KR200359591Y1 - Structure for assembling a heat exchanger of a condensing boiler - Google Patents

Abstract

The present invention relates to a heat exchanger assembly structure of a condensing boiler, the main heat exchanger for heating the water supplied to the desired temperature by the heat generated from the burner installed so that the combustion gas is discharged downward to provide a heating water ( 10);

A latent heat exchanger 20 installed below the main heat exchanger 10 to provide heating water and direct water as hot water using latent heat of condensation;

Fixing means (30) for assembling the main heat exchanger (10) and the latent heat exchanger (20);

The fixing means 30 is composed of a fixing piece 40 protruding in a bendable form integrally at predetermined intervals on the upper and lower parts of the main heat exchanger 10 and the latent heat exchanger 20. The heat exchanger assembly structure of the condensing boiler has a predetermined time integrally in the body assembly position of the main heat exchanger 10 and the latent heat exchanger 20, rather than using a bolt which is a separate fixing means as in the prior art. Since the fixed piece 40 is formed, it can be used by fixing the main heat exchanger 10 and the main heat exchanger 10 by bending using the fixing piece 40 after positioning for mutual assembly. .

Therefore, it is a very useful design that can increase the fastening force and the assembly convenience of the product.

Description

Structure for assembling a heat exchanger of a condensing boiler

The present invention relates to an assembly structure of a heat exchanger of a condensing boiler of the condensing boiler, and more particularly, through a fixing means integrally formed in the body without using a separate fixing means of the latent heat exchanger and the main heat exchanger of the condensing gas boiler. Because of the mutual coupling, it is designed to improve the assembly and fastening force of the product.

In general, the condensing boiler is a boiler designed to facilitate the condensation heat exchange by installing a burner on the top or side of the heat exchanger to make the combustion gas flow downward and to lower the dew point temperature.

Unlike condensing boilers, such condensing boilers adopt a premixing method of porous or metal fiber burners and install a heat exchanger immediately after the flame to suppress the generation of nitrogen compounds and It can be called an environmentally friendly boiler due to its low emissions. The principle is to absorb sensible heat first and to absorb latent heat emitted as exhaust gas secondly, so that the exhaust gas temperature of ordinary boilers is 150 ~ 260 ^o C. The latent heat absorption type boiler recovers heat by 50 ~ 100 ^o C and can achieve high efficiency of more than 87%.

In general, the assembly structure of the latent heat exchanger and the main heat exchanger in the burner part of the condensing boiler is generally used by being fastened to each other by using a fixing means such as a bolt.

Since the assembly of the latent heat exchanger and the main heat exchanger in the configuration of the burner part in the conventional condensing boiler structured as described above is used by assembling each other using fixing means such as bolts, there are many problems in assembly and tightening force.

In other words, because of the use of fixing means such as bolts, a separate assembly labor is added, and there is a closed end in which the fastening force and the assembly property are greatly reduced in the mutual assembly process.

The purpose of the present invention is to combine the latent heat exchanger and the main heat exchanger of the condensing gas boiler through the fixing means formed integrally to the body without using a separate fixing means to improve the assembly and fastening force of the product It is to provide a heat exchanger assembly structure of a condensing boiler.

Another object of the present invention is to provide a heat exchanger assembly structure of a condensing boiler to improve the reliability of the product.

1 is an exploded perspective view showing a heat exchange unit configuration of the boiler to which the present invention is applied.

Figure 2 is a front view showing the heat exchange unit configuration of the condensing boiler to which the present invention is applied.

Figure 3 is an enlarged view showing a main part of the heat exchange unit of the condensing boiler assembled through the present invention.

Figure 4 is an enlarged perspective view of the main portion showing the assembly configuration of the heat exchange unit.

* Description of the symbols for the main parts of the drawings *

10-main heat exchanger 20-latent heat exchanger

25-seating part 30-fixing means

40-fixing piece 45-opening

50-combustion burner

The object of the present invention, the main heat exchanger 10 for heating the water supplied to the inside by the heat generated from the burner is installed to discharge the combustion gas in a top-down to a desired temperature to provide the heating water;

A latent heat exchanger 20 installed below the main heat exchanger 10 to provide heating water and direct water as hot water using latent heat of condensation;

A fixing means (30) for assembling the main heat exchanger (10) and the latent heat exchanger (20);

The fixing means 30 is achieved by being composed of a fixing piece 40 protruding in a bendable form integrally at predetermined intervals on the upper and lower parts of the main heat exchanger 10 and the latent heat exchanger 20.

