KR101483751B1 - High-temperature pyrolysis incineration apparatus - Google Patents

Abstract

The present invention relates to a high-temperature pyrolysis incineration apparatus and, more specifically, to a high-temperature pyrolysis incineration apparatus comprising: a combustion part receiving to-be-incinerated targets (object to be treated) therein, and combusting the to-be-incinerated targets at a high temperature; and an air blow part installed in the combustion part, and forcibly blowing external air into the combustion part in order to allow the air to flow into the combustion part. The high-temperature pyrolysis incineration apparatus according to the present invention is capable of forcibly blowing and jetting the external air into a combustion chamber through the air outlet of an air blow pipe installed in the combustion chamber, thereby completely combusting the to-be-incinerated targets at the high-temperature. In addition, the high-temperature pyrolysis incineration apparatus according to the present invention is capable of combusting the to-be-incinerated targets by having a combustion layer multilayered in the combustion chamber when the air outlet is set in multiple stages in the air blow pipe installed in the combustion chamber, thereby preventing the emission of environmentally harmful substances and exhaust fumes by preventing the incomplete combustion of the to-be-incinerated targets. Furthermore, the high-temperature pyrolysis incineration apparatus according to the present invention is capable of improving the treatment speed of the to-be-incinerated targets by maintaining the inside of the combustion chamber at the high temperature, so the to-be-incinerated targets can be continuously input into the combustion chamber, thereby increasing a treatment capacity.

Description

{HIGH-TEMPERATURE PYROLYSIS INCINERATION APPARATUS}

TECHNICAL FIELD The present invention relates to an incineration apparatus, and more particularly, to a high-temperature pyrolysis incinerator for incineration of general household waste and industrial waste at a high temperature.

Many countries around the world have been researching and developing garbage disposal methods and technologies, which are the main causes of environmental problems. As a general method of treatment, a large incineration facility is constructed, and waste collected and transported is incinerated using fuel. However, these large incinerators require significant initial installation and operational management costs. In addition, the problem of collecting and transporting and disposal of incineration ash will occur.

As a solution to this problem, research and development on an industrial waste disposal apparatus capable of moving installation has been receiving attention. Particularly, research and development on low temperature pyrolysis incinerator for treatment of special waste such as medical waste and industrial waste have been actively carried out.

However, in the conventional low-temperature pyrolysis incinerator, when the combustion process of a substance having a high heat quantity such as vinyl or plastic is performed, the high temperature causes superheat and soot is generated. In addition, it is difficult to completely dispose of wastes with high moisture contents, so it is necessary to incinerate the treated water separately. In order to remove dioxin, which is an environmentally harmful substance, a separate secondary combustion device must be installed. . In addition, the low temperature pyrolysis incinerator has a processing capacity of one day because of a long processing time depending on the processed product. Korean Utility Model Registration No. 20-0256297 (registered on November 22, 2001) discloses a low temperature pyrolysis apparatus for combustible gas using industrial waste as the main fuel.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-mentioned problems of the previously proposed methods. The present invention is constituted to forcibly blow out external air into a combustion chamber through an air injection port of a blowing pipe installed in a combustion chamber, It is an object of the present invention to provide a high-temperature pyrolysis incinerator capable of performing a complete combustion process.

The present invention also provides a method for preventing incomplete combustion of a treated product by preventing combustion of environmentally harmful substances and soot by burning the treated product at a high temperature by setting the air injection port in the blowing pipe provided in the combustion chamber to multi- Another object of the present invention is to provide a pyrolysis incinerator for high temperature.

Another object of the present invention is to provide a high-temperature pyrolysis incineration apparatus capable of increasing the processing capacity by allowing the temperature of the combustion chamber to be maintained at a high temperature, thereby enabling the continuous introduction of the processed product at a high processing speed.

