KR20150012743A - 2nd heat exchanger of condensing boiler - Google Patents

Abstract

The present invention relates to a secondary heat exchanger of a condensing boiler, which can reduce materials and improve convenience of manufacture by manufacturing a casing of the secondary heat exchanger in an integral shape, and fixing the casing as a window of a front plate is fixated with an exhaust guide. According to the present invention, provided is an secondary heat exchanger (30), wherein a front plate (31) is installed on a front surface by being installed inside the boiler, a rear plate (32) is installed on a rear surface, a side plate (38) and the heat exchanging plate (36) are formed on both sides, respectively, the bottom is blocked by a base plate (34), an upper plate (35) connected to an exhaust hole (35a) is coupled to an upper part, and a heat exchanging pipe (37) is fixedly installed on a heat exchanging plate (36) inside a housing and heat-exchanges with exhaust gas passing through the inside.

Description

Secondary heat exchanger of condensing boiler [0002]

The present invention relates to a secondary heat exchanger of a condensing boiler, and more particularly, to an exhaust heat exchanger of a condensing boiler.

Generally, the boiler is heated by using the combustion heat generated when the fuel is burned, and is circulated to the heating pipe installed in the room by the circulation pump for forcibly circulating the heated and heated water to heat the room It is a device that supplies hot water to bathrooms and kitchens.

These boilers can be divided into various types according to the control method or the closed state. In addition, the boiling water can be divided into the condensing type and the non-condensing type according to the heat source for heating the heating water.

The condensing system means a sensible heat exchanger that directly heats the heating water using the heat burned by the gas burner, and a latent heat exchanger that absorbs the latent heat of condensation of the exhaust gas passing through the sensible heat exchanger again to maximize thermal efficiency.

The non-condensing type means that only the sensible heat exchanger is provided.

In addition, the condensing gas boiler having the sensible heat exchanger and the latent heat heat exchanger can be divided into a downward burning type in which the gas moves downward to supply heat and a gas burning type in which the heat is moved upward to supply heat. .

Generally, the construction of the upwardly-directed condensing gas boiler will be described with reference to a gas burner 10 'for generating heat in a combustion chamber as in Korean Patent Publication No. 10-1135231, (Sensible heat) heat exchanger 20 'for heating the hot water to be transferred to the sensible heat pipe and the heating water which is moved through the latent heat pipe by using the exhaust heat used in the primary heat exchanger 20' And a secondary (latent heat) heat exchanger 30 'for providing latent heat.

Therefore, a primary heat exchanger 20 'is disposed above the gas burner 10', a secondary heat exchanger 30 'for secondary heat exchange is connected to the primary heat exchanger 20' .

In the gas boiler, there are provided a neutralizer for collecting and discharging the condensed water formed in the primary heat exchanger 20 'and the secondary heat exchanger 30' A cistern tank having a certain space is also provided.

When the condensing gas boiler having such a configuration is operated, the air is supplied by the blowing fan F and the gas is supplied through the gas supply pipe, and the gas burner 10 'installed at the lower part of the combustion chamber is ignited to generate a flame .

Accordingly, the combustion heat of the gas burner 10 'is directly transferred to the primary heat exchanger 20' to heat the heating water flowing through the internal duct, and the secondary heat exchanger 30 'Recovers latent heat in the exhaust gas and heats the heating water.

The exhaust gas having passed through the secondary heat exchanger 30 'is discharged to the outside through the exhaust port 35a'.

At this time, in the process of collecting the latent heat of condensation at the side of the secondary heat exchanger 30 ', condensed water is generated. The condensed water naturally falls down to be received by the condensate water receiving diaphragm, .

On the other hand, the heating water heated by the primary heat exchanger 20 'passes through the heating pipe to finish the heating of the room. The heating water thus heated flows into the cistern tank through the heating water pipe, And then the pressure is relieved. Then, the refrigerant is supplied to the primary heat exchanger 20 'through the water supply pipe by the operation of the circulation pump (not shown), and then heated again while passing through the primary heat exchanger 20' And then to the heating pipe again through the heating water conveying pipe.

This process is repeatedly performed so that the heating water circulates and the heating operation is performed.

2, the conventional secondary heat exchanger 30 'has a structure in which the front plate 31' and the back plate 32 'and the bottom plate 34' are integrally connected to each other, The front plate 31 'is provided with a window 31a' so as to communicate with the exhaust guide 21 'in contact with the exhaust guide 21' for guiding the exhaust gas supplied from the primary heat exchanger 20 ' ).

The upper plate 35 'covers the upper surface of the front plate 31' and the upper plate 32 'to form a casing. A heat exchange plate 36' having a heat exchange pipe mounted therein is provided on the side surface. And a guide plate 40 'for guiding the flow of the exhaust gas.

However, in the secondary heat exchanger, the front plate, the back plate, and the bottom plate are integrally formed, and the upper plate is entirely coupled in a state where the upper plate is opened. In order to assemble the upper plate, And an additional component such as a sealing member for blocking the gap between the coupling surface and the upper plate is required, so that the manufacturing cost and the assembly process have to be added.

