KR101667396B1 - Chimney for condensing gas boiler - Google Patents

Abstract

According to the present invention, disclosed is a chimney for a condensing gas boiler, which prevents condensate water generated from a chimney for exhaust, rainwater flowing into a chimney for supplying air, or the like from flowing into a body of a gas boiler to prevent failure. According to the present invention, the chimney for a condensing gas boiler comprises: a protrusion unit; and a sealing member.

Description

{CHIMNEY FOR CONDENSING GAS BOILER}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a condensing gas boiler suitable for single heating, and more particularly, to a condensing gas boiler which is suitable for single heating by preventing condensate generated from exhaust communication and rainwater, To the conduction of a condensing gas boiler.

Generally, the condensing gas boiler has a structure that allows the exhaust gas passing through the main heat exchanger and the exhaust gas to pass through the secondary heat exchanger once more by absorbing the waste heat again, compared with the conventional gas / oil boiler, Advantages are increasing due to its advantages.

In the case of such a condensing gas boiler, the temperature of the exhaust gas discharged to the outside through the exhaust communication pipe is about 55 to 60 ° C., and a large amount of condensed water is discharged from the exhaust gas As shown in FIG.

A large amount of condensed water generated in the exhaust communication passage of the condensing gas boiler is installed horizontally or downwardly as in the communication of other conventional gas / oil boilers as in the following Patent Documents 1 to 3, Or the outside of the building is contaminated and damaged, so that the exhaust communication pipe is installed upward so that the condensed water does not fall out.

In addition, the condensed water generated in the condensed water generated in the exhaust communication pipe of the condensing gas boiler installed upward is discharged into the interior of the gas boiler and then separated and discharged to the outside of the boiler body. However, Condensed water and rainwater move along the outer surface of the exhaust communication pipe and fall down to the upper part of the boiler body, thereby causing contamination of the boiler body surface or impregnating the inside of the body, thereby damaging various facilities.

On the other hand, in Patent Documents 4 and 5 described below, the front end exposed to the outside of the building of the exhaust communication and the air supply communication pipe installed upward to prevent inflow of rainwater and contaminants, Which are capable of processing condensate water generated in the exhaust communication pipe and treating condensed water collected in the communication pipe for the air supply and preventing the inflow of rainwater, Condensate generated from the outer surface moves along the outer surface of the exhaust communication pipe and drops to the upper part of the boiler body, so that the surface of the boiler body is contaminated or seeped into the body to damage various facilities. I can not.

Korea Public Utility Model No. 20-1998-0008881 (published on April 30, 1998) Korean Utility Model Publication No. 20-1999-0018418 (Published October 16, 2000) Korean Utility Model Registration No. 20-0241730 (Bulletin of July 27, 2001) Korean Patent Publication No. 10-2000-0026730 (published May 15, 2000) Registered Utility Model No. 20-0198035 of the Republic of Korea (Announced on July 19, 2000)

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a sealing member which is in close contact with an outer circumferential surface of an exhaust communication pipe and an inner circumferential surface of a supply communication pipe, The condensed water generated from the outer surface of the exhaust communication pipe and the rainwater flowing into the communication pipe for supplying air are prevented from flowing into the gas boiler so as to prevent the failure.

