KR101758641B1 - Heat exchanger for boiler - Google Patents

Abstract

A heat exchanger for a boiler is disclosed. A heat exchanger according to an embodiment of the present invention includes a casing having a partition wall for partitioning an exhaust area where exhaust gas of a boiler flows and an intake area where combustion air supplied to the boiler flows, A first sealing member that is coupled to the casing and seals between the casing and the circumference of both side surfaces of the heat exchange disc; and a second sealing member that is movable to the separating partition A second sealing member which is provided in close contact with the side surface of the heat exchange disc to seal between the exhaust area and the intake area and an elastic member which is provided on the partition wall and presses the second sealing member toward the heat exchange disc.

Description

{HEAT EXCHANGER FOR BOILER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat exchanger for a boiler, and more particularly, to an apparatus for heat exchange between exhaust gas of a boiler and combustion air.

Generally, boilers used in industrial fields increase the total combustion efficiency of the boiler to save the use of fuel and heat exchange of air for combustion of high temperature exhaust gas and boiler to prevent air pollution through complete combustion Device is being used.

As an example of such a heat exchanger, there is a rotary type heat exchanger which uses a cylindrical disk rotating in a casing to preheat the combustion air supplied to the boiler by rotating the disk when heated to a constant temperature in a region where hot exhaust gas flows.

The rotary heat exchanger uses a sealing member for maintaining the airtightness in the exhaust gas passage and the space for dividing the passage of the combustion air. However, there is a problem that frequent leakage due to abrasion occurs during long-term use due to friction with the rotating cylindrical disk have.

As a result, the exhaust gas enters the combustion chamber of the boiler together with the combustion air again according to the mixture of the exhaust gas and the combustion air, so that the combustion fuel is not completely burned to generate air pollutants and the efficiency of the boiler is also lowered.

Korea Patent Publication No. 2009-0116117 (published November 11, 2009)

Embodiments of the present invention provide a heat exchanger for a boiler which can reduce mixing of exhaust gas and fuel air with each other even when used for a long period of time.

According to an aspect of the present invention, there is provided a boiler comprising: a casing having a partition wall for partitioning an exhaust area through which exhaust gas of a boiler flows and an intake area through which combustion air supplied to the boiler flows; A heat exchanging disk having a heat exchange medium for heat exchange between the exhaust gas and the combustion air; a first sealing member coupled to the casing, the first sealing member sealing between circumferences of both sides of the casing and the heat exchange disk; A second sealing member movably installed on the partition wall for sealing between the exhaust area and the intake area and closely attached to the side surface of the heat exchange disc, and a second sealing member provided on the partition wall, A heat exchanger for a boiler including an elastic member for pressing can be provided.

The first sealing member may be provided in the form of a lip packing having one end fixed to the casing and the other end slidably contacting the outer circumferential surface of the heat exchanging disk and a spring pressing the lip to the outer circumferential surface of the heat exchanging disk .

The second sealing member may include a sliding body slidably supported in a rail groove formed in the partition wall, a horizontal partition wall extending from the sliding body toward a side wall of the heat exchange disk, And a brush-shaped packing in slidable contact with the side of the heat exchange disk.

The elastic member includes a coil spring that is received in the rail groove so that one end of the elastic member is supported by the rail groove and the other end of the coil spring is supported by the sliding body.

Further, the packing may be detachably coupled to an end of the horizontal partition.

The embodiments of the present invention can improve the efficiency of the boiler as the airtightness is maintained to prevent the exhaust gas and the fuel air from being mixed with each other even if the sealing member is partially worn by friction between the heat exchange disc and the sealing member do.

1 is a perspective view illustrating a heat exchanger for a boiler according to an embodiment of the present invention.
2 is an exploded perspective view of a heat exchanger for a boiler according to an embodiment of the present invention.
3 is a cross-sectional view of a heat exchanger for a boiler according to an embodiment of the present invention.
4 is a cross-sectional view of a first sealing member according to an embodiment of the present invention.
5 is a cross-sectional view of a second sealing member according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described below are provided by way of example so that those skilled in the art will be able to fully understand the spirit of the present invention. The present invention is not limited to the embodiments described below, but may be embodied in other forms. In order to clearly explain the present invention, parts not related to the description are omitted from the drawings, and the width, length, thickness, etc. of the components may be exaggerated for convenience. Like reference numerals designate like elements throughout the specification.