According to an aspect of the present invention, there is provided a pyrolysis incinerator comprising:

A combustion unit for burning the object to be incinerated (processed material) to be injected into the inside at a high temperature; And

And a blowing unit installed inside the combustion unit for forcibly blowing the air into the combustion unit so as to introduce outside air into the combustion unit.

Preferably, the blowing portion includes:

At least one or more blowing tubes installed in the inner wall of the combustion unit for injecting the air into the combustion unit;

An air inflow path formed in the combustion unit to be connected to the blowing pipe and having an air inlet; And

And a blowing fan installed to be connected to the air inflow path for forcibly blowing the air to the air inflow path through the air inflow port.

More preferably, in the blowing pipe,

At least one air jet opening may be formed.

Still more preferably, the air-

A plurality of combustion chambers of the combustion section may be arranged in a multistage manner so as to be multi-layered and spaced up and down on the blowing pipe to burn the processed material at a high temperature.

Preferably, the high-temperature pyrolysis incinerator comprises:

And an auxiliary fuel injecting unit installed in the combustion unit and injecting the auxiliary fuel into the combustion unit to facilitate the treatment of the residue of the water having a large moisture content.

Preferably, the high-temperature pyrolysis incinerator comprises:

And an opening / closing unit installed on the upper portion of the combustion unit so as to open / close to disperse the heat in the combustion unit and prevent the exhaust of the soot from the outside.

More preferably, the high-temperature pyrolysis incinerator comprises:

And an opening / closing control unit for controlling opening / closing of the opening / closing unit.

Still more preferably, the opening /

A driving cylinder installed at an outer side of the combustion unit;

A rotary shaft portion rotatably coupling the opening / closing portion to an upper portion of the combustion portion; And

And a link portion connecting the cylinder rod of the driving cylinder and the rotary shaft portion and converting the linear motion of the driving cylinder into rotary motion of the rotary shaft portion.

Preferably, the combustion section includes:

A large number of heat pipes are installed inside the side wall and can be used as hot water or hot air by using high temperature heat generated when the process water is burned.

According to the high-temperature pyrolysis incineration apparatus proposed in the present invention, the outside air is forcedly blown into the combustion chamber through the air injection port of the blowing pipe installed in the combustion chamber, so that the incineration processed product can be completely burned at a high temperature.

In addition, according to the present invention, by setting the air injection port in the blowing pipe provided in the combustion chamber to multi-stage, the combustion layer of the combustion chamber is made into a multi-layered structure and the processed material is burned at a high temperature to prevent incomplete combustion of the processed material, have.

In addition, according to the present invention, since the temperature in the combustion chamber is maintained at a high temperature, the throughput can be increased by increasing the processing speed of the treated material, thereby increasing the processing capacity.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view of a high-temperature pyrolysis incinerator according to an embodiment of the present invention; FIG.
2 is a side view of a high temperature pyrolysis incinerator according to an embodiment of the present invention;
3 is a cross-sectional view of a high-temperature pyrolysis incinerator according to an embodiment of the present invention.
4 is a view showing a configuration of an open / close control unit in a high temperature thermal decomposition incinerator according to an embodiment of the present invention.
5 is a view showing a configuration in which a heat pipe is installed in a combustion section in a high temperature thermal decomposition incinerator according to an embodiment of the present invention.
6 is a view showing an operation state in which outside air is forcibly blown into a combustion section in a high temperature thermal decomposition incinerator according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order that those skilled in the art can easily carry out the present invention. In the following detailed description of the preferred embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In the drawings, like reference numerals are used throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . Also, to "include" an element means that it may include other elements, rather than excluding other elements, unless specifically stated otherwise.

FIG. 1 is a front view of a pyrolysis incinerator according to an embodiment of the present invention. FIG. 2 is a side view of a pyrolysis incinerator according to an embodiment of the present invention. 3 is a cross-sectional view of a high-temperature thermal decomposition incinerator according to an embodiment of the present invention, and FIG. 4 is a view illustrating a configuration of an opening / closing controller in a high-temperature pyrolysis incinerator according to an embodiment of the present invention.

