KR102300763B1 - Dual exhaust pipe for condensing boiler - Google Patents

Abstract

The present invention relates to a double exhaust flue for a condensing boiler, in which an exhaust pipe and an air supply pipe are combined to have different inclinations. More specifically, the exhaust pipe has a first bent unit disposed inside a front end unit of the air supply pipe, and a first section between the first bent unit and a rear end unit is inclined upward toward the front end unit with respect to the air supply pipe. In addition, a second section between the first bent unit and the front end unit is configured to have the same slope as the air supply pipe in a state in close contact with an upper surface of an inner diameter of the air supply pipe. In the double exhaust flue for the condensing boiler of the present invention, the exhaust pipe and the supply pipe are coupled to have different inclinations.

Description

Dual exhaust pipe for condensing boiler}

The present invention relates to a double exhaust flue for a condensing boiler in which an exhaust pipe and an air supply pipe are combined to have different inclinations. The first section between the first bent part and the rear end is inclined upward toward the tip with respect to the air supply pipe, and the second section between the first bent part and the tip part is in close contact with the inner diameter upper surface of the air supply pipe. It relates to a double exhaust flue for a condensing boiler, characterized in that it is configured to have the same slope as the air supply pipe.

In general, a gas boiler can be divided into a condensing boiler and a non-condensing boiler according to a heat exchange method for heating heating water. Among them, the condensing boiler is a method of double heating heating water using a sensible heat exchanger and a latent heat exchanger, and a non-condensing boiler is a method of heating heating water only with a sensible heat exchanger.

As such, the condensing boiler uses the latent heat of the exhaust gas to heat the heating water once more, so the temperature of the exhaust gas is lower than that of a general boiler. Therefore, condensed water is generated in the exhaust flue that discharges the exhaust gas to the outside, and when such condensed water is discharged to the outside, there is a risk of environmental pollution or civil complaints.

1 shows the structure of a typical exhaust flue (A) installed in a condensing boiler, a double pipe having an air supply pipe (3) for supplying air necessary for combustion of a burner, and an exhaust pipe (5) for discharging exhaust gas made of structure The air supply adapter 2 connected to the boiler is installed at the rear end of the air supply pipe 3, and the air supply hole 4 through which combustion air is introduced is penetrated at the front end. And the exhaust connection part 1 connected to the boiler is installed at the rear end of the exhaust pipe 5, and the exhaust hole 6 is installed at the front end.

As described above, the double exhaust flue (A) is installed obliquely so that the tip of the condensate generated in the exhaust pipe 5 is higher from the indoor to the outdoor in order to recover it toward the boiler without discharging it to the outside. Therefore, there is a problem that rainwater, dew, melted snow, etc. flows toward the rear end of the exhaust flue to contaminate the wall of the building, or in severe cases, an electric leakage accident.

In order to solve these problems, in the prior art, Patent Registration No. 10-0394216 (July 28, 2003), Patent Publication No. 10-2003-0088914 (November 21, 2003), and Utility Model Registration No. 20-0372034 (December 24, 2004) and Patent Registration No. 10-1308904 (September 10, 2013), etc. introduce technologies related to a double exhaust flue capable of blocking the inflow of rainwater, etc.

Attached Figure 2 introduces a supply and exhaust pipe for a condensing boiler of Registered Utility Model No. 20-0372034 (December 24, 2004) among them, in which the supply pipe 10 and the exhaust pipe 20 are inclined in opposite directions. It is characterized in that it is combined to achieve. That is, the outer end of the air supply pipe 10 is inclined downward, and the exhaust pipe 20 is installed with an outer end inclined upward.

Thus, it is possible to fundamentally block the flow of rainwater or dew along the air supply pipe 10 toward the building wall, and also, the condensed water generated inside the exhaust pipe 20 is recovered toward the boiler without being discharged to the outside.

