KR102371311B1 - Latent heat exchanger assembly - Google Patents

Abstract

The present invention prevents failure of electrical parts due to leakage by maximally suppressing leakage of condensed water due to poor packing of the packing or hardening of the packing that occurs under abnormal conditions on the coupling surface of the latent heat heat exchanger case, thereby increasing product safety and durability. It is an object of the present invention to provide a latent heat exchanger assembly that can extend the
The present invention for realizing this is a latent heat heat exchanger for absorbing latent heat of water vapor contained in combustion gas by heat exchange with heating water flowing therein; a first case having a combustion gas inlet through which combustion gas having undergone sensible heat exchange is formed and provided to surround one side of the latent heat exchanger; A combustion gas outlet is formed through which the combustion gas that has undergone heat exchange in the latent heat exchanger is discharged, is coupled to the first case and surrounds the other side of the latent heat exchanger, and a condensate outlet is formed on one side of the bottom of the second case case; and a condensate drain guide for guiding condensed water condensed and falling in the latent heat exchanger toward the condensate outlet and blocking condensed water from leaking into a gap between the coupling surfaces of the first case and the second case.

Description

Latent heat exchanger assembly

The present invention relates to a latent heat exchanger assembly provided in a condensing boiler or water heater, and more particularly, to a latent heat exchanger assembly capable of effectively preventing leakage of condensed water.

Boilers or water heaters produced in recent years are equipped with a heat exchanger composed of a sensible heat exchanger that absorbs sensible heat of the combustion gas generated in the combustion chamber and a latent heat exchanger that absorbs latent heat from the combustion gas that has undergone heat exchange in the sensible heat exchanger to increase thermal efficiency. This type of boiler or water heater is called a condensing boiler or condensing water heater. An example of the prior art related to such a condensing type boiler or water heater is disclosed in Korean Patent Registration No. 10-1749063.

1 and 2, the latent heat heat exchange unit of the conventional condensing boiler includes a latent heat exchanger 10 and a first case 20 that surrounds and is coupled to the front side and rear side of the latent heat heat exchanger 10 and The second case 30, the first case 20 and the second case 30 are coupled between the first case outlet body 21 and the second case inlet body 31 to which the condensed water is coupled It is configured to include a case packing 40 to prevent leakage of the.

The bottom portion 32 of the second case 30 has an inclined surface, and a condensate outlet 33 for discharging the condensed water generated in the latent heat exchanger 10 is formed at one inclined side thereof. The condensed water generated in the latent heat exchanger 10 flows after being stagnant due to surface tension. In this case, as shown in FIG. CW1) rides on the second case bottom 32 and flows toward the condensed water outlet 33 side, but the remaining condensed water CW2 is the coupling surface of the first case outlet body 21 and the second case inlet body 31 . It may leak to the outside along the combustion gas guide part 22 through the gap between the (21a, 31a).

At this time, if the case packing 40 performs a normal function, it is possible to block the leakage of condensed water, but unlike the case packing 40, if the case packing 40 is in a defective assembling state or is hardened under abnormal conditions and is damaged, the case packing 40 This condensate cannot be reliably shut off and water leaks occur. In this way, when condensed water leaks to the outside, the contact with the condensed water causes failure of electrical parts, which reduces the safety, durability and reliability of the product. there is.

The present invention has been devised to solve the above problems, and by maximally suppressing leakage of condensed water due to poor assembly of packing or hardening of packing that occurs under abnormal conditions on the coupling surface of the latent heat exchanger case, electric parts caused by water leakage It is an object of the present invention to provide a latent heat exchanger assembly capable of increasing product safety and extending durability by preventing failure of the product.

The latent heat heat exchanger assembly of the present invention for realizing the above object includes: a latent heat heat exchanger for absorbing latent heat of water vapor contained in combustion gas by heat exchange with heating water flowing therein; a first case having a combustion gas inlet through which combustion gas having undergone sensible heat exchange is formed and provided to surround one side of the latent heat heat exchanger; A second combustion gas outlet is formed through which the combustion gas that has undergone heat exchange in the latent heat exchanger is discharged, and is coupled to the first case and surrounds the other side of the latent heat exchanger, and a condensate outlet is formed on one side of the bottom of the second case. case; and a condensate drain guide for guiding condensed water condensed and falling in the latent heat exchanger toward the condensate outlet and blocking condensed water from leaking into a gap between the coupling surfaces of the first case and the second case.

The condensed water drainage guide may be provided to cover a space below the latent heat exchanger, and may be provided to cover an upper space of a coupling surface of the first case and the second case.

