KR20000013894U - Heat sink fins for auxiliary heat exchanger in condensation gas boiler - Google Patents

Abstract

The present invention relates to a heat dissipation fin for an auxiliary heat exchanger of a condensation gas boiler to increase the heat transfer rate of the exhaust gas to improve thermal efficiency.

The present invention is a condensing gas boiler in which a secondary heat exchanger 23 for recovering heat of exhaust gas is provided on one side of a combustion chamber 21 having a main heat exchanger 22, the narrow plate having a narrow width. A hole 104 is formed in the fence panel 101, and heating tubes of the auxiliary heat exchanger 23 are formed in a pair of left and right so as to be piped in up and down directions, and one side of the hole 104. A tube fence 103 is formed to surround the circumferential surface of the tube, and side fences 102 formed in the same direction as the tube fence 103 are formed at left and right ends thereof. By installing the tubes in the up and down directions, it is possible to more efficiently absorb the heat of the exhaust gas passing from the upper side to the lower side, thereby improving the thermal efficiency and reducing the width of the heat radiation fins.There is also an effect that can be reduced.

Description

Heat sink fins for auxiliary heat exchanger in condensation gas boiler

The present invention relates to a heat dissipation fin for an auxiliary heat exchanger of a condensation gas boiler which combines an up and down exhaust method. In particular, the condensing gas boiler can improve heat efficiency by increasing the heat transfer rate of exhaust gas to an auxiliary heat exchanger. A heat dissipation fin for an auxiliary heat exchanger.

In general, when the gas boiler drives the air supply fan 11 in the main body 10 as shown in FIG. 1, gas is injected into the burner 13 through the gas valve 12, and the spark plug of the ignition trans 14 By the ignition of the burner 13, the heat to be burned is absorbed while passing through the heat exchanger 15, the exhaust gas is discharged to the atmosphere through a communication with the exhaust port (10a), the air required for combustion is in communication with the It flows in through the air supply port 10b.

And the heating water is supplied to each room by the circulation pump 16, the circulation path is the heat exchanger 15, expansion tank 17, circulation pump 16, heating water supply pipe, distributor, heating branch pipe, distributor , Circulating to the heating return pipe, the heat exchanger 15, the direct water supplied through the water supply pipe receives heat from the heating water supplied from the hot water heat exchanger 18 is supplied through the hot water pipe. Reference numeral 15a denotes a heat dissipation fin 15a for absorbing combustion heat and transferring heat to the heating tube of the heat exchanger 15 through which the fluid flows.

However, the heat dissipation fin 15a as described above has a problem that it is difficult to apply to the heat exchanger 15 or the secondary heat exchanger of the condensation gas boiler as shown in FIG. 2.

Referring to FIG. 2, the condensation gas boiler is schematically described. An exhaust hood 24 having an auxiliary heat exchanger 23 and an exhaust pipe 26 are installed side by side on one side of the combustion chamber 21 in the main body 20. On the other hand, before the heating water recovered from the heating pipe is introduced into the main heat exchanger 22 by heating with high-temperature exhaust gas, it is to maximize the thermal efficiency.

In this case, however, in order to apply the fins 22a used in the main heat exchanger 22 to the auxiliary heat exchanger 23, the heating tubes must be installed side by side in the left and right directions, and in this case, the exhaust gas is quickly supplied to the auxiliary heat. By passing through the pins 22a of the exchanger 23, there is a problem that the heat transfer efficiency is lowered. In the accompanying drawings, reference numeral 25 denotes an under cover of the exhaust hood 24, and 27 denotes a burner.

The present invention is to solve the above problems, an object of the present invention is to provide a heat sink for the secondary heat exchanger of the condensation gas boiler to increase the heat transfer rate of the exhaust gas to the secondary heat exchanger to improve the thermal efficiency. .

The present invention is a condensing gas boiler in which a secondary heat exchanger for recovering heat of exhaust gas is installed on one side of a combustion chamber having a main heat exchanger to achieve the above object. Forming a hole in the heating tube of the auxiliary heat exchanger is formed in a pair of left and right pipes in the up and down direction, and forms a tube fence surrounding the circumferential surface of the tube on one side of the hole, It is to provide a heat radiation fin for the auxiliary heat exchanger of the condensation gas boiler by forming side fences in the same direction as the tube fence at the left and right ends.

