KR102014708B1 - Organic Waste Treatment Apparatus - Google Patents

Abstract

The present invention relates to an organic waste treatment apparatus, comprising: a reactor including a pair of stirring blades installed therein to cross each other to be able to rotate, a heating chamber installed to surround a partial area of an outer surface, and an air inlet and an air outlet formed on an upper side; an air supply unit including an air supply pipe coupled to the air inlet to supply air to the inside of the reactor and having a heater at a predetermined position, a connection pipe connected to the heating chamber at a predetermined position of the air supply pipe, and a supply valve installed at a predetermined position of a longitudinal direction of the air supply pipe; and an air circulation unit including an air outlet pipe for connecting the air outlet with the heating chamber, a blower installed on the air outlet pipe to suck internal air of the reactor, a moisture removal unit for removing moisture contained in the air sucked through the blower, a heating unit for heating the air from which the moisture is removed by the moisture removal unit, and a deodorization unit for filtering the air heated by the heating unit.

Description

Organic Waste Treatment Apparatus

The present invention relates to an organic waste treatment apparatus capable of treating organic waste by fermentation.

Organic wastes (food waste, animal waste, sewage sludge) are inevitably generated wastes, and the amount of organic wastes has recently increased with the increase of population and the quality of life. As a method for treating such organic waste, there are methods such as incineration, landfilling, composting and feed conversion.

However, incineration of the above methods requires enormous fuel costs, and incineration residues, such as dust and dioxins, are generated, causing secondary environmental pollution. There is a problem.

In the case of landfill, there is a problem that the surrounding soil and rivers are polluted by the leachate generated from the waste.

In the composting and feed method, most of the generated food waste is treated by heat drying, but there is a problem in that a lot of fuel is consumed to dry.

Korea Patent Registration No. 10-1637222 (2016.07.01.)

The present invention is to solve the problems as described above, and to provide an organic waste treatment apparatus that can effectively remove the moisture and odor in the air discharged from the reaction tank, and can reduce the fuel used to heat the reaction tank. It is done.

The organic waste treatment apparatus according to the present invention for achieving the above object is a pair of stirring blades rotatably intersecting each other and the heating chamber is installed to surround a portion of the outer surface, the air inlet formed on the upper side and A reaction tank having an air discharge portion, an air supply pipe coupled to the air inlet portion to supply air to the inside of the reaction tank, having a heater at a predetermined position, a connection pipe connected to a heating chamber at a predetermined position of the air supply tube, and an air supply tube An air supply unit having a supply valve installed at a predetermined position in the longitudinal direction of the air supply unit, an air discharge pipe connecting the air discharge unit and the heating chamber, a blower installed in the air discharge pipe to suck internal air of the reactor, and in the air sucked through the blower A water removing unit for removing the contained water, a heating unit for heating the air from which the water is removed by the water removing unit, and a heating unit. And an air circulation unit having a deodorizing unit for filtering the air heated by the unit.

Here, the moisture removal unit preferably includes a condenser for condensing moisture contained in the air discharged through the air discharge pipe and the water separator for separating the residual moisture contained in the air passing through the condenser with the air.

In addition, it is preferable that a control valve is provided between the heating unit and the deodorizing unit to control the amount of air supplied to the deodorizing unit.

In addition, the inner bottom surface of the reaction tank is preferably installed so that at least one or more air injection unit connected to the air inlet is located between the pair of stirring blades.

The user input unit, a temperature sensor for detecting the temperature of the air discharged from the heating chamber through the connection pipe, and when an operation command is input through the user input unit, air is supplied into the reactor through the air supply unit. When the temperature of the air discharged from the heating chamber reaches a preset temperature based on the signal from the sensor, it is preferable to further include a control unit for controlling the supply valve to supply only the air discharged through the connecting pipe to the reactor. .

The apparatus may further include a supply temperature sensor that detects a temperature of the air supplied to the reaction tank through an air supply pipe, and the controller may be configured when the temperature of the air supplied to the reaction tank reaches a preset temperature based on a signal from the supply temperature sensor. It is desirable to control the operation of the heater to be stopped.

The organic waste treating apparatus of the present invention having the above-described configuration has an effect of effectively removing moisture and odors in the air discharged from the reaction tank and reducing fuel used to heat the reaction tank.