In order to attain the above object, the communication of the condensing gas boiler according to the present invention comprises: an exhaust communication passage, one side of which is connected to an exhaust gas discharge port of a gas boiler, the other side of which an exhaust gas discharge hole is formed, And the other end of the exhaust air communication pipe is fitted to the outside of the exhaust communication port, one side of the exhaust communication port is located inside the building wall, the other side of the air communication hole is formed through the through hole of the building wall, A protruding portion protruding inward from the vertical communication portion of the finishing cap to communicate with the supply port of the combustion chamber of the gas boiler to supply outside air to the combustion chamber connection port of the gas boiler; And a first O-ring and a second O-ring so as to be in contact with the inner vertical portion of the finishing cap coupled to the one end of the air supply communication and being in contact with the outer peripheral surface of the exhaust communication and the inner peripheral surface of the air supply communication, And a sealing member having an inner fitting groove and an outer fitting groove formed in an inner diameter and an outer diameter of the body, A protrusion extending from the circumferential surface of the sealing member is formed so as to stably contact the second O-ring, which contacts the inner vertical portion of the finishing cap and is seated in the outer fitting groove of the sealing member on the opposite side, ; The first O-ring and the second O-ring can be easily introduced into the inner fitting groove and the outer fitting groove, and the opposite side of the protruding portion of the sealing member can be inserted into the protruding portion of the supply- It is possible to make a feature of the technical construction.

According to the communication of the condensing gas boiler of the present invention, the sealing member formed as a unitary body or divided and then joined is configured to be easily combined with the first oil for sealing and the second O-ring, while the first oil and the second O- The condensed water generated on the circumferential surface of the exhaust communication pipe and the rainwater flowing into the air inflow hole of the air supply communication pipe can be safely prevented from flowing into the gas boiler along the exhaust communication pipe. It is very compact and economical to do.

1 is a perspective view showing a communication of a condensing gas boiler according to the present invention;
2 is a side view showing a state of use of the communication of the condensing gas boiler according to the present invention.
3 is an enlarged cross-sectional view of a portion 'A' in FIG. 2;
4 is an enlarged cross-sectional view showing another embodiment of the communication of the condensing gas boiler according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2, the present invention is characterized in that it comprises an exhaust communication 2 connected to an exhaust gas outlet 11 of a gas boiler 10, a supply communication 2 for supplying external air, And an air supply pipe 3 'whose one end is connected to the communication port 2 and the other end is connected to the combustion chamber connection port 12 and is installed upwardly inclined to the through hole 110 of the building wall body 100, The condensed water generated in the boiler 2 is introduced into the gas boiler 10 and then separated and discharged to the outside of the gas boiler 10.

The other end of the exhaust communication passage 2 is connected to the exhaust gas outlet 11 of the gas boiler 10 and the exhaust gas discharge hole 21 is formed in the through hole 110 of the building wall body 100 And the other side where the air inlet hole 31 is formed is connected to the outside of the building wall body 100. The air outlet hole 31 is formed in the outside of the building wall body 100, The air supply pipe 3 'is connected to the upper part of one side of the air supply communication pipe 3 through a through hole 110 of the air supply pipe 3, And is connected to supply external air to the combustion chamber connection port (12) of the gas boiler (10).

The finishing caps 4 and 4 'serve to maintain the interval of the air supply communication 3 which is fitted on the circumferential surface of the exhaust communication 2, and a detailed description of the construction and operation will be omitted .

The key technology of the present invention is to provide a sealing member 6 which is in close contact with the outer peripheral surface of the exhaust communication 2 and the inner peripheral surface of the air supply communication 3 and closes the space therebetween, So that the condensed water generated from the outer surface of the boiler 100 and the rainwater flowing into the gas supply communication pipe 3 can be prevented from flowing into the gas boiler 100, thereby preventing the failure.

2 and 3, it is preferable that the sealing member 6 is formed on the outer circumferential surface of the exhaust communication 2 and the outer circumferential surface of the exhaust communication 2 in consideration of a deviation occurring in the manufacturing process of the exhaust communication 2 and the air supply communication 3, The protruding portion 32 is protruded from the vertical portion 41 of the finishing cap 4 to the inside of the supply communication passage 3 so as to be stably fitted to the inner circumferential surface of the supply communication port 3 do.

