KR20000016489U - Combustor for a boiler - Google Patents

Abstract

The present invention relates to a communication structure for a boiler, and forms an air supply portion (12b) and expands the inner diameter of one side gas tight plate (12a) of the outer cylinder (12) coupled to the outer portion of the inner cylinder (11), the outer cylinder (12) The outer side of the inner cylinder 11 in contact with the one side airtight plate 12a of the fixing portion (11c) is formed, to install the communication 10 for introducing air from the interior of the boiler installed inside the boiler body 30 When the inner cylinder 11 and the outer cylinder 12 are coupled to each other, the inner cylinder 11 is fixed such that one side airtight plate 12a of the outer cylinder 12 formed by expanding the inner diameter thereof is in contact with and fixed to the fixing part 11c of the inner cylinder 11. When the inner cylinder 11 is inserted into the outside of the airtight seal packing 20, the air supply unit 12b is formed on the outer side of the inner cylinder 11 and the outer cylinder 12 is coupled to the inner cylinder when the boiler is manufactured. A separate outer cylinder 12 is formed to have an air supply portion 12b on the outer side of the 11 so that the air outside the room is brought to the boiler. It is not necessary to separately manufacture the FF type boiler communication 10 for discharging the burned gas to the outside after the inflow, and the FE type boiler communication for discharging the gas burned by the air in the room where the boiler is installed. As the parts are made common, the manufacturing cost is reduced when the boiler is manufactured.

Description

COMMUNICATION FOR BOILER {COMBUSTOR FOR A BOILER}

The present invention relates to a communication structure for a boiler, and more particularly, the outer portion of the inner cylinder for discharging the combustion gas generated in the boiler to the outside outside the boiler is installed in the outer cylinder for introducing the air inside and outside the boiler is installed inside the boiler. It relates to a communication structure for the boiler to be easily attached to and removed from.

In general, a communication system consisting of an inner cylinder and an outer cylinder is provided at the top of a main body of a boiler that uses a fuel such as gas and oil to heat water to obtain heating and hot water. Combustion gas generated during combustion is discharged to the outside of the boiler body through the inner cylinder and at the same time, air outside the boiler body is installed to supply the inside of the boiler body through the outer cylinder.

Here, in the conventional boiler communication structure, as shown in FIG. 1, the airtight body is kept airtight by the packing 40 at the other end of the inner cylinder 11 having the exhaust hole 11a formed at one side thereof, and the main body 30 of the boiler. Coupling portion 11b is formed to be coupled to an exhaust port 31 formed at an upper portion of the inner side, and an outer cylinder 12 having an intake hole 12c at one side is formed at an outer side of the inner cylinder 11 to supply the air supply portion 12b. And are combined.

In the conventional boiler communication structure, the coupling part 11b formed at one end of the inner cylinder 11 is kept airtight by the packing 40 at an exhaust port 31 in which one end thereof protrudes upward of the boiler body 30. The outer cylinder 12 having the intake hole 12c is coupled to the other side of the inner cylinder 11 in which the coupling portion 11b is formed, and one end of the boiler body 30 is formed at the center of the air supply portion 12b. By connecting the other end of the connecting pipe 50 connected to one side of the), the combustion gas generated while the gas is combusted when the boiler is running through the exhaust hole (11a) of the inner cylinder 11 of the boiler body 30 At the same time it is discharged to the outside, the outside air of the boiler body 30 is introduced into the air supply unit 12b through the intake hole 12c and then supplied to the inside of the boiler body 30 through the connection pipe 50 to the gas The combustion is made smoothly.

However, in the conventional boiler communication structure, when the outer cylinder 12 is coupled to have an air supply portion 12b on the outer side of the inner cylinder 11 having a constant outer diameter, an airtight plate 12a welded to both end portions of the outer cylinder 12. The inner diameter of the inner cylinder 11 and the outer diameter of the same relationship between the outer cylinder 12 to have the air supply portion 12b to the inner cylinder 11, the operation is not easily made, of course, of the inner cylinder 11 In order to fix the outer cylinder 12 to the outer side with the air supply portion 12b, the airtight plate 12a of the outer cylinder 12 must be welded to the outer surface of the inner cylinder 11, so There was a problem to increase.

On the other hand, in the prior art, the common use of the parts are not made properly, the FF-type boiler communication 10 for injecting the outside air installed in the boiler into the boiler and then discharges the burned gas to the outside, and the air inside the boiler installed Since the FE type boiler communication to discharge the gas burned by the outside to be produced separately, there is a problem that the production cost increases by increasing the number of parts during the manufacture of the boiler to be used when installing the boiler.

The purpose of the present invention is to solve the problem as described above, to form an air supply and to expand the inner diameter of one side airtight plate of the outer cylinder coupled to the outer portion of the inner cylinder, the fixing portion on the outside of the outer cylinder contacted with one side of the inner cylinder To form a, when combining the inner cylinder and the outer cylinder to install a communication for introducing the air from the interior and exterior of the boiler body into the interior of the boiler body, the one side airtight plate of the outer cylinder formed by expanding the inner diameter is in contact with and fixed to the fixing portion of the inner cylinder Inserting the inner cylinder to the outside of the inner cylinder to compress the airtight seal packing to form an air supply portion on the outer side of the inner cylinder and to combine the outer cylinder, thereby welding a separate outer cylinder to have an air supply portion on the outer side of the inner cylinder when manufacturing the boiler And FF boiler communication pipe for injecting indoor / outdoor air into the boiler and then discharging the burned gas to the outside. It is not necessary to separately manufacture the FE type boiler communication which discharges the gas burned by the air in the room where the boiler is installed to the outside, and since the parts are made common, the boiler communication that reduces the manufacturing cost when manufacturing the boiler To provide structure.

