KR200255210Y1 - A heat exchanger of gas boiler - Google Patents

Abstract

The present invention improves the assembly productivity by making the piping structure of the heat exchanger used in the gas boiler in a separate type so that it can be easily assembled from the outside of the body of the heat exchanger, and improves the loss of heat by using high-strength plastic having excellent heat resistance and heat insulation. The present invention relates to a heat exchanger structure of a gas boiler that prevents and improves thermal efficiency.

The present invention is a heat exchanger consisting of a heat exchanger body, an integral water pipe installed inside the heat exchanger body, and a heat transfer fin welded to the water pipe, each of which has a straight line having respective flanges formed at both ends thereof. A plurality of water pipes configured to flow; An arcuate connecting pipe having a groove into which a ring is inserted to maintain airtightness and oil tightness when the water pipe is coupled, and having flanges formed at respective ends to correspond to the flange of the water pipe; It is installed so as to face the flange of the water pipe and the flange of the connection pipe, it is characterized in that it comprises a connecting member which is fixed by the fixing means so as to maintain the airtight and oil tightness and at the same time freely separated.

Description

Heat exchanger structure of gas boiler {A HEAT EXCHANGER OF GAS BOILER}

The present invention relates to a heat exchanger structure of a gas boiler, more specifically, to improve the assembly productivity by making the piping structure of the heat exchanger used in the gas boiler in a separate type to be easily assembled outside the body of the heat exchanger. The present invention relates to a heat exchanger structure of a gas boiler in which a high-strength plastic having excellent heat resistance and thermal insulation is used to prevent heat loss, thereby improving thermal efficiency.

1 is a cross-sectional view showing the structure of a general gas boiler, Figure 2 is a schematic perspective view showing the structure of a heat exchanger of a conventional gas boiler, Figure 3 is a cross-sectional view when the line A-A of FIG.

Referring to Figures 1 to 3, when looking at the structure of the conventional heat exchanger of the gas boiler, as shown in Figure 1, a two-stage heat exchanger consisting of a gas burner (3), a main heat exchanger and a sub-heat exchanger ( 9) is a combination.

The heat exchanger (9) includes a water pipe (1), a plurality of heat transfer fins (2) welded to the outer circumference of the water pipe (1), a cylinder (6) for receiving them, and the cylinder (6) It consists of a gas burner (3) installed in the upper portion of the, and a fan (4) for supplying air from the upper portion of the gas burner (3), consisting of an exhaust passage (5) connected to the lower portion of the heat exchanger (1).

The heat exchanger 9 is divided into a main heat exchanger 7 downstream of the water pipe 1 and a sub-heat exchanger 8 upstream of the water pipe 1 disposed below the water pipe 1.

The water pipe 1 on the side of the main heat exchange unit 7 is formed so as to incline the water pipe 1 of this portion so that the water pipe 1 has a four-stage configuration, and each end thereof has the water pipe ( 1) is bent in two rows or four rows.

On the other hand, the water pipe 1 on the side of the sub-heat exchange part 8 is configured to be bent in a meandering shape in four horizontal rows.

The flame hole portion of the gas burner 3 is set downward, and the main heat exchange portion 7 is disposed near the flame formation region.

In addition, the gas burner 3 is forcibly supplied with combustion air by the fan 4, whereby the combustion exhaust of the gas burner 3 is discharged from the main heat exchanger 7 and the sub-heat exchanger 8. After passing through, the gas is discharged to the outside through the exhaust passage 5 formed at the lower side thereof.

In addition, referring to the heat exchanger (9) shown in Figs. 2 and 3, the heat exchanger of the gas boiler is composed of a main heat exchanger (7) and a sub-heat exchanger (8), the inner side of which is separated up and down The heat transfer fins 2 of the main heat exchange unit 7 and the heat transfer fins 2 of the sub-heat exchange unit 8 are welded to the water pipe 1.