The sealing member 6 of the present invention is in contact with the inner vertical portion 41 of the finishing cap 4 coupled to one end of the supply air communication port 3 and is in contact with the outer circumferential surface of the exhaust communication pipe 2, Shaped main body 60 sandwiched between inner circumferential surfaces of the base communication port 3 and fitted with the first O-ring 5 and the second O-ring 5 'so as to be in contact with the protruding portion 32, And an inner fitting groove 61 and an outer fitting groove 62 formed in the inner and outer diameters of the inner fitting groove 62 are formed.

The second O-ring 5 ', which contacts the inner vertical portion 41 of the finishing cap 4 and is seated in the outer fitting groove 62 of the sealing member 6, A protrusion 63 extending from the circumferential surface of the sealing member 6 is formed in such a manner that the first O-ring 5 and the second O-ring 5 ' The opposite side of the protruding portion 63 of the sealing member 6 can be easily inserted into the groove 61 and the outer fitting groove 62 so as to be able to pass through the protruding portion 32 of the air supply communication 3 without being caught And the stepped portion 64 having a smaller outer diameter by an interval T is formed.

The interval T is a distance from the outer fitting groove 62 to the second o-ring 5 'while maintaining a distance of approximately 2 to 5 mm from the upper side of the center line P of the second O- The second O-ring 5 'can stably come into close contact with the protruding portion 32 formed in the supply communication passage 3 while preventing the second O-ring 5' from being separated. It is noted that the value of the T interval is not limited and can be changed according to the size of the diameter of the second O-ring 5 '.

If the body 60 of the closure member 6 is formed as a single body as shown in FIG. 3, the manufacturing cost may be increased. Therefore, it is possible to divide the body 60 by injection molding with a synthetic resin material, And can be manufactured at a manufacturing cost.

That is, the body 60 of the sealing member 6 is divided into the first body 6a including the projecting portion, the inner fitting groove 61 and the outer fitting groove 62, and the second body 6b including the step portion 64, A groove 65 is formed in the central portion of the divided first body 6a and a projection 66 is formed in a central portion of the divided second body 6b to divide the groove 65 and the protrusions 66 are fitted to each other.

The grooves 65 of the divided first body 6a and the protrusions 66 of the second body 6b may be joined by interference fit or may be applied with a synthetic resin adhesive Respectively.

4, not only the first body 6a and the second body 6b are joined by the interference fit or the adhesive, but also the fusion groove 65 ' A fused protrusion 66 'may be formed on the first body 66 and a jig insertion hole 67 may be formed on the second body 6b for ultrasonic welding.

In the drawing, reference numeral 7 denotes a drain which may be mounted on the lower side of the exhaust communication 2.

Next, the operation of the present invention configured as described above will be described.

First, the first O-ring 5 and the second O-ring 5 'are pushed in by using the stepped portion 64 side of the sealing member 6 which is formed as a single body or divided and then joined to form the inside fitting groove 61 and the outside fitting 2 through the through hole 110 of the wall 100 as shown in Fig. 2 in a state where the sealing member is in a state of being introduced into the groove 62 6).

The first O-ring 5 is brought into close contact with the circumferential surface of the exhaust communication 2 and the second O-ring 5 'is brought into close contact with the circumferential surface of the exhaust communication 2 when the sealing member 6 disposed in the exhaust communication 2 is pushed into the air- Is tightly attached to the protruding portion 32 of the air supply communication 3 so that the air communication between the exhaust communication 2 and the air supply communication 3 is stably closed as shown in Figs.

When the finishing cap 4 is pushed in between the exhaust communication 2 and the air supply communication 3 and the vertical portion 41 of the finishing cap 4 presses the projecting portion 63 of the closure member 6 The second O-ring 5 'is stably brought into close contact with the protruding portion 32 of the air supply communication 3, so that the condensed water generated in the circumferential surface of the exhaust communication 2, as shown in FIG. 2, And rainwater or the like flowing into the air inflow hole 31 of the air supply communication pipe 3 can be prevented from flowing into the inside along the air exhaust communication pipe 3, so that the failure of the gas boiler 10 can be prevented.

