KR100695060B1 - Waste heat recovery boiler - Google Patents

Abstract

The present invention relates to a waste heat recovery boiler for utilizing the high-temperature exhaust gas generated during combustion, and more particularly, by the waste heat that the low-temperature heating water moving along the first heat transfer pipe inside the boiler is discarded to the outside during combustion. The present invention relates to a waste heat recovery boiler which can be used for heating and hot water by being supplied to a room along a second heat transfer body in a state of being warmed up by a burner's flame after being preheated first.

The present invention includes a first heat transfer pipe body to be preheated while moving to the lower portion along the flow path formed in the zigzag heating water is introduced through the water supply pipe communicated to the outside and disposed inside the boiler;

A plurality of communication ports providing a movement path of the exhaust gas to preheat the heating water inside the first heat transfer body through heat exchange while the high temperature exhaust gas moves in a zigzag along the outer surface of the first heat transfer body;

It is made by providing a connection pipe connected between the lower end of the first heat pipe body and the reservoir to supply the preheated heating water to the reservoir.

Description

Waste Heat Recovery Boiler {omitted}

1 is a longitudinal sectional view showing the internal structure of the boiler to which the present invention is applied;

Figure 2 is a partially cutaway perspective view of the first heat transfer tube of the present invention

Figure 3 is an enlarged cross-sectional view of the heat exchange state of the first heat exchanger tube of the present invention

Figure 4 is an enlarged cross-sectional view of the present invention the water tank and the first heat exchanger tube heat exchange state

5 is a cross-sectional plan view of the open state of the present invention front panel

[Explanation of symbols on the main parts of the drawings]

4 ‥ Burner 5 ‥ Reservoir

10 ‥ 1st heat transfer pipe 12 ‥ heat transfer pipe

14 ‥ Heating fin 15 ‥ Gas passage

20 ‥ Communication port 30 ‥ Connector

40 ‥ 2nd heat transfer body 51 ‥ opening part

The present invention relates to a waste heat recovery boiler for utilizing the high-temperature exhaust gas generated during combustion, and more particularly, by the waste heat that the low-temperature heating water moving along the first heat pipe inside the boiler is discarded to the outside during combustion. The present invention relates to a waste heat recovery boiler which can be used for heating and hot water by being supplied to a room along a second heat transfer body in a state of being warmed up by a burner's flame after being preheated first.

In general, boilers for heating cold water at high temperatures for the purpose of heating indoor spaces or using hot water directly are divided into electric boilers, gas boilers, oil boilers, briquette boilers, etc., depending on the type of energy source. The purpose of heating is performed by heating hot water to circulate the heating pipe embedded in the floor of the room.

However, the conventional boiler is not only lowered thermal efficiency due to the generation of waste heat wasted to obtain the necessary heat, but also because it can obtain the temperature required only after heating for a certain time, the consumption of energy source is very large, and therefore high cost The problem of heating costs is caused.

In other words, the conventional boiler is a vertical structure, the flame and high-temperature exhaust gas generated from the burner during combustion simply heats the reservoir installed in the flame chamber and is discharged to the outside of the boiler as it is not yet cooled. It was discarded as waste heat.

Therefore, in recent years, due to the depletion of energy sources in the industrial field, research and development are being actively conducted to obtain higher thermal efficiency using the same energy. The method of improving the thermal efficiency by saving and fuel savings is the mainstream.

However, in spite of such circumstances, conventionally, boilers having excellent thermal efficiency have not been properly presented by utilizing waste heat more efficiently and heating smoothly.

The present invention is to recover the waste heat that is discarded to the outside during combustion in order to actively solve the above problems can be used as a preheating source of heating water.

The present invention for this purpose is to allow the heating water in a low temperature state to move downward in a zigzag form along the first heat transfer pipe inside the boiler for a long time, and the flame and exhaust gas generated from the burner during combustion is the first heat transfer pipe The preheating of the heating water inside the first heat exchanger tube is primarily preheated through heat exchange while moving upward through a long time in the form of a zig-zag along the outer surface of the preheated heat, and the preheated heating water flows into the water reservoir in the flame chamber in earnest. Find a technique that allows heating to occur.

In addition, the present invention can be supplied to the room after the secondary heating by the flame and exhaust gas while the high temperature heating water heated in earnest by the burner in the reservoir in the upper portion along the second heat pipe body more excellent thermal efficiency Seek techniques to help provide

The configuration of the preferred embodiment for more effectively achieving the technical problem of the present invention will be described.

The overall technical configuration of the present invention can be seen at a glance through FIG. 1, which is roughly arranged to constitute a double partition of the inner and outer walls 2 and 3 and a flame generated when the burner 4 is burned. And the exhaust gas is heated to the high temperature of the heating water in the water reservoir (5) and is discharged to the outside through the associative (6), the heated high temperature heating water is supplied to the room in the boiler 1 is heated ,

The low temperature heating water introduced through the inside of the boiler 1 and introduced through the water supply pipe 13 may be preheated primarily by waste heat discarded to the outside while passing through the inside of the boiler 1 in a zigzag for a long time. Exhaust gas moves along the outer surface of the first heat pipe body 10 and the first heat pipe body 10 in a zigzag manner, and provides a movement path of the exhaust gas to preheat the heating water inside the first heat pipe body 10. It can be seen that it consists of an organic coupling configuration of a plurality of communication ports 20, and the connection pipe 30 for supplying the preheated heating water via the first heat transfer pipe body 10 to the water reservoir (5).

