KR200414091Y1 - A boiler - Google Patents

Abstract

The present invention relates to a boiler. The present invention provides a case 11 having a predetermined space therein for combustion of fuel and heating of hot water and heating water, and a fuel is burned by a burner 15 provided in the inner center of the case 11. Combustion chamber 13 to be connected, the association 19 for discharging the combustion gas generated in the process of burning fuel in the combustion chamber 13 to the outside through the communication 23, between the combustion chamber 13 and the association 19 A pair of partition walls provided in the hot water supply pipe 27 through which the hot water flows and partitioning a plurality of flow paths inside the case 11 so that the heating water flowing into the case 11 is gradually heated from a low temperature to a high temperature ( 31) and 33, and a heating inlet 35 and a heating outlet 37 through which heating water flows in and out of the case 11. According to the present invention, heating water can be heated more efficiently, and heat loss can be minimized.

Boiler, Heating Water, Bulkhead, Euro

Description

A boiler

1 is a side cross-sectional view showing a preferred embodiment of the boiler according to the present invention.

2 is a cross-sectional view of the embodiment shown in FIG. 1.

Explanation of symbols on the main parts of the drawings

11: case 13: combustion chamber

15: burner 17: first head

19: Association 21: Second Head

23: communication 25: damper

27: hot water supply pipe 29: hot water supply outlet

31: first partition 33: second partition

35: heating outlet 37: heating outlet

39: Cleaning socket P1, P2, P3: Euro

The present invention relates to a boiler, and more particularly, to provide a boiler that can be expected to improve the thermal efficiency by heating the heating water gradually from a low temperature to a high temperature.

The boiler according to the prior art is composed of a combustion chamber in which fuel is burned by a burner, an association for discharging the combustion gas combusted in the combustion chamber to the outside through a communication, and a hot water supply pipe spirally surrounding the combustion chamber. The hot water for hot water is heated by heat generated in the process of burning fuel in the combustion chamber while flowing inside the hot water pipe. The heating water for heating is primarily heated by the combustion gas flowing through the pipe, and again by the heating water flowing through the inside of the hot water supply pipe.

However, the following problems occur in such a conventional boiler.

As mentioned above, the heating water is primarily heated by the combustion gas flowing through the pipe. However, the hot combustion gas flowing through the pipe and the heating water heating the room and entering the boiler show a significant temperature difference. Therefore, the heat of the combustion gas flowing through the plumbing may not be efficiently transferred to the heating water and the heat loss may occur by escaping to the outside through the communication.

Also, the burner is generally operated to burn fuel only when the room temperature is below a temperature set by the user. Therefore, even when the operation of the burner is stopped and additionally no combustion gas is generated, the combustion gas remaining inside the communication is discharged to the outside through the communication so that the heat of the combustion gas cannot be transferred to the heating water. Done.

The present invention is to solve such a conventional problem, an object of the present invention is to provide a boiler configured to maximize the thermal efficiency.

Another object of the present invention is to provide a boiler configured to selectively discharge combustion gas to the outside depending on whether the burner is operated.

According to a feature of the present invention for achieving the above object, the present invention is a case having a predetermined space therein for the combustion of fuel and heating of hot water and heating water, and the burner is provided in the inner center of the case A combustion chamber in which fuel is combusted by the combustion chamber, an association for discharging the combustion gas generated in a process of burning fuel in the combustion chamber to the outside through a communication; It includes a pair of partition walls for partitioning a plurality of passages in the interior of the case so that the heating water flowing in from the low temperature to a high temperature gradually, and a heating inlet and a heating export outlet through which the heating water is introduced into and out of the case. .

The partition wall is characterized by consisting of a first partition wall provided between the case and the association and a second partition provided between the association and the hot water supply pipe.

A first flow path through which the heating water flowing into the case flows is formed between the case and the first partition wall, and a second flow path through which the heating water transferred from the first flow path flows between the first partition wall and the second partition wall. Is formed, and a third channel through which the heating water delivered from the second channel flows is formed between the second partition wall and the combustion chamber; The heating water flowing through the first channel is primarily heated by the heating water flowing through the second channel, and the heating water flowing through the second channel is secondaryly heated by the combustion gas flowing through the tube. The heating water flowing through the third channel is tertiaryly heated by heat generated while fuel is burned in the combustion chamber by the burner and hot water flowing through the hot water supply pipe.

The first passage and the second passage communicate with each other at the lower end of both, the second passage and the third passage communicate with each other at the upper end of both, the heating inlet is connected to the upper portion of the first passage, the heating The export port is characterized in that connected to the lower portion of the third euro.

The hot water supply pipe is characterized in that it is provided in a spiral surrounding the combustion chamber.

It characterized in that it further comprises a damper for opening and closing the communication only when the fuel is combusted by the burner to generate the combustion gas.