The condensed water or the rainwater gathered between the exhaust communication 2 and the air supply communication 3 is naturally discharged to the air inflow hole 31 of the air supply communication 3 as shown in FIG. 7).

Therefore, the sealing member 6, which is integrally or separately formed and joined after being formed in the present invention, is configured to facilitate the engagement of the first oil 5 for sealing and the second O-ring 5 ' The second O-ring 5 'is brought into close contact with the circumferential surface of the exhaust communication 2 and the protruding portion 32 of the air supply communication 3 so that the condensed water generated in the circumferential surface of the exhaust communication 2, It is possible to safely prevent the rainwater or the like flowing into the air inflow hole 31 of the indoor unit 3 from flowing into the inside along the exhaust communicationpath 3.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Accordingly, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

10: gas boiler 11: exhaust gas outlet
12: Combustion chamber connection 2: Exhaust gas communication
21: Exhaust gas discharge hole 3: Supply-air communication
31: air inflow hole 32: protrusion
4, 4 ': Finishing cap
41: vertical part 5: first o-ring
5 ': second o-ring 6: sealing member
60: Main body 6a: First body
6b: second body 61: inner fitting groove
62: outer fitting groove 63:
64: stepped portion 65: groove
65 ': welding groove 66: projection
66 ': Fusing projection 100: Wall
110: Through hole

Claims (3)

One side of which is connected to the exhaust gas outlet 11 of the gas boiler 10 and the other side of which the exhaust gas discharge hole 21 is formed passes through the through hole 110 of the building wall 100 and is exposed to the outside, And the other side where the air inlet hole 31 is formed passes through the through hole 110 of the building wall body 100 and is connected to the outside of the building wall body 100, (3) which is located at a lower end of the gas supply pipe (3) and is connected to the upper end of the gas supply line (3) by a finishing cap (4, 4 ' In the communication of a condensing gas boiler in which an air supply pipe 3 'for supplying outside air is mounted,
A protrusion 32 protruding from the vertical portion 41 of the finishing cap 4 and protruding inward from the supply communication passage 3; And
And the inner peripheral surface of the exhaust communication 2 and the inner peripheral surface of the air supply communication 3 are in contact with the inner vertical portion 41 of the finishing cap 4 coupled to one end of the air supply communication 3, Shaped main body 60 in which a first O-ring 5 and a second O-ring 5 'are fitted so as to be in contact with the protruding portion 32 so as to be hermetically sealed, and an inner fitting groove 60 formed on the inner and outer diameters of the main body 60, (6) having an outer fitting groove (61) and an outer fitting groove (62);
The second O-ring 5 ', which contacts the inner vertical portion 41 of the finishing cap 4 and is seated in the outer fitting groove 62 of the opposite sealing member 6, A protrusion 63 extending from the circumferential surface of the sealing member 6 is formed so as to stably contact the protrusion 32;
The first O-ring 5 and the second O-ring 5 'can be easily introduced into the inner fitting groove 61 and the outer fitting groove 62 and the protrusion 32 of the supply communication pipe 3 can be engaged Wherein a step portion (64) whose outer diameter is smaller by a distance T than the projecting portion (63) of the sealing member (6) is formed so as to pass through the sealing member (6).
The hermetic container according to claim 1, wherein the body (60) of the sealing member (6) comprises a first body (6a) including a projection, an inner fitting groove (61) and an outer fitting groove (62) And the second body (6b) including the second body (6b), and is joined through injection molding and joining.
The method as claimed in claim 2, wherein a groove (65) is formed in a central portion of the divided first body (6a) and a projection (66) is formed in a central portion of the divided second body (6b) And a fused protrusion 66 'is formed on the protrusion 66 and a second body 6b is formed on the protrusion 66. The fused protrusion 66' And a jig inserting hole (67) for ultrasonic welding is formed on the inner wall of the condensing gas boiler.

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