A case packing for airtight maintenance may be coupled between the coupling surfaces of the first case and the second case, and the condensate drain guide may be provided to cover an upper space of a portion located at a lower portion of the case packing.

The latent heat heat exchanger is disposed to have a downward inclination toward one side with respect to a horizontal plane, and the condensate drainage guide includes a bottom portion that surrounds a bottom surface of one side of the latent heat heat exchanger and is seated on the bottom portion of the second case, and the latent heat It may be configured to include one side wall that surrounds the lower portion of one side of the heat exchanger and protrudes upward by a predetermined length.

The condensed water drainage guide may further include both sidewalls protruding upward by a predetermined length from both sides of the bottom part.

The condensed water drain guide has a downward inclination from the other end of the bottom to the other side and extends a predetermined length, and further comprises a second inclined surface for guiding the condensed water collected by the bottom and both side walls toward the condensed water outlet. can be

At the upper end of the second case coupling surface located in the lower part, a floor hooking part extending to one side from the second case bottom part and supporting the bottom part of the condensate drain guide is formed, and on one side of the first case coupling surface located in the lower part , a floor support for supporting the floor stopper, and a condensate drain guide support extending upward from one end of the floor support to support one wall of the condensate drain guide may be formed.

A heat exchanger packing is coupled between one side of the latent heat exchanger and an upper end of one side wall of the condensate drain guide, and the other protrusion protrudes to the other side to the upper end of the condensed water drain guide support and is in close contact with the upper surface of the heat exchanger packing. can be formed.

The first case may be made of a metal material, and the second case and the condensate drain guide may be made of a synthetic resin material.

The first case is formed in a shape in which the upper part is blocked to convert the combustion gas flowing upwardly flowing into the combustion gas inlet into the combustion gas flowing downward, and the second case is a downward flow after heat exchange in the latent heat exchanger. The combustion gas outlet is formed in the upper part to convert the combustion gas of can

According to the latent heat exchanger assembly according to the present invention, the condensate drain guide for guiding the condensed water condensed and falling in the latent heat exchanger toward the condensate outlet and blocking the condensate from leaking into the gap between the coupling surfaces of the first case and the second case. By having it, it is possible to suppress the leakage of condensed water caused by the assembly defect or hardening of the conventional case packing to the maximum, and it is possible to prevent the failure of electrical parts due to leakage to increase the safety of the product and to prevent the durability life from being shortened. there is.

In addition, since the condensate drain guide made of a synthetic resin material prevents the condensate from penetrating into the first case made of a metal material, it is possible to effectively prevent corrosion of the first case that may be caused when the condensate comes into contact with the condensate.

In addition, the combustion gas passing through the latent heat exchanger flows downward, and by making it flow in a direction inclined with respect to the vertical line, the combustion gas can flow smoothly.

1 is a cross-sectional view of a conventional latent heat exchanger assembly;
2 is an enlarged view of part 'A' of FIG. 1 for explaining the problem of condensate leakage in the conventional latent heat exchanger assembly;
3 is a perspective view of a latent heat exchanger assembly according to the present invention;
4 is an exploded perspective view of a latent heat exchanger assembly according to the present invention;
5 is a cross-sectional view taken along line BB of FIG. 3;
6 is an enlarged view of part 'C' of FIG. 5 for explaining the action of the condensate drain guide in the latent heat exchanger assembly according to the present invention;

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

3 to 6 , the latent heat heat exchanger assembly 1 according to the present invention is provided in a condensing boiler or a condensing water heater, and heat exchange with heating water flowing through the inside of the assembly 1 of the latent heat exchanger according to the present invention is performed. A latent heat exchanger 100 for absorbing latent heat, a first case 200 provided to surround one side of the latent heat exchanger 100, and the other side of the latent heat exchanger 100 to surround the first The second case 300 coupled to the case 200, and the first case 200 and the second case (200) and the second case ( 300) is configured to include a condensed water drain guide 500 that blocks condensed water from leaking into a gap between the first case coupling surface 251 and the second case coupling surface 321 to which they are coupled.

The first case 200 surrounds the side through which the combustion gas after heat exchange in the sensible heat exchanger (not shown) is introduced and is made of a metal material, and the second case 300 is the latent heat heat exchanger 100 . It surrounds the side from which the combustion gas after heat exchange is discharged, is molded of a synthetic resin material, and is coupled to the first case 200 .

The condensed water drainage guide 500 is provided to cover the space below the latent heat exchanger 100 and to cover the space above the first case coupling surface 251 and the second case coupling surface 321 . It is made of a synthetic resin material and has corrosion resistance, and at the same time blocks the penetration of condensed water into the first case 200 to prevent corrosion of the first case 200 .

