KR200411648Y1 - A heat transfer pin of heat exchanger for a boiler - Google Patents

Abstract

The present invention relates to a heat transfer fin of a heat exchanger for a boiler in which a first through hole and a second through hole through which a heat absorbing tube is inserted are inserted into upper and lower portions of a fin. The present invention relates to a heat transfer fin of a boiler heat exchanger capable of increasing an amount of heat transfer to an endothermic tube through which an insertion penetrates, while increasing heat exchange efficiency of a fin with respect to combustion heat passing through the endothermic tube. A plate-like pin 121 having a first through hole 123 and a second through hole 125 alternately disposed, and having a cutout 126 formed between the first through holes 123; A pair of vortex generating jaws (129) (129a) (129b) formed on both sides of the upper portion of the first through hole (123) and the second through hole (125) to be symmetrical with each other; An offset pin 127 and an auxiliary offset pin 128 formed between the second through holes 125 to increase the heat transfer amount of the heat absorbing tube passing through the second through holes and to increase heat exchange efficiency. It has the advantage that it can be used suitably for a heat exchanger for high efficiency boiler.

Pin, through hole, cutout, offset pin, auxiliary offset pin, vortex generating jaw

Description

A heat transfer pin of heat exchanger for a boiler

1 is a circuit diagram showing the overall configuration of a general condensing gas boiler.

Figure 2 is a perspective view showing the heat transfer fin structure of a conventional heat exchanger for a boiler.

3 is a perspective view showing the heat transfer fin structure of the heat exchanger for a boiler according to the present invention.

* Explanation of symbols for the main parts of the drawings

12: heating pin 121: pin

122, 124: first, second heat absorbing portion 123, 125: first, second through hole

126: Incision 127: Offset pin

127a and 127b: first and second offset pins 128: auxiliary offset pins

129,129a, 129b: Vortex generating jaw

The present invention relates to a heat transfer fin of a heat exchanger for a boiler in which a first through hole and a second through hole through which a heat absorbing tube is inserted are inserted into upper and lower portions of a fin. Heat exchanger for boiler which can increase the heat transfer amount of the heat absorbing tube through the insertion and increase the heat exchange efficiency between the exhaust flow and the fin passing through the heat absorbing tube of the first through hole and the second through hole It relates to the heating fin of.

In general, the condensing gas boiler is a boiler designed to reduce heat loss by absorbing and recycling the waste heat again, and has a characteristic and effect of excellent thermal efficiency and significantly reducing fuel costs.

1 is a schematic configuration diagram of a general condensing gas boiler.

As shown in the drawing, a conventional condensing gas boiler is provided with an sensible heat exchanger 2 that is directly heated by the combustion heat of the burner 1a on the upper side of the combustion unit 1 including the burner 1a, The upper side of the sensible heat exchanger 2 is provided with a latent heat exchanger 3 that is heated by the exhaust gas passing through the sensible heat exchanger 2.

In addition, the hot water heat exchanger 5 is provided with a hot water heat exchanger 5 in which the hot water of the sensible heat exchanger 2 and the cold water supplied through the straight pipe 4 are heat-exchanged with each other, and the hot water heat exchanger 5 and the sensible heat exchanger ( Between 2), a three-way valve 7 for selectively supplying hot water from the sensible heat exchanger 2 to the hot water heat exchanger 5 or the heating water supply pipe 6 is provided.

In addition, a circulation pump 9 is provided between the latent heat exchanger 3 and the water tank 8, and the water tank 8 is connected to the heating water return pipe 10, and the heating water return pipe ( 10) is connected to the hot water heat exchanger (5) is configured to recover the hot water heat exchanged with cold water to the water tank (8) side.

In the conventional condensing gas boiler configured as described above, after being heated by the operation of the circulation pump 9, the water to be returned flows into the latent heat exchange part 3, and the heated water of the latent heat exchange part 3 introduced is sensible heat. The heat is exchanged with the exhaust gas passing through the heat exchange part 2 to preheat.

The preheated heating water flows back into the sensible heat exchanger 2 to be directly heated by the burner 1a, and the heated hot water is heated by the three-way valve 7. Or it is sent to the heating water supply pipe (6) to make a heat exchange with the cold water supplied through the direct water pipe (4) or to be heated.