1 is a view schematically showing an organic waste treatment apparatus according to an embodiment of the present invention.
Figure 2 is a block diagram functionally showing the operation control related configuration of the organic waste treatment apparatus according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail an organic waste treatment apparatus according to an embodiment of the present invention.

1 is a view schematically showing an organic waste treatment apparatus according to an embodiment of the present invention, Figure 2 is a block diagram functionally showing the operation control related configuration of the organic waste treatment apparatus according to an embodiment of the present invention.

Referring to this, the organic waste treatment apparatus 100 according to the embodiment includes a reaction tank 110, air air supply unit 120, air circulation unit 130.

The reactor 110 is a container for reacting and treating aerobic or hydrophilic microorganisms in a state in which organic waste is accommodated therein, and a pair of stirring wings 112 for stirring organic waste with aerobic or hydrophilic microorganisms intersect each other. It is rotatably installed.

In addition, the heating chamber 114 is installed in the reaction tank 110 to surround a portion of the outer surface of the reaction tank 110. The heating chamber 114 receives air heated to an appropriate temperature while passing through the air circulation unit 130 to be described later, and an internal temperature of the reaction tank 110 is a proper temperature for fermentation of organic waste (about 40 to 60 ° C.). The reactor 110 is heated to maintain.

Then, the upper side of the reaction tank 110, the air inlet 110a is connected to the air supply unit 120 so that the air supplied from the air supply unit 120 is introduced into the reaction tank 110, and discharged from the reaction tank 110 An air discharge part 110b connected to the air circulation part 130 is formed so that the air is supplied to the air circulation part 130.

In addition, at least one air injection unit 116 connected to the air inlet unit 110a may be disposed between the pair of stirring blades 112 on the inner bottom surface of the reaction tank 110. At this time, although the air injection unit 116 is not shown in the drawing is connected to the air inlet 110a through a separate pipe.

As such, the air injection unit 116 is installed on the inner bottom surface of the reaction tank 110 such that the air introduced into the reaction tank 110 through the air inlet 110a is supplied between the pair of stirring blades 112. By doing so, the activation of aerobic or hydrophilic microorganisms is further improved, and the treatment efficiency of organic waste is improved.

The air supply unit 120 supplies air to the inside of the reaction tank 110 so that the organic waste contained in the reaction tank 110 can be treated by reacting with aerobic or hydrophilic microorganisms, one end of which is located above the reaction tank 110. An air supply pipe 122 coupled to the formed air inlet 110a and having a heater 122a installed at a predetermined position to heat the air supplied to the reaction tank 110, and at a predetermined position of the air supply pipe 122. The connection pipe 124 is installed to be connected to the heating chamber 114, and the supply valve 126 is installed at a predetermined position in the longitudinal direction of the air supply pipe 122 to open and close the supply of air supplied to the reaction tank (110).

In addition, the air supply pipe 122 is provided with a supply temperature sensor 122b for measuring the temperature of the air heated by the heater 122a and supplied to the reactor 110, the connection pipe 124 to the connection pipe 124 Through the circulation temperature sensor 124a for measuring the temperature of the air supplied to the air supply pipe 122 is installed.

The air circulation unit 130 allows the air discharged from the reaction tank 110 to be supplied to the heating chamber 114 to heat the reaction tank 110 to a proper temperature. Here, the air supplied to the heating chamber 114 to heat the reaction tank 110 is supplied into the reaction tank 110 again through the connection pipe 124 installed to be connected to the air supply pipe 122.

The air circulation unit 130 is provided with an air discharge pipe 132 connecting the reaction tank 110 and the heating chamber 114, and a blower 134 installed in the air discharge pipe 132 to suck the air inside the reaction tank 110. And a water removing unit 136 for removing moisture contained in the air sucked through the blower 134, a heating unit 138 for heating the air from which the water is removed by the water removing unit 136, and heating. It has a deodorizing part 139 which filters the air heated by the part 138.

In addition, an air compressor may be installed in the air discharge pipe 132 instead of the blower 134.

The water removing unit 136 condenses the moisture contained in the air discharged through the air discharge pipe 132 and separates the air from the condenser 136a, and the remaining moisture contained in the air passing through the condenser 136a and the air. It consists of a water separator 136b for separating.

The heating unit 138 increases the temperature of the air whose temperature is lowered while the water is removed through the water removing unit 136, thereby effectively removing the odor molecules contained in the air by the deodorizing unit 139 which will be described later. Air is supplied to the heating chamber 114 to heat the reactor 110.