Korean Registered Patent No. 10-1135231 - Secondary heat exchanger of condensing boiler (Registration date April 03, 2012).

SUMMARY OF THE INVENTION It is an object of the present invention to provide a casing for a secondary heat exchanger having a casing integrally formed with a casing, And to provide a secondary heat exchanger of a condensing boiler which can reduce the material.

Another object of the present invention is to provide a secondary heat exchanger of a condensing boiler which can improve the assembling performance by eliminating the joining process of bolts and rivets for fixing the casing shape of the exhaust guide to the conventional upper plate by fixing the exhaust guide .

In order to achieve the above object,

A front plate 31 is installed toward the front of the boiler and a rear plate 32 is formed on the rear of the boiler and a side plate 38 and a heat exchange plate 36 are formed on both sides of the front plate 31, The bottom surface of which is clogged with the bottom plate 34 and the upper portion is connected with the top plate 35 to which the exhaust port 35a is connected and the heat exchange pipe 37 is fixedly mounted on the heat exchange plate 36 in the inside of the housing, A secondary heat exchanger (30) for performing heat exchange with an exhaust gas passing therethrough;

The front plate lower end portion 31b and the bottom plate 34, the rear plate 32, the upper plate 35 and the front plate upper end portion 31c are integrally connected to each other to constitute a housing and the front plate lower end portion 31b And the front plate upper end portion 31c are connected to each other to form the front plate 31. [

An exhaust air inlet window 31a is formed in the front plate 31 so that an exhaust guide 21 for guiding the exhaust gas supplied from the primary heat exchanger 20 is provided in front of the front plate 31, The front plate has a connecting portion 31d in which the ends of the upper end portion 31c and the lower end portion 31b are in contact with each other, An exhaust gas inflow window 31a is formed at the center of the connection portion 31d, and a screw hole is formed along the outside of the exhaust gas inflow window 31a.

The top plate 35 is fixed at one end to the front of the exhaust port 35a at the bottom surface of the top plate 35 for exhausting the exhaust gas flowing through the exhaust inlet window 31a downward while discharging the exhaust gas to the exhaust port 35a, The other end of the heat exchange pipe 37 is bent downward to cover the upper part of the back surface of the heat exchange pipe 37 and extends toward the bottom plate 34 to form a back plate 32 and a guide plate 40 are installed.

The rim of the side plate 38 and the heat exchange plate 36 is integrally bent and formed into a hollow body shape having a front plate 31, a bottom plate 34, a back plate 32, And press-fit.

According to the present invention having such a structure, the exhaust guide is fixed to the housing while integrating the housing of the secondary heat exchanger, so that the assembly is simple and the assembling process is reduced.

In addition, an exhaust guide is provided in the front plate connecting portion of the housing to exhaust gas in the rear direction to reduce condensed water. The front plate is inclined downward to flow naturally along the inclined surface, Corrosion can be prevented.

In addition, it is a very useful invention that can improve the satisfaction of the consumers by greatly improving the reliability of the performance and function of the boiler itself while reducing the material cost by eliminating the bolt and rivet process for constructing the enclosure of the secondary heat exchanger.

1 is a perspective view showing a heat exchanger of a conventional condensing boiler;
2 is an exploded perspective view showing a housing of a conventional secondary heat exchanger.
3 is a side view of a bend-formed housing of the secondary heat exchanger of the present invention.
4 is a front view showing a configuration of a secondary heat exchanger according to the present invention.
5 is a sectional view showing the state of use of the secondary heat exchanger of the present invention.

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

The secondary heat exchanger of the condensing boiler according to the present invention is designed to simplify the construction of the enclosure of the secondary heat exchanger and improve the discharge and assembling performance of the exhaust gas.

3, a condensing boiler, which is not shown in FIG. 3, is a gas boiler which mainly uses gas as a fuel among upwardly-burning condensing boilers, and a gas is burnt in the combustion chamber (Sensible heat) heat exchanger 20 that receives heat of the gas burner and warms the heating water, and a heat exchanger 20 that uses the heat used in the primary heat exchanger 20 to heat the gas And a secondary (latent heat) heat exchanger 30 for providing latent heat to the moving hot water.

3, the secondary heat exchanger 30 has a front plate 31 on the left side, a back plate 32 on the right side, a bottom plate 34 on the lower side, and an upper plate 35 integrally bent on the upper side, Shape.

The front plate 31 is divided into a lower end portion 31b and an upper end portion 31c and the lower end portion 31b is connected to the bottom plate 34. The upper end portion 31c is integrally formed with the upper plate 35, And a connecting portion 31d in which the lower end portion 31b and the upper end portion 31c abut against each other to form an exhaust inlet window 31a at the center of the connecting portion 31d, And a screw hole is formed along the outer periphery.

 The front plate 31 is provided with an exhaust guide 21 on the connecting portion 31d so that the exhaust gas is advanced in the rear direction so that the condensed water held in the rear plate 32 is trapped in the front plate 31 As the condensed water is formed relatively small, the front plate 31 is formed to be inclined downward and flows naturally along the inclined surface, thereby preventing leakage of the condensed water and corrosion of the joint surface.

