KR100975104B1 - Case for latent heat exchanger of condensing gas boiler - Google Patents

Abstract

The present invention relates to a case for a latent heat exchanger constituting a heat exchanger of a condensing gas boiler, and more particularly, to smoothly induce exhaust gas in a case of a latent heat exchanger to improve heat exchange efficiency and to bring foreign matter into contact with the heat exchanger pipe. In order to ensure smooth discharge without

In the case for the latent heat exchanger of the condensing gas boiler is a heat exchanger pipe that is connected to the sensible heat exchanger to absorb the latent heat of the exhaust gas for heat exchange, the case has an inlet on one side, an exhaust outlet on the top surface, A main body having a drain hole formed in the front and rear thereof; A rear plate having a space portion into which the heat exchange pipe is inserted and an induction guide having an inclined surface and a vertical surface formed to guide the exhaust gas to the exhaust port through the space portion at the rear of the main body; The front of the main body relates to a case for the latent heat exchanger of the condensing gas boiler, characterized in that the heat exchange pipe is connected to the fixed and detachable front plate.

Condensing, gas boiler, sensible heat, latent heat, case, heat exchange, desorption, heat exchange pipe

Description

The case the condensing gas for boiler latent heat heat exchanger}

The present invention relates to a case for a latent heat exchanger constituting a heat exchanger of a condensing gas boiler, and more particularly, to smoothly induce exhaust gas in a case of a latent heat exchanger to improve heat exchange efficiency and to bring foreign matter into contact with the heat exchanger pipe. The present invention relates to a case for a latent heat exchanger of a condensing gas boiler, which can be discharged smoothly.

In general, many types of boilers are installed in the home as a means of receiving heating and hot water, and in recent years, condensing gas boilers that can maximize thermal efficiency with minimal fuel consumption have been gradually popularized.

As described above, the heat exchanger used in the condensing gas boiler typically preheats the sensible heat exchanger in direct contact with the sensible heat by the burner and the heating water supplied by the latent heat of the exhaust gas passed through the sensible heat exchanger. It is divided into latent heat exchanger to supply heating water.

Thus, the heat exchanger 100 used in the conventional condensing gas boiler consisting of a sensible heat exchanger and a latent heat exchanger is a blower fan 112 and the fuel supply line (top) of the housing 110 as shown in FIG. 114 and a burner 116 are installed, and each sensible heat exchanger is configured to weld each heat exchange fin 122a and 132a to the outside of each heat exchange pipe 122 and 132 inside the lower housing of the burner. The unit 120 and the latent heat exchanger 130 are sequentially installed and configured to connect the condensate discharge pipe 140 and the exhaust pipe 140 to the lower portion of the housing 110.

In the conventional heat exchanger 100 used in the condensing gas boiler as described above, as the sensible heat exchanger 120 and the latent heat exchanger 130 are installed in the same space in the housing 110, the sensible heat exchanger is performed. There was a problem that a large amount of condensate occurs due to the temperature change at the boundary portion where the portion 120 and the latent heat exchanger 130 are in contact with each other, thereby causing a problem that the heat exchange efficiency of the latent heat exchanger located at the lower portion is considerably lowered. .

In addition, the sensible heat exchanger and the latent heat exchanger are installed at close distances of the same space in the housing, thereby failing to efficiently heat the latent heat contained in the exhaust gas, that is, the sensible heat exchanger and the latent heat on the same space of the housing. As the heat exchanger is positioned up and down, the heat exchange time with the exhaust gas is short and the exhaust time is long, so that heat exchange does not occur efficiently.

Due to this problem, in the construction of a heat exchanger of a condensing gas boiler, the sensible heat exchanger and the latent heat exchanger are separately configured.

The present invention has been made to solve the conventional problems as described above, the main object of which is to smoothly induce the exhaust gas in the case of the latent heat exchanger to improve the heat exchange efficiency and foreign matter is not in contact with the heat exchange pipe smoothly It is to provide a case for the latent heat exchanger of the condensing gas boiler to enable the discharge.

Another object of the present invention is to minimize the deformation of the case during manufacturing.

Still another object of the present invention is to make it easy to remove and detach according to cleaning and maintenance.