1 to 4, a high temperature thermal decomposition incinerator 100 according to an embodiment of the present invention includes a combustion unit 110, a blowing unit 120, an auxiliary fuel input unit 130, and an opening / 140).

The combustion unit 110 may be constituted by a combustion chamber 111 for burning an object to be incinerated (processed material), for example, general household waste and industrial waste at a high temperature. In this embodiment, the combustion chamber 111 is formed in a rectangular shape, but the present invention is not limited thereto. In addition, the combustion chamber 111 may be provided with a temperature measurement sensor 113 for measuring the temperature inside thereof. In addition, it is preferable that the combustion chamber 111 is made of a heat insulating material having a double structure in order to prevent the internal high heat from being directly transmitted to the outside. The combustion chamber 111 may be formed with an air inflow path 123 having an air inflow port 124 formed therein so as to be connected to a blowing pipe 121 to be described later. The combustion chamber 111 is provided with an ash generation material discharge port (not shown) for discharging the ash material and an ash generation material discharge door 115 for opening and closing the ashes discharge port. The combustion chamber 111 is provided with a combustion ignition state and an outside air conditioner (117) may be installed. A transparent window 119 may be formed on the upper surface of the combustion chamber 111 so that the thermal state and the combustion state in the combustion chamber 111 can be checked from outside.

The blowing unit 120 blows air into the combustion chamber 111 for blowing outside air into the combustion chamber 111. The blowing unit 120 may include a blowing pipe 121, an air inflow path 123, and a blowing fan 125. At least one or more blowing pipes 121 are provided on the inner wall of the combustion chamber 111 to inject outside air into the combustion chamber 111. The blowing pipe 121 may be installed in the form of a single or a plurality of vertical heat-resistance pipes according to the treatment purpose and the treatment capacity, and the upper end is sealed and the lower end is opened to communicate with the air inflow path 123. In addition, at least one air injection port 122 may be formed in the blowing pipe 121 in accordance with the calculated angle and quantity so as to have interconnectivity. The air injection port 122 may be arranged in a multi-layered structure of three or four stages according to the processing capacity so as to be vertically spaced on the blowing pipe 121 in order to multi-layer the combustion layers in the combustion chamber 111, have. At this time, the uppermost air injection port forms a wind-resistant film on the upper part of the combustion chamber 111 at the time of air injection so that the temperature of the combustion gas is maintained at a high temperature of 1200 degrees or more, thereby preventing the emission of environmentally harmful substances, . For example, the first air injection port 122a may be installed as an air injection primary device so that the calculated quantity, angle, and size of the air blowing pipe 121 are adjusted. The second air injection port 122b is an air injection secondary apparatus, and may be installed so that the calculated quantity, angle, and size of the air blowing pipe 121 are adjusted. At this time, the second air injection port 122b connects the air blowing pipe 121 to form a wind blowing film in the middle part of the combustion chamber 111 in cooperation with each other. The third air injection port 122c is an air injection tertiary device and may be installed on the upper side of the air blowing pipe 121 so that the calculated quantity and angle are adjusted. At this time, the third air injection port 122c interlocks with each other when the air blowing pipe 121 has a plurality of blowing pipes 121 to form a windshield film on the upper part of the combustion chamber 111, and to keep the burning combustion at a high temperature and to prevent external exhaust of the smoke. Therefore, the burning layer of the combustion chamber 111 is divided into a plurality of stages to be incinerated at a high temperature, thereby preventing incomplete combustion of the treated product, and it is possible to completely burn the input materials and the vinyl or plastic products having a large moisture content. Further, by forming a plurality of windshields in the combustion chamber 111, the temperature in the combustion chamber 111 is maintained at a high temperature of 1200 degrees Celsius, and discharge of environmentally harmful substances and discharge of soot are prevented. The air inflow path 123 is formed laterally in the bottom wall of the combustion chamber 111 so that both sides thereof are connected to the air blowing pipe 121 and an air inlet 124 is formed at the center. The air blowing fan 125 is installed to be connected to the air inflow path 123 and supplies a predetermined amount of external air through the air inflow path 123 of the air inflow path 123 to the combustion chamber The air is blown so that it can flow into the air blowing pipe 121 in the air conditioner 111. The blowing fan 125 may be provided in a single or plural number by constituting a forced air blowing device together with a blowing motor (not shown).