On the other hand, the sensible heat exchanger 2 and the latent heat exchanger (3) is composed of a heat sink (11) of the shape of the sand each of the heating water is circulated, the heat absorbing tube (11) in order to increase the efficiency of heat exchange It includes a plurality of heat transfer fins (12).

The heat transfer fin 12 is formed of a plate-like fin 121 having a plurality of through holes as shown in FIG. 2, wherein the through holes are first through holes 123 constituting the first heat absorbing part 122. ) And a second through hole 125 constituting the second heat absorbing portion 124, wherein the first through hole 123 and the second through hole 125 are alternately arranged.

In order to suppress excessive heat exchange with respect to the first heat absorbing portion 122 which is directly heated by the exhaust gas, a cutout portion 126 is formed between the first through holes 123 to reduce the thermal contact area. Between the second through holes 125, offset pins 127 and auxiliary offset pins 128 having different sizes are arranged up and down.

The offset pin 127 and the auxiliary offset pin 128 are both formed by a lancing method, that is, a method of cutting the upper and lower portions of the pin 121 into a predetermined area and bending the remaining portion toward the front side. The auxiliary offset pin 128 is formed to be shorter than the length of the offset pin 127 so that exhaust flow interference with the upper offset pin 127 does not occur.

The heat transfer fin of the conventional heat exchanger for the boiler is stopped at the part of the auxiliary offset fin 128 and the offset fin 127 separated from the fin 121 by the boundary layer of the exhaust flow formed on the surface of the fin 121. A new boundary layer is formed at the ends of the offset pin 128 and the offset pin 127, resulting in an increase and acceleration of the endothermic amount.

The heat absorbed by the auxiliary offset pin 128 is conducted to the pin 121 through both ends of the auxiliary offset pin 128 integrally connected with the pin 121, wherein the auxiliary offset pin 128 is Since the heat absorbed heat is transferred to the inside of the heat absorbing tube through which the second heat absorbing part 124 is inserted, the heat absorbed heat is increased. Of course, it is possible to prevent the drain phenomenon generated in the heat absorbing tube of the second heat absorbing portion 124.

However, the heat transfer fin of the conventional heat exchanger for the boiler has a function of conducting heat to the heat absorbing tube 11 of the second through hole 125 only by the auxiliary offset fin 128, and the offset fin 127. The heat exchanger promotes heat exchange with respect to the exhaust stream passing through the heat absorbing tube 11 of the second through hole 125, which is not suitable for a heat exchanger requiring a more efficient heat exchange effect and a drain prevention effect.

The present invention has been made in order to solve the conventional problems as described above, the purpose is a boiler in which the first through hole and the second through hole through which the heat absorbing tube is inserted into the upper and lower portions of the fin are formed alternately with each other. The heat transfer efficiency of the fin to the heat of combustion passing through the heat absorbing tube can be increased while increasing the heat transfer amount of the heat absorbing tube through which the second through hole is inserted in the heat exchanger of the heat exchanger.

In order to achieve the object of the present invention, the upper and lower first through hole and the second through hole is configured to be alternating with each other, the plate-shaped pin is formed between the first through hole; A pair of vortex generating jaws formed on both sides of the upper portion of the first through hole and the second through hole to be symmetrical to each other; An offset fin and an auxiliary offset fin formed between the second through holes are provided.

The offset pin may include a first offset pin and a second offset pin, and the first offset pin and the second offset pin may be disposed on upper and lower sides of the auxiliary offset pin positioned on the center line of the second through hole. Characterized in that formed symmetrical.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration of the present invention according to the embodiment.

3 is a perspective view showing the heat transfer fin of the heat exchanger for a boiler according to the present invention.

The heat transfer fin of the boiler heat exchanger is formed of a plate-like fin 121 having a plurality of through holes as usual, and the through holes are first through holes 123 constituting the first heat absorbing portion 122. And a second through hole 125 constituting the second heat absorbing part 124, wherein the first through hole 123 and the second through hole 125 are alternately arranged.

In addition, a cutout 126 is formed between the first through holes 123 in order to suppress excessive heat exchange with respect to the first heat absorbing portion 122 that is first heated by the exhaust gas.

In the heat transfer fin of the boiler heat exchanger, the present invention is the offset pin 127 and the auxiliary offset fin 128 is formed between the second through hole 125 constituting the second heat absorbing portion 124 and In addition, a pair of vortex generating jaws 129, 129a and 129b is formed on the upper side of the first through hole 123 and the second through hole 125.

