KR200198831Y1 - Combustion gas exhaust wind pressure compensation structure of gas boiler - Google Patents

Abstract

The present invention is to change the internal volume of the exhaust fan for discharging the combustion gas of the gas boiler to the volume corresponding to the wind pressure of the heat exchanger installed inside the gas boiler to maintain a uniform discharge pressure to improve the combustion efficiency It relates to a combustion gas exhaust wind pressure compensation structure of.

The present invention has a multi-stage type having a depth in the center of the exhaust hood of the blower in order to uniformly suck the exhaust gas discharged into the heat exchanger into the receiving space according to the slope of the exhaust hood of the blower. It is formed into a hollow part.

Accordingly, by changing the internal volume of the exhaust fan for discharging the combustion gas of the gas boiler to the volume corresponding to the wind pressure of the heat exchanger installed in the gas boiler, it is possible to maintain a uniform discharge pressure to improve the combustion efficiency.

Description

Combustion gas exhaust wind pressure compensation structure of gas boiler

The present invention relates to a gas boiler, and more specifically, to maintain a uniform discharge pressure by changing the internal volume of the exhaust fan for discharging the combustion gas of the gas boiler to the volume corresponding to the wind pressure of the heat exchanger installed inside the gas boiler. The present invention relates to a combustion gas exhaust wind pressure compensation structure of a gas boiler that can improve combustion efficiency.

Conventionally, the internal structure of a domestic gas boiler is provided with a heat exchanger 20 in which water circulates inside the boiler body 10, as shown in FIG. The outside of the heat exchanger 20 is made of a structure in which a plurality of combustion pipes 21 is installed and made of a structure installed inside the gas boiler body 10, the heat exchanger installed inside the gas boiler body 10 ( The upper part of the 20, the exhaust fan 40 for discharging the burned exhaust gas to the outside, the lower portion of the heat exchanger 20, the combustion burner 30 to form a heat source of the gas boiler is installed a conventional structure The structure of the gas boiler.

In the gas boiler having the above-described structure, the conventional structure of the exhaust fan 40 forcibly exhausting the exhaust gas to the outside is provided with a cylindrical exhaust hood 41 on the upper part of the heat exchanger 20, and the exhaust hood 41 is provided. One side of the made of a structure in which the motor 43 for imparting the suction force of the exhaust gas is installed.

However, as described above, the structure of the exhaust fan 40 operates the exhaust fan 40 so that the exhaust gas passing through the heat exchanger 20 in the lower portion is forced through the exhaust hood 41 by the motor by the exhaust fan 40 ( On the side closer to the 43) side, the suction force is larger, while the suction force is weaker at the far side from the motor 43.

This is an important factor in lowering combustion efficiency by not satisfying such conditions in the operating conditions of the gas boiler, in which the exhaust pressure of the combustion gas passing through the heat exchanger 20 where heat exchange is performed is maintained uniformly.

That is, the pressure of the exhaust gas passing through the combustion tube installed inside the heat pipe is greater in the suction pressure on the motor side, the suction pressure is smaller on the side away from the motor, and the combustion passes through the combustion tube inside the heat exchanger composed of a plurality of combustion tubes. The pressure and heat of the gas are differently formed differently, which causes structural deterioration of a specific combustion tube, and also creates a non-uniform combustion environment of the combustion gas.

In addition, the applicant's patent application No. 96-2756 filed by the applicant of the present application is formed only by the shape of the exhaust hood to be inclined to increase the combustion efficiency while uniformizing the wind pressure bar while reducing the components of harmful exhaust gas However, since the top surface is inclined to change the volume of the internal space, a natural flow path cannot be formed between the central flue and the exhaust hood, so that a constant wind pressure band cannot be reached, and the exhaust gas flow is poor, resulting in an exhaust fan. The efficiency of the is lowered there is a problem that can not suppress the outflow of the exhaust gas as much as possible.

The present invention has been made in view of the above problems, and an object of the present invention is to change the internal volume of the exhaust fan for discharging the combustion gas of the gas boiler to the outside corresponding to the wind pressure of the heat exchanger installed inside the gas boiler. The present invention provides a combustion gas exhaust wind pressure compensation structure of a gas boiler that can maintain a uniform discharge pressure and improve combustion efficiency.

In order to achieve the above object, the present invention is installed in the upper part of the boiler body, the exhaust fan is installed in the boiler having a top plate is formed in the inclined surface for forced discharge of the exhaust gas to the outside, the heat exchanger is installed on the top of the heat exchanger In order to uniformly suck the exhaust gas discharged into the furnace into the receiving space having a different volume according to the inclined surface of the exhaust hood of the blower, the hollow gas having a depth having a depth in the center of the exhaust hood of the blower is formed.