According to the present invention, there is an advantage that the heating water can be heated more efficiently and at the same time, the heat loss generated when the heating water is heated can be minimized.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the boiler according to the present invention will be described in more detail.

1 and 2 show a preferred embodiment of the boiler according to the present invention.

As shown here, the case 11 forming the appearance of the boiler is formed in a substantially hollow cylindrical shape. A predetermined space is provided inside the case 11 for combustion of fuel and heating of hot water and heating water. Although not shown, the outer peripheral surface of the case 11 is provided with a heat insulating material.

On the other hand, the combustion chamber 13 is provided at the inner center of the case 11. The combustion chamber 13 is a space where combustion of fuel ignited by the burner 15 is substantially performed. The combustion chamber 13 is preferably formed in a hollow cylindrical shape having a cross section of a relatively small diameter compared to the case (11).

In addition, a burner 15 is provided at an upper portion of the burner 15, and a lower portion of the burner 15 is connected to the first head 17. The burner 15 serves to ignite the fuel. In addition, the first head 17 is ignited by the burner 15 and the combustion chamber 13 to guide the combustion gas generated in the process of burning fuel in the combustion chamber 13 to the pipe 19. It serves to communicate the association (19).

The first head 17 is connected to the lower end of the associating 19, respectively. In other words, the tube 19 is in communication with the combustion chamber 13 by the first head 17. The association 19 serves to discharge the combustion gas generated in the process of burning fuel in the combustion chamber 13 to the outside. The tube 19 is formed to be vertically long and provided in plurality at predetermined intervals so as to be spaced apart from the outer circumferential surface of the combustion chamber 13 by a predetermined distance. The upper end of the association 19 is connected to the second head 21, respectively.

And the lower end of the communication 23 is connected to the second head 21, respectively. That is, the association 19 is substantially in communication with the communication 23 by the second head 21 so that the combustion gas can be discharged to the outside. The other end of the communication 23 extends outdoors while one end thereof is connected to the second head 21.

A damper 25 is provided at one side of the communication 23. The damper 25 serves to selectively open and close the communication. That is, the damper 25 opens the communication 23 only when fuel is burned in the combustion chamber 13 by the burner 15 to generate combustion gas. The damper 25 is formed of a relatively hard material, and is configured to rotate upward to open and close the communication 23. Therefore, when fuel is combusted in the combustion chamber 13 by the burner 15 to generate combustion gas, the damper 25 is caused by the combustion gas flowing through the tube 19 and transferred to the communication 23. ) Rotates upwards and the communication 23 is opened. The damper 25 maintains a state in which the communication 23 is shielded by its own weight unless combustion gas is transferred to the communication 23, that is, fuel is not burned.

In addition, a hot water supply pipe 27 is provided inside the case 11. The hot water supply for hot water flows into the hot water supply pipe 27. The hot water supply pipe 27 is provided in a spiral shape surrounding the outer circumferential surface of the combustion chamber 13. That is, the association 19 and the hot water supply pipe 27 are sequentially provided between the inner circumferential surface of the case 11 and the outer circumferential surface of the combustion chamber 13. One end of the hot water supply pipe 27 is connected to the external water supply source W1, and the other end thereof is connected to the hot water supply outlet 29 for delivering the hot water to the hot water supply facility.

In addition, a first partition 31 and a second partition 33 are provided in the case 11. The first and second partitions 31 and 33 are formed in a cylindrical shape, respectively. The first bulkhead 31 is provided between the case 11 and the plumbing 19, and the second bulkhead 33 is provided between the hot water supply pipe 27 and the plumbing 19.

The first and second partitions 31 and 33 serve to partition the inside of the case 11 into a plurality of flow paths so that the heating water flowing into the case 11 is gradually heated from a low temperature to a high temperature. . That is, a first flow path P1 is formed between the inner circumferential surface of the case 11 and the outer circumferential surface of the first partition wall 31, and between the inner circumferential surface of the first partition wall 31 and the outer circumferential surface of the second partition wall 33. The second passage P2 is formed in the second passage P2. A third flow path P3 is formed between the inner circumferential surface of the second partition 33 and the outer circumferential surface of the combustion chamber 13.

The first flow path P1 and the second flow path P2 communicate with each other at the lower end thereof, and the second flow path P2 and the third flow path P3 communicate with each other at the upper end thereof. In addition, a heating inlet 35 through which relatively low-temperature heating water circulates in the room for heating is introduced into the first passage P1 to the upper portion of the first passage P1. The lower part of the third passage (P3) is connected to the heating outlet 37 for discharging the heated heating water to the outside while flowing the first to third passage (P3).