In the heat exchanger 9 having the above structure, when the heat transfer fin 2 and the water pipe 1 are welded, the brazing welding method is generally used. This is because the joint between the water pipe (1) and the heat transfer fin (2) cannot be easily achieved by other welding methods. The water pipe (1) and the heat transfer are applied by dissolving a filler material for welding the base material and melting it at a high temperature. Diffusion occurs at the adhesive interface of the pins 2 to effect brazing.

However, since the heat exchanger of the conventional gas boiler as described above has a structure in which the water pipe 1 is integrally formed, the size of the heat exchanger is large, and the production work is difficult. Therefore, there is a problem that the temperature of the hot water in contact with the outside air is lowered and the thermal efficiency is lowered.

In addition, when used for a long time, the scale (SCALE) is generated in the water pipe, the efficiency of the heat exchanger is reduced. In this case, the conventional heat exchanger is not easy to remove the scale (SCALE) in the water pipe.

The present invention has been made to solve the above problems, it is easy to manufacture the heat exchanger by separating the water pipe and each connecting pipe to be assembled by the connecting member, heat-resistant, heat insulation effect of the connecting pipe The purpose of the present invention is to provide a heat exchanger structure of a gas boiler that can be used to improve thermal efficiency by using special engineering plastics.

In addition, it is an object of the present invention to provide a heat exchanger structure of a gas boiler that can easily remove the scale inside the water pipe by dismantling the connection pipe fixed in the water pipe.

1 is a cross-sectional view showing the structure of a typical gas boiler

Figure 2 is a schematic perspective view showing a heat exchanger structure of a conventional gas boiler

3 is a cross-sectional view taken along the line AA of FIG. 2.

Figure 4 is an exploded perspective view showing the structure of the heat exchanger of the gas boiler of the present invention

5 is a perspective view of the present invention

6 is a cross-sectional view of FIG.

* Explanation of symbols for the main parts of the drawings

10: water pipe 12,13: flange

14: inlet connector 16: connector

18: discharge connector 20: groove

22: ring 24: connecting member

26: slot 28: fixing hole

30: fixing means

The present invention for achieving the above object is a heat exchanger consisting of a heat exchanger body, an integral water pipe installed inside the heat exchanger body, and a heat transfer fin welded to the water pipe, each flange at each end A plurality of water pipes formed in a straight line and configured to allow heating water to flow; An arcuate connecting pipe having a groove into which a ring is inserted to maintain airtightness and oil tightness when the water pipe is coupled, and having flanges formed at respective ends to correspond to the flange of the water pipe; It is installed so as to face the flange of the water pipe and the flange of the connection pipe, it is characterized in that it comprises a connecting member which is fixed by the fixing means so as to maintain the airtight and oil tightness and at the same time freely separated.

And a straight inlet connecting pipe and a discharge connecting pipe which are installed to be coupled to the water supply pipe through which the heating water flows and one end of the water supply pipe through which the heating water is discharged. The tube is a special engineering plastic having excellent heat resistance and heat insulation, and is Zytel. The connecting member has a cylindrical band shape, and both ends are bent to form a bent piece, and the bent piece has a fixing means. The fixing hole to be fixed is formed, the cylindrical band is characterized in that the slot is inserted into the flange is formed.

Preferred embodiments of the present invention as described above will be described in detail with reference to the accompanying drawings.

Figure 4 is an exploded perspective view showing the structure of the heat exchanger of the gas boiler of the present invention, Figure 5 is a perspective view of the present invention, Figure 6 is a cross-sectional view of FIG.

Looking at the configuration of the present invention with reference to Figures 4 to 6, the structure of the heat exchanger of the gas boiler of the present invention is installed in the heat exchanger, a plurality of water pipes 10 having a flange 12 at both ends and, One side of an arcuate connecting pipe 16 having a flange 12 formed at an end connecting the plurality of water pipes 10 to each other, and a predetermined water pipe 10 through which heating water is introduced among the water pipes 10. Inlet connection pipe 14 is connected to the installation and the discharge connection pipe 18 is connected to one side of the predetermined water supply pipe 10 is discharged and the heating water is discharged, the plurality of water pipe 10 and the connection pipe 16 It consists of a connecting member 24 for connecting each.

