KR20100001235A - Heaterer - Google Patents

Abstract

PURPOSE: A heater preventing the deformation of a heater body is provided to prevent the reduction of service life due to the heat by mounting an air injection guide pipe out of the heater body. CONSTITUTION: In a heater, an ash treating hole(4) and a fuel input(3) are mounted on top of a heater body(2) in a supporting plate(1). A air injection guide pipe(5) connects a blower(9) and an air inlet tube(6) and to emits the air to a combustion chamber(2-1). A drawer(8) is installed in the lower part of an opening/closing plate(7) of an ash treating chamber(2-2). A blower chamber(2-3) is located between a partition(11) and a supporting plate(10) or on the middle of an ash falling pipe(12). The air injection guide pipe is mounted on the outer surface of the heater body by welding an L shaped pipe. A cement mortar layer(13) is located on top of the supporting plate at a tilt. An air injection hole(13A) is formed on the supporting plate and cement mortar layer. An air inlet hole(701) is formed on one side of the opening/closing plate inserted into the guiding hole of the ash falling pipe.

Description

Heating stove {heater}

The devise is a re-dropping tube 12 in the center of the support plate 10 and the diaphragm 11 inside the stove body 2 to solve the above problems.

The air blowing chamber (2-3) is formed between the fixing and the outer surface of the stove body (2) of the part of the blowing chamber (2-3) is long L-shape

An air injecting hole 201 is installed in the hearth body 2 that matches the air injection guide tube 5 by installing the air injection guide tube 5 by welding the writing.

And an air injection hole 202 to form a ball into the combustion chamber 2-1 through an air injection guide tube 5 installed outside the stove body 2.

By spraying the air to prevent the life of the air injection guide tube 5 is shortened by high heat

In addition, it is possible to act as a force to reinforce the stove body (2) and to cement the upper portion of the support plate 10 in an inclined shape

While forming a mortar layer 13 to withstand high heat, air support holes in the support plate 10 and the cement mortar layer 13

(10A) (13A) is inserted into the guide hole (12A) of the re-dropping tube 12 formed long to be able to withstand high heat

Part of the opening and closing plate 7 to form an air inlet hole 701 to be burned by natural and forced air

Its purpose is to be able to provide a special heating stove.

The present invention is a heating stove mainly for use in winter heating for burning chemical fuel or wood such as coke, crushed coal

In more detail, the air injection guide pipe (5) for injecting air into the combustion chamber is provided outside the stove body.

To prevent shortening of service life due to high heat, the bottom of the combustion chamber is refractory or cement

The part of the opening and closing plate that forms a re-dropping tube with a mortar layer to withstand high heat and opens and closes the drop-down tube

The air inlet can be formed and the air can be naturally introduced into the combustion chamber to combust without the blower being used.

I did it.

Conventionally, the combustion of fuel is performed well by injecting air into the combustion chamber by a blower and an air injection guide tube.

Several types of heating stoves are known for their use, but their products are air jet guides for injecting air into the combustion chamber.

Since the pipe is composed of the structure installed inside the combustion chamber, the deformation and damage of the air injection guide tube can be quickly

In addition, the bottom of the combustion chamber also has a low heat resistance to withstand high heat, so it cannot be used for a long time.

There was.

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In this way, the present invention is installed because the air injection guide pipe (5) for injecting air into the combustion chamber outside the stove body (2)

It is possible to prevent the lifespan from being shortened by heat and to make the L-angled air injection guide tube (5) play a vital role.

It is possible to prevent the deformation of the stove body (2) and the bottom of the combustion chamber (2-1) is a cement mortar layer (13) and re-fall pipe

Since 12 is formed long, it can withstand high heat, and the air inlet 701 is formed in a part of the opening and closing plate 7.

When the blower (9) is not used there is an effect that can be burned by natural blowing.

As shown in FIGS. 1 to 3, the upper and lower portions of the stove body 2 installed in the pedestal 1 are opened and closed by an opening door 3A and 4A.

The fuel inlet (3) and the reprocessing port (4) are formed, and the air injection inner pipe (5), which is installed at regular intervals, has a blower (9) and a blowing oil.

The lower part of the opening and closing plate 7 installed in the reprocessing chamber 2-2 by connecting to the inlet pipe 6 to inject air into the combustion chamber 2-1.