FIG. 1 is a perspective view showing a heat exchanger for a boiler according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of a heat exchanger for a boiler according to an embodiment of the present invention, And Fig.

1 to 3, a heat exchanger 10 for a boiler according to an embodiment of the present invention includes an exhaust duct 11 through which exhaust gas exhausted from a boiler flows, And an opening hole (21) communicating with the air duct (12).

The casing 20 may be formed in an empty box shape, and openings 21 are formed on the front and rear sides of the casing 20 so as to face each other.

The opening hole 21 may have a circular shape and a partition wall 23 may be formed at a central portion of the opening hole 21 to extend in the horizontal direction to divide the upper and lower portions of the opening hole 21.

The upper part of the opening hole 21 defined by the partition wall 23 defines an exhaust area 24 through which the exhaust gas flows and the lower part of the opening hole 21 is defined by an intake area (25).

Inside the casing (20), a heat exchange disc (30) for heat exchange between the exhaust gas flowing through the opening hole (21) and the combustion air is provided.

The heat exchange disc (30) has a hollow cylindrical shape, and a heat exchange medium (31) for performing heat exchange is provided inside the heat exchange disc (30).

The heat exchange medium 31 may be arranged inside the heat exchange disc 30 so as to form a plurality of strands on the flat metal plate and form a flow path between the plurality of metal plates.

The heat exchange medium 31 located at the upper portion divided by the partition 23 is heated by the exhaust gas flowing in the exhaust duct 11. When the heat exchange disk 30 is rotated by a predetermined angle, The medium 31 is located in the air duct 12 through which the combustion air flows and heats the combustion air flowing through the air duct 12.

The heat exchanging disk 30 can be rotated by a disk driving device 40 provided inside the casing 20. [

The disk drive 40 includes a motor 41 for providing a rotational force, a pulley 42 for receiving and rotating the motor 41, a belt 42 for surrounding the circumference of the heat exchange disk 30 and the pulley 42, 43).

The heat exchanging disk 30 performs heat exchange between the exhaust gas and the combustion air while rotating in the casing 20 to maintain the airtightness between the exhaust duct 11 and the air duct 12 in the casing 20 It is necessary to provide an efficient sealing structure.

The heat exchanging apparatus 10 of the embodiment of the present invention includes a first sealing member 50 for sealing between the casing 20 and both circumferential sides of the heat exchange disc 30, And a second sealing member 60 for sealing between the exhaust area 24 and the intake area 25 that are divided into upper and lower portions of the opening hole 21. [

3 and 4, the first sealing member 50 is for sealing the circumference of the opening hole 21 of the casing 20 and the circumferential periphery of the heat exchange disc 30, Respectively.

The first sealing member 50 is in the form of an elastic lip packing having one end fixed to the inside of the casing 20 and the other end having a lip portion 51 slidably contacting the outer circumferential surface of the heat exchange disc 30 .

The first sealing member 50 includes a fixing portion 52 fixed to the inside of the casing 20, an elastic portion 53 having a C-shaped cross section extending downward from the fixing portion 52, And a ring-shaped spring 54 for urging the lip portion 51 so as to come into close contact with the circumference of the heat exchange disc 30. The ring-

Even if the wear of the lip portion 51 that is in contact with the heat exchanging disk 30 that rotates due to long-term use occurs in such a first sealing member 50, the pressing force of the spring 54 causes the adhesion force of the lip portion 51 to be constant The airtightness can be improved.

3 and 5, the second sealing member 60 is disposed inside the partition wall 23 of the casing 20 and contacts the side surface of the heat exchange disc 30, (11) and the air duct (12) from communicating with each other.