The auxiliary fuel input part 130 is a fuel injection pipe 131 installed at both lower sides of both sides of the combustion chamber 111. The auxiliary fuel input part 130 includes a fuel supply pipe 131 having a large moisture content, such as medical waste, farm wastes, food waste, The auxiliary fuel is injected into the combustion chamber 111 to completely burn the waste and facilitate the treatment of the residue of the treated material. The auxiliary fuel injecting unit 130 may be provided with a fuel adjusting device (not shown) externally so as to be usable as needed.

The opening and closing part 140 is composed of an opening and closing door 141 which is vertically openable and closable at the upper part of the combustion chamber 111 so as to be able to continuously introduce the processed material into the combustion chamber 111, To prevent external discharge of the battery. The opening and closing part 140 can be opened and closed by an opening / closing part 150 provided outside the combustion chamber 111. The opening and closing part 150 includes a driving cylinder 151 installed at one side of the combustion chamber 111, a rotating shaft part 153 rotatably coupling the opening and closing part 140 to the upper part of the combustion chamber 111, And a link unit 155 that connects the cylinder rod 152 of the cylinder 151 and the rotary shaft unit 153 and converts the linear motion of the drive cylinder 151 into rotary motion of the rotary shaft unit 153 . Here, the driving cylinder 151 sets a control device (not shown) and is capable of driving control according to a necessary situation. In this embodiment, the driving cylinder 151 is configured to apply an air cylinder that generates a driving force by using air. However, the present invention is not limited to this, and the driving cylinder 151 may include a hydraulic cylinder May be used.

5 is a view showing a configuration in which a heat pipe is installed in a combustion chamber in a high temperature thermal decomposition incinerator according to an embodiment of the present invention. 5, the pyrolytic incineration apparatus 100 according to an embodiment of the present invention includes a combustion chamber 111 formed of a heat insulating material having a double structure, and external air is introduced into an intermediate space between the combustion chamber 111 and the combustion chamber 111) is prevented from being directly transmitted to the outside to prevent the risk of fire and burn. A plurality of heat pipes 161 may be installed in the sidewalls of the combustion chamber 111 to use hot water or hot air using the high temperature heat generated in the combustion chamber 111 when the process water is burned. The heat pipe 161 is connected to one side of the inlet port 163 so as to allow water or air to flow therein and is connected to the other side of the heat pipe 161 so that hot water or warm air heated by the high temperature of the combustion chamber 111 is discharged to the outside. Lt; / RTI >

