KR101429050B1 - Air warming up device of boiler - Google Patents

Abstract

The present invention relates to an air warming up device of a combustion type heating instrument and, more specifically, to an air warming up device installed on a portion where outdoor air is flowed in to minimize the discharge of air pollutants, regarding a boiler, a burner, a thermoelectric power plant and the likes which use fossil fuel. According to the air warming up device of the present invention, waste heat contained in combustion exhaust gas can be used to warm up the air supplied into a combustion chamber in advance. Thereby, a complete combustion occurs to achieve maximized thermal efficiency with low fuel consumption and to reduce the emission of air pollutants generated by the combustion, such as carbon monoxide (CO), carbon (C) and nitrogen oxides (NO_x).

Description

TECHNICAL FIELD [0001] The present invention relates to an air warming device,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air preheating apparatus for a combustion type heating means, and more particularly, to an air preheating apparatus for a combustion preheating apparatus, such as a boiler, a burner, To an air preheating apparatus.

Generally, a combustion device such as a boiler or a water heater is a device for heating a heating medium in a closed container by a heat source to supply a desired area or supplying hot water. The heating device includes a burner for burning the fuel, And a heat exchanger for transferring heat to the heat exchanger.

The burner mixes gas or liquid fuel with air and burns the flame at the end of the torch where gas or liquid fuel is injected. At this time, air is introduced into the combustion chamber through the blower to burn the gas or the liquid fuel, and the fuel and the air are mixed to generate the flame.

However, since the outside temperature is low as in winter, when the air entering the combustion chamber is cold or humid, the fuel is not easily burned. In addition, carbon monoxide (CO), hydrocarbons (HC) There is a problem that a large amount of oxide (NOx) or the like occurs.

Korean Patent Publication No. 10-2005-0027398

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems of the prior art, and it is an object of the present invention to provide a method of controlling the combustion load of a combustion chamber by supplying heat to an appropriate temperature by using waste heat in advance so that complete combustion can be performed in the combustion chamber. The present invention also provides a preheating apparatus for a boiler which can minimize the generation of air pollutants due to complete combustion while improving the combustion efficiency.

In order to achieve the above object, an air preheating apparatus of a combustion type heating means according to the present invention is a main body constituting an upper end portion of a combustion chamber of a combustion type heating means, in which a combustion chamber exhaust port and a transfer hole are spaced apart from each other And a portion of the main body portion including a portion between the exhaust port of the combustion chamber and the transfer hole is vertically extended so as to be located in the combustion chamber and the upper portion of the main body portion is located outside the combustion chamber, A heat sink coupled to the main body and having a plurality of spaced apart laterally spaced apart from each other, a hollow member having an upper surface and a lower surface opened, a lower inner hole communicating with the main body to communicate with the combustion chamber exhaust port, The inner communication is located inside the inner communication and the remaining part is outside the inner communication, And a plurality of heat exchange plates arranged in a radial direction with a plurality of spaced apart from each other in a state of being vertically penetrated through the main body portion and the heat dissipation plate projected onto the main body portion, And an outer tube communicating with the inner tube and the heat exchange plate and having a lower end coupled with the cover portion, and an outer tube communicating with the inner tube and the heat exchange plate, And an air transfer pipe connected to the main body and extending downward so as to be a passage for air discharged to the combustion chamber space, wherein the cover includes a space between the internal combustion passage and the external combustion chamber and air passing through the space between the heat exchange plates And a cover hole communicating with the opened lower surface of the outer cylinder so as to be introduced into the heating space And the internal structure of the heating space is configured such that air introduced through the hole of the cover portion has a flow discharged through the space between the heat sinks to the transfer hole.

It is preferable that a portion of the body portion, to which the heat dissipation plate is coupled, is a plate-shaped member which is inclined downward from a portion in contact with the exhaust port of the combustion chamber toward an edge.

Further, it is preferable that the upper end of the inner communication pipe is located higher than the upper end of the outer barrel.

As described above, according to the boiler air preheating apparatus of the present invention, the air to be introduced into the combustion chamber by using the waste heat contained in the combustion exhaust gas is preheated and supplied beforehand to complete combustion in the combustion of fuel, (CO), hydrocarbons (IC), and nitrogen oxides (NOx), which are the causes of air pollution caused by incomplete combustion, can be reduced.