Registered Patent No. 10-0394216 (July 28, 2003) Patent Publication No. 10-2003-0088914 (November 21, 2003) Registered Utility Model No. 20-0372034 (December 24, 2004) Registered Patent No. 10-1308904 (September 10, 2013)

The effect of being able to recover condensed water while blocking the inflow of rainwater in the double exhaust flue of FIG. 2 is achieved by a structure in which the supply pipe and the exhaust pipe have different inclinations, and this effect is achieved by the angle between the supply pipe and the exhaust pipe ( The larger the θ), the more clearly it appears. However, since the angle θ is determined by the length and diameter of the air supply pipe and the exhaust pipe, there is a structural limitation in expanding the angle θ between the air supply pipe and the exhaust pipe in a double exhaust flue that is actually used.

For reference, the angle θ that can be provided between the air supply pipe and the exhaust pipe in a conventional double exhaust flue of a conventional standard is only about 2 degrees at most. Therefore, the double exhaust flue must be accurately constructed so that the supply pipe and the exhaust pipe have a downward slope and an upward slope of about 1 degree, respectively, and this slope state must be maintained even after construction.

Accordingly, it is an object of the present invention to recover condensed water from the exhaust flue by maximizing the angle (θ) between the air supply pipe and the exhaust pipe in a situation where the standard of the supply pipe and the exhaust pipe is limited in the double exhaust flue, and at the same time, rainwater along the supply pipe It is to provide a double exhaust flue for a condensing boiler that can more effectively block the inflow of light.

Hereinafter, in the present invention, independent names and reference numerals are given to each component regardless of FIGS. 1 and 2 .

The present invention is a double exhaust flue for a condensing boiler in which the exhaust pipe and the supply pipe are coupled to have different inclinations, and the rear end and the front end of the exhaust pipe protrude out of the rear end and the front end of the air supply pipe, respectively, wherein the exhaust pipe is the It is characterized in that it has a first bent portion disposed at 7/10 to 9/10 positions along the longitudinal direction from the rear end to the front end of the air supply pipe.
In addition, in the exhaust pipe, the first section between the first bent part and the rear end is inclined upward toward the front end with respect to the air supply pipe, and the second section between the first bent part and the front end is the upper surface of the inner diameter of the air supply pipe. It is characterized in that it forms the same inclination as the air supply pipe in a state in close contact with the .
In addition, the exhaust pipe has a circular cross section, and the air supply pipe is characterized in that the cross section is an elliptical shape extending in the vertical direction.

In addition, the exhaust pipe additionally has a second bent part disposed inside the rear end of the air supply pipe, and the third section between the second bent part and the rear end in the exhaust pipe is in close contact with the inner diameter lower surface of the supply pipe. It is characterized in that it has the same slope as the engine.

The double exhaust flue for a condensing boiler according to the present invention is provided with a bent part in the exhaust pipe, so that the angle (θ) between the exhaust pipe and the supply pipe can be enlarged as much as possible in a state in which the specifications of the exhaust pipe and the supply pipe are predetermined, and thus It has the effect of more reliably blocking the inflow of rainwater along the air supply pipe while recovering the condensed water generated inside the exhaust flue.

1 is a perspective view of a conventional double exhaust flue;
2 is a cross-sectional view showing an example of a conventional double exhaust flue;
3 is a side view (A) and a plan view (B) of a double exhaust flue according to the present invention;
4 is a cross-sectional view of a double exhaust flue according to an embodiment of the present invention;
5 is a cross-sectional view of a double exhaust flue according to another embodiment of the present invention;
6 is a front view of a double exhaust flue according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. However, since the accompanying drawings illustrate preferred embodiments of the present invention, the scope of the present invention is not limited by these embodiments. In addition, even if it is a configuration essential for carrying out the present invention, a detailed description of the matter introduced in the prior art or that can be easily implemented by a person skilled in the art from the known art will be omitted.

The double exhaust flue for a condensing boiler according to the present invention has a double pipe structure having an exhaust pipe 10 for discharging exhaust gas and an air supply pipe 20 for supplying combustion air, as shown in FIGS. 3 and 4 .

In the present invention, for convenience, when the exhaust flue is installed in a building, the side facing the interior with the virtual wall as the center is called the 'rear end', and the side facing the outside is called the 'tip'. In addition, the one above the center of the inner diameter of the tube is called 'top surface', and the one below the inner diameter is called 'bottom side'.