Therefore, the heat exchanger assembly structure of the condensing boiler of the present invention is not integrally used in the body assembly position of the main heat exchanger 10 and the latent heat exchanger 20, rather than using a bolt which is a separate fixing means as in the prior art. Since a plurality of fixing pieces 40 are formed, and after positioning for mutual assembly, the fixing pieces 40 are bent using the fixing pieces 40 to fix the main heat exchanger 10 and the main heat exchanger 10 to each other. It can be used.

Therefore, it is possible to increase the clamping force and the ease of assembly of the product.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention in detail as follows.

1 is an exploded perspective view showing a heat exchange part configuration of the boiler to which the present invention is applied.

Figure 2 is a front view showing the heat exchange unit configuration of the condensing boiler to which the present invention is applied.

3 is an enlarged view illustrating main parts of a heat exchanger of the condensing boiler assembled through the present invention;

4 is an enlarged perspective view of the main assembly of the heat exchanger.

That is, as shown in Figure 1 to Figure 4, the heat exchanger assembly structure of the condensing boiler of the present invention is a plurality of integrally having a predetermined interval on the upper and lower parts of the body of the main heat exchanger 10 and the latent heat exchanger 20. It is configured to increase the ease of assembly and fastening force by using the fixing piece 40 is formed.

As shown in the figure, the fixing means 30 formed on the upper and lower bodies of the main heat exchanger 10 and the latent heat exchanger 20 is formed integrally with a plurality of predetermined intervals.

That is, as shown in Figure 4 on the body of the main heat exchanger 10 and the latent heat exchanger 20, while maintaining a predetermined distance in the lower portion is formed a plurality of fixed pieces (2) 40) is formed.

In addition, the body size of the main heat exchanger 10 and the latent heat exchanger 20 is a body upper seating portion 25 of the latent heat exchanger 20 is the configuration in which the main heat exchanger 10 body is located on the inner side.

Therefore, the fixing piece 40 configured as the lower part of the body of the main heat exchanger 10 and the fixing piece 40 configured as the upper part of the body of the latent heat exchanger 20 are in close and inward contact with each other as shown in FIG. 4. The location is determined by the configuration.

In addition, the main heat exchanger 10 and the latent heat exchanger 20, each of which is positioned inward and outward, can be bent inward since the fixing piece 40, which is the fixing means 30, has a thin fertilizer. Opening 45 is formed on both sides of the fixing piece 40 for one bending.

This, in turn, is bent inward in the state in which the fixing pieces 40, which are the fixing means 30, respectively, are in close contact with each other under the main heat exchanger 10 positioned inside the seating portion 25 of the latent heat exchanger 20. Since the heat exchanger 10 and the latent heat exchanger 20 are assembled, the assembly can be maximized.

Therefore, the most important feature in the configuration of the present invention is the main body heat exchanger 10 and the latent heat exchanger 20, the lower body and the upper part of the body and the integral configuration bendable in the inward direction, the fixed piece 40 at a predetermined interval After the positioning for the primary assembly in the form of a plurality of each of the fixing piece 40 is bent in close contact with the inside to perform the assembly work to improve the tightening force and assembly.

In addition, the configuration as described above can be applied to the same as the mutual assembly configuration with the combustion burner 50 is composed of the upper portion of the main heat exchanger 10, such a configuration is also included in the configuration of the present invention.

According to the configuration of the present invention as described above, since it is not a system using a separate bolt or the like as in the prior art, assemblability can be improved.

In addition, it is possible to simply use the fixing piece integrally formed in the body to be in close contact with each other inside, it is possible to improve the fastening force.

Therefore, it is a very useful design that can improve the reliability of the product.

Claims (2)

A main heat exchanger 10 for heating the water supplied therein to a desired temperature and supplying it with heating water by the heat generated from the burner installed so that the combustion gas is discharged downwardly; A latent heat exchanger 20 installed below the main heat exchanger 10 to provide heating water and direct water as hot water using latent heat of condensation; Fixing means (30) for assembling the main heat exchanger (10) and the latent heat exchanger (20); The fixing means 30 is characterized in that the main heat exchanger 10 and the body of the latent heat exchanger 20, characterized in that consisting of a fixing piece 40 protruding in a bendable form integrally at a predetermined interval integrally Heat exchanger assembly structure of condensing boiler. The heat exchanger assembly structure of a condensing boiler according to claim 1, wherein an opening portion (45) is formed at both sides of the fixing piece (40).