1 is a perspective view showing an air preheating apparatus of a combustion type heating means according to the present invention.
2 is an exploded perspective view showing an air preheating apparatus of the combustion type heating means according to the present invention.
3 and 4 are perspective views showing the main body of the air preheating device of the combustion type heating means according to the present invention.
5 is a perspective view showing a cover portion of the air preheating device of the combustion type heating means according to the present invention.
6 is a perspective view showing the inner communication and the heat exchange plate of the air preheating apparatus of the combustion type heating means according to the present invention.

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

FIG. 3 is a perspective view of the main body portion viewed from above, FIG. 4 is a perspective view of the main body portion viewed downward, FIG. 5 is a perspective view showing the cover portion, 6 is a perspective view showing the inner communication pipe and the heat exchange plate.

The air preheating device of the combustion type heating means according to the present invention includes a main body 100, a cover 200, an inner cylinder 300, an outer cylinder 400, a heat sink 500, a heat exchange plate 600, (700).

The combustion type heating means of the present invention includes a combustion chamber as a boiler, a burner, a thermal power plant or the like as a whole combustion system using fossil fuel.

The cover unit 200 covers the main body 100 and is engaged with the main body 100 and the lower end of the inner communication pipe 300 is engaged with the main body 100, So that the upper end thereof is slightly higher than the upper end of the outer cylinder 400. In this specification, a space between the main body 100 and the cover part 200 is referred to as a heating space.

The main body 100 is a portion constituting all or a part of the lid of the combustion chamber, and the space below the main body 100 corresponds to the combustion chamber space.

3 and 4, a combustion chamber exhaust port 110, which is a circular hole penetrating in a vertical direction, is formed in a left side edge portion of the main body 100, and a right side edge portion of the main body portion 100 is vertically A transfer hole 120 which is a circular circular hole is formed.

A circular tube projecting short from the upper side while communicating with the combustion chamber exhaust port 110 is integrally formed with the body portion 100. The portion surrounding the circular tube is a portion having a horizontal flat surface in a rectangular shape, A downward sloping surface is formed in the rightward direction, and the portion where the combustion chamber exhaust port 110 is formed is positioned relatively higher. The inclined portion of the main body 100 is formed of a plate material and has an upwardly inclined surface toward the exhaust port 100 as viewed from below as shown in FIG.

The heat sink 500 is a thin rectangular plate made of a metal material with good heat conduction, and a plurality of the heat sinks 500 are installed vertically and side by side. The heat sink 500 is connected to the main body 100 so as to intersect the upper surface of the main body 100 and intersect the portion forming the inclined surface so that the lower portion of the heat sink 500 coupled with the main body 100 The upper portion of the heat sink 500 inside the combustion chamber and coupled with the body 100 is located outside the combustion chamber.

The heat sinks 500 installed in the downward inclined portion of the main body 100 from the combustion chamber exhaust port 110 toward the transfer hole 120 are arranged side by side at regular intervals in the forward and backward directions, The heat radiating plates 500 provided at the portion inclined downwardly from the exhaust port 110 forward or backward are arranged in parallel at regular intervals in the left and right direction and are provided at the edges of the portion protruding upward from the main body 100 The heat sink 500 is not extended so that the air moved past the heat sinks 500 is prevented from moving to the transfer hole 120.

The top edge of the heat sink 500 is inclined so as to be parallel to the inclined surface of the main body 100.

The cover portion 200 is formed in a shape of a lid having an upper surface that is inclined so as to cover all the heat sinks 500 as well as the body portion 100 by reflecting a height protruded upward of the heat sinks 500, .

A flat rectangular surface having the same size and shape as a rectangular flat surface surrounding the combustion chamber exhaust port 110 of the body 100 is provided on the top portion of the cover portion 200 and a circular cover portion A hole 210 is formed. The cover portion hole 210 is larger in diameter than the combustion chamber exhaust port 110.

The outer cylinder 400 is a circular pipe having a hole on the upper surface and a lower surface, and the lower end of the outer cylinder 400 communicates with the cover portion 200 so that the lower hole communicates with the cover portion hole 210 and extends upwardly of the cover portion 200.

6 shows the inner communication pipe 300 and the heat exchange plate 600. The inner communication pipe 300 is a circular pipe having a diameter smaller than that of the outer cylinder 400 and formed with holes on the top and bottom surfaces. The heat exchange plate 600 is a vertically erected rectangular plate member in which the left and right middle portions intersect with the inner communication pipe 300 so that a part of the heat exchange plate 600 is located inside the inner communication pipe 300, And a part thereof is located outside the inner communication pipe (300).

