KR101350102B1 - Double pipe typed chimney for firewood boiler - Google Patents

Abstract

The present invention relates to a double communication of a wood fired boiler using wood as fuel, such as wood firewood, waste wood, wood pellets, and more particularly, is installed in the wood fired boiler to discharge the combustion gas and at the same time smoothly burning It is related to the double communication for firewood boilers, which is composed of double pipes, which prevents wood vinegar (condensation) from occurring when wood is burned and prevents wood vinegar from drying out even when wood vinegar is generated. .
According to the present invention, the exterior connected to the exhaust port formed in the combustion chamber of the firewood boiler; It is installed in the interior of the exterior so as to form an insulation space between the inner wall surface of the vertical part of the exterior, the length is shorter than the exterior, and the inner tube is installed on the lower side of the exterior; In the lower part of the lower section, a double tube communication system is provided for a firewood boiler having a double tube structure of an exterior and an inner tube.
Therefore, it has the effect of inhibiting the production of wood vinegar and preventing clogging of communication by the structure that does not accumulate even if the wood vinegar occurs.

Description

Double pipe typed chimney for firewood boiler

The present invention relates to a double communication of a wood fired boiler using wood as fuel, such as wood firewood, waste wood, wood pellets, and more particularly, is installed in the wood fired boiler to discharge the combustion gas and at the same time smoothly burning It is related to the double communication for firewood boilers, which is composed of double pipes, which prevents wood vinegar (condensation) from occurring when wood is burned and prevents wood vinegar from drying out even when wood vinegar is generated. .

Coal fired boilers are used for heating and hot water production, and the fuel used is wood, firewood, waste wood, etc., so that the wood is used in various industries such as vinyl house, mushroom planting, agriculture, various industrial sites, and housing.

This firewood boiler is composed of a combustion chamber which is a space in which an inlet and an exhaust port are formed and fuel is combusted, a water chamber surrounding the combustion chamber, and a heat medium filled with the combustion chamber, and a communication device connected to the exhaust port to discharge combustion gas. have. The communication is mainly installed vertically, and is installed high in order to facilitate the discharge of the combustion gas by the pressure difference and to increase the combustion efficiency.

When the wood fuel is put into the combustion chamber and combusted, the water chamber surrounding the combustion chamber is heated, and a heat medium such as water filled in the chamber is heated and circulated to a place for heating, or it is sent out to a place requiring hot water. Achieve your purpose. The combustion gas exits the combustion chamber through the exhaust port, and is discharged to the outside through communication.

Since the firewood boiler as described above uses wood such as wood firewood, waste wood, and wood pellets as fuel, there is a problem that communication is blocked by wood vinegar (condensation) generated when burning fuel.

All wood used as fuel contains water, with well-dried wood having a water content of around 20%, and fresh wood immediately after felling, up to 40-50%. Therefore, in the case of a firewood boiler using wood as a fuel, when the wood is burned, moisture is vaporized and included in the combustion gas and is discharged. The vaporized water is in communication with the boiler according to heat exchange efficiency, combustion conditions, and weather conditions. Condensation occurs on the flanks.

That is, when the temperature at the time of escape from which the combustion gas exits the communication is high, since the internal temperature of the communication is higher than the dew point temperature, the vaporized moisture does not condense and all escape. However, when the temperature of the combustion gas is lowered due to the high thermal efficiency of the boiler, the temperature inside the outlet side of the communication is often lower than the dew point temperature, in which case condensation occurs. And even when the temperature difference between the outside temperature is severe, the internal temperature of the communication is often below the dew point temperature, in which case condensation also occurs.

If condensation occurs as described above, a problem occurs in which communication is blocked. That is, when wood is burned, a significant amount of volatile substances such as tar in wood components are burned completely to generate a lot of smoke, and the water contained in the wood is evaporated and discharged together through the communication. At this time, the combustion gas with a lot of moisture in the upper portion of the communication comes in