KR20120053842A - A stove - Google Patents

Abstract

PURPOSE: A heating stove is provide to reduce smokes and soot with improving the combustion rate of fuels by rising air along an air groove of a hopper and supplying the air to a combustion chamber evenly. CONSTITUTION: A heating stove comprises a body(10), a first hopper, a second hopper, and a controller(30). The body comprises a door unit(14), storage spaces(12), a external air infection unit, and a exhaust port(15). One-side of a wall is opened and the door unit is installed outside. An ash receiving part is inserted into the storage spaces. The first hopper is inclined towards the wall of the storage spaces of the body around a combustion unit(17). The first hopper comprises air preheating spaces(21) inside. The controller is installed in an exhaust gas outlet of an upper part of the body. The controller controls quantity of air flowing into the first hopper and the storage spaces and the quantity of exhaust gases discharged to the outlet. The second hopper is inclined to the center from the upper wall of the body inside. The exhaust gas flows through a center hole of the second hopper.

Description

Heating stove {A STOVE}

The present invention preheats the outside air through the preheating unit of the re-storage unit, and the preheated air pressure is increased to be supplied to the combustion chamber, and the air whose pressure is increased upwards through the combustion chamber is raised along the air groove of the hopper. It is to be supplied evenly to the combustion chamber to increase the combustion rate of the fuel is due to a heating stove for generating less smoke and soot.

In general, a stove is a heating device that obtains heat by burning fuel to make life easier in winter when the weather is cold.

In the case of such a stove, there is a problem that incomplete combustion occurs when cold air and fuel are mixed and burned, which adversely affects the human body, and the flame of the flame generated from the internal combustion chamber is directly smoked directly above the fireplace body. This difficult and uneconomical problem was encountered, and in particular, a separate auxiliary device for promoting flue gas was required because its own flue gas was not smoothly inside the combustion chamber.

In addition, when the fuel is ignited by putting fuel such as firewood or coal in the combustion chamber, oxygen should be supplied to the room at the time of ignition, and oxygen must be supplied through the inflow of air into the combustion chamber during the continuous combustion process. Since air has to be continuously introduced, it causes a lack of oxygen in the room and a decrease in heating efficiency due to the re-exhaustion of heated air, which is a bad influence on the human body and a waste of energy.

An object of the present invention is to preheat the outside air through the preheating portion of the upper part of the re-storage unit, the pressure of the preheated air is supplied to the combustion chamber is increased, the air in which the pressure-increased air is moved upwards through the combustion chamber is the air groove of the hopper As it is raised along the supply to the combustion chamber evenly to increase the combustion efficiency of the fuel to provide a heating stove that generates less smoke and soot.

The heating stove of the present invention for realizing the above problems, the one side wall is opened, the door portion is provided on the outside, the receiving space is formed in the lower portion is inserted, the outside air inlet is formed in the other lower portion is installed outside the air inlet portion Is formed, the discharge port is formed on the upper side, the main body portion formed of refractory; A first hopper which is formed to be inclined toward a wall surface centering on a combustion unit formed above the storage space inside the main body, and has an air preheating space therein; It is installed on the upper side and one side between the outside air injection unit and the main body portion, is installed in the discharge gas discharge port formed on the upper side of the main body portion, adjust the amount of air flowing into the first hopper and the storage space, the amount of discharge gas discharged to the discharge port Adjusting section for adjusting; And a second hopper formed on the inner side of the main body and having an inclination from the wall surface side to the center side and having a hole through which the exhaust gas flows in the center.

According to the present invention as described above, the body portion preheats the air introduced through the inlet through the preheating unit is installed in the re-receiving unit, thereby increasing the temperature of the air passing through the preheating unit to increase the air pressure in the combustion chamber Since it is supplied, the fuel has a high combustion rate when the fuel is combusted, soot is not deposited on the door part, and the exhaust gas and the preheated air are moved upward through the air groove of the hopper so that the air supplied to the combustion chamber is spread evenly. It is completely burned and generates less smoke, and there is an advantage in that the room can be heated twice due to the heat exchanger.

In addition, since the fuel is collected on the combustion part side due to the inclination of the first hopper, it is not necessary to open the door part to collect the fuel, and thus, the exhaust gas and the soot do not flow into the room.

1 is an overall configuration diagram according to an embodiment of the present invention.
2 is a plan sectional view showing a main body and a hopper according to an embodiment of the present invention.
3 is a cross-sectional view showing a re-storing unit and a preheating unit according to an embodiment of the present invention.
4 is a view showing an adjusting unit according to an embodiment of the present invention.
5 is a view showing an adjusting unit according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention. Like elements in the figures are denoted by the same reference numerals wherever possible. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

The present invention comprises a main body portion 10, the first hopper 20, the adjusting portion 30 and the second hopper 40.