Hereinafter, the present invention having the schematic configuration will be described in more detail.

First of all, the first heat transfer pipe (10) performs a role of preheating the low-temperature heating water primarily by using the exhaust gas that is discarded to the outside despite the high temperature heat after heating the reservoir (5). As a core technology of the present invention, the heat pipes 12 formed therein are formed in the form of a zigzag so as to make a gentle inclination while going downward while passing the inside of the boiler 1 repeatedly for a long time.

In addition, the upper side is connected to the water supply pipe 13 connected to the outside is installed after the indoor heating the cold heating water is introduced through the water supply pipe 13 can be heat exchanged by the exhaust gas via the internal flow path (11). .

In addition, a plurality of heat transfer fins 14 are attached to the outer surface of the heat transfer tube 12 at equal intervals to maximize heat exchange with the exhaust gas, and heat transfer fins formed on upper and lower surfaces of the heat transfer tube 12 facing each other ( 14 is arranged in a staggered manner does not interfere with the flow of the exhaust gas flowing along the outer surface of the heat pipe 12, the gas passage formed on the outer side of the heat pipe 12 at the top of the heat pipe 12 as shown in FIG. Since the connection 6 which communicates with the outside 15 is formed, after the preheating of the heating water in the heat transfer tube 12, the low-temperature exhaust gas whose temperature is lowered can be smoothly discharged to the outside.

On the other hand, the first heat pipe body 10 is provided with a plurality of movement paths so that the flame and hot exhaust gases generated during the combustion of the burner (4) can move in a zigzag along the outer surface of the first heat pipe body (10). The communication port 20 of is installed.

The communication port 20 is alternately arranged while going upwards on both sides of the heat pipe 12 so that the gas passages 15 naturally formed on the outside of the heat pipe 12 are connected to each other in a zigzag form. Therefore, the flame and the high temperature exhaust gas generated during combustion flow into the upper gas passage 15 through the communication port 20 on one side and then move along the outer surface of the heat transfer tube 12 as shown in FIG. 3. The preheating of the low-temperature heating water flowing through the inside of the (10) effectively, through the communication port 20 of the other side can be moved in a continuous zigzag upwards.

The heating water preheated through the heat exchange while passing through the inside of the boiler 1 for a long time along the first heat pipe body 10 is connected to the lower end of the first heat pipe body 10 and the reservoir 5 ( It is supplied to the water tank 5 through the medium 30, and can be heated by the burner 4 in earnest.

On the other hand, the heating water of the primary preheating state supplied to the water storage tank 5 is heated in earnest in accordance with the operation of the burner (4), the heated heating water is not supplied directly to the room as a separate second heat transfer tube ( It is heated by the flame and exhaust gas of the burner 4 while passing through the inside of the boiler 1 for a long time along 40), and is supplied to the room through the heating pipe 42, and thus the thermal efficiency is very excellent.

That is, the heating water heated by the burner 4 in earnest is heat exchanged while passing through the inside of the boiler 1 for a long time along the flow path 11 formed in the heat transfer pipe 12 of the second heat transfer pipe 40, and thus the temperature does not decrease. It is supplied to the room in a heated state, and the heating efficiency can be significantly improved.

Here, in the case of the second heat pipe body 40, both sides of the heat pipe 12 are connected to each other in a zigzag fashion so that the gas passages 15 formed on the outside of the heat pipe 12 in the same manner as the first heat pipe body 10 are connected to each other. Communication ports 20 are alternately arranged while going upwards, and the reservoir 5 has a plurality of gas passages 15 connected between the flame chamber 7 and the second heat transfer pipe 40. The communication port 20 is formed.

Therefore, the flame and exhaust gas generated during combustion of the burner 4 pass through the communication port 20 of the water storage tank 5, and the communication port 20 of the second heat transfer pipe 40 and the first heat transfer pipe 10. It is possible to warm up and preheat the heating water more efficiently while passing through the zigzag form for a long time.

And the boiler (1) of the present invention is made of a double partition wall filled with a heat insulating material (8) between the inner, outer walls (2) (3), as shown in Figure 5, the opening portion 51 is formed in the front portion, The front plate 50, which is selectively removable, is integrally attached to the opening 51 through a bolting coupling or the like.

The reason why the opening part 51 is formed in the front part is to clean or maintain the soot, scale, various foreign substances, etc. caught in the outer surfaces of the first and second heat pipe bodies 10 and 40 and the heat transfer fins 14. This is to extend the life of the product.

The heating process according to the present invention having such a configuration will be described.

The low temperature heating water, which is cooled after the heating is performed while passing through the interior of the room, is supplied to the first heat transfer pipe 10 inside the boiler 1 through the water supply pipe 13.