1 is a cross-sectional view of a conventional gas boiler coupled to the exhaust fan,

2 is a cross-sectional view showing a state in which the exhaust fan of the gas boiler according to the present invention is coupled,

3 is a perspective view of a gas boiler exhaust fan according to the present invention,

4 is a front view of a partial cross-sectional state of the blower according to the present invention.

* Explanation of symbols for main parts of the drawings

10: boiler body 20: heat exchanger

21: combustion tube 30: combustion burner

40: exhaust fan 41: exhaust hood

42: slope 43: motor

Hereinafter, described in detail by the preferred embodiment attached to the present invention as follows.

3 is a cross-sectional view of the exhaust fan according to the present invention, the exhaust fan structure according to the present invention covers the entire upper part of the heat exchanger 20 and at the same time the exhaust hood 41 for sealing the upper part of the boiler body with the outside is formed; On the side of the exhaust hood 41, a structure in which a motor 43 is provided to forcibly apply the suction force of the exhaust gas forms a basic structure of the exhaust fan 40.

The exhaust hood 41 of the exhaust fan 40 is formed in a cylindrical shape corresponding to the shape of the heat exchanger 20 when viewed in plan view, and a space portion for forming an exhaust flow path of exhaust gas is formed therein.

On the other hand, when the exhaust hood 47 is viewed from the side, the inner volume defining the exhaust flow path is formed to be larger toward the motor 43 side, and the upper surface of the exhaust hood 41 is sealed to the outside of the motor 43 side. The inclined surface is provided at a predetermined angle so that the inner volume gradually decreases as the distance from the motor 43 increases. In addition, the exhaust hood 41 is formed in the center of the multi-stage hollow portion 42 having a depth, the hollow portion 42 is the upper end of the center of the boiler body 10 is disposed.

The exhaust hood 41 of the exhaust fan having such an internal volume can be illustrated in FIG. 4, but has an inclined surface in which the upper surface of the exhaust hood is closed on the motor 43 side and the motor 43 opposite side to the outside. By doing so, the above internal volume can be satisfied. By forming the hollow portion in the center having the inclined surface, the exhaust gas exhausted through the flue is guided in the radial direction of the exhaust hood 41 to even the wind pressure.

The exhaust hood 41 of the exhaust fan 40 formed as described above is installed above the heat exchanger 20 to maintain airtightness with the outside and is discharged from the plurality of combustion tubes 21 installed inside the heat exchanger 20. The exhaust gas is collected in the exhaust hood 41 of the exhaust fan 40 installed on the upper part of the heat exchanger 20. In order to maintain the suction pressure in the exhaust hood 41 uniformly, the volume of the exhaust hood 41 is described above. In the structure as described above, the volume farther from the motor 43 side and the hollow portion 42 are provided at the center to uniformly compensate the suction pressure of the exhaust gas generated in the heat exchanger 40 to improve the exhaust force. Let's do it.

Therefore, the present invention provides an internal volume of the exhaust hood 41 of the exhaust fan 40 installed at the upper portion of the heat exchanger 20 to discharge the exhaust gas to the outside so that the suction force of the motor, that is, the suction pressure in the exhaust hood 41 is uniform. By maintaining it, the exhaust gas discharge pressure in the heat exchanger 20 can be stably formed to increase the combustion efficiency.

That is, if the pressure of the exhaust gas passing through the combustion tube 21 installed inside the heat exchanger is greater in the suction pressure on the motor 43 side and less in the suction pressure on the side away from the motor 43, the plurality of combustion tubes 21 The pressure and heat of the combustion gas passing through the combustion tube 21 inside the heat exchanger 20 are formed to be unevenly different from each other to structurally deteriorate a specific combustion tube.

However, the above phenomenon is sufficiently compensated by the exhaust hood 41 structure of the blower 40 of the present invention to improve the thermal efficiency of the boiler device itself, as well as to improve the durability of the heat exchanger 20 installed therein. do.

As described above, the present invention can improve combustion efficiency by maintaining a uniform discharge pressure by changing the internal volume of the exhaust fan discharged to the outside of the gas boiler to a volume corresponding to the wind pressure of the heat exchanger installed inside the gas boiler. That is a useful design.

Claims (1)

In a boiler provided with a fan having a top plate formed in an inclined surface in order to forcibly discharge the combustion exhaust gas to the outside of the boiler body, the exhaust gas is installed on the top of the heat exchanger and discharged into the heat exchanger inside the exhaust fan. A combustion gas exhaust wind pressure compensation structure of a gas boiler, characterized in that the hollow gas having a depth in the center of the exhaust hood of the exhaust fan in order to uniformly suck into the receiving space of the exhaust hood according to the inclined surface.