KR200219877Y1 - Condensing boiler heat exchanger - Google Patents

Abstract

The present invention relates to a condensing boiler, and more particularly, to a heating heat exchanger of a condensing boiler that condenses water vapor contained in combustion exhaust gas generated by a gas burner to absorb sensible and latent heat to a heat exchanger unit, thereby improving thermal efficiency. .

The present invention, the main heat exchanger and latent heat absorbing the sensible heat by coating the heat exchanger of the condensing boiler using a combination of fins with a corrosion-resistant material to a material such as stainless, aluminum, or heat transfer to the condensate well or heat transfer Provides a heating heat exchanger of the condensing boiler to absorb the sensible and latent heat by making the sub-heat exchanger absorbing the integral.

Description

Condensing boiler heat exchanger

The present invention relates to a condensing boiler, and more particularly, to a heating heat exchanger of a condensing boiler that condenses water vapor contained in combustion exhaust gas generated by a gas burner to absorb sensible and latent heat to a heat exchanger unit, thereby improving thermal efficiency. .

Conventionally, in manufacturing a heat exchanger of a condensing boiler using a combination of fins, a main heat exchanger that absorbs sensible heat and a sub-heat exchanger that absorbs latent heat of condensation of water vapor are separately manufactured, and the main heat exchanger and the sub-heat exchanger are screwed or clipped. Assembled and produced by the back.

1 is a schematic view showing a conventional heating heat exchanger, wherein the heating heat exchanger is largely configured by binarizing the upper unit (A) and the lower unit (B), and in particular, the upper unit (A) and the lower unit (B) are covered. It consists of a form. The upper unit (A) is largely composed of a heating heat exchanger cover (10) and a combustion chamber heat dissipation absorber tube (12), and the lower unit (B) is largely composed of a heating heat exchanger fin (14) and a heating heat exchanger throughflow (18). do.

The upper unit (A) forms a heating heat exchanger through the outer side of the heating heat exchanger cover 10 in the longitudinal direction, in particular, the outer periphery of the lowermost side of the heating heat exchanger cover 10 is in close contact with the lower unit (B). The upper part (A) and the lower unit (B) are integrally formed by forming the flange part into a flange type.

In the upper unit (A), the heating heat exchanger fins (16) are formed at the inner lower side of the heating heat exchanger cover (10), and in the lower unit (B), the heat exchanger fins (14) are formed at the inner surface of the cover (14). ) Is formed.

The upper unit (A) and the lower unit (B) are both installed inside the heat exchanger fins (14, 16), and the upper unit (A) and the lower unit (B) in the heating heat exchanger through the outside ( 18) (20) are formed.

As described above, the heating heat exchanger of the conventional condensing boiler is manufactured separately from the main heat exchanger and the subheat exchanger, and the investment cost increases according to the manufacturing of the bar condensing boiler, in which the main heat exchanger and the subheat exchanger are assembled and produced with screws or clips. There have been many problems such as rise, decrease in productivity and difficulty in after-sales service.

The present invention to solve the above problems, the present invention, in the production of the heat exchanger of the condensing boiler, the main heat exchanger and the sub-heat exchanger is made of a stainless or heat transfer material and at the same time to produce a coating to meet the capacity of the boiler Multiple fins can be combined and assembled using one heating heat exchanger cover, lowering investment cost and manufacturing cost caused by separate assembly of main heat exchanger and sub-heat exchanger of existing condensing boiler, reducing productivity and after-sales service It is an object of the present invention to provide a heating heat exchanger of a condensing boiler configured to be improved.

The present invention to achieve the above object, the present invention, in the heating heat exchanger of the condensing boiler consisting of a heating heat exchanger cover, a combustion chamber heat dissipation absorber tube, heating heat exchanger perfusion and heating heat exchanger fins, A combustion chamber heat dissipation absorption tube is formed on the side outer surface to surround the outer surface to assist the absorption of the heat source, and the heating heat exchanger cover has a heating heat exchanger through-flow having a fluid inlet and a fluid outlet under the outer surface. The heating heat exchanger cover has a heating heat exchanger fin formed in a structure capable of maximally radiating a heat source by a plurality of protrusions at an inner lower portion thereof, and the heating heat exchanger fin is made of a material such as stainless steel or aluminum having corrosion resistance to condensate or heat transfer. This well material is coated with a corrosion resistant material while the main heat exchanger fins The heat exchanger provides heat exchange between the condensing an heating boiler, characterized in that the structure made of the integrally pin.