The first case 200 and the second case 300 are coupled to each other by a fastening member (not shown) such as a bolt. The first case coupling surface 251 and the second case of the first case 200 are coupled to each other. The case packing 400 is interposed between the second case coupling surface 321 of the 300 to maintain airtightness. The case packing 400 may be coupled to the first case 200 by a fastening member 410 .

The latent heat heat exchanger 100 includes a heat exchange unit 110 for exchanging heat between the cold water flowing therein and the combustion gas, and a cold water connection pipe 120 through which the cold water flows into the heat exchange unit 110 , It consists of a hot water connection pipe 130 through which hot water heated by heat exchange in the heat exchange unit 110 is discharged.

The combustion gas passing through the latent heat heat exchanger 100 flows downward, and by installing the latent heat heat exchanger 100 inclined so as to flow in an inclined direction with respect to a vertical line, the flow of the combustion gas can be facilitated.

The heat exchange unit 110 is such that the edges of a pair of adjacent thin plates are joined to each other to form a flow path through which the cold or hot water flows between the pair of thin plates, and a plurality of such a pair of thin plates are provided adjacent to each other. A combustion gas flow path through which the combustion gas flows is formed between a pair of adjacent thin plates to exchange heat between the combustion gas and the side surfaces of the thin plates.

An exhaust flue (not shown) for discharging combustion gas is coupled to the exhaust body 340 in which the combustion gas outlet 341 of the second case 300 is formed, and between the second case 300 and the exhaust flue The exhaust adapter 370 is provided.

The other side surface 100a and one side surface 100b of the latent heat exchanger 100 are formed of a closed plate, and on both sides of the latent heat exchanger 100 both sides of the latent heat exchanger 100 and the first case A pair of side blocks 100c and 100d for blocking between the 200 and the inner surface of the second case 300 may be provided.

As indicated by the arrow in FIG. 5 , the upward-flowing combustion gas after heat exchange in the sensible heat exchanger (not shown) flows into the combustion gas inlet 201 of the first case 200 and then in the first case 200 . It flows in the first case flow space 202 inside, is blocked by the first case upper body 240 and is converted to a horizontal direction, and becomes a combustion gas flowing downward through the upper part of the latent heat exchanger 100 and flows. .

The downward flow of the combustion gas passes through the latent heat exchanger 100 in an inclined downward direction, and after heat exchange is made, flows into the second case 300 , and the combustion gas flows upward in the second case 300 . It is converted and discharged through the combustion gas outlet 341.

The first case 200 includes a combustion gas inlet 201 formed to surround one side of the latent heat heat exchanger 100 and through which combustion gas passing through a sensible heat heat exchange unit (not shown) flows in, and the combustion. A first combustion gas guide portion 210 for guiding the flow of combustion gas to the gas inlet 201 , and a first extending upward from the combustion gas inlet 201 to form a side wall portion of the first case 200 . The case one side wall 230, the first case upper body 250 extending from the upper end of the first case one side wall 230 to the other side, and the first case side wall 230 from both ends of the first case side wall 230 to the other side, respectively It consists of extended first case sidewalls 220a and 220b. Here, 'the other side' refers to the side on which the second case 300 is located with respect to the latent heat exchanger 100, and 'one side' refers to the side on which the first case 200 is located with respect to the latent heat exchanger 100. means, and is used in the same meaning hereinafter.

The first case outlet body is coupled to the second case 300 with the case packing 400 interposed between the first case side walls 220a and 220b and the other end of the first case upper body 240 . 250 and the first case coupling surface 251 are formed in a rectangular ring shape having a predetermined width.

A side support part 260 of a heat exchanger is formed in a square ring shape inside the sidewalls 220a and 220b of the first case to support one side 100b of the latent heat exchanger 100 .

The one side support part 260 of the heat exchanger is formed in an inclined shape inclined toward one side toward the upper side, and thus supports the one side surface 100b of the latent heat heat exchanger 100 in an inclined manner.

A bottom support part 252 is formed on one side of the portion positioned below the latent heat exchanger 100 in the first case coupling surface 251, and the bottom support part 252 is a second case 300 to be described later. It supports the bottom of the bottom stopper 312 of the. In addition, the condensate drain guide support 253 extending upward from one end of the floor support 252 to support one side wall 520 of the condensate drain guide 500 to be described later and to be in close contact with it is formed.

Since the first case 200 is a part into which the high-temperature combustion gas is introduced, it is made of stainless or aluminum, which is a metal material, and when manufactured by die-casting, the first case 200 having a complicated shape can be easily manufactured.

