KR20100094744A - Boiler - Google Patents

Abstract

PURPOSE: A hybrid boiler using a water tube and a smoke tube is provided to form a compact combustion chamber by uniformly heat water and to improve heat exchanging efficiency by increasing a heating area. CONSTITUTION: A hybrid boiler using a water tube and a smoke tube comprises a boiler body(100), a water tube type heat exchanger(30), a smoke tube type heat exchanger, and a hot water collecting tank(60). The boiler body comprises a water tank(10) and a combustion chamber(20). The water tube type heat exchanger is composed of distribution pipes(31), collecting pipes(32), and vertical pipes(33). Water from one side of the water tank flows into the distribution pipes. The collecting pipes discharge the water to the other side of the water tank. The vertical pipes are installed between the distribution pipes and the collecting pipes at uniform intervals.

Description

Water pipe-related complex boiler {BOILER}

The present invention relates to a water pipe associated composite boiler, and more particularly, to a water pipe associated composite boiler in which a heat transfer area for heat exchange is large and a compact combustion space is possible and heat efficiency is maximized by recovering waste heat.

In general, a heat exchanger is provided on a boiler and manufactured in various forms in order to obtain optimal thermal efficiency.

For example, a heat exchanger has been proposed for increasing the heat exchange rate with the heat of combustion by installing a spiral water pipe along the inner wall of the combustion chamber or by arranging a plurality of water pipes across the combustion chamber.

However, a boiler having a heat exchanger according to the related art has a problem in that thermal efficiency decreases when it is used for a long time because the flow of fluid is not smooth and impurities are easily accumulated in the water pipe by using a spiral water pipe or a water pipe arranged in a transverse direction.

In addition, the heat exchanger of the conventional type heat exchange is performed while the heat of combustion passes between the spiral water pipes or the water pipes arranged in the transverse direction, and then discharged to the outside, so that the residence time of the heat of combustion is short, thereby increasing the thermal efficiency.

In the conventional heat exchanger, the spiral water pipe or the water pipes arranged in the transverse direction occupies a predetermined space in the combustion chamber, thereby making it difficult to manufacture the combustion chamber compactly, thereby increasing the manufacturing cost.

The present invention has been made to solve the above-mentioned problems, to provide a water pipe associated composite boiler having excellent heat exchange rate by smoothly flowing the hot water and increasing the heat transfer area for heat exchange per same area.

In addition, the present invention is to provide a water pipe associated composite boiler capable of evenly warming water and compactly implementing a combustion chamber.

In another aspect, the present invention is to provide a water pipe-related composite boiler maximizing the thermal efficiency by recovering the waste heat discharged after the heat pipe and heat exchange.

In order to solve the above problems, the present invention provides a blister which is configured to receive water from the outside along a wall, and a boiler body provided with a combustion chamber at an inner lower portion thereof; Distributing pipe installed in the combustion chamber in the horizontal direction and water is introduced from one side blister, installed side by side in the upper side of the distribution pipe, the collecting pipe for outflow of water to the other blister, and the water flowing from the distribution pipe flows into the collecting pipe. A water pipe heat exchanger comprising an upright tube installed at a predetermined interval between the distribution pipe and the collecting pipe; An associated heat exchanger installed above the water pipe heat exchanger and in communication with a blister and perforated at regular intervals therein so as to recover waste heat from the gas discharged after heat exchange with the water pipe heat exchanger; A communication tube is installed to discharge the waste gas passed through the associated pipe heat exchanger to the outside, and the hot water heated through the water pipe heat exchanger and the associated heat exchanger is collected and communicated with a blister at the top of the boiler body. It is characterized in that the hot water collection tank is provided.

In addition, the water pipe-type heat exchanger is formed so that one end of the distribution pipe is in communication with one side blister and one end of the collecting pipe is in communication with the other blister so that water introduced from one blister is introduced into the other blister via the upright tube. It is characterized by.

According to the present invention, there is an effect that the heat exchange rate is very excellent by smoothly flowing the hot water and increasing the heat transfer area for heat exchange per same area.

In addition, according to the present invention there is an effect that the water can be evenly heated and the combustion chamber can be compactly implemented.

And the present invention has the effect that can maximize the thermal efficiency by recovering the waste heat discharged after the heat pipe and heat exchange through the association.

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

1 is a perspective view of a water pipe associated boiler according to the present invention, FIGS. 2 and 3 are cross-sectional views of a water pipe associated boiler according to the present invention, and FIG. 4 is a perspective view of a water pipe associated heat exchanger of the water pipe associated boiler according to the present invention.

First, as shown in FIGS. 1 and 2, in the water pipe associated composite boiler according to the present invention, a blister 10 configured to receive water from the outside is formed along a wall, and a combustion chamber 20 is provided at an inner lower portion thereof. The boiler body 100 is provided.

In addition, the distribution pipe 31 is installed in the combustion chamber 20 in the horizontal direction and water is introduced from one side blister, and the collecting pipe 32 is installed side by side above the distribution pipe 31 so that the water flows out to the other blister. ) And a water pipe heat exchanger consisting of an upright tube 33 disposed at a predetermined interval between the distribution tube 31 and the collecting tube 32 so that water introduced from the distribution tube 31 flows into the collecting tube 32. 30).

In addition, it is installed above the water pipe heat exchanger 30, but is in communication with the blister 10 and associated with a predetermined interval therein so as to recover the waste heat from the gas discharged after heat exchange with the water pipe heat exchanger 30 ( An associated heat exchanger 40 is perforated 41.