The exhaust pipe 10 and the air supply pipe 20 are coupled to have different inclinations, and the rear end 11 and the front end 12 of the exhaust pipe 10 are respectively connected to the rear end 21 of the air supply pipe 20 . ) and the tip portion 22 protrude out. In addition, the rear end 11 of the exhaust pipe 10 is connected to the boiler in an open state, and an exhaust hole H1 for discharging exhaust gas is formed in the front end 12 .

The air supply pipe 20 is a passage for supplying air necessary for combustion of the boiler, and surrounds the outer surface of the exhaust pipe 10 . The rear end 21 of the air supply pipe 20 is sealed, and the air supply adapter 23 connected to the boiler is installed on the upper surface of the air supply pipe 20 slightly spaced apart from the rear end 21, and the front end portion At 22, an air supply hole H2 through which combustion air flows is formed.

As for the standard of a typical double exhaust flue, a diameter of the exhaust pipe 10 is about 75 mm, a diameter of the air supply pipe 20 is about 100 mm, and a total length of about 1 m is mainly used. So, when such a double exhaust flue is constructed in a condensing boiler, the building wall is located in the middle of the air supply pipe 20 so that the exhaust hole H1 and the air supply hole H2 are arranged outdoors, and the air supply adapter 22 ) is placed indoors.

According to a feature of the present invention, as shown in FIG. 4 , the exhaust pipe 10 is provided with a first bent part 13 disposed inside the front end 22 of the air supply pipe 20 . In the exhaust pipe 10 , the first section 10a between the first bent part 13 and the rear end 11 is inclined upward with respect to the air supply pipe 20 toward the front end 12 . In addition, the second section 10b between the first bent portion 13 and the tip portion 12 has the same slope as the air supply pipe 20 in a state in close contact with the inner diameter upper surface of the air supply pipe 20 .

As described above, in the double exhaust flue, the larger the angle θ between the exhaust pipe 10 and the air supply pipe 20, the easier it is to recover the condensed water generated in the exhaust pipe 10 toward the boiler, and at the same time, the exhaust pipe According to (20), it is possible to effectively block rainwater or dew from flowing toward the wall of the building.

Here, the angle θ is determined according to the diameter and length of the exhaust pipe 10 and the air supply pipe 20, and the first bent part 13 installed in the exhaust pipe 10 of the present invention includes the exhaust pipe 10 and the air supply pipe. In the state in which the standard of (20) is predetermined, it functions to enlarge the angle (θ) to a greater extent.

That is, as the first bent portion 13 moves from the inside of the air supply pipe 20 toward the rear end 21 , the first section 10a of the exhaust pipe 10 forms a steeper inclination angle θ. However, as the first bent part 13 moves toward the rear end 21 of the air supply pipe 20, the second section 10b of the exhaust pipe 10 is extended, and condensate generated in the second section 10b is not preferable because it is difficult to recover.

In the present invention, the first bent portion 13 of the exhaust pipe 10 is 6/10 to 9/10 of the total length in the longitudinal direction from the rear end 21 of the air supply pipe 20, preferably 7/ It is preferably arranged at positions 10 to 9/10. If the position of the first bent portion 13 is disposed before 6/10 of the total length at the rear end 21 of the air supply pipe 20, the second section 10b of the exhaust pipe 10 is too extended. If not, if arranged after 9/10 of the total length, the angle (θ) of the first section (10a) is reduced, it is not preferable.

Meanwhile, as shown in FIG. 5 , the exhaust pipe 10 may additionally have a second bent part 14 disposed inside the rear end 21 of the air supply pipe 20 . And, in the exhaust pipe 10, the third section 10c between the second bent portion 14 and the rear end 11 is in close contact with the inner diameter lower surface of the air supply pipe 20, the air supply pipe 20 has the same slope as

The second bent part 14 is an angle ( θ) increases. Here, the second bent portion 14 of the exhaust pipe 10 is preferably disposed at 0.5/10 to 3/10 of the entire length in the longitudinal direction from the rear end 21 of the air supply pipe 20 . When the second bent portion 14 is more inclined toward the tip portion 22 of the air supply pipe 20, the inclination angle θ of the first section 10a may be further increased, but the It is not preferable because there is a possibility that condensed water may accumulate in the third section (10c).

