KR200156877Y1 - Heat exchanger of a gas boiler - Google Patents

Abstract

The present invention relates to a heat exchanger that can further increase the thermal efficiency of the gas boiler, the technical configuration, the outer cylinder (2) of the heat exchanger (1) is formed in a single shape, the main surface of the outer cylinder (2) of the outer wall An inclined pleat 10 for strength reinforcement is installed, and a pleat 10 ′ for strength reinforcement is also formed on the outer circumferential surface of the fire chamber 6 of the inner cylinder 5 in the interior of the outer cylinder 2. It is a main point that the linkage 9 placed between the lower plate 7 and the middle plate 8 on the upper side of the fire chamber 6 is inclined at an angle θ.

Accordingly, the outer cylinder of the heat exchanger is formed in a jar shape so as to easily absorb thermal expansion due to heat change, and to further increase the strength of the outer wall by the wrinkles formed on the main surface of the outer cylinder, and also flow into the inner cylinder. By inducing the flow of the water spirally, it is possible to increase the heat exchange efficiency by the hot water, and to minimize the noise generated during the hot water circulation inside the outer cylinder.

Description

Heat exchanger of gas boiler

The present invention relates to a heat exchanger to further increase the thermal efficiency of the gas boiler, in particular, to form a pleated inclined to the outer cylinder main surface of the gas boiler consisting of a jar shape, the pleats are formed on the outer peripheral surface of the inner cylinder is built therein, By inclining the tube installed inside the inner cylinder, the outer cylinder of the heat exchanger is configured in the form of a jar to easily absorb thermal expansion due to heat change, and the strength of the outer wall can be further increased by the wrinkles formed on the main surface of the outer cylinder. Of course, the present invention relates to a heat exchanger of a gas boiler that induces a flow of water flowing into the outer cylinder in a spiral manner, thereby increasing heat exchange efficiency due to hot water and minimizing noise generated during circulation of the hot water in the outer cylinder.

In the structure of a conventional gas boiler heat exchanger generally known, as shown in FIGS. 1 and 2, the hot water inlet 33 through which hot water flows in and out of the outer cylinder 32 and the upper side of the heat exchanger 31. And a hot water outlet 34 is provided, and a firebox 36 is provided at a bottom of the inner cylinder 35 installed inside the outer cylinder 32 to be in communication with the hot water inlet 33, and an upper side of the firebox 36. There is a structure in which a plurality of associations 39 are installed in the vertical direction via the lower plate 37 and the middle plate 38.

In the conventional boiler heat exchanger having the above structure, the outer cylinder 32 of the heat exchanger 31 is formed in a cylindrical shape, and the inner cylinder 35 in which the fire chamber 36 is formed at the bottom in the cylindrical outer cylinder 32 is formed. ) Is provided so that the high temperature of the fire chamber 36 can be distributed along the connection 39 vertically entered between the lower plate 37 and the middle plate 38, wherein the middle plate 38 has a diameter greater than that of the lower plate 37. It is largely formed so that the high temperature heat flows smoothly to heat the hot water around the tube (39), thereby performing the heating operation of the heat exchanger.

However, the outer cylinder 32 of the heat exchanger 31 as described above is subjected to thermal expansion force by the high temperature heat generated from the fire chamber 36, and the thermal expansion generated at this time acts in a horizontal direction, The deformation of the conventional outer cylinder 32 is distorted in the horizontal direction to cause cracks, as well as the hot water flowing between the outer cylinder 32 and the inner cylinder 35 is shortened the residence time of the heat exchanger ( 31) has a disadvantage in that the thermal efficiency is lowered, and noise and vibration are generated by friction with the pipeline when hot water is introduced and discharged.

In addition, since the tube 39 installed in the inner cylinder 35 is vertically installed between the lower plate 37 and the middle plate 38, the high temperature heat generated from the fire chamber 36 is transferred to the tube 39. There are many problems, such as not being able to stay for a long time and to escape to the outside to further reduce the thermal efficiency of the heat exchanger (31).

The present invention has been made in order to improve the various problems of the prior art as described above, the object of which is to configure the outer cylinder of the heat exchanger in the form of a jar to easily absorb thermal expansion due to heat changes, wrinkles formed on the main surface of the outer cylinder By increasing the strength of the outer wall further, as well as inducing the flow of water flowing into the outer cylinder spirally, to increase the heat exchange efficiency by the hot water, and to minimize the noise generated during the hot water circulation inside the outer cylinder It is to provide a heat exchanger of a gas boiler.

As a technical configuration for achieving the above object, the present invention forms a sloped corrugation for strength reinforcement of the outer wall to the outer cylinder main surface of the gas boiler is formed in the shape of a jar, and also strengthen the strength on the outer peripheral surface of the firebox of the inner cylinder to Corrugation is formed for, and the connection between the lower plate and the middle plate of the upper side of the firebox of the inner cylinder is provided by providing a heat exchanger of the gas boiler made of a configuration inclined.

1 is a front cross-sectional view of a conventional gas boiler heat exchanger.

2 shows the association of a conventional heat exchanger.

3 is a front sectional structure diagram of a gas boiler heat exchanger according to the present invention.

4 is a main structural diagram showing the association of the heat exchanger of the present invention.

5 is a main structural diagram showing the firebox (combustion chamber) of the heat exchanger of the present invention.

