KR200192190Y1 - Dae su boiler - Google Patents

Abstract

The present invention aims to reduce the manufacturing cost and increase the temperature of the water due to its simple structure, and to provide a hot water boiler which can be used for a large amount of heating without increasing the thermal energy. Inner water transport path formed while being assembled at intervals, the heat transfer path 20 formed while assembling the third pipe to the outside of the second pipe body, and the outer water formed by assembling the fourth pipe to the outside of the third pipe body. A predetermined connecting tube 18 connecting the transfer path 24, the inner water transfer path and the outer water transfer path, a combustion chamber 40 positioned below the fourth pipe and communicating with the heat transfer path; It is formed outside the combustion chamber and there is a water inlet below, a water passage 45 for communicating with the outer water passage, and the drain pipe is attached to the upper portion of the outer water passage and the upper portion of the third tube Communication is attached and configured to communicate with the heat transfer path.

Description

Hot water boiler. {DAE SU BOILER}

The present invention relates to a hot water boiler, and more particularly to a hot water boiler that can be used for heating by heating the water to a high temperature instantaneously.

In general, hot water boilers are intended to use water for indoor heating and hot water after being put into a closed container, heated by a burner, and are widely used for household, industrial and agricultural purposes. Such a boiler mainly has a water pipe coiled in a combustion chamber, and the water is heated and moved to a heating facility while the high heat in the combustion chamber and the water in the water pipe exchange heat. However, in the conventional hot water boiler as described above, since high temperature residual heat is immediately exhausted through the exhaust port, a separate waste heat recovery device must be attached to increase thermal efficiency to have a predetermined thermal efficiency. In addition, the coiled water pipe has a low heat exchange effect due to its structure, and therefore, it takes a long time to heat the water to a high temperature. There is a problem.

Therefore, the object of the present invention is to provide a hot water boiler that can be used for large-capacity heating without increasing the thermal energy, the object of the present invention is to simplify the structure and reduce the manufacturing cost and increase the temperature of the water.

1 is a perspective view of the present invention hot water boiler.

2 is a cross-sectional view of the center of the present invention.

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

4 is a cross-sectional view taken along the line B-B in FIG.

<Description of the code | symbol about the principal part of drawing>

10: first tube 12: second tube

14: third body 16: fourth body

18, 19: connector 20: heat transfer path

22: Inner water path 24: Outer water path

26, 28: water cabinet 32: communication

34: Drain pipe 40: Combustion chamber

48: water inlet 50: burner

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

1 is a perspective view completed according to the practice of the present invention, Figure 2 is a central cross-sectional view of the present invention. According to the drawing, the lower part of the hot water boiler body 100 is provided with a combustion chamber dissipating high temperature heat while a burner is attached to one side, and has a predetermined conveying path through which water and heat are transferred by a multi-pipe. have.

3 and 4 are cross-sectional views taken vertically in the longitudinal direction to more easily show the structure inside the main body.

The above is described in more detail as follows.

First, the first pipe body 10, the second pipe body 12, the third pipe body 14, and the fourth pipe body 16 are assembled in the upper part of the main body 100 of the hot water boiler of the present invention, and spaced between each pipe body. The transfer paths (20, 22, 24) are formed while placing. That is, the outer 4th tubular body 16 is assembled with the frame 38 below, and the 3rd tubular body 14 with a small diameter is fitted inside, and the outer water conveyance path 24 is formed in between, and The intermediate heat transfer path 20 and the inner water transfer path 22 are inserted into the third pipe 14 and the second pipe 12 and the first pipe body 10 are also gradually reduced in diameter. Each tube 10, 12, 14, 16 is welded and fixed to the side frame 30 on both sides. At this time, the upper portion of the third tube 14 is provided with a water storage chamber 28 which is bent downward and the space of the outer water passage 24 is expanded, and the upper portion of the second tube 12 in both sides While bending downward, the heat collecting chamber 21 is formed to be in contact with the inner first tube body and to diffuse the space of the heat transfer path 20. Herein, a heat pipe 22 and a connecting pipe 18 for connecting the inner water path 22 and the outer water path 24 are attached to the inner and outer water paths 22 and 24. Make each other conduct. And the lower part of the first tube (10) also has a water storage chamber 26 is bent upward while the space portion is expanded. In addition, a lower portion of the heat transfer path 20 is provided with a predetermined connecting pipe 19 for conducting the water storage chamber 26 and the outer water transfer path 24.

On the other hand, the lower part of the main body 100 is provided with a combustion chamber 40 that is formed in the inner cylinder 44 in the same longitudinal direction as the tubular body, the burner 50 in the combustion chamber 40 toward the burner 50 is one side It is attached to the side frame 30.

In addition, an upper portion of the combustion chamber 40 has a heat passage 46, which is in communication with the heat transfer path 20 described above. In addition, the water passage 45 is formed around the combustion chamber while the outer cylinder 42 assembled at predetermined intervals is assembled to the outside of the inner cylinder 44 forming the combustion chamber 40. At this time, the upper portion of the water passage 45 is conductive with the above-described outer water transport path (24). And a lower portion of the outer cylinder 42 is attached to the water inlet 48 for supplying water to the water passage 45 by connecting the booty hose to the outside.

On the other hand, the communication body 32 and the drain pipe 34 is attached to the upper portion of the main body 100, the communication 32 is connected to the heat transfer path 20, the drain pipe 34 is the outer water transfer path The valve 36 is attached to one side by communicating with 24.

Referring to the operating state of the present invention configured as described above are as follows.

First, by connecting a hose (not shown in the drawing) capable of supplying water to the water inlet 48 below the main body 100 and operating the burner 50, the combustion chamber 40 is heated, and the water passage outside the combustion chamber ( The water is heated to a high temperature while the heat exchange with the water located in 45), and is transferred to the water storage chamber 26 through the outer water transport path 24 and the connecting pipe 19 above. On the other hand, the high temperature residual heat which heated the combustion chamber is transferred to both sides of the heat transfer path 20 through the upper heat passage 46, and is exhausted through the communication 32 in the upper heat set chamber 21. As a result, the heat transfer path 20 is heated and the temperature of the water continues to rise while the heat exchange is continuously performed with the water passing through the inner water transfer path 24 and the outer water transfer path 24.

Thereafter, the water through the outer water transport passage 24 is transferred to the upper water storage chamber 28 to be discharged through the drain pipe 34, and the water through the inner water transport passage 22 is the upper connection pipe 18. It is moved to the water storage compartment 28 through) and is also used for the purpose of heating and hot water through the drain pipe (34).

As described above, the present invention is to obtain instantaneously high temperature water while the water is continuously heated in the water transport paths 22 and 24 formed inside and outside the heat transfer path 20, and at a low cost. It is simple to manufacture and has the effect of saving energy with large capacity.

Claims (1)

An inner water transport path 22 formed by assembling the first tubular body 10 and the second tubular body 12 at intervals; A heat transfer path 20 formed by assembling the third tube 14 to the outside of the second tube 12; An outer water transport path 24 formed by assembling the fourth pipe body 16 to the outside of the third pipe body 14; A predetermined connector 18 for connecting the inner water transport path 22 and the outer water transport path 24: A combustion chamber 40 located below the fourth tube body 16 and communicating with the heat transfer path 20; A water passage (45) formed outside the combustion chamber (40) and having a water inlet (48) therein and communicating with the outer water transfer passage (24); The hot water boiler, characterized in that the drain pipe 34 is attached to the upper portion of the outer water transfer path 24 and the communication pipe 32 is attached to the upper portion of the third pipe 14 to communicate with the heat transfer path 20.