The second case 300 is formed to surround the other side of the latent heat exchanger 100 , and includes a second case bottom 310 forming a bottom of the second case 300 , and the latent heat heat exchange. The second case inlet body 320 formed to surround the combustion gas inlet through which the combustion gas passed through the unit 100 is introduced, and the latent heat heat exchanger 100 is formed on the left and right sides of the second case bottom 310 . ) of the heat exchanger inclined support part 330 for inclinedly supporting the bottom surface of the other side part, and the exhaust part body 340 forming the other side wall of the second case 300 and having a combustion gas outlet 341 formed on the upper part. .

The second case inlet body 320 has a second case coupling surface 321 in contact with the other side of the case packing 400 as a square ring shape at a position corresponding to the first case coupling surface 251 . is formed.

At the upper end of the second case coupling surface 321 positioned under the latent heat exchanger 100 , the bottom part 510 of the condensate drain guide 500 that extends from the second case bottom 310 to one side and will be described later ) is formed, and the floor stopper 312 is seated and supported on the upper surface of the bottom support part 252 of the first case 200 .

A condensed water outlet 311 is formed in the second case bottom 310 , and the condensed water generated in the latent heat exchanger 100 is discharged through the condensed water outlet 311 .

In the second case 300, a cold water inflow passage 351 and a cold water inlet 350 connected to the cold water connection pipe 120 of the latent heat heat exchanger 100, and a hot water connection pipe of the latent heat heat exchanger 100 ( A hot water discharge passage 361 and a hot water outlet 360 connected to 130 are formed.

The second case 300 can be manufactured by a simple manufacturing process by being made of a synthetic resin material by injection molding. In this case, since the combustion gas passing through the interior of the second case 300 is in a state in which the temperature is decreased while passing through the latent heat exchanger 100, heat resistance problem does not occur even if the second case 300 is made of a synthetic resin material.

In addition, the first case 200 is integrally formed of a metal material by die casting, and the second case 300 is integrally formed by injection molding with synthetic resin, and then the first case 200 and the second case ( By fastening 300 with a fastening member, the assembly process of the case surrounding the latent heat exchanger 100 is simplified. In addition, the case packing 400 is interposed between the coupling surface of the first case 200 and the second case 300 to maintain airtightness.

The condensed water drainage guide 500 guides the condensed water condensed and falling in the latent heat heat exchanger 100 toward the condensate outlet 311, and the first case 200 and the second case 300 are coupled to each other. It is configured to block condensed water from leaking into the gap between the first case coupling surface 251 and the second case coupling surface 321 .

The condensed water drain guide 500 is provided to cover an upper space of a portion located at a lower portion of the case packing 400 , surrounds one bottom surface of the latent heat exchanger 100 , and the second case bottom part 310 ), a side wall 520 that surrounds a lower portion of one side of the latent heat exchanger 100 and protrudes upward a predetermined length, and an upper side from both sides of the bottom portion 510 Both side walls 530a and 530b projecting a predetermined length by It is configured to further include the other inclined surface 540 for guiding the condensed water collected by the condensate outlet 311 side.

The condensed water drainage guide 500 is coupled to the first case 200 by a fastening member 550 . In one embodiment, the fastening member 550 penetrates one side wall 520 of the condensed water drain guide 500 and may be composed of a bolt fastened to the condensed water drain guide support 253 of the first case 200 and , the fastening member 550 may be provided in plurality at positions spaced apart from each other.

In addition, a heat exchanger packing 270 for airtight maintenance is coupled between one side 100b of the latent heat heat exchanger 100 and the upper end of one side wall 520 of the condensate drain guide 500, and the condensate drain At the upper end of the guide support 253, the other protrusion 254 may be formed to protrude to the other side and be in close contact with the upper surface of the heat exchanger packing 270, thereby more reliably blocking the leakage of condensed water.

According to the configuration of the condensate drain guide 500 as described above, as shown by the arrow in FIG. 6 , the condensed water (CW) condensed and falling in the latent heat exchanger 100 is discharged through the condensate drain guide 500 by the condensate drain guide 500 . (311) is guided to flow toward the side, and can block the inflow into the gap between the first case coupling surface 251 and the second case coupling surface 321, so that the case packing 400 and the fastening member 410 ), it is possible to prevent leakage of condensed water due to hardening of the case packing 400, etc., which occurs under abnormal conditions or assembly defects, thereby preventing failure of electrical parts that may occur when condensed water leaks, thereby improving product safety. It can increase and extend the durability life, and can improve the reliability of the user's product.

In addition, by blocking the penetration of condensed water toward the first case 200 made of a metallic material by the condensed water drain guide 500 , it is possible to prevent corrosion of the first case 200 that may occur upon contact with the condensed water. .