1 is a schematic view showing a state of use of conventional communication

2 is a front view showing a state of use of the subject innovation

3 is a cross-sectional view showing the main portion of the present invention.

Explanation of symbols on the main parts of the drawings

10: communication 11: inner tube

11a: exhaust hole 11b: coupling portion

11c: fixed portion 11d: inflexion portion

12: outer cylinder 12a: airtight plate

12b: air supply 12c: intake hole

20: Confidential packing

Hereinafter, the technical configuration of the present invention by the accompanying drawings in detail.

As shown in FIGS. 2 and 3, the boiler communication structure of the present invention is airtightly maintained by the packing 40 at the other end of the inner cylinder 11 in which the exhaust hole 11a is formed at one side thereof. Coupling portion 11b coupled to the exhaust port 31 formed on the upper portion of the main body 30 is formed, and an outer cylinder 12 having an intake hole 12c formed at one side thereof is provided at an outer side of the inner cylinder 11. 12b) is combined as in the prior art. However, the present invention forms the air supply portion 12b and is formed by expanding the inner diameter of one side airtight plate 12a of the outer cylinder 12 coupled to the outer side of the inner cylinder 11, and the one side airtight plate of the outer cylinder 12. The outer side of the inner cylinder 11 which 12a comes in contact with is provided with the fixing part 11c as a basic characteristic on the technical structure.

On the other hand, the fixing portion (11c) it is revealed that the airtight seal packing 20 is installed so that the outer cylinder 12 coupled to the inner cylinder (11) is kept confidential and fixed.

In addition, one side of the inner cylinder 11, the fixing portion (11c) is formed to change the direction of one side and the other side of the inner cylinder 11 freely, the operator is easy to perform work without being affected by the ceiling when installing the boiler. It is preferable to expand the width of the displacement by expanding the bellows-shaped inflection portion 11d to be made.

The present invention constituted as described above is combined with the inner cylinder 11 and the outer cylinder 12 to install a communication 10 for introducing the air from the interior and exterior of the boiler into the boiler body 30, and the inner diameter thereof is expanded. When the inner cylinder 11 is inserted into the outer side of the inner cylinder 11 so that the one side airtight plate 12a of the outer cylinder 12 contacts and fixed to the fixing portion 11c of the inner cylinder 11, the airtight packing 20 is crimped. While forming the air supply portion 12b on the outer side of the inner cylinder 11, the outer cylinder 12 is coupled to the inner cylinder (11).

In addition, when the boiler is installed indoors, the worker uses the bellows-shaped inflection portion 11d formed at one side of the inner cylinder 11 to perform a work while changing one side of the inner cylinder 11 by bending at a height suitable for the ceiling on which the boiler is installed. Done.

Therefore, the present invention by separating and coupling the outer cylinder to the inner cylinder 11 of the communication 10 according to the air supply structure of the boiler when installing the boiler, the boiler is introduced into the boiler after the air outside the room is installed By using the FF type boiler communication 10 for discharging the gas to the outside and the FE type boiler communication for discharging the gas burned by the air in the room where the boiler is installed to the outside, the parts are made common. The manufacturing cost of the is reduced, as well as by the bellows-shaped inflection (11d) enlarged when installing the boiler is not affected by the ceiling, and by installing the communication, there is an effect to improve the workability.

Claims (4)

Coupling portion 11b that is kept airtight by packing 40 at the other end of inner cylinder 11 in which exhaust hole 11a is formed at one side and is coupled to exhaust port 31 formed at the upper part of boiler body 30. Is formed, and the outer cylinder 12 having the intake hole 12c formed at one side is coupled to the outer portion of the inner cylinder 11 with the air supply portion 12b, and the outer cylinder 12 is the inner cylinder 11 Communication structure for the boiler, characterized in that the removable configuration. The method according to claim 1, wherein the inner diameter of the one side airtight plate 12a of the outer cylinder 12 which is coupled to the outer side of the inner cylinder 11 to form the air supply portion 12b is enlarged, and formed on one side of the outer cylinder 12 Boiler communication structure, characterized in that the fixing portion (11c) is formed on the outer side of the inner cylinder (11) in contact with (12a). The communication structure for a boiler according to claim 2, wherein the fixing part (11c) is provided with an airtight packing (20) for fixing and keeping the outer cylinder (12) coupled to the inner cylinder (11). The method of claim 2, wherein the one side and the other side of the inner cylinder 11 is freely changed on one side of the inner cylinder 11 in which the fixing portion 11c is formed, so that the worker is not affected by the ceiling when installing the boiler. A communication structure for a boiler, characterized in that the bellows-shaped inflection portion (11d) is expanded to be easily performed.