The low temperature heating water supplied to the first heat pipe body 10 does not directly flow into the reservoir 5 installed in the flame chamber 7 but along the heat pipe 12 of the first heat pipe body 10. The inside of (1) is zigzag and moves downward naturally.

At this time, the flame and the high temperature exhaust gas generated during combustion of the burner 4 are communicated through the communication port 20 along the gas passage 15 formed outside the second heat transfer pipe 40 and the first heat transfer pipe 10. Heated by using the waste heat discarded to the outside by being exhausted to the outside through the heat exchanger 6 after the heat exchange with the low-temperature heating water flowing in the interior of the first and second heat pipes (10, 40) zigzag It is possible to preheat first.

Therefore, the heating water primarily preheated by the waste heat source is introduced into the water storage tank 5 through the connection pipe 30, and thus heating is performed in earnest.

That is, the heating water in the preheated state introduced into the water storage tank 5 is heated in earnest by the burner 4 and then warmed again while moving along the second heat transfer pipe 12, and the heated heating water of the circulation pump As it is supplied to the room through the heating pipe 42 according to the operation it is possible to perform the indoor heating smoothly.

The present invention can improve the efficiency of the boiler as well as significantly reduce the fuel cost by recovering the waste heat discarded to the outside to primarily preheat the heating water heated by the burner (4), the boiler ( 1) In the internal inspection and cleaning operation, the front plate 50 can be removed to provide excellent maintenance and maintenance through the opening 51.

According to the present invention, the low-temperature heating water passes through the inside of the boiler for a long time along the first heat pipe, and at the same time, the flame and exhaust gas generated during combustion pass through the long time in the form of a zigzag along the outer surface of the first heat pipe. The heating water flowing inside the first heat transfer body can be preheated primarily.

As a result, the total amount of waste heat discarded to the outside is recovered and used as a preheating source for the heating water, thereby dramatically improving the efficiency of the boiler and significantly reducing fuel costs.

Furthermore, the first preheated heating water is drawn into the water tank and heated in earnest by the burner, and is not immediately supplied to the room, but is transferred to the upper part along the secondary heat pipe and is heated by the flame and exhaust gas, and then heated to the room. Supplying them provides greater thermal efficiency.

Claims (5)

It is composed of double partitions of inner and outer walls (2) and (3), and the flame and exhaust gas generated during combustion of burner (4) heat the heating water in the reservoir (5) to a high temperature and then In the boiler (1) is discharged to, the heated high temperature heating water is supplied to the room is heated indoors, The heat exchanger tube 12 disposed above the inside of the boiler 1 and having a flow path 11 formed therein is zigzag and inclined downward, and a gas cylinder formed at an outer side of the heat transfer tube 12 at an upper end of the heat transfer tube 12. The first heat transfer pipe body is formed so that the connection 6 communicating with the furnace 15 to the outside is formed and the low-temperature heating water flowing through the water pipe 13 communicated to the outside moves down along the flow path 11 ( 10); The first heat pipe body 10 and the second heat pipe through heat exchange while the high-temperature exhaust gas moves zigzag along the outer surfaces of the first heat pipe body 10 and the second heat pipe body 40 through the reservoir 5. A plurality of communication ports 20 which provide a movement path of the exhaust gas to preheat the heating water inside the sieve 40; A connection pipe 30 connected between the lower end of the first heat pipe body 10 and the water storage tank 5 to supply preheated heating water to the water storage tank 5; The lower end of the water tank 5 and the heat transfer pipe 12 are integrally communicated with each other, and the heating water heated in earnest in the water reservoir 5 passes through the boiler 1 along the flow path 11 of the heat transfer pipe 12 to perform heat exchange. Waste heat recovery boiler, characterized in that consisting of a second heat transfer pipe 40 is supplied through the heating pipe 42 to the room after being heated through. The method according to claim 1, The first heat transfer pipe body (10) and the second heat transfer pipe body (40) are waste heat recovery boiler, characterized in that a plurality of heat transfer fins (14) are attached to the outer surface of the heat transfer pipe (12) at equal intervals, respectively. The method according to claim 1 or 2, The communication port 20 which provides a movement path of the exhaust gas moving along the outer surfaces of the first heat transfer pipe body 10 and the second heat transfer pipe body 40 is provided with a gas passage 15 formed outside the heat transfer pipe 12. While alternately arranged on both sides of the heat transfer pipe 12 so as to be connected in a zigzag shape to each other, the communication port 20 installed in the reservoir 5 is the flame chamber (7) and the second heat transfer pipe (40) Waste heat recovery boiler, characterized in that the connection between the gas passage (15) formed on the outside. The method according to claim 1, Boiler (1) consisting of a double partition wall filled with a heat insulating material (8) between the inner, outer walls (2) (3) is opened for cleaning and maintenance of the first and second heat pipes (10, 40) in the front Part 51 is formed, waste heat recovery boiler, characterized in that the opening portion 51 is attached to the removable front plate (50). delete

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