As described above, the present invention is not limited to the above-described embodiments, and obvious modifications can be made by those of ordinary skill in the art to which the present invention pertains without departing from the technical spirit of the present invention as claimed in the claims. It is possible, and such modifications fall within the scope of the present invention.

1: latent heat heat exchanger assembly 100: latent heat heat exchanger
100a: the other side of the latent heat exchanger 100b: one side of the latent heat exchanger
100c, 100d: side block 110: heat exchange unit
120: cold water connection pipe 130: hot water connection pipe
200: first case 201: combustion gas inlet
202: first case flow space 210: combustion gas guide part
220a, 220b: first case side wall 230: first case one side wall
240: first case upper body 250: first case outlet body
251: first case coupling surface 252: floor support
253: condensate drainage guide support part 254: the other side protrusion
260: heat exchanger one side support 270: heat exchanger packing
300: second case 310: second case bottom
311: condensate outlet 320: second case inlet body
321: second case coupling surface 330: heat exchanger inclined support part
340: exhaust body 341: combustion gas outlet
350: cold water inlet 351: cold water inlet
360: hot water outlet 361: hot water outlet flow path
370: exhaust adapter 400: case packing
410: fastening member 500: condensate drainage guide
510: bottom 520: one side wall
530a, 530b: side wall 540: the other side inclined surface
550: fastening member CW, CW1, CW2: condensed water

Claims (10)

In the latent heat exchanger assembly provided in a condensing boiler or water heater,
a latent heat heat exchanger for absorbing latent heat of water vapor contained in combustion gas by performing heat exchange with the heating water flowing therein;
a first case having a combustion gas inlet through which combustion gas having undergone sensible heat exchange is formed and provided to surround one side of the latent heat exchanger;
A combustion gas outlet is formed through which the combustion gas that has undergone heat exchange in the latent heat exchanger is discharged, is coupled to the first case and surrounds the other side of the latent heat exchanger, and a condensate outlet is formed on one side of the bottom of the second case case; and
a condensate drain guide for guiding condensed water condensed and falling in the latent heat exchanger toward the condensate outlet and blocking condensed water from leaking into a gap between the coupling surfaces of the first case and the second case;
including,
The condensate drain guide is provided to cover the space below the latent heat exchanger and to cover the space above the coupling surface of the first case and the second case,
The latent heat exchanger is disposed to have a downward inclination toward one side with respect to a horizontal plane,
The condensed water drainage guide includes a bottom portion that surrounds a bottom surface of one side of the latent heat exchanger and is seated on the bottom of the second case, and a side wall that surrounds a lower portion of one side of the latent heat exchanger and protrudes upward by a predetermined length and
At the upper end of the second case coupling surface located at the lower portion, a floor hooking part extending to one side from the bottom part of the second case and supporting the bottom part of the condensate drain guide is formed,
On one side of the first case coupling surface located in the lower portion, a floor support part for supporting the floor hooking part, and a condensate drainage guide support part extending upward from one end of the floor support part to support one side wall of the condensate drainage guide are formed. A latent heat exchanger assembly, characterized in that. delete According to claim 1,
A case packing for airtight maintenance is coupled between the coupling surfaces of the first case and the second case,
The condensate drain guide is provided to cover an upper space of a lower portion of the case packing. delete According to claim 1,
The condensed water drainage guide may further include both sidewalls protruding upward a predetermined length from both sides of the bottom portion. 6. The method of claim 5,
The condensed water drainage guide has a downward inclination from the other end of the bottom to the other side and extends a predetermined length, the other side inclined surface for guiding the condensed water collected by the bottom and both side walls toward the condensate outlet It further comprises A latent heat exchanger assembly characterized in that it. delete According to claim 1,
A heat exchanger packing is coupled between one side of the latent heat exchanger and an upper end of one side wall of the condensate drain guide,
The latent heat heat exchanger assembly, characterized in that the other protrusion is formed at an upper end of the condensate drain guide support part to protrude to the other side and to be in close contact with the upper surface of the heat exchanger packing. According to claim 1,
The first case is made of a metal material,
The second case and the condensate drain guide are made of a synthetic resin material. According to claim 1,
the first case is formed in a shape in which the upper portion is closed to convert the combustion gas flowing upward into the combustion gas inlet into the combustion gas flowing downward;
the second case has the combustion gas outlet formed at an upper portion to convert the combustion gas in the downward flow after the heat exchange in the latent heat exchanger into the combustion gas in the upward flow;
The latent heat heat exchanger assembly, characterized in that the combustion gas is composed of a plurality of thin plates joined to form a downward flow inclined with respect to a vertical line.

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