The heat exchange plate 600 is a metal plate with a good heat conduction, and all 15 are arranged radially with respect to the center of the inner communication hole 300 with an interval therebetween.

The inner cylinder 300 has a lower end portion fitted into a short cylinder connected to the combustion chamber exhaust port 110 of the body portion 100 to be fixedly supported by the body portion 100. In this state, the portion of the heat exchange plate 600 located outside the inner communication pipe 300 is positioned so as to substantially touch the inner surface of the outer cylinder 400.

As shown in FIG. 4, the air transfer pipe 700 is a circular pipe having upper and lower openings. The upper and lower holes are coupled with the lower surface of the main body 100 to communicate with the transfer hole 120, In the direction of the arrow.

The operation of the air preheating apparatus of the combustion type heating means according to the present invention constructed as described above will be described below.

The exhaust gas in the combustion chamber of the boiler or the like escapes through the combustion chamber exhaust port 110 and rises through the communication pipe 300 while the exhaust gas is in contact with the heat exchange plate 600 in the inner communication pipe 300, To the plate (600). Since the heat exchange plate 600 has good heat conduction, the entire heat exchange plate 600 becomes hot. Meanwhile, the outside air flows through the outside portion of the inner communication pipe 300 in the upper surface hole of the outer barrel 400. At this time, the introduced outside air comes into contact with the heat exchange plate 600 to preheat the inflow air, 210 are heated to a high temperature.

Meanwhile, the lower part of the heat sink 500 inside the combustion chamber is heated by the heat inside the combustion chamber, so that the entire heat sink 500 is heated up to the upper part. As a result, the air introduced into the heating space is heated by contact with the hot heat sink 500 through the space between the heat sinks 500, thereby further raising the temperature. After the heated air passes through the transfer hole 120, To the lower portion where the blowing fan of the combustion chamber exists, so that high-temperature air can be supplied.

Thus, even when the temperature of the room-temperature air is low or when the humidity is high, the supplied air is heated and supplied to the high-temperature air, thereby inducing complete combustion, thereby minimizing incomplete combustion due to the temperature difference.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as set forth in the accompanying drawings. And modifications are within the scope of the appended claims.

100: main body 110: exhaust port of the combustion chamber
120: transfer hole 200: cover part
210: cover part hole 300:
400: outer cylinder 500: heat sink
600: Heat exchange plate

Claims (3)

A main body portion constituting an upper end portion of a combustion chamber of the combustion type heating means, the main body portion including a main body portion having a combustion chamber exhaust port and a transfer hole spaced from each other;
A portion of the body portion including the portion between the exhaust port of the combustion chamber and the transfer hole is vertically penetrated so that the lower portion is located inside the combustion chamber and the upper portion is located outside the combustion chamber, A heat sink having a plurality of spaced apart laterally spaced apart openings;
An inner communication member having a hollow shape with an upper surface and a lower surface opened, the lower hole being engaged with the main body portion to communicate with the combustion chamber exhaust port;
And a plurality of the inner and outer passages are radially arranged in a state of being vertically erected so as to penetrate the inner communication passage laterally so that a part of the inner communication passage is located inside the inner communication passage and a part of the inner communication passage is outside the inner communication passage. A heat exchange plate disposed;
A cover part covering the main body part and the heat radiating plate protruding from the main body part to form a heating space between the main body part and the main body part;
An outer cylinder having an upper surface and a lower surface opened and having a lower end joined to the cover portion so as to surround the inner communication and the heat exchange plate; And
And an air transfer pipe connected to the main body and extending downward so as to be a passage of air discharged through the transfer hole to the combustion chamber space,
Wherein the cover portion is formed with a cover portion hole communicating with the bottom surface of the outer tube so that air passing through the space between the inner tube and the outer tube and the space between the heat exchange plates can be introduced into the heating space,
Wherein the internal structure of the heating space is configured to have a flow through which the air introduced through the cover hole passes through the space between the heat sinks and is discharged to the transfer hole. The method according to claim 1,
Wherein the portion of the body portion to which the heat sink is coupled is a plate member that is inclined downward from a portion in contact with the exhaust port of the combustion chamber toward an edge. 3. The method according to claim 1 or 2,
And the upper end of the inner communication pipe is positioned higher than the upper end of the outer barrel.

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