permanent magnet, 48: connecting rod,
49: guide tube, 50: coil,
51: support member, 52: flywheel,
71, 72: shaft, 73a, 73b: wing,
74: permanent magnet, 75: rotary cover,
76: coil, 77: outer gear,
78: driving gear, 79: connecting gear,

Claims (4)

A deodorizer (2) provided with a heater (3) for introducing waste gas discharged from the weight reduction processor (1) and heating the waste gas to a high temperature;
A blowing fan 5 for forcibly discharging waste gas deodorized in the deodorizer 2 to the outside through an exhaust pipe 6;
A wind power generator 7 for generating electricity using the wind pressure of waste gas discharged through the exhaust pipe 6; Respectively,
The wind turbine (7)
A blade cover (61, 62) formed on both sides of the exhaust pipe (6) so as to face each other;
Shafts 71 and 72 installed vertically in the wing covers 61 and 62;
Blades 73a and 73b installed on the upper portions of the shafts 71 and 72 for rotating the shafts 71 and 72 in opposite directions while being rotated in opposite directions due to the wind pressure discharged through the exhaust pipe 6;
A plurality of permanent magnets 74 annularly installed at the lower end of the shaft 71;
A rotation cover (75) coupled to the shaft (71) to receive the permanent magnet (74) and having an outer gear (77) formed on its outer periphery;
A coil 76 installed on the inner circumferential surface of the rotary cover 75 so as to face the permanent magnet 74;
A driving gear 78 installed at the lower end of the shaft 72 and rotating the outer gear 77 through the connecting gear 79 to rotate the rotating cover 75 in the opposite direction to the shaft 71; Wherein the food garbage weight reduction processor is provided with the power generation means.
A deodorizer (2) provided with a heater (3) for introducing waste gas discharged from the weight reduction processor (1) and heating the waste gas to a high temperature;
A blowing fan 5 for forcibly discharging waste gas deodorized in the deodorizer 2 to the outside through an exhaust pipe 6;
A wind power generator 7 for generating electricity using the wind pressure of waste gas discharged through the exhaust pipe 6;
A plurality of sterling generators (4) installed so as to be partially buried in the deodorizer (2) and generating electricity using waste heat of waste gas passing through the deodorizer (2);
And a solar photovoltaic module (8) installed on one side of the upper portion of the weight loss processor (1) and generating electricity using solar light,
The wind turbine (7)
A blade cover (61, 62) formed on both sides of the exhaust pipe (6) so as to face each other;
Shafts 71 and 72 installed vertically in the wing covers 61 and 62;
Blades 73a and 73b installed on the upper portions of the shafts 71 and 72 for rotating the shafts 71 and 72 in opposite directions while being rotated in opposite directions due to the wind pressure discharged through the exhaust pipe 6;
A plurality of permanent magnets 74 annularly installed at the lower end of the shaft 71;
A rotation cover (75) coupled to the shaft (71) to receive the permanent magnet (74) and having an outer gear (77) formed on its outer periphery;
A coil 76 installed on the inner circumferential surface of the rotary cover 75 so as to face the permanent magnet 74;
A driving gear 78 installed at the lower end of the shaft 72 and rotating the outer gear 77 through the connecting gear 79 to rotate the rotating cover 75 in the opposite direction to the shaft 71; Wherein the food garbage weight reduction processor is provided with the power generation means.
3. The method of claim 2,
The Stirling generator (4)
The lower end of the cooling cylinder 44 is fitted to the wall surface of the deodorizer 2 so that most of the cooling cylinder 44 is exposed to the outside of the deodorizer 2, The heating tube 41 communicating with the heat generating tube 43 is connected to the heating tube 41 so that the heating tube 41 is present inside the deodorizer 2 and the heating element 42 made of a metal having heat conductivity is disposed inside the heating tube 41, So that the air inside the heating pipe 41 is rapidly heated so that the expansion pressure can be applied to the cooling cylinder 44 through the flow hole 43,
A piston 45 is provided inside the cooling cylinder 44 so that the piston 45 can reciprocate vertically by expansion and contraction of air supplied from the heating pipe 41. The piston 45 is provided with a permanent A connecting rod 48 is connected to the upper end of the permanent magnet 47 and a flywheel 52 is rotatably attached to the end of the supporting rod 51 extending from the cooling cylinder 44 And an end of the connecting rod 48 eccentrically connects to the flywheel 52,
A guide tube 49 of a predetermined length is provided from the upper side of the cooling cylinder 44 to guide the linear movement of the permanent magnet 47. The outer circumferential surface of the permanent magnet 47 is formed on the outer surface of the cooling cylinder 44 And a coil (50) for generating electricity by a change of a magnetic field generated by the coil (50).
3. The method of claim 2,
Further comprising power supply means for supplying electricity generated by the Stirling generator (4), the wind power generator (7), and the solar power generation module (8) to the driving power source of the weight reduction processor (1)
The power supply means,
A battery 12 for charging electricity generated by the Stirling generator 4, the wind power generator 7 and the solar power generation module 8;
A battery voltage sensing unit 13 for sensing a charging voltage charged in the battery 12;
A charger 11 for charging the battery 12 with electricity generated from the Stirling generator 4, the wind power generator 7 and the solar power generation module 8;
A solar controller 9 for supplying electricity generated by the solar power generation module 8 to the charger 11;
A voltage current controller 10 for supplying electricity generated by the Stirling generator 4 and the wind power generator 7 to the charger 11 and switching the switch unit 14 according to the voltage sensed by the battery voltage sensing unit 13 )Wow;
A switch unit 14 for performing a switching operation under the control of the voltage and current controller 10 to supply a charging voltage or an external input voltage of the battery 12 to the inverter 15;
An inverter 15 for outputting driving power for driving the weight loss processor 1 with the voltage supplied through the switch unit 14; Wherein the food garbage weight reduction processor is provided with the power generation means.

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