The heating water introduced into the first flow path P1 through the heating inlet 35 is primarily heated by the heating water flowing through the second flow path P2. And the first heating water flowing in the first flow path (P1) is transferred to the second flow path (P2) by the combustion gas flowing through the pipe (19) while flowing the second flow path (P2) 2 The car is heated. In addition, the heating water secondary heated in the second flow path (P2) is transferred to the third flow path (P3) heat generated in the process of burning fuel in the combustion chamber 13 by the burner (15). And the hot water flowing through the hot water supply pipe 27 is tertiaryly heated.

Reference numeral 39 is a cleaning socket. The cleaning socket 39 is used to clean the inside of the conduit 19 contaminated by combustion gas.

Hereinafter, a process of heating the hot water and the heating water according to a preferred embodiment of the boiler according to the present invention will be described in more detail.

First, look at the process of heating the hot water supply according to a preferred embodiment of the boiler according to the present invention.

The hot water supply water is supplied from the water supply source W1 to the hot water supply pipe 27. Thus, the hot water supplied to the hot water supply pipe 27 is heated by the heat generated in the process of burning fuel in the combustion chamber 13 while flowing the hot water supply pipe 27. The heated hot water is delivered to the hot water supply facility through the hot water supply outlet 29.

Next, look at the process of heating the heating water according to a preferred embodiment of the boiler according to the present invention.

Relatively low temperature heating water circulated through the yarn flows into the first flow path P1 through the heating inlet 35. The heating water introduced into the first flow path P1 is first heated by the heating water flowing through the second flow path P2 while flowing in the first flow path P1, and then transferred to the second flow path P2.

And the heating water delivered to the second channel (P2) is secondly heated by the combustion gas flowing through the pipe (19) is delivered to the third channel (P3). The heating water delivered to the third flow path P3 is thirdly heated by heat generated in the process of burning fuel in the combustion chamber 13 and hot water flowing through the hot water supply pipe 27 to heat the heating water. It is discharged through the outlet 37 to circulate the room.

The rights of the present invention are not limited to the embodiments described above, but are defined by the claims, and various changes and modifications can be made by those skilled in the art to which the present invention pertains within the scope of the claims. It is self-evident.

According to the boiler according to the present invention configured as described above can be expected the following effects.

First, according to the present invention, the heating water flowing through the first flow passage is secondly heated by the combustion gas flowing into the second flow passage in the state in which the first flow is heated by the heating water flowing in the second flow passage, It is transferred to the third channel again and is heated by the burner to be heated by the burner and the third heating by the hot water flowing through the hot water pipe. As such, the heating water is gradually heated from a low temperature to a high temperature, thereby minimizing heat loss, thereby allowing the heating water to be heated more efficiently. This effect is more pronounced in the case of industrial commercial boilers, which are relatively larger in capacity than relatively common domestic boilers.

In the present invention, the communication is selectively opened and closed by a damper only when fuel is combusted in the combustion chamber by the burner to generate combustion gas. Therefore, when the combustion of the fuel by the burner is not made, the relatively hot combustion gas remains inside the plumbing and heats the heating water, thereby minimizing heat loss, thereby enabling more efficient heating of the heating water.

Claims (6)

A case having a predetermined space therein for combustion of fuel and heating of hot water and heating water; Combustion chamber which is provided in the inner center of the case and the fuel is burned by the burner, Association for discharging the combustion gas generated in the combustion chamber in the combustion chamber to the outside through the communication, Hot water supply pipe is provided between the combustion chamber and the associated pipe, A pair of partition walls partitioning a plurality of flow paths inside the case such that the heating water flowing into the case is gradually heated from a low temperature to a high temperature, and Boiler comprising a heating inlet and a heating outlet to the heating water in and out of the case. The method of claim 1, The partition wall is characterized in that the boiler is composed of a first partition wall provided between the casing and the plumbing and the second partition wall provided between the plumbing and the hot water supply pipe. The method of claim 2, A first flow path through which the heating water flowing into the case flows is formed between the case and the first partition wall, and a second flow path through which the heating water transferred from the first flow path flows between the first partition wall and the second partition wall. Is formed, and a third channel through which the heating water delivered from the second channel flows is formed between the second partition wall and the combustion chamber; The heating water flowing through the first channel is primarily heated by the heating water flowing through the second channel, and the heating water flowing through the second channel is secondaryly heated by the combustion gas flowing through the tube. The heating water flowing through the third flow path is heated by the burner by the burner in the combustion chamber, characterized in that the third heating by the hot water flowing through the hot water supply pipe and the hot water supply pipe. The method of claim 3, wherein The first passage and the second passage communicate with each other at the lower end of both, the second passage and the third passage communicate with each other at the upper end of both, the heating inlet is connected to the upper portion of the first passage, the heating The export port is characterized in that connected to the lower portion of the third flow path. The method according to any one of claims 1 to 4, The boiler is characterized in that the hot water pipe is provided in a spiral surrounding the combustion chamber. The method of claim 5, wherein And a damper that opens and closes the communication only when fuel is combusted by the burner to generate combustion gas.

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