FIG. 6 is a view showing an operation state in which external air is forcibly blown into a combustion chamber in the high temperature thermal decomposition incinerator according to an embodiment of the present invention. 6, the pyrolytic pyrolysis incinerator 100 according to an embodiment of the present invention drives the blowing fan 125 to blow outside air into the air inflow path 123 through the air inflow port 124, And blows air to the blowing pipe 121 installed in the combustion chamber 111. [ External air blown into the blowing pipe 121 is injected into the combustion chamber 111 through the air injection port 122, thereby burning the processed material injected into the combustion chamber 111 into a high temperature. At this time, by making the combustion layer in the combustion chamber 111 multi-layered and incinerating the processed product at a high temperature, it is possible to prevent incomplete combustion of the treated product, and to completely burn the contents and vinyl and plastic products having a large moisture content. More specifically, the first air injection port 122a is located at the lower side of the blowing pipe 121, the second air injection port 122b is at the middle side of the blowing pipe 121, (③) above the blowing pipe 121, the external air is injected into the combustion chamber 111 at the calculated quantity, angle and size. That is, by forming multiple windshields in the combustion chamber 111, the temperature in the combustion chamber 111 is maintained at a high temperature of 1200 degrees Celsius, thereby preventing the emission of environmentally harmful substances and soot, thereby preventing environmental pollution due to high temperature incineration, . In addition, since the temperature in the combustion chamber 111 is high, the processing speed of the treated material is high, so that continuous charging is possible and the processing capacity per day becomes large. In addition, the pyrolysis incinerator 100 of the present invention is easy to move and install, and can be installed in a narrow space outside and inside, so that the incinerator can be incinerated at a certain place without transporting and transporting the waste. In addition, waste treatment except for special cases such as processed water having a large amount of water is economical because it does not require auxiliary fuel and can be operated only by a small amount of electric power to rotate the blowing fan 125. Therefore, In addition, the present invention provides a method of disposing wastes generated at medical facilities, nursing homes, special facilities, military bases, highway cozy rooms, islands, public parks, religious facilities, farming and fishing villages, can do.

The present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics of the invention.

100: a high temperature pyrolysis incinerator according to an embodiment of the present invention
110: combustion section 111: combustion chamber
113: temperature measuring sensor 115: ash discharge door
117: Outdoor adjustment device 119: Transparent window
120: a blowing section 121: an air blowing pipe
122: air nozzle 123: air inlet
124: air inlet 125: blowing fan
130: auxiliary fuel input part 140: opening / closing part
150: opening / closing control part 151: driving cylinder
153: rotating shaft part 155:
161: Heat piping

Claims (9)

A combustion unit 110 for burning the object to be incineration to be treated (treated product) into a high temperature;
A blowing unit 120 installed inside the combustion unit 110 for forcibly blowing the air into the combustion unit 110 so as to introduce outside air into the combustion unit 110; And
And an auxiliary fuel injecting part (130) installed in the combustion part (110) and injecting an auxiliary fuel into the combustion part (110) for facilitating the treatment of residues of the water having a high water content,
The combustion unit (110)
A plurality of heat pipes 161 are installed inside the side wall and are used as hot water and hot air by using high-temperature heat generated during the combustion of the processed water,
The wind-up part (120)
A blowing pipe 121 installed at an inner wall of the combustion unit 110 and injecting the air into the combustion unit 110 and a blowing pipe 121 installed at the combustion unit 110 to be connected to the blowing pipe 121, An air inflow path 123 formed with an air inflow port 124 and an air inflow path 123 installed to be connected to the air inflow path 123 and forcedly blowing the air through the air inflow path 124 to the air inflow path 123 Wherein at least one air injection port 122 is formed in the blowing pipe 121 and the air injection port 122 is formed by layering the combustion layer of the combustion unit 110, And a plurality of the heat exchangers are vertically spaced apart from each other in a multistage manner in the blowing pipe (121) for high temperature combustion.
delete delete delete delete The high-temperature pyrolysis incinerator (100) according to claim 1,
The apparatus according to claim 1, further comprising an opening / closing part (140) installed at an upper portion of the combustion part (110) to disperse the heat in the combustion part (110) Device (100).
The high-temperature pyrolysis incinerator (100) according to claim 6,
The apparatus (100) for high temperature pyrolysis and decommissioning according to claim 1, further comprising an opening / closing control part (150) for controlling the opening / closing of the opening / closing part (140).
The apparatus according to claim 7, wherein the opening / closing controller (150)
A driving cylinder 151 installed at an outer side of the combustion unit 110;
A rotary shaft portion 153 rotatably coupling the opening / closing portion 140 to the upper portion of the combustion portion 110; And
A link unit 155 that connects the cylinder rod 152 of the drive cylinder 151 to the rotary shaft unit 153 and switches the linear motion of the drive cylinder 151 to the rotary motion of the rotary shaft unit 153, (100). ≪ / RTI >
delete

Images