The second sealing member 60 includes a sliding body 61 slidably supported on the partition wall 23, a horizontal partition 62 extending in the horizontal direction from the sliding body 61, Shaped packing 64 which is provided at an end of the heat exchange disc 30 and slidably contacts the side surface of the heat exchange disc 30 and an elastic member 65 which elastically supports the sliding body 61. [

The sliding body 61 of the second sealing member 60 is supported so as to be slidable back and forth toward the heat exchange disc 30 in the rail groove 27 formed on the inner side of the partition wall 23, And can be resiliently supported by an elastic member 65 disposed between the side wall and the sliding body 61.

The horizontal partition wall 62 is formed in a flat plate shape having a predetermined thickness in a horizontal direction at a central portion of the sliding body 61 and has a predetermined thickness to partition the exhaust region 24 and the intake region 25 of the heat exchange disk 30 can do.

The horizontal partition wall 62 has a thickness smaller than the thickness of the sliding body 61 and can extend toward the heat exchange disk 30 through the slot 28 formed in the partition wall 23 and can extend horizontally A sealing member 29 for maintaining airtightness may be provided between the partition walls 62.

The packing 64 may be releasably coupled at the end of the horizontal bulkhead 62 to allow for exchange upon wear. To this end, the packing 64 may be provided with a packing body 63 detachably coupled to the horizontal partition 62 by a bolt-fastening method and having a brush-shaped packing 64 attached thereto.

Through this configuration, the high-temperature exhaust gas which is burned in the boiler and exhausted through the exhaust duct 11 is exhausted to the outside after heating the heat exchange medium 31 located in the exhaust region 24 of the heat exchange disc 30 , The heat exchanging disk (30) preheats the air flowing through the air duct (12) through the heat exchanging medium (31) heated while rotating.

Since the heat exchange disc 30 rotates a few times per minute, the sealing members 50 and 60 forming the airtightness between the exhaust area 24 and the intake area 25 during long term use are subject to wear due to friction with the heat exchange disc 30 .

The first sealing member 50 is urged by the elastic force of the spring 54 so that the lip portion 51 of the first sealing member 50 is pressed against the outer circumferential surface of the heat exchange disc 30 The packing 64 of the second sealing member 60 is brought into close contact with the side surface of the heat exchange disc 30 by the elastic force of the elastic member 65, The airtightness between the intake port 25 and the intake port 25 is maintained constant.

The foregoing has shown and described specific embodiments. 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 and scope of the invention as defined in the appended claims.

10: heat exchanger, 11: exhaust duct,
12: air duct, 20: casing,
23: separation barrier, 24: exhaust area,
25: intake region, 27: rail groove,
30: heat exchange disc, 31: heat exchange medium,
40: disk drive device, 50: first sealing member,
51: lip portion, 52: fixed portion,
53: elastic portion, 54: spring,
60: second sealing member, 61: sliding body,
62: horizontal partition, 63: packing body,
64: packing, 65: elastic member.

Claims (5)

A casing (20) having a partition (23) for separating an exhaust area (24) through which the exhaust gas of the boiler flows and an intake area (25) through which the combustion air supplied to the boiler flows;
A heat exchange disc (30) rotatably installed in the casing and having a heat exchange medium (31) for heat exchange between the exhaust gas and the combustion air;
A disk drive device 40 including a motor 41 for driving the heat exchange disk to rotate, a pulley 42 for receiving power from the motor, and a belt 43 surrounding the circumference of the heat exchange disk and the pulley.
A fixing part (52) coupled to the casing, the fixing part (52) being fixed to the inside of the casing so as to seal the circumference of both sides of the casing and the heat exchange disc; an elastic part (53) extending downward from the fixing part; A first sealing member (50) having a lip portion (51) pressed by a spring (54) at a negative end to contact the circumference of the heat exchange disc; And
A sliding body 61 slidably supported by the elastic member 65 in a rail groove 27 formed inside the partition wall and extending from the sliding body toward the side wall of the heat exchange disk A horizontal partition wall (62); and a brush-type packing (64) detachably coupled to the end of the horizontal partition and slidably in contact with the side of the heat exchange disk, And a second sealing member (60).
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