1 is a schematic view showing a conventional heating heat exchanger.

2 is a schematic view showing a heating heat exchanger of the present invention.

Figure 3a is a view showing a state in which the heating heat exchanger fin of the present invention seen from the front, Figure 3b is a view showing a state of the heating heat exchanger fin of the present invention seen from the right side.

<Brief description of symbols for main parts of the drawings>

30: heat exchanger cover 32: combustion chamber heat radiation absorption tube

34: heating heat exchanger perfusion 36: heating heat exchanger fins

Hereinafter, with reference to the accompanying drawings will be described the configuration and operating state of the subject innovation.

Figure 2 is a schematic diagram showing the heating heat exchanger of the present invention, the heating heat exchanger is largely divided into the heating heat exchanger cover 30, the combustion chamber heat dissipation absorption tube 32, the heating heat exchanger perfusion 34 and the heating heat exchanger fins (36). It is composed.

The heating heat exchanger cover 30 integrally manufactures a main heat exchanger fin that absorbs sensible heat of combustion exhaust gas generated in a gas burner and a sub-heat exchanger fin that absorbs latent heat by condensing water vapor contained in the combustion exhaust gas. A heating heat exchanger fin 36 is formed on the inner lower side, and the heating heat exchanger cover 30 uses a heat source absorbed in the heating heat exchanger through the outer periphery thereof, and particularly absorbs heat radiation generated in the combustion chamber once again. The combustion chamber heat dissipation absorption tube 32 is formed, and the heating heat exchanger throughflow 34 inserted into the through hole of the heating heat exchanger fin 36 is formed. The heating heat exchanger through-flow 34 of the heating heat exchanger cover 30 is a two-stage heating heat exchanger through-flow formed on the fluid inlet side for introducing the fluid to the bottom for the heating, and the fluid flows upward. The two stage heat exchanger throughflow formed on the fluid outlet side is the main heat exchanger.

Figure 3a is a view showing a state in which the heating heat exchanger fin of the present invention seen from the front, Figure 3b is a view showing a state of the heating heat exchanger fin of the present invention seen from the right side.

The heating heat exchanger fin 36 is a type in which the main heat exchanger fin and the sub-heat exchanger fin are integrally formed, and have a plurality of protrusions so that a large amount of heat can be radiated during operation of the condensing boiler. Heat generated by the ignition of a gas burner (not shown in the drawing) is transferred to the heat exchanger fin 36, and a heat exchanger through-flow passes through the inside of the heating heat exchanger fin 36. In the flow-through, the fluid absorbs the heat source transmitted from the heating heat exchanger fin 36 as it has a fluid inside, thereby heating. When the heating heat exchanger fins 36 are installed inside the heating heat exchanger cover, the heating heat exchanger fins 36 are reversely rotated so as to be loaded inside the heating heat exchanger cover.

As described above, the effects on the configuration of the present invention are as follows.

The heating heat exchanger of the present invention can absorb most of the heat generated by the condensing boiler, since the main heat exchanger and the sub-heat exchanger are made of integral parts and the combustion chamber heat dissipation tube is installed on one side of the outer surface of the heating heat exchanger cover. As the heat exchanger is composed of units, the number of components is significantly reduced compared to the conventional one, and the mold investment cost and manufacturing cost used in developing the heat exchanger can be reduced, as well as productivity and after-sales service quality are improved. You can get the effect.

Claims (1)

In the heating heat exchanger of the condensing boiler consisting of a heating heat exchanger cover, a combustion chamber heat dissipation absorber tube, a heating heat exchanger perfusion, and a heating heat exchanger fin, the heating heat exchanger cover 30 is formed to surround the outer side on the upper side of the heat source. A combustion chamber heat dissipation absorber 32 is formed to assist the absorption of heat, and the heating heat exchanger cover 30 is formed with a heat exchanger through-flow 34 having a fluid inlet and a fluid outlet under an outer surface thereof. The cover 30 has a heating heat exchanger fin 36 formed in a structure capable of maximizing the heat source by a plurality of protrusions on the inner lower portion thereof, and the heating heat exchanger fin 36 is made of stainless steel having corrosion resistance to condensate; It is coated with corrosion resistant material on materials such as aluminum or heat transfer material, and the main heat exchanger fin and the sub-heat exchanger fin are integrally manufactured. Heating the heat exchanger of a condensing boiler, it characterized in that.