The body portion 10 is composed of refractory to allow the fuel to be burned therein.

The main body portion 10 has an inlet formed so that one side wall surface can be opened to put fuel therein, and a door portion 14 is installed outside the inlet.

In addition, an accommodation space 12 is formed below the main body 10 to accommodate the re-storage unit 13, and an outside air inlet 11 through which outside air is introduced is formed in the outside lower portion of the main body 10. The inlet 11 is provided with an air inlet 50 connected to the outside.

In addition, a combustion unit 17 in which fuel is combusted is formed at an inner lower portion of the main body unit 10, and an exhaust port 15 through which exhaust gas is discharged is formed at an upper side thereof.

In addition, a plurality of inflow holes through which outside air flows are formed at the side surfaces of the re-receiving portion 13.

The preheating unit 18 is configured to heat the inside of the main body unit 10 before the fuel is combusted to reduce the generation of smoke and soot, which may be generated during combustion of the fuel, inside the re-receiving unit 13. Can be installed.

The preheating unit 18 is made of a lead-free alcohol lamp or a heating wire, and heats the inside of the main body unit 10 for about 30 minutes.

At this time, the preheating time may be reduced or increased as necessary.

The first hopper 20 is installed on the lower side of the inside of the main body 10 and inclined toward the inner wall of the main body 10 around the combustion unit 17 formed above the re-receiving unit 13. Is formed with.

The first hopper 20 has an air preheating space 21 in which air flows and is preheated therein, and a plurality of air grooves 23 are formed in the inclined direction from the combustion unit 17 side to the combustion. The air flowing in the portion 17 side is allowed to flow upward along the air groove 23.

As a result, the fuel in the combustion chamber is completely burned so that the soot and the incompletely burned fuel do not scatter.

In addition, a plurality of air flow holes 22 are formed in the first hopper 20 to the door 14 so that the preheated air is discharged to the door 14.

This prevents soot deposition caused by combustion of fuel in the door portion 14.

The second hopper 40 is inclined in an upper center direction and is installed on an inner upper side of the main body 10.

The second hopper 40 is discharged to the upper side by the discharge gas flows along the inclination formed from the wall surface side of the main body portion 10 to the center side.

In addition, a mesh-shaped re-filtering net 17 is installed below the central portion of the second hopper 40 to filter the ash generated during combustion of the fuel so as not to be discharged to the outside.

As an additional effect, the re-filtering net 17 is heated due to the temperature inside the main body 10, thereby re-burning the exhaust gas discharged through the second hopper 40.

A plurality of heat exchangers 16 are formed between the second hopper 40 and the body portion 10 to transfer heat to the external device through the heat pipe installed on the upper side.

At this time, the heat exchanger 16 is formed in a zigzag shape to induce discharge gas to be discharged in a zigzag shape, and the exhaust gas heats the heat exchanger 16 so as to exchange heat with the heat pipe.

The adjusting unit 30 is installed at the outside air inlet 11 and the outlet 15 of the main body 10, and adjusts the flow rate of air flowing into the first hopper 20 and the re-receiving unit 13 Each installed so as to, the control unit 30 is installed in the outlet 15 to adjust the discharge of the discharged gas discharged.

The control part 30 is formed in a plate shape is formed by overlapping the control plate 31 is formed a plurality of air holes (32).

At this time, when the two adjustment plate 31 overlaps the air hole 32 is formed in the same position, the rotating portion 33 is formed with a screw thread on one side of the control plate 31 of one side of the two adjustment plate 31 is coupled.

The control unit 31 is moved to both the left and right sides due to the rotation part 33 coupled in this way, and the flow rate of air is blocked or opened by the control plate 31 of the other side due to the movement of the control plate 31. Will be adjusted.

In addition, the control unit 30 is coupled to the circular control plate 31 formed in a circular shape on the front of the control plate 31 formed with a plurality of air holes 32 in a circular shape, and rotates the control plate 31 to the rotating unit 33 Can be configured to regulate air intake and emissions.

In the heating method in the above configuration, when the outdoor air is introduced into the main body 10 through the outside air inlet 11 through the air inlet 50, the first hopper 20 and It is introduced into the main body 10 through the re-receiving portion (13).

At this time, the amount of air introduced is adjusted through the adjusting unit 30.

The external air is preheated to the preheating unit 18 installed inside the re-receiving unit 13 to be supplied into the main body unit 10.

When the inside of the body portion 10 is preheated for a predetermined time, fuel is put into the combustion portion 17 to combust the fuel.

Then, the air introduced through the outside air inlet 11 is heated while passing through the heated first hopper 20 and the re-receiving unit 13 to be introduced into the main body 10.

