KR200372034Y1 - an air supply and gas exhaust pipe for a condensing boiler - Google Patents

Abstract

The present invention relates to a supply / exhaust pipe of a condensing boiler, and more particularly, to prevent the inflow of rainwater into the boiler through the outer surface of the supply / exhaust pipe more smoothly, and to facilitate the exhaust gas discharge through the exhaust pipe. In a supply and exhaust pipe for condensing boiler, the exhaust pipe is inserted into the inside of the supply pipe, the supply pipe and the exhaust pipe is connected to the supply pipe and the exhaust pipe to the boiler supply and exhaust pipe so as to be connected to the boiler supply and exhaust ports, respectively. ; The air supply pipe has an outer end inclined downward, and the exhaust pipe has an outer end inclined upward.

Accordingly, the rainwater flowing through the outer surface of the supply and exhaust pipe flows into the inside of the boiler and prevents the boiler from malfunctioning, and the exhaust gas is smoothly discharged through the exhaust pipe so that the combustion of the boiler is performed more efficiently. Will have an effect.

Description

An air supply and gas exhaust pipe for a condensing boiler}

The present invention relates to a supply / exhaust pipe of a condensing boiler, and more particularly, to prevent the inflow of rainwater into the boiler through the outer surface of the supply / exhaust pipe more smoothly, and to facilitate the exhaust gas discharge through the exhaust pipe. It relates to a supply and exhaust pipe for condensing boiler.

In general, the condensing boiler is formed with an inlet for intake of external air for combustion of fuel and an exhaust port through which the burned exhaust gas is discharged. To avoid the hassle of exposing the inlet and the exhaust port to the outside through separate pipes, respectively. For this purpose, a supply and exhaust pipe in which an exhaust pipe is inserted into the supply pipe is widely used.

Such an exhaust pipe is generally provided so that its end is exposed to the outdoors, so in the case of rain, rainwater flows through the exhaust pipe and flows into the boiler to reduce the operating efficiency of the boiler or cause the boiler to malfunction. There was a problem.

Accordingly, the present invention has been devised to solve the conventional problems as described above, the purpose of which is to prevent the inflow of rainwater into the boiler through the outer surface of the exhaust pipe more smoothly, the exhaust gas through the exhaust pipe To ensure a smooth discharge.

In addition, an object of the present invention is to allow the rain water flows down the outer wall of the air supply pipe and the exhaust pipe to be collected in one place.

In addition, an object of the present invention is to prevent the outside air flowing through the air supply pipe does not leak to the outside of the air supply pipe.

In order to achieve the above object, the present invention is the exhaust pipe is inserted into the inside of the air supply pipe, the supply pipe and the exhaust pipe for the boiler so that the supply pipe and the exhaust pipe is connected to the supply pipe and the exhaust pipe, respectively, to the air supply and exhaust ports of the boiler To; The air supply pipe has an outer end inclined downward, and the exhaust pipe has an outer end inclined upward.

In addition, at least one rain water inlet prevention groove is formed along the outer circumferential surfaces of the air supply pipe and the exhaust pipe.

In addition, the rear side to which the exhaust pipe is coupled is characterized in that the sealing portion is formed at the intersection of the air supply pipe and the exhaust pipe.

1 is a perspective view showing an embodiment of the present invention.

2 is a longitudinal cross-sectional view of FIG.

Figure 3 is a longitudinal sectional view showing a state of use of the present invention.

※ Explanation of codes for main parts of drawing

1: supply and exhaust pipe

10: air supply pipe

11: intake hole 12: pipe connection

20: exhaust pipe

21: exhaust hole 22: piping connection

30: rainwater inflow prevention groove

40: sealing part

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention in more detail as follows.

1 is a perspective view showing an embodiment of the present invention, Figure 2 is a longitudinal cross-sectional view of Figure 1, as shown in the present invention is a boiler air supply pipe for the exhaust pipe 20 is inserted into the inside of the air supply pipe (10) In order to prevent rainwater from flowing into the boiler through (1), the exhaust pipe 20 is installed to be inclined to the opposite side to the air supply pipe 10.

The air supply pipe (10) forms a plurality of intake holes (11) on the outer circumferential surface so that outdoor air flows into the air supply pipe (10) through the intake holes (11), and the air supply port of the boiler is located at the rear upper side. An air supply pipe connected to the pipe is formed to be inserted into a fixed portion 12 so that the air supply pipe 10 and the air supply of the boiler is connected.

The exhaust pipe 20 is connected to the exhaust port of the boiler through the exhaust pipe to discharge the combustion gas of the boiler, is formed with a diameter smaller than the diameter of the air supply pipe 10 is inserted into the exhaust pipe 20 To form a plurality of exhaust holes 21 through which exhaust gas is discharged to the outer side, and at the rear end, a pipe connection part 22 into which the exhaust pipe is inserted is discharged to the exhaust pipe 20 of the boiler. .