In the hearth with a drawer (8) in the center of the support plate 10 and the diaphragm (11) to hold the re-dropping tube 12 long and the re-dropping pipe

An air permeation chamber (2-3) is formed around the periphery of (12), and an L-angle that is long upward on the outer surface of the stove body (2) of the air permeation chamber (2-3) part is formed.

To install an air injection guide tube (5) and to the hearth body (2) that matches the air injection guide tube (5) and the air induction hole (201) and

Air is injected into the combustion chamber (2-1) through the air injection guide pipe (5) installed outside the stove body (2) by forming an air injection hole (202)

It is possible to prevent the life of the air injection guide pipe (5) by high temperature by spraying the

And also to make a role of reinforcing the stove body (2) and to act as a cement on the top of the support plate 10 inclined

The release layer 13 is formed to withstand high heat while the support plate 10 and the cement mortar layer 13 have air injection holes.

An air inlet hole 701 is formed in a part of the opening and closing plate 7 which forms (10A) and 13A and is inserted into the guide hole 12A of the re-dropping tube 12.

Formed and characterized in that it can be burned by natural and forced air, cement mortar 13 is another refractory

The combustion chamber structure of the present invention may be applied as it is to the hot water boiler.

Unexplained sign: 14 is the top plate,

15 is a chimney.

In this way, the present disclosure opens the reprocessing port 4 to seal the re-dropping tube 12 with the opening and closing plate 7 as shown in FIG.

When fuel is injected into the inlet (3), the upper fuel is ignited and the blower (9) is operated.

The wind rises along the blower inlet pipe 8, the blower chamber 2-3, and the air induction hole 201, thereby opening the air injection hole 202 of the stove body 2.

The fuel is gradually injected from the upper fuel to the lower by the abundant air injected and injected into the combustion chamber 2-1 through

In the above operation as the combustion at a high temperature, the air injection guide tube 5 of the present invention was formed on the outside of the stove body (2).

Therefore, the internal combustion heat is indirectly received, which prevents it from being easily deformed by the high temperature heat in the combustion chamber 2-1.

The L-angle acts as a force, and the stove body (2) is made of L-angle ball.

Mood yarn guide tube (5) is firmly reinforced to prevent deformation easily.

In addition, the re-dropping pipe 12 and the opening and closing pipe 7 formed with a long height by the ash falling during combustion are covered with ash, and

In addition, the bottom of the combustion chamber 2-1 is deformed even at high heat by the cement mortar layer 13.

Is prevented.

In addition, since the bottom of the combustion chamber 2-1 is inclined, the ash is lowered along the inclined surface so that it is easily collected in the ash dropping pipe 12.

do.

In addition, since the air inlet hole 701 is formed in the opening and closing plate 7, it is possible to perform natural combustion without using the blower 9.

Pull the opening and closing plate 7 of the reprocessing opening 4 forward to position the air inlet hole 701 of the opening and closing plate 7 in the hole of the re-falling tube 12.

The air outside the surface is introduced into the combustion chamber 2-1 through the air inlet hole 701 of the reprocessing port 4, the opening and closing plate 7, and the re-falling tube 12.

All. Therefore, it can be burned naturally.

The present invention is not limited to the structure shown in the drawings and can be changed within the scope without departing from the gist of course

All.

Effect of design

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Claims (1)

In the upper and lower portions of the stove body (2) installed on the pedestal (1), the fuel inlet (3) and the reprocessing opening (4) opened and closed by opening and closing doors (3A) and (4A) Air injection guide pipes (5) formed and installed at regular intervals are connected to a blower (9) and a blower inlet pipe (6) by the combustion chamber (2- 1) In the stove with a drawer 8 in the lower part of the opening and closing plate (7) installed in the reprocessing chamber (2-2) to inject air into the Between the support plate 10 and the diaphragm 11 in the center of the re-dropping tube 12 is fixed to the ventilation chamber (2-3) to form a part of the ventilation chamber (2-3) The outer surface of the stove body (2) by welding the L-shaped angle to install the air injection guide pipe (5) while forming the stove body (2) and the support plate The cement mortar layer 13 is formed in an inclined shape on the upper portion 10 so as to withstand high heat, and the support plate 10 and the cement mortar layer The opening and closing plate 7 formed in the air injection holes 10A and 13A in the guide hole 12A of the re-dropping pipe 12 is formed in the 13. An heating inlet 701 is formed so that it can be combusted by natural air and forced air. in.

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