As a result, the fuel is burned close to complete combustion, so that generation of soot or smoke is reduced.

At this time, the air heated by the air flow hole 22 formed in the first hopper 20 flows to the door part 14 side and flows upward along the door part 14, so that the door part 14 has soot. It will not be deposited, and smoke or the like will not leak out of the main body portion 10.

Then, the air introduced into the main body 10 and the exhaust gas in which the fuel is combusted in the combustion unit 17 are discharged to the outlet 15 through the second hopper 40, wherein the ash The exhaust gas is reburned and discharged through the filter net 17.

The discharged gas is discharged to the outlet 15 while heating the heat exchanger 16 formed between the second hopper 40 and the body portion 10.

The heat exchange part 16 is formed in a zigzag shape so that the exhaust gas is not directly discharged to the discharge port, and the heat exchange part 16 is heated to allow heat exchange.

Exhaust gas passing through the heat exchange part 16 is discharged through the discharge port 15 of the body portion 10.

At this time, the discharge of the exhaust gas is adjusted through the control unit 30 installed in the outlet (15).

Due to the present invention configured as described above, the main body preheats the air flowing through the inlet through the preheating unit installed in the re-storing unit, and thus the pressure of the air is increased due to the increase in the temperature of the air passing through the preheating unit, thereby being supplied to the combustion chamber. Therefore, when the fuel is combusted, it has a high combustion rate, soot is not deposited on the door part, and the exhaust gas and the preheated air are moved upward through the air groove of the hopper, so that the air supplied to the combustion chamber is spread evenly and the fuel is completely Combustion is generated less smoke, there is an advantage that can heat the room double due to the heat exchange unit.

In addition, since the fuel is collected on the combustion part side due to the inclination of the first hopper, it is not necessary to open the door part to collect the fuel, and thus, the exhaust gas and the soot do not flow into the room.

The present invention has been described with reference to the preferred embodiments, and those skilled in the art to which the present invention pertains to the detailed description of the present invention and other forms of embodiments within the essential technical scope of the present invention. Could be. Here, the essential technical scope of the present invention is shown in the claims, and all differences within the equivalent range will be construed as being included in the present invention.

10: body portion 11: outside air inlet
12: storage space 13: re-storage
14 door portion 15 outlet
16: heat exchanger 17: combustion unit
18: preheating unit 20: first hopper
21: air preheating space 22: air flow hole
23: air groove 30: adjusting unit
31: control panel 32: air hole
33: rotating part 40: second hopper
41: ash filter

Claims (11)

One side wall is opened, the door part is installed on the outside, the storage space is formed in the lower portion is inserted, the outside air inlet is formed in the other lower portion is installed outside air inlet, the outlet is formed on the upper side, the body formed of refractory part;
A first hopper which is formed to be inclined toward a wall surface centering on a combustion unit formed above the storage space inside the main body, and has an air preheating space therein;
It is installed on the upper side and one side between the outside air injection unit and the main body portion, is installed in the discharge gas discharge port formed on the upper side of the main body portion, adjust the amount of air flowing into the first hopper and the storage space, the amount of discharge gas discharged to the discharge port Adjusting section for adjusting; And
And a second hopper formed on the inner side of the main body and having an inclination from the wall surface side to the center side and having a hole through which exhaust gas flows in the center.
The method of claim 1,
The first hopper is a heating stove, a plurality of air grooves are formed in the inclined direction on the inner side.
The method of claim 1,
Heating stove is formed between the second hopper and the discharge port of a plurality of layers.
The method of claim 1,
The exhaust gas discharge hole formed in the second hopper is a heating stove is installed, the mesh-shaped re-filtering network.
The method of claim 1,
The preheating unit is installed inside the re-storage unit to preheat the air introduced from the outside air inlet unit, heating stove.
6. The method of claim 5,
The preheating unit is an alcohol lamp or heating wire, heating stove.
The method of claim 1,
The heating stove is formed between the first hopper and the door portion a plurality of air flow holes on the door side.
The method of claim 1,
An heating preheating space is formed in the first hopper, heating stove.
The method of claim 8,
Heating preheating unit is installed in the air preheating space.
The method of claim 1,
The control unit is formed in a plate shape is formed by overlapping the two overlapping control plate is formed a plurality of air holes, coupled to one end of the control plate of the one side, and to transfer the control plate to the left and right through the rotating portion to control the air inlet and discharge , Heating stove.
The method of claim 1,
The control unit is a circular control plate is coupled to the front of the control plate formed with a plurality of holes in a circular shape, the heating plate to adjust the air inlet and discharge by rotating the control plate to the rotating, stove.

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