The bottom plate 34 is formed to be inclined downward toward the right side and a condensed water drain port 34a is provided at the right end of the bottom plate 34 so that the condensed water generated during the heat exchange flows toward the drain port 34a, It is possible to prevent corrosion and leakage of the housing due to prolonged elapse of time.

The exhaust guide (21) is engaged with the upper plate (35) in front of the front plate (31) with the exhaust port (35a) for exhausting the exhaust gas to the outside.

That is, the exhaust guide 21 for guiding the exhaust gas supplied from the primary heat exchanger 20 is provided in front of the front plate 31, with the front plate lower end portion 31b And is fixed to the upper end portion 31c to form the enclosure of the secondary heat exchanger 30. [

4, the side plate 38 is coupled to the right side and the heat exchange plate 36 to which the heat exchange pipe 37 is fixedly mounted on the left side.

The edges of the side plate 38 and the heat exchange plate 36 are connected to each other by a front guide plate 31, a bottom plate 34, a back plate 32, a top plate 35).

5, the exhaust gas flowing through the exhaust gas inflow window 31a is guided to the upper plate 35 to be exhausted to the exhaust port 35a while being directed to the front of the exhaust port 35a at the bottom surface of the upper plate 35 And one end of the other end is folded downward in a state of covering the upper part of the rear face of the heat exchange pipe 37 to extend toward the bottom plate 34 to thereby connect the rear plate 32 and the passage L1 An induction plate 40 is further provided.

The guide plate 40 is inserted from the side surface of the housing and spot-welded to the upper plate 35. The guide plate 40 guides the exhaust gas flowing through the exhaust inlet window 31a downward, And heat exchange with the heat exchange pipe 37 is performed.

The guide plate 40 has a passage L1 and an upper portion thereof is fixed to an upper portion of the upper surface of the upper plate 35 in front of an exhaust port 35a so that condensed water formed on the guide plate 40 flows along the passage L1 Flow.

The heat exchanged exhaust gas is discharged to the exhaust port 35a while being lifted up through the passage L1 between the induction plate 40 and the back plate 32. [

At this time, the condensed water formed by the heat exchange between the exhaust gas and the heat exchange pipe (37) is sent to the neutralizer through the drain port (34a) formed at one side of the bottom plate (34).

The reason why the drainage 34a is located at one side of the bottom plate 34 and the condensed water is moved to the side to induce the fall is that the heat is lowered at both sides compared to the central portion, This is because it is possible to prevent the shape that is formed.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. It will be clear to those who have.

20 - Primary heat exchanger 21 - Exhaust guide
30 - Secondary heat exchanger 31 - Front plate
31a - exhaust inflow window 31b - bottom plate of front plate
31c - Front plate upper part 31d - Connection part
32 - back plate
34 - bottom plate 35 - top plate
35a - Exhaust port 36 - Heat exchange plate
37 - Heat exchange pipe 38 - Side plate
40 - guide plate L1 - passage

Claims (5)

A front plate 31 is installed toward the front of the boiler and a rear plate 32 is formed on the rear of the boiler and a side plate 38 and a heat exchange plate 36 are formed on both sides of the front plate 31, The bottom surface of which is clogged with the bottom plate 34 and the upper portion is connected with the top plate 35 to which the exhaust port 35a is connected and the heat exchange pipe 37 is fixedly mounted on the heat exchange plate 36 in the inside of the housing, A secondary heat exchanger (30) for performing heat exchange with an exhaust gas passing therethrough;
The front plate lower end portion 31b and the bottom plate 34, the rear plate 32, the upper plate 35 and the front plate upper end portion 31c are integrally connected to each other to constitute a housing and the front plate lower end portion 31b And the front plate 31 is connected to the front plate 31 so as to form the front plate 31. The second heat exchanger of the condensing boiler,
An exhaust gas purification apparatus according to claim 1, wherein an exhaust inlet window (31a) is formed in the front plate (31), and an exhaust guide (21) for guiding exhaust gas supplied from the primary heat exchanger (20) Is fixed to the lower plate (31b) and the upper plate (31c) of the conten- ting boiler in a state including the exhaust inflow window (31a) therein.
The exhaust gas recirculation device according to claim 1, wherein the front plate has a connecting portion (31d) in which the ends of the upper end portion (31c) and the lower end portion (31b) abut each other and an exhaust inflow window (31a) is formed at the center of the connecting portion And a screw hole is formed along an outer periphery of the window (31a).
The top plate 35 is provided with an end in front of the exhaust port 35a at the bottom of the top plate 35 so as to discharge the exhaust gas flowing through the exhaust inlet window 31a downward while discharging the exhaust gas to the exhaust port 35a And the other end of the heat exchange pipe 37 is folded downward in a state of covering the upper part of the rear face of the heat exchange pipe 37 to extend toward the bottom plate 34 to form the passageway L1 so that the exhaust gas and the back plate 32 can be raised And a guide plate (40) is further installed on the second heat exchanger.
The rim of the side plate (38) and the heat exchange plate (36) is formed by integrally bending the front plate (31), the bottom plate (34), the back plate (32) ) And the second heat exchanger of the condensing boiler.

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