And a communication tube 50 is installed to discharge the waste gas passing through the associated 41 of the associated heat exchanger 40 to the outside through the water pipe heat exchanger 30 and the associated heat exchanger (40). The hot water collecting tank 60 communicated with the blister 10 is provided at the top of the boiler body 100 to collect the heated hot water and discharge it to the outside.

In the above technical configuration, the boiler body 100 is composed of the outer wall and the inner wall blister 10 is formed therebetween, the water inlet pipe 1 is provided to receive water from the outside.

Combustion chamber 20 is provided in the inner lower portion of the boiler body 100 to heat the water in the heat exchanger by burning raw materials such as wood, coal, oil, gas, etc., opening and closing doors and burners, the amount of air inlet required for combustion Control means (blowing fans, blowers) and the like are provided.

3 shows an example in which the water pipe heat exchanger 30 of the water pipe associated composite boiler according to the present invention is installed in the combustion chamber 20 in the transverse direction. That is, in the present invention, the water pipe associated boiler 30 may be selectively installed in the combustion chamber 20 in the transverse or longitudinal direction.

4 is a perspective view of the water pipe heat exchanger described above, as shown in the drawing, the water pipe heat exchanger 30 has one end of the distribution pipe 31 communicating with one blister (the other end of the distribution pipe is blocked. And one end of the collecting tube 32 communicates with the other blister (the other end of the collecting tube is blocked) so that the water flowing from one blister flows into the other blister via the upright tube 33. .

That is, the water pipe heat exchanger 30 maximizes the heat transfer area with the heat of combustion by lengthening the length of the pipeline so that the water in the blister flows through the distribution pipe 31, the upright pipe 33, and the collecting pipe 32 sequentially. It is. In addition, by forming the upright tube 33 along the distribution pipe 31, a predetermined space is formed, and by utilizing this as a required space of the combustion chamber 20, the combustion chamber 20 can be made compact.

In addition, the water pipe heat exchanger 30 is installed in the combustion chamber 20 so that the flow of water flows in reverse, in the case of the odd heat of the water pipe heat exchanger, the water filled in the blister is introduced through one side of the distribution pipe upright After passing through the pipe, a pipe is formed so as to flow into the blister through one side of the collecting pipe.In the case of an even-numbered water pipe heat exchanger, the water filled in the blister is introduced through the other side of the distribution pipe and then passed through the upright pipe. The pipeline is formed to enter the blister through the other side of the tube. Accordingly, the water in the blister flows inversely through the water pipe heat exchanger, thereby allowing the water to be evenly heated.

Hereinafter will be described the operation of the water pipe associated composite boiler according to the present invention with reference to the above-described technical configuration.

First, when combustion is performed from the combustion chamber 20, high heat gas is generated and water in the water pipe heat exchanger 30 is heated by this gas heat.

The water flow in the water pipe heat exchanger 30 at this time is as follows.

Water filled in one side blister is introduced into a distribution pipe 31 having one end open, and then flows into the collection pipe 32 via a plurality of upright pipes 33, and then opens one end of the collection pipe 32. It is introduced into the other blister through.

Next, the combustion gas passing through the water pipe heat exchanger (30) passes through the pipe (41) of the pipe heat exchanger (40) to the lower portion of the hot water collection tank (60) and discharged to the outside through the communication pipe (50). do.

At this time, the combustion gas is heat-exchanged again with water charged in the associated heat exchanger 40 in the process of passing through the associated pipe 41 of the associated heat exchanger to recover the waste heat.

Accordingly, the water subjected to the primary heat exchange in the water pipe heat exchanger (30) is introduced into the associated heat exchanger (40) along the blister (10) to perform a secondary heat exchange, and then collected in a hot water collection tank (60). It is discharged to the outside through the hot water discharge pipe (2).

1 is a perspective view of a water pipe associated boiler according to the present invention,

2 and 3 are cross-sectional views of the water pipe associated boiler according to the present invention,

4 is a perspective view of a water pipe heat exchanger of the water pipe associated boiler according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: blister

20: combustion chamber

30: water pipe heat exchanger

40: associated heat exchanger

60: hot water collection tank

100: boiler body

Claims (2)

A boiler body having a blister configured to receive water from the outside along a wall surface, and having a combustion chamber provided at an inner lower portion thereof; The distribution pipe is installed in the combustion chamber in the horizontal direction and the water flows from one side blister, the collection pipe is installed side by side above the distribution pipe and the water flows out to the other blister, and the water flowing from the distribution pipe is the collection pipe A water pipe heat exchanger comprising an upright tube installed at a predetermined interval between the distribution pipe and the collecting pipe so as to flow into the pipe; An associated heat exchanger installed above the water pipe heat exchanger and in communication with the blister and perforated at regular intervals to recover waste heat from the gas discharged after heat exchange with the water pipe heat exchanger; A communication tube is installed to discharge the waste gas passing through the associated heat exchanger to the outside, and the hot water heated through the water pipe heat exchanger and the associated heat exchanger is collected and discharged to the outside of the boiler body. Water pipe associated composite boiler characterized in that the hot water collection tank communicated with the blister. The method of claim 1, The water pipe type heat exchanger has one end of the distribution tube communicated with the one side blister and one end of the collection tube communicated with the other side blister so that water introduced from the one side blister flows into the other side blister via the upright tube. Water pipe associated composite boiler, characterized in that the pipeline is formed so as to.

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