In addition, the air supply pipe 10 and the exhaust pipe 20 is coupled to form an inclination angle (θ) in the opposite direction to each other, and when the supply pipe (1) is installed, the end of the air supply pipe 10 is mounted downward from the horizontal plane By doing so, rainwater is prevented from permeating into the boiler while flowing along the outer surface of the air supply pipe (10).

In addition, at least one rainwater inflow prevention groove 30 is formed along the outer circumferential surface of the air supply pipe 10 and the exhaust pipe 20 so that rainwater flows through the air supply pipe 1 and then the rainwater inflow prevention groove 30 It is desirable to be more effectively prevented from entering rain water into the boiler by falling down to catch).

In addition, the pipe connection portion 12 formed in the air supply pipe 10 is formed to the upper side of the air supply pipe 10, by blocking the rain water is introduced into the boiler through the air supply pipe at the source, rain water during the operation of the boiler This is to prevent the poor operation or the decrease in thermal efficiency.

In addition, at the intersection of the air supply pipe 10 and the air exhaust pipe 20 at the rear side of the air supply exhaust pipe 1, a sealing part 40 is formed to maintain airtightness and external air flowing through the air supply pipe 10 is formed. By not letting out of the gap of the intersection, it becomes possible to supply air to the boiler more effectively.

Figure 3 is a longitudinal cross-sectional view showing a state of use of the present invention, the air supply pipe 200 and the exhaust pipe (102) formed in the boiler 100, the air supply pipe 200 and the exhaust port 102 formed as described above, respectively The pipe 300 is connected, and the outer end of the air supply pipe 10 is installed to be inclined while forming an inclination angle θ1 downward based on the horizontal.

Accordingly, even if rainwater falls outside the air supply pipe 10, the water flows out again along the air supply pipe 10, and the exhaust pipe 20 is disposed upwards at a predetermined inclination angle θ 2 so that the exhaust gas of the boiler is discharged. It will be discharged more smoothly.

In addition, at least one rainwater inflow prevention groove 30 is formed on the outer surfaces of the air supply pipe 10 and the exhaust pipe 20 so that rainwater flows through the outer surface of the air supply pipe 1 even though the rainwater inflow prevention groove 30 ) Will fall out again to the outside of the supply and exhaust pipe (1) will be able to more effectively prevent the inflow of rain water.

In addition, the above-described air supply pipe 200 is to be connected to the upper side of the air supply pipe 10, it will be able to block the rain water flows into the boiler.

In addition, even though rainwater is introduced into the boiler through the exhaust pipe 20, the rainwater remains inside the boiler by being discharged to the water trap (not shown) provided in the boiler together with the condensed water of the condensing heat exchanger. It can be prevented.

As described above, the present invention is such that the outer end of the air supply pipe is installed downward toward the ground, and the exhaust pipe is inclined in a direction opposite to the air supply pipe, so that rainwater flows into the boiler through the outer surface of the air supply pipe. While more smoothly being prevented, it is possible to smoothly discharge the exhaust gas through the exhaust pipe, so that rainwater flowing through the outer surface of the supply and exhaust pipe flows into the inside of the boiler and prevents the boiler from malfunctioning. Exhaust gas is smoothly discharged through the exhaust pipe, so that combustion of the boiler is performed more efficiently.

In addition, the present invention forms at least one rainwater inflow prevention groove on the outer circumferential surface of the air supply pipe and the exhaust pipe so that the rainwater flows through the outer and inner walls of the air supply pipe and the exhaust pipe, and then falls off in one place, resulting from the inflow of rainwater. It has the effect of more effectively preventing the malfunction of the boiler and the decrease in the thermal efficiency of the boiler.

In addition, the present invention forms a sealing portion at the intersection of the air supply pipe and the exhaust pipe so that external air flowing through the air supply pipe does not leak to the outside of the air supply pipe, thereby supplying outdoor air more smoothly into the boiler. Has the effect of more efficient operation.

Claims (5)

The exhaust pipe 20 is inserted inside the air supply pipe 10, and the air supply pipe 10 and the exhaust pipe 20 are connected to the air supply pipe 200 and the exhaust pipe 300 to supply the air supply 101 of the boiler 1. In the supply and exhaust pipe for the condensing boiler to be connected to the exhaust port 102 and each; The air supply pipe 10 and the exhaust pipe 20, the exhaust pipe for condensing boiler, characterized in that coupled to form a slope in a direction opposite to each other. The method of claim 1; The air supply pipe 10 is installed to be inclined downward the outer end, the exhaust pipe 20, the exhaust pipe for condensing boiler, characterized in that the outer end is installed to be inclined upward. The method of claim 2; Supply air supply pipe for condensing boiler, characterized in that at least one rain water inlet prevention groove 30 is formed along the outer peripheral surface of the air supply pipe (10) and the exhaust pipe (20). The method of claim 3; A supply and exhaust pipe for the condensing boiler, characterized in that the air supply pipe 200 is configured to be coupled to the rear upper side of the air supply pipe (10). The method of claim 1 or 4; A supply pipe for condensing boilers, characterized in that the sealing portion 40 is formed at the intersection of the air supply pipe 10 and the exhaust pipe 20 to the rear side to which the exhaust pipe 300 is coupled.