At this time, the temperature of the air heated by the heating unit 138 is heated to 250 ℃ or more, because the temperature at which the platinum catalyst used in the deodorizing unit 139 to be described later is 250 ℃ or more.

Deodorizing unit 139 is preferably a platinum catalyst is used to effectively absorb the odor molecules in the air or to break the odor by breaking into fine molecules. However, the present invention is not limited thereto, and any odor molecules may be used as long as the odor molecules may be effectively adsorbed or broken into fine molecules to remove odors.

In addition, a control valve 133 is provided between the heating unit 138 and the deodorizing unit 139 to control the amount of air supplied to the deodorizing unit 139. The control valve 133 is controlled by the controller 140 to be described later so that the amount of air supplied to the deodorizing unit 139 is supplied in a predetermined amount according to the processing capacity of the deodorizing unit 139.

In addition, the present invention preferably further includes a control unit 140 for controlling the air supply unit 120, the supply valve 126, the blower 134, the water removal unit 136, the heating unit 138.

The controller 140 receives information from the user input unit and the circulation temperature sensor 124a which detects the temperature of the air discharged from the heating chamber 114 through the connection pipe 124.

When the operation command is input through the user input unit, the control unit 140 allows air to be supplied to the inside of the reactor 110 through the air supply unit 120, and is heated based on a signal from the circulation temperature sensor 124a. When the temperature of the air discharged from the chamber 114 reaches a preset temperature, the supply valve 126 is blocked to control only the air discharged through the connection pipe 124 to be supplied to the reactor 110.

In addition, the controller 140 controls the operation of the heater 122a to be stopped when the temperature of the air supplied to the reaction tank 110 reaches a preset temperature based on the signal from the supply temperature sensor 122b.

Although embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art may variously modify and change the present invention without departing from the spirit of the invention as set forth in the claims below. I can understand that.

110; Reactor
112; Stirring blade
114; Heating chamber
116; Air injection part
120; Air supply
122; Air supply pipe
124; Connector
126; Supply valve
128; Condenser
130; Air circulation
132; Air exhaust pipe
133; Control valve
134; Blower
136; Moisture removal
138; Heating
139; Deodorant
140; Control

Claims (6)

A reaction tank having a pair of stirring vanes rotatably intersecting therein, a heating chamber installed to cover a portion of an outer surface, and an air inlet and an air outlet formed on the upper side;
An air supply pipe coupled to the air inlet to supply air to the inside of the reaction tank, the air supply pipe having a heater at a predetermined position, a connection pipe connected to the heating chamber at a predetermined position of the air supply pipe, and a length of the air supply pipe An air supply unit having a supply valve installed at a predetermined position in a direction; And,
An air discharge pipe connecting the air discharge unit and the heating chamber, a blower installed in the air discharge pipe to suck internal air of the reaction tank, and a water remover to remove water contained in the air sucked through the blower; And an air circulation unit having a heating unit for heating the air from which moisture is removed by the water removing unit, and a deodorizing unit for filtering the air heated by the heating unit.
A control valve is installed between the heating unit and the deodorizing unit to control the amount of air supplied to the deodorizing unit.
A user input unit,
A circulation temperature sensor for detecting a temperature of air discharged from the heating chamber through the connection pipe;
When an operation command is input through the user input unit, when air is supplied to the inside of the reactor through the air supply unit, the temperature of the air discharged from the heating chamber is set in advance based on a signal from the circulation temperature sensor. And a control unit which blocks the supply valve to reach the reactor when only the air discharged through the connection pipe is reached.
The method according to claim 1,
The water removal unit includes an organic waste treatment comprising a condenser for condensing moisture contained in the air discharged through the air discharge pipe and separating the air from the air, and a water separator for separating residual water contained in the air passing through the condenser with air. Device.
delete The method according to claim 1,
Organic waste treatment apparatus characterized in that the inner bottom surface of the reaction tank is installed so that at least one or more air injection unit connected to the air inlet is located between the pair of stirring blades.
delete The method according to claim 1,
Further comprising a supply temperature sensor for detecting the temperature of the air supplied to the reaction tank through the air supply pipe,
And the controller controls the operation of the heater to stop when the temperature of the air supplied to the reactor reaches a preset temperature based on a signal from the supply temperature sensor.

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