KR0140786Y1 - Nipple welding technique of heat exchanger in gas boiler - Google Patents

Abstract

The present invention relates to a NIPPLE welding structure for piping of a gas boiler heat exchanger, in particular, a hot water heat exchanger, and more particularly, to prevent welding defects by allowing the fins and nipples of the heat exchanger to be directly welded inside the nipple. The present invention relates to a nipple welding structure of a heat exchanger for a gas boiler that enables the removal of welding plate parts.

The nipple welding structure of the present invention forms an assembly end portion 18a by bending upwardly the inner circumferential surface of the hot water heat exchanger fin 11 to form an assembly end portion 18a, and preassembles the nipple 13 to the outside of the assembly end portion 18a. , The welding ring 15 is characterized in that it is made to be welded to the inside of the nipple (13).

Accordingly, the welding of the nipple is possible without installing a separate plate, and the welding is made inside the nipple, so that the welding is prevented from being poorly penetrated and the welding part is not exposed to the outside. The effect is such.

Description

Nipple Welding Structure of Gas Boiler Heat Exchanger

The present invention relates to a NIPPLE welding structure for the piping of a gas boiler heat exchanger, in particular, a hot water heat exchanger, and more particularly, by preventing the welding defects and the nipple of the heat exchanger to be directly welded inside the nipple. The present invention relates to a nipple welding structure of a heat exchanger for a gas boiler that enables the removal of welding plate parts.

In general, a gas boiler burns gas using fuel, heats water by heat exchange using heat generated in the combustion process, and circulates the heated water along a heating pipe in the room to heat the water. It is equipped with the function to supply hot water to a bathroom, a sink, etc.

1 is a schematic configuration diagram of a gas boiler using a hot water heat exchanger.

As shown in the drawing, the gas boiler includes a main heat exchanger (1) for heating the heating water by the heat of the burner, a heating return pipe (2) for returning the heating water from the heating pipe (not shown) of each room to conduct heating, and a heating return pipe. Water tank (3) for temporarily storing the heating water returned as installed in (2), bidirectional circulation pump (4) for circulating the heating water and selecting and changing the flow of the heating water when using heating and hot water (4), main heat exchanger (1) Heating water supply pipe (5) for supplying the heating water heated from the heating pipe of each room, the hot water heat exchanger (10) connected to the main heat exchanger (1) to enable the use of hot water, hot water heat exchanger Direct water supply pipe (6) to supply to (10), hot water supply pipe (7) for discharging the heated hot water from the hot water heat exchanger (10), and the connection for supplying water from the main heat exchanger (1) to the hot water heat exchanger (10) Pipe (8), and direct water to the water tank (3) through the hot water heat exchanger (10) To include a supplementary water pipe (9) so as to supplement the number of heating the heating pipe.

The reason for separately installing the hot water heat exchanger 10 is that when the main heat exchanger 1 is of a dual type as in the prior art, by inserting a copper pipe bundle for hot water into the heating tube of the main heat exchanger 1. Not only is it difficult to manufacture, but also because the flow path is narrowed in the heating tube, foreign matters are accumulated, and for this reason, durability is inferior.

In view of these problems, the main heat exchanger 1 is configured as a single type, and a separate hot water heat exchanger 10 is installed.

2 illustrates a pipe welding structure of the hot water heat exchanger 10.

As shown, the pipe welding structure of the conventional hot water heat exchanger is a direct water supply pipe 6, a hot water supply pipe 7, a connection pipe 8, and a supplemental water pipe through inlets or outlets formed on upper and lower surfaces of the hot water heat exchanger 10. 9) The nipple 13 is provided at the inlet or the outlet when connecting the pipe pipe 12 such as 9).

In the installation or welding method of the nipple 13, after assembling a plate 14 having a hole corresponding to an inlet or an outlet on the fin 11 of the hot water heat exchanger, a hole 14a formed in the plate 14 is formed. Insert the lower end of the nipple 13 through) to be assembled.

In this state, when the welding ring 15 is assembled onto the plate 14 through the outer circumferential surface of the preassembled nipple 13 and passed through the welding furnace, the welding ring 15 is melted so that the nipple 13 is plated ( 14) to be welded.

Next, when the pipe pipe 12 is inserted into the assembled nipple 13, the watertightness is maintained by the outer circumferential ring 16 of the forged body 12a provided at the end of the pipe pipe, and the nipple 13 and the forged product. When the clip 17 is inserted into the upper end of the (12a), the pipe pipe 12 is fixed to the nipple (13).

However, in the conventional nipple welding method, since the nipple welding plate 14 is to be used separately, the number of parts and the manufacturing cost are increased, and the plate 14 is sandwiched between the pins 11 to be welded. There are many points, and in particular, the welding ring 15 is inserted into the outside of the nipple 13 so that the external surface is welded.