Explanation of symbols for main parts of the drawings

Heat exchanger

3 ... hot water inlet 4 ... hot water outlet

5 ... inner 6 ... firebox

7 ... Bottom 8 ... Middle

9 ... association 10,10 '... wrinkle

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

3 is a front sectional structural diagram of a gas boiler heat exchanger according to the present invention, and FIGS. 4 and 5 are main structural diagrams each showing an association and a combustion chamber (fire chamber) of the heat exchanger according to the present invention, and an outer cylinder of the heat exchanger 1. (2) The hot water inlet (3) and the hot water outlet (4) is provided to the hot water flow in and out of the lower side and the upper side, the fire chamber (6) is provided at the bottom of the inner cylinder (5) installed inside the outer cylinder (2) In communication with the tube 9, a plurality of tubes 9 are placed on the upper side of the fire chamber 6 via the lower plate 7 and the middle plate 8.

In addition, the outer cylinder (2) of the heat exchanger (1) is formed in a single shape, the main surface of the outer cylinder (2) is provided with an inclined corrugation (10) for reinforcing the strength of the outer wall, the outer cylinder (2) Corrugation 10 'is also formed on the outer circumferential surface of the fire chamber 6 of the inner cylinder 5, which is internally installed therein, and an association placed between the lower plate 7 and the middle plate 8 above the fire chamber 6 is formed. (9) is provided at an inclined angle (θ).

Further, the lower plate 7 and the middle plate 8 provided above the fire chamber 6 are formed to have the same diameter, and the fire chamber 6 is formed in a spherical shape.

Referring to the operation and effects of the subject innovation in this configuration is as follows.

3 to 5, the hot water inlet (3) and the hot water outlet (4) for allowing hot water to flow in and out of the outer cylinder (2) and the upper side of the gas boiler heat exchanger (1) are respectively installed in the outer cylinder Hot water is circulated in (2), and in this case, the inner cylinder (5) installed inside the outer cylinder (2) is provided with a fire chamber (6), which is a combustion chamber, in which the high heat generated by the combustion of the gas is in communication with it. The hot water around the tube (9) is heated while exiting through) to perform the heating operation.

On the other hand, the upper side of the fire chamber (6) through the lower plate (7) and the middle plate (8) through a plurality of inlets, so that the hot water circulated around the plurality of pipes (9) is easily heated. .

In the heat exchanger 1, the outer cylinder 2 is formed in a single shape, and an inclined corrugation 10 for reinforcing the strength of the outer wall is provided on the main surface of the outer cylinder 2, whereby high heat is generated. By being able to easily absorb the thermal expansion force acting in the horizontal direction to prevent deformation and consequent cracking to increase the strength, the hot water flowing through the hot water inlet (3) is the diameter of the outer cylinder (2) The photo flows along the pleats 10 so that the hot water stays inside the heat exchanger 1 to further increase the efficiency of heating.

In addition, the outer circumferential surface of the fire chamber 6 of the inner cylinder 5, which is in the interior of the outer cylinder 2, also has wrinkles 10 'for reinforcing strength, and the lower plate 7 and the middle plate on the upper side of the fire chamber 6 are formed. (8) is to be installed at an inclined angle (θ) so that the high temperature generated from the fire chamber (6) stays in the heat exchanger (1) for a long time to heat the hot water. .

FIG. 4 is a main structural diagram showing the coupling 9 installed inside the heat exchanger 1 of the present invention, and the plurality of couplings 9 provided between the lower plate 7 and the middle plate 8 are twisted. By being inclined in a state, the heat inside the firebox 6 flows along the inclined plumbing 9 to prolong the residence time.

At this time, the lower plate (7) and the middle plate (8) installed on the upper side of the fire chamber (6), the shape of the outer cylinder (2) is formed in a single shape so that the diameter is the same, so that it can be easily manufactured, As in 5, the firebox 6 is formed in a spherical shape so that the connection 9, which is placed in an inclined state, can be easily communicated.

As described above, according to the heat exchanger of the gas boiler according to the present invention, the outer cylinder of the heat exchanger is formed in a jar shape so as to easily absorb thermal expansion due to heat change, and the strength of the outer wall is further increased by the wrinkles formed on the main surface of the outer cylinder. Of course, by inducing the flow of water flowing into the outer cylinder in a spiral, it is possible to increase the heat exchange efficiency by the hot water, and to minimize the noise generated during the hot water circulation inside the outer cylinder.

Claims (3)

Hot water inlet (3) and hot water outlet (4) for the inlet and outflow of hot water to the lower and upper outer cylinder (2) of the heat exchanger (1) is provided, the inner cylinder (5) bottom installed inside the outer cylinder (2) The fire chamber 6 is provided in communication with the pipe 9, and a plurality of pipes 9 are placed in the upper side of the fire chamber 6 via the lower plate 7 and the middle plate 8, respectively. In addition, the outer cylinder (2) of the heat exchanger (1) is formed in a single shape, the main surface of the outer cylinder (2) is provided with an inclined corrugation (10) for reinforcing the strength of the outer wall, the outer cylinder (2) Corrugation 10 'is also formed on the outer circumferential surface of the fire chamber 6 of the inner cylinder 5, which is internally installed therein, and an association placed between the lower plate 7 and the middle plate 8 above the fire chamber 6 is formed. (9) The heat exchanger of the gas boiler, characterized in that the inclined angle (θ) is installed. The heat exchanger according to claim 1, wherein the lower plate (7) and the middle plate (8) provided above the fire chamber (6) are formed to have the same diameter. The heat exchanger of a gas boiler according to claim 1, wherein the fire chamber (6) provided below the inner cylinder (2) is formed in a spherical shape.