In the present invention, in the exhaust pipe 10, the first bent part 13 and the second bent part 14 are bent in opposite directions, and the second section 10b and the third section 10c are the air supply pipe ( 20) are arranged opposite to each other in the vertical direction at the center line. In addition, although the first bent portion 13 and the second bent portion 14 of the exhaust pipe 10 may be welded, respectively, it is preferable to have a corrugated pipe structure. This corrugated pipe structure provides an easy bending structure for the exhaust pipe 10 .

In addition, both the exhaust pipe 10 and the air supply pipe 20 may have a circular cross-sectional shape as shown in FIG. 6(A), and as shown in FIG. 6(B), the cross-section of the exhaust pipe 10 is circular And, the cross section of the air supply pipe 20 may be formed in an elliptical shape extending in the vertical direction. If the air supply pipe 20 is oval, the angle θ between the exhaust pipe 10 and the air supply pipe 20 may be further enlarged under the same conditions in all other circumstances. For reference, even if the air supply pipe 20 is oval, if only the supply air adapter 23 is circular, there is no problem in construction with the existing condensing boiler.

In the construction method of the double exhaust flue according to the present invention, the exhaust pipe 10 is inclined upward toward the tip 12 with the virtual horizontal line L as the center, and the air supply pipe 20 is toward the tip 22. Placed so that it slopes downward. Therefore, the condensed water generated inside the exhaust pipe 10 is recovered to the rear end 11 of the exhaust pipe 10, that is, toward the boiler, and then is discharged to a sewer or the like through a separate condensed water discharge hose.

And, rainwater, dew, snow melt water, etc. on the outer surface of the air supply pipe 20 exposed to the outdoors flows down to the lower edge of the tip 22 along the downward slope of the air supply pipe 20, and then falls outside. . Therefore, the larger the angle θ between the exhaust pipe 10 and the air supply pipe 20, the easier the object of the present invention can be achieved, and the construction is also easy. less likely to be changed by

However, it is preferable that the downward inclination of the air supply pipe 20 is larger than the upward inclination of the exhaust pipe 10 with respect to the virtual horizontal line L as a reference. This is because the condensed water does not flow out even if the exhaust pipe 10 has a relatively slight upward inclination.

(10,10a,10b,10c) Exhaust pipe (11) Rear end
(12) Distal end (13) First bend
(14) 2nd bent part (20) Air supply pipe
(21) rear end (22) front end
(23) Supply air adapter (L) Virtual horizontal line
(H1) Exhaust hole (H2) Air supply hole
(θ) the angle between the exhaust pipe 10 and the air supply pipe 20

Claims (5)

In the double exhaust flue for a condensing boiler, the exhaust pipe and the supply pipe are coupled to have different inclinations, and the rear end and the front end of the exhaust pipe protrude out of the rear end and the front end of the air supply pipe, respectively,
The exhaust pipe has a first bent portion disposed at 7/10 to 9/10 positions along the longitudinal direction from the rear end to the front end of the air supply pipe,
In the exhaust pipe, the first section between the first bent part and the rear end is inclined upward toward the front end with respect to the air supply pipe, and the second section between the first bent part and the front end is in close contact with the upper surface of the inner diameter of the air supply pipe. It forms the same slope as the supply pipe in the state of
The exhaust pipe has a circular cross section, and the air supply pipe has an elliptical cross section extending in the vertical direction, a double exhaust flue for a condensing boiler
delete According to claim 1, wherein the exhaust pipe additionally has a second bent portion disposed inside the rear end of the air supply pipe, the third section between the second bent portion and the rear end of the exhaust pipe is in close contact with the inner diameter of the lower surface of the air supply pipe Double exhaust flue for a condensing boiler, characterized in that it has the same slope as the air supply pipe in the The double exhaust flue for a condensing boiler according to claim 3, wherein the second bent portion of the exhaust pipe is disposed at a position of 0.5/10 to 3/10 of the total length in the longitudinal direction from the rear end of the air supply pipe. delete

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