In addition, the offset pin 127 is separated into a first offset pin 127a and a second offset pin 127b, and are formed symmetrically with each other on the upper and lower sides with respect to the intermediate offset pin 128 in the middle. The auxiliary offset pin 128 is formed to be shorter than the length of the first offset pin 127a and the second offset pin 127b so as not to interfere with the first offset pin 127a and the second offset pin 127b. .

That is, since the auxiliary offset pin 128 is formed to be shorter than the length of the first offset pin 127a on the lower side and is located inside the first offset pin 127a when viewed from the lower side, the first offset pin 127a. ) Does not interfere with the auxiliary offset pin 128, and the second offset pin 127b having the same length as the first offset pin 127a is located outside the auxiliary offset pin 128, so that the auxiliary offset The pin 128 will not interfere with the second offset pin 127b.

In addition, all of the heat absorbed by the auxiliary offset pin 128 and the first and second offset pins 127a and 127b may be conducted to the heat absorbing tube 11 side through which the adjacent second through holes 125 are inserted. The total of the auxiliary offset pin 128 and the first and second offset pins 127a and 127b is configured so as not to be out of the width of the entire upper and lower portions of the second through hole 125 so that the heat sink 11 Not only can the heat transfer amount be increased, and thus, the heat transfer efficiency of the heating water flowing in the heat absorbing tube 11 can be increased, and a more reliable drain prevention effect can be obtained.

The auxiliary offset pin 128 and the first and second offset pins 127a and 127b are both formed by a conventional lancing method.

On the other hand, the vortex generating jaw 129, 129a, 129b is formed as a pair of inclined surfaces symmetrical with each other on both sides of the upper portion of the first through hole 123 and the second through hole 125 in pairs, which is also a pin The 121 is formed by a lanceting method in which three surfaces are cut into a predetermined area and then the remaining surface which is not cut is bent forward.

According to the present invention configured as described above, first, the boundary layer in which the exhaust gas that has exchanged heat with the first heat absorbing portion 122 along the surface of the fin 121 is stopped at the first offset fin 127a and then the second offset fin 127b. A new boundary layer is formed, and the endothermic action is promoted while passing through the auxiliary offset pin 128 and the second offset pin 127b which are not interfered with each other again.

The heat absorbed heat is transferred to the second through hole 125 side of the adjacent second heat absorbing part 124 to exchange heat with the heating water in the heat absorbing tube 11 through which the second through hole 125 is inserted. By doing so, not only can the heat exchange efficiency be significantly increased, but the drain phenomenon can be more surely prevented.

In addition, the exhaust stream passing through the heat absorbing tube 11 of the first through hole 123 and the second through hole 125 has a pair of vortex generating jaws 129, 129 a, and 129 b formed in inclined surfaces symmetric to each other. By colliding with), it is possible to delay the flow time for the fin 121 by vortexing, thereby increasing the heat exchange efficiency with the fin 121 more.

As described above, the present invention is a heat transfer fin of a heat exchanger for a boiler in which a first through hole and a second through hole, through which a heat absorbing tube is inserted, are inserted into upper and lower portions of a fin. A pair of offset pins are formed symmetrically on the upper and lower sides of the auxiliary offset pin in the middle, and the first through hole and the first through hole by forming a vortex generating jaw on the upper side of the first through hole and the second through hole. 2 It has the advantage that the heat transfer efficiency for the heat absorbing tube passing through the through-hole and the heat exchange efficiency can be increased and can be suitably used for a high efficiency boiler heat exchanger.

Claims (2)

The upper and lower first through holes 123 and the second through holes 125 are arranged alternately with each other, and the plate-like pin 121 with the cutout 126 formed between the first through holes 123. and; A pair of vortex generating jaws (129) (129a) (129b) formed on both sides of the upper portion of the first through hole (123) and the second through hole (125) to be symmetrical with each other; The heat transfer fin of the heat exchanger for the boiler, characterized in that consisting of; offset pin 127 and the auxiliary offset pin 128 formed between the second through hole (125). The method of claim 1, The offset pin 127 is composed of a first offset pin 127a and a second offset pin 127b, and the first offset pin 127a and the second offset pin 127b are second through holes 125. Heat transfer fins of the heat exchanger for the boiler, characterized in that formed on the center offset of the auxiliary offset fins (128) symmetrically formed on the top and bottom.

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