Still another object of the present invention is to make it possible to more smoothly discharge the foreign matter flowing into the case of the latent heat exchanger.

The present invention for solving the technical problem as described above, in the case for the latent heat exchanger of the condensing gas boiler is a heat exchange pipe that is connected to the sensible heat exchanger to absorb the latent heat of the exhaust gas heat exchange, the case is one surface A main body having an inlet opening, an exhaust opening formed at an upper surface thereof, and a drain opening formed at a bottom surface thereof, the front and rear of which are opened; A rear plate having a space portion into which the heat exchange pipe is inserted into the rear portion of the main body, and an induction guide having an inclined surface and a vertical surface formed to guide the exhaust gas to the exhaust port through the space portion, and fixedly coupled thereto; The front of the main body is characterized in that the heat exchange pipe is composed of a front plate which is coupled to be fixed to be detached.

The rear plate is characterized in that the edge is bent to the outside to be fixed by welding the end portion overlapping the rear edge of the main body.

The front plate is fixed to the screw coupling through the flange portion and the packing bent to the outside of the front edge of the main body, the screw is characterized in that the fastening fixed to the middle portion of the packing.

The drain is inclined downward on the bottom surface is characterized in that it is formed to be connected to the inclined portion for quickly discharging foreign matter and condensate.

The present invention improves the heat exchange efficiency by smoothly inducing exhaust gas in the case of the latent heat exchanger, and also allows foreign substances to be smoothly discharged without contacting the heat exchange pipe, thereby increasing the heat exchange efficiency of the latent heat exchanger. Along with the effect of the overall efficiency of the gas boiler, it is possible to minimize the damage of the heat exchange pipe by preventing foreign matter such as rainwater or dust from being connected to the heat exchange pipe.

In addition, by welding the overlapping ends of the edge portion of the main body and the back plate, it is also to have the effect of minimizing the deformation of the case due to the welding heat during production.

In addition, since the heat exchange pipe is formed to be detachably connected to the front plate is to have an effect that can be easily repaired and replaced during cleaning and maintenance.

In addition, the foreign material flowing into the case of the latent heat exchanger by the inclined portion inclined downward to the bottom surface of the main body connected to the drain port is also effective to be discharged more quickly and smoothly.

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

1 is an exploded perspective view showing main parts of the present invention, FIG. 2 is a perspective view illustrating main parts in a coupled state according to FIG. 1, and FIG. 3 is a schematic cross-sectional view of main parts according to FIG. 2.

In the latent heat exchanger case 1 of a conventional condensing gas boiler, in which a heat exchange pipe 132 is embedded to be connected to the sensible heat exchanger 120 to absorb latent heat of exhaust gas so as to exchange heat.

The present invention, in order to smoothly induce the exhaust gas in the case of the latent heat exchanger to improve the heat exchange efficiency and to allow the foreign matter to be discharged smoothly without contacting the heat exchange pipe,

The case 1 is connected to the sensible heat exchanger in a conventional manner on one surface thereof, and an inlet 12 through which the exhaust gas is introduced is formed, and an exhaust port 14 through which the exhaust gas having heat exchange is exhausted is formed on the upper surface thereof. A main body 10 having front and rear openings formed on the bottom surface thereof so that a drain hole 16 for discharging foreign substances such as condensate or rainwater or dust introduced through the arrangement port is formed;

The rear surface of the main body 10 and the inclined surface 24a for guiding exhaust gas to the exhaust port through the space portion 22 into which the heat exchange pipe 132 is inserted and through the space portion, and a vertical plane ( An induction guide 24 having a 24b formed thereon and having a back plate 20 fixedly coupled thereto;

In front of the main body 10, the heat exchange pipe 132 is connected and fixed by the conventional heating water inlet 32 and the outlet 34 and the screw coupling method, so that it is easily separated in case of cleaning or abnormality, so that repair or replacement can be performed smoothly. It is shown that the front plate 30 is configured to be detachably coupled so that.

In the above, the induction guide 24 is bent to one side portion coupled to the rear plate 20 is fixed to the rear plate by conventional spot welding or screw fastening, etc., the other side contacting the front plate is bent and screwed like packing When the front plate is fixed to the main body by fixing, it is fixed to have airtightness.