The present invention was devised to solve the above-mentioned problems of the prior art, and the nipple welding of the gas boiler heat exchanger made precise welding by preventing the welding defect of the nipple and the cost reduction by eliminating the welding plate parts. The purpose is to provide a structure.

The nipple welding structure of the present invention for achieving the above object, the inner periphery of the through-hole of the fin functioning as the inlet or outlet of the heat exchanger is bent up to form an assembly end, the welding in a state in which the nipple is pre-assembled outside the assembly end The ring is inserted into the nipple to be welded.

1 is a schematic configuration diagram of a gas boiler using a hot water heat exchanger,

2 is a cross-sectional view of main parts for explaining a nipple welding structure of a conventional heat exchanger;

3 is a cross-sectional view showing the nipple welding structure of the heat exchanger according to the present invention.

* Explanation of symbols for main parts of the drawings

1: main heat exchanger 2: heating return pipe

3: water tank 4: circulation pump

5: heating water supply pipe 6: direct water supply pipe

7: hot water supply pipe 8: connector

9: supplementary water pipe 10: hot water heat exchanger

11: pin 12: piping pipe

12a: forging 13: nipple

13a: bending end 14: plate

14a: through hole 15: welding ring

16: outer ring 17: clip

18: through hole 18a: assembly end

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

3 is a cross-sectional view showing the nipple welding structure of the heat exchanger according to the present invention.

As illustrated, the nipple welding structure of the gas boiler heat exchanger according to the present invention is a direct water supply pipe 6 through a through hole 18 having an inlet or outlet formed on the upper and lower surfaces of the fin 11 of the hot water heat exchanger 10. In the circumference of the through hole 18 of the fin 11 in welding the nipple 13 to connect the piping pipe 12 such as the hot water supply pipe 7, the connection pipe 8, and the supplemental water pipe 9. To bend up to form an assembly end 18a, the nipple 13 is pre-assembled to the outside of the assembly end 18a, and the welding ring 15 is inserted into the nipple 13 to be welded.

At this time, the assembly end (18a) to form a height that can accommodate the welding ring 15, and forms an inwardly bent end (13a) at the lower end of the nipple (13) to accommodate the welding ring (15).

That is, when the nipple 13 is assembled through the assembly end 18a formed in the through hole 18 of the pin 11, the bent end 13a of the nipple 13 is brought into close contact with the assembly end 18a of the pin. When the welding ring 15 is inserted into the nipple 13 of the temporary assembly state, the welding ring 15 is placed between the bent end 13a and the assembly end 18a.

Next, when passing through the welding furnace, the welding ring 15 is melted and flows between the bent end 13a and the assembled end 18a so that the nipple 13 is fixed to the body of the hot water heat exchanger 10.

Next, when the pipe pipe 12 is inserted into the assembled nipple 13, the watertightness is maintained by the outer circumferential ring 16 of the forging 12a provided at the end of the pipe pipe 12, and the nipple 13 And when the clip 17 is inserted into the upper end of the forging (12a), the pipe pipe 12 is fixed to the nipple (13).

That is, welding of the nipple is possible without the installation of a separate plate, and welding is made inside the nipple, so that the welding penetrates tightly and prevents welding defects.

As described above, the nipple welding structure of the gas boiler heat exchanger according to the present invention is formed by bending up the inner circumferential surface of the fin to form an assembled end portion, and welding the weld ring in a state in which the nipple is preassembled to the outside of the assembled end portion. By inserting into the nipple to be welded, it is possible to weld the nipple without installing a separate plate, and the welding is made from the inside of the nipple, so that it can be densely infiltrated to prevent welding defects and the welding part is not exposed to the outside. It does not exert an effect such that the appearance of the seam is prevented.

Although the present invention has been described in detail only with respect to the embodiments described, it will be apparent to those skilled in the art that various changes or modifications can be made within the spirit and scope of the present invention. It will have to belong to the claims.

Claims (2)

The inner peripheral surface of the through hole 18 of the pin 11 is bent upward to form the assembled end portion 18a, and the nipple 13 is preassembled to the outside of the assembled end portion 18a, and the welding ring 15 is connected to the nipple ( 13) and the nipple welding structure of the gas boiler heat exchanger, characterized in that it is inserted into the contact portion between the assembly end 18a and welded. According to claim 1, The assembling end (18a) is made to the height to accommodate the welding ring 15, inward bending end portion (13a) at the lower end of the nipple 13 so that the welding ring 15 is received Nipple welding structure of a gas boiler heat exchanger, characterized in that formed.