KR200213891Y1 - A exhausting structure of a gas boiler - Google Patents

Abstract

The present invention relates to the improvement of the coupling structure of the exhaust port for exhausting the exhaust gas generated during the burner combustion process of the gas boiler, and more particularly, to the simplified structure of coupling to the gas boiler outer case with the rubber ring assembled into the exhaust port. By maximizing the assembly and productivity as well as reducing the cost, and also providing excellent airtight maintenance of the exhaust port and the outer case to provide a gas boiler exhaust port combination structure to maximize the reliability of use. have.

Description

Exhaust Outlet Structure for Gas Boiler {A EXHAUSTING STRUCTURE OF A GAS BOILER}

The present invention simplifies the coupling structure of the exhaust port for discharging the exhaust gas generated in the burner combustion process of the gas boiler to improve the productivity and assemblability, thereby improving the exhaust boiler coupling structure for the gas boiler.

In general, a gas boiler circulates water supplied from a water tank by a pump and is heated by a heat burner in a main heat exchanger, and the heated water is selectively supplied to a hot water heat exchanger or an indoor heating pipe to perform hot water supply and heating. .

At this time, the heating of the circulating water by the heating burner performs the combustion process by the external air introduced by the blower together with the fuel injection, and the exhaust gas generated in this process is connected to the upper part of the main heat exchanger. Will be discharged to the outside.

The assembly structure of the conventional exhaust port is as shown in the accompanying drawings, Figure 1 and 2 as shown in the upper part of the gas boiler outer case (2) by drilling the installation hole 3 to insert the exhaust port 10, the assembly hole (3) around the upper portion of the airtight packing (5) and the exhaust port fixing bracket (6) by inserting a plurality of fastening bolts (7) to the fixing bracket (6), the airtight packing (6) the outer case ( 2) It is fixed to the installation.

This conventional exhaust assembly structure is assembled because the assembly process by a plurality of parts to the airtight packing (5), fixing bracket (6), a plurality of fastening bolts (7) in order to assemble the exhaust port 10 in a sealed structure. As the work is complicated, the workability and productivity are lowered, which is a factor of the cost increase.

In addition, the airtight assembly structure of the hermetic type exhaust plate (5) of the plate-shaped airtight packing (6) on the upper side to maintain the airtight by pressing in contact with the surface of the fixed bracket (6) or the outer case (2) If the upper portion does not form a constant flatness, it causes a problem that does not maintain excellent airtightness.

The present invention has been made to solve the above-mentioned problems of the prior art, simplifies the structure of coupling the exhaust port to the gas boiler outer case to maximize the assembly and productivity, as well as to achieve a cost reduction accordingly The purpose is to provide an exhaust port coupling structure.

In addition, an object of the present invention is to provide an air outlet coupling structure for the gas boiler to maximize the reliability of use by providing excellent airtightness of the exhaust port and the outer case.

1 is an exploded perspective view showing a conventional air exhaust coupling structure;

Figure 2 is a cross-sectional view showing a conventional exhaust port coupling structure,

Figure 3 is an exploded perspective view showing an exhaust port coupling structure of the present invention,

Figure 4 is a cross-sectional view showing an exhaust port coupling structure of the present invention.

<Explanation of symbols for main parts of drawing>

2; Outer case 10; Vent 15; Support

20; Bend 22; Support groove 30; Rubber ring

Hereinafter, with reference to the accompanying drawings for a preferred embodiment for achieving the above object of the present invention will be described in detail.

That is, the present invention is to assemble and install the exhaust port 10 in the assembly hole 3 formed in the upper portion of the gas boiler outer case 2, as shown in Figure 3 and 4,

The inner circumference of the assembly hole 3 is formed to bend the bent portion 20 having the support groove 22 therein to the inner upper portion, and the support protrusion 15 is formed on the outer circumference at a predetermined portion of the exhaust port 10. It is formed so that the rubber ring 30 is pressed into the support groove 22 of the bent portion 20 in a state in which the circular rubber ring 30 is inserted to be supported above the support protrusion 15.

At this time, the lower end of the exhaust port 10 is installed to be supported on the top of the main heat exchanger not shown.

As the reference numeral, 11 is a bending end for bending the upper end of the exhaust port 10 to prevent the inflow of foreign matters from the outside, 4 is a supply port for introducing air into the gas boiler.

Next will be a look at the operation and operation of the subject innovation configured as described above.

Assemble the circular rubber ring 30 to the upper support protrusion 15 formed on the outer periphery of the exhaust port 10 of the present invention, the exhaust port 10 is assembled to the gas boiler outer case (2) Is inserted into the assembly hole (3).

In this state, the rubber ring 30 assembled on the exhaust port 10 is assembled in a state where the assembly groove 22 of the bent portion 20 is pressed.

At this time, the exhaust port 10 is supported by a main heat exchanger, the lower end of which is not shown.

As a result, the present invention is a rubber ring 30 assembled to be supported by the support protrusion 15 of the exhaust port 10 is in line contact with the state in the pressing state in the support groove 22 of the bent portion 20 of the circular rubber ring ( The pressurized contact along the outer periphery of 30) is to maintain the excellent airtightness compared to the conventional plate-shaped packing.

In addition, the present invention is to eliminate the assembly work by a plurality of parts as in the prior art assembling work is simply provided with a simple structure of assembling only the rubber ring 30 on the exhaust port 10 during assembly.

As described above, the present invention simplifies the structure in which the exhaust port is coupled to the gas boiler outer case, thereby maximizing the assembly and productivity, thereby reducing the cost, and also excellently maintaining the airtightness of the exhaust port and the outer case. By providing the effect that will maximize the reliability of use.

Claims (1)

In assembling and installing the exhaust port 10 in the assembly hole 3 formed in the upper part of the gas boiler outer case 2, The inner circumference of the assembly hole 3 is formed to bend the bent portion 20 having the support groove 22 therein to the inner upper portion, and the support protrusion 15 is formed on the outer circumference at a predetermined portion of the exhaust port 10. Formed so that the rubber ring 30 is pressed to the support groove 22 of the bent portion 20 in a state in which the circular rubber ring 30 is inserted to be supported above the support protrusion 15. Gas boiler exhaust port coupling structure.