1 is an internal configuration diagram of a general gas boiler,

2 is a schematic configuration diagram of a condensation gas boiler according to the present invention,

3 is a side view of the heat dissipation fin according to the present invention;

4 is a perspective view of a heat radiation fin according to the present invention,

5 is a side view of a heat radiation fin of another embodiment according to the present invention.

* Explanation of symbols on the main parts of the drawings *

10,20 ... Main unit 10a ... Exhaust vent

10b ... Air supply 11 ... Air supply fan

12 ... gas valve 13,27 ... burner

14 ... ignition transformer 15,22,23 ... heat exchanger

16 ... circulation pump 17 ... expansion tank

18 ... hot water heat exchanger 21 ... combustion chamber

100 ... Heatsink fins 101 ... Fence panel

102 ... side fence 103 ... tube fence

104 ... hole 105 ... guide hole

106 ... Guide fence

Next, the present invention will be described in detail with reference to the drawings.

3 and 4, the heat dissipation fins for the auxiliary heat exchanger of the condensation gas boiler according to the present invention are shown, and the heat dissipation fins 100 for the auxiliary heat exchanger of the condensation gas boiler are disposed on a fence panel 101 that is a rectangular plate. The right pair of holes 104 are formed up and down, and a pair of guide fences 106 are formed at the lower portion of the hole 104 positioned at an upper portion thereof.

The fence panel 101 is formed of a thin plate-shaped plate, while a rectangular plate body having a width narrower than its height is formed, and upper and lower circular arcs are formed concentrically with the holes 104, respectively. The guide fence 106 bent at right angles is integrally formed on the right wall.

The hole 104 is formed while maintaining a constant distance from each other in a pair of left and right, while maintaining a constant distance up and down on the guide fence 106, the fence panel 101 is built vertically It is formed to penetrate orthogonal to each other, and formed by a pair of upper and lower, or a pair of upper, middle and lower, as shown in FIG.

The guide fence 106 is formed in a pair of the lower portion of the hole 104 located in the upper portion of the hole 104, while being formed in an arc shape concentric with the hole 104, with respect to each other It is formed while maintaining a constant interval. The side fence 102, the tube fence 103, and the guide fence 106 are formed at the same height while forming the same direction.

The heat dissipation fin 100 of the present invention configured as described above is densely installed side by side at intervals of the width of the side fence 102 in the heating tube forming a pair of two, while the heating tube is installed up and down, the upper fence Exhaust gas passing through the panel 101 impinges on the guide fence 106 and then impinges on the lower fence panel 101.

Therefore, the heat of the exhaust gas can be used more efficiently, thereby improving the thermal efficiency. In addition, by reducing the width of the fence panel 101 it is possible to pipe several heating tubes in the up and down direction, it is possible to reduce the width of the exhaust hood of the condensation gas boiler. Reference numeral 105 in the accompanying drawings indicates a guide hole for welding.

According to the present invention as described above, by installing two heating tubes in a vertical direction, it is possible to more efficiently absorb the heat of the exhaust gas passing from the top to the bottom to improve the thermal efficiency It works.

In addition, while installing a plurality of heating tubes in the upper and lower directions, it is possible to reduce the width of the heat radiation fins can also reduce the size of the exhaust hood.

Claims (2)

In a condensation gas boiler provided with an auxiliary heat exchanger 23 for recovering heat of exhaust gas on one side of a combustion chamber 21 having a main heat exchanger 22, A hole 104 is formed in the fence panel 101 having a narrow plate, and the heating tube of the auxiliary heat exchanger 23 is formed to be piped in an up and down direction while forming a pair of left and right, and the hole A condensing gas boiler is formed on one side of the tube 104 to form a tube fence 103 surrounding the circumferential surface of the tube, and a side fence 102 formed in the same direction as the tube fence 103 at left and right ends thereof. Heat sink fin for auxiliary heat exchanger. According to claim 1, wherein the pair of guide fences 106 are formed in the lower portion of the hole 104 located above the hole 104 to be spaced apart from each other, forming a concentric circle with the hole 104 in an arc shape On the other hand, the heat radiation fin for the auxiliary heat exchanger of the condensation gas boiler to be formed at the same height as the tube fence (103).