Looking more specifically as follows.

The plurality of water pipes 10 have flanges 12 formed at both ends thereof, and are linearly formed, and a plurality of heat transfer fins 100 are welded to the outer circumferential surface.

The plurality of water pipes 10 are connected by arched connection pipes 16, and each end of each of the connection pipes 16 has a flange to correspond to the flange 12 of the water pipe 10. 13) is formed.

The flanges 13 of the connecting pipes 16 are each formed with a circular groove 20, and the groove 20 is inserted into the ring 22 is connected to the water pipe 10 when the airtight and Keep oil tight.

The connecting pipes 16 and the inlet connecting pipe 14 and the discharge connecting pipe 18 are made of a special engineering plastic material (Zytel nylon resin) having excellent heat and thermal insulation performance.

As shown in FIGS. 4 and 6, the flanges 12 formed in the two water pipes 10 face the flanges 13 formed in the arcuate connecting pipe 16, and the flanges 12 positioned to face each other. ) And the flange 13 are fixed to the fixing means 30 by inserting the connecting member 24.

The connecting member 24 is formed in a circular band shape, and the slots 26 into which the flanges 12 and 13 are fitted are formed, and both ends are bent to form bending pieces (not shown). In addition, the bending piece is formed with a fixing hole 28 so that the fixing means 30 is fixedly coupled.

As described above, the front and rear of the water pipe 10 is connected to the connection pipe 16, the connection member 24 is fitted to the flanges (12, 13) and fixed by the fixing means 30 and the water pipe 10 and The separation of the connecting pipe 16 has the advantage of free, easy to install, the hot water flowing to the outside of the heat exchanger body flows through the connecting pipe 16 made of a special engineering plastic with excellent heat resistance and heat insulation, so The heat loss is minimized by preventing the temperature from dropping by contact.

As the special engineering plastic, it is preferable to use Zytel in the present invention, and can be replaced with any other plastics by design change and use of the orderer.

In addition, the present invention as described above is not limited to the specific embodiments described above, anyone who has ordinary knowledge in the field to which the present invention belongs without departing from the gist of the present invention claimed in the claims various changes Would be possible.

The heat exchanger structure of the present invention as described above has an excellent thermal efficiency as compared to a heat exchanger using a conventional integrated water pipe, and has an effect of easily processing a scale accumulated in the water pipe.

Claims (4)

In a heat exchanger consisting of a heat exchanger body, an integral water pipe installed inside the heat exchanger body, and a heat transfer fin welded to the water pipe, A plurality of water pipes each having a straight line having respective flanges formed at both ends thereof and configured to allow heating water to flow; An arcuate connecting pipe having a groove into which a ring is inserted to maintain airtightness and oil tightness when the water pipe is coupled, and having flanges formed at respective ends to correspond to the flange of the water pipe; And a connection member installed to face the flange of the water pipe and the flange of the connection pipe, the connection member being fixed by the fixing means so as to maintain the airtightness and oil tightness and the separation member is installed freely. Heat exchanger structure. The method of claim 1, The heat exchanger structure of the gas boiler further comprises a water inlet pipe for introducing the heating water, and a straight inlet connection pipe and a discharge connection pipe respectively coupled to one end of the water pipe through which the heating water is discharged. The method of claim 1, The connection pipe, the inlet connection pipe and the discharge connection pipe is a heat exchanger structure of a gas boiler, characterized in that the Zytel (ZYTEL) as a special engineering plastic with excellent heat resistance and insulation. The method of claim 1, The connecting member is formed in a cylindrical band shape, both ends are bent to form a bent piece, the bent piece is formed with a fixing hole for fixing the fixing means, the cylindrical band is characterized in that the slot is inserted into the flange is formed Heat exchanger structure of gas boiler.