As described above, the exhaust gas introduced through the inlet of the main body is guided smoothly to the space portion partitioned by the inclined surface and the vertical surface of the induction guide mounted on the rear plate, so that the heat exchange pipe of the front plate inserted into the space portion is removed. By absorbing latent heat through the heat exchange can be made smoothly, the exhaust gas is a heat exchange is exhausted through the exhaust port between the guide and the main body.

Accordingly, the efficiency of heat exchange can be increased by smoothly inducing the exhaust gas by the space guide into which the heat exchange pipe is inserted and the inside of the body into which the heat exchange pipe is inserted and the exhaust gas is exhausted. As the guide is covered from the upper side to the side of the heat exchange pipe, foreign matters such as rainwater or dust flowing through the exhaust port do not come into contact with each other to have a condition that is not contaminated.

The rear plate 20 is welded to the end edge by bending the edge outward to weld the ends of the overlapping portion with the rear edge of the main body 10, that is, the ends abutting to each other through a normal argon welding, etc. As a result, it is possible to minimize the deformation or damage of the main body or the back plate by the heat of welding.

The front plate 30 is fixed to the screw coupling through the flange (10a) and the packing (F) formed bent to the outside of the front edge of the main body 10, the screw is fastened and fixed to the middle portion of the packing, It can easily be repaired or replaced by easily separating the inside of the body when cleaning or when an abnormality occurs.The screw is also fastened and fixed to the middle part of the packing to increase the airtightness with the body and at the same time, it does not have a material that does not have a corrosion resistant material. There are also conditions that can be used.

The drain port 16 is inclined downward on the bottom surface to be connected to the inclined portion 16a for quickly discharging foreign matter and condensate, so that the condensate can be quickly discharged through the inclined portion and flows into the exhaust port. Foreign matter such as rain or dust can also be discharged more quickly by the inclined portion.

1 is an exploded perspective view showing main parts of the present invention.

Figure 2 is a perspective view of the main portion in the coupled state according to FIG.

3 is a schematic cross-sectional view of the main part according to FIG. 2;

4 is a sectional view schematically illustrating main parts of a heat exchanger of a general condensing gas boiler.

Explanation of symbols for the main parts of the drawings

1: case 10: body

10a: flange 12: inlet

14 exhaust port 16 drain

16a: inclined portion 20: back plate

22: space part 24: induction guide

24a: sloped surface 24b: vertical surface

30: front panel 32: inlet

34 outlet 120 sensible heat exchanger

132: heat exchange pipe

Claims (4)

In the case of the latent heat exchanger of the condensing gas boiler is connected to the sensible heat exchanger, the heat exchange pipe is built to absorb the latent heat of the exhaust gas to exchange heat. The case 1 includes a main body 10 having an inlet 12 at one surface thereof, an exhaust hole 14 formed at an upper surface thereof, and a drain hole 16 formed at a bottom surface thereof so that the front and rear sides thereof are opened; At the rear of the main body 10, a space portion 22 into which the heat exchange pipe 132 is inserted, and an inclined surface 24a and a vertical surface 24b for guiding exhaust gas to the exhaust port through the space portion are provided. A back plate 20 formed with guide guides 24 formed and coupled to each other; The front of the main body 10, the heat exchange pipe 132 is a latent heat exchanger case of the condensing gas boiler, characterized in that consisting of the front plate 30 is fixed to be coupled to be detached. The case for the latent heat exchanger of the condensing gas boiler according to claim 1, wherein the back plate (20) is bent to the outside and welded to the end portion overlapping the rear edge of the main body (10). According to claim 1 or 2, The front plate 30 is screwed through the flange (10a) and the packing (F) formed bent to the outside of the front edge of the main body 10, the screw is fixed Case for the latent heat exchanger of the condensing gas boiler characterized in that the fastening is fixed to the middle portion of the packing. The case for the latent heat exchanger of the condensing gas boiler according to claim 1, wherein the drain port (16) is inclined downward on the bottom surface and connected to an inclined portion (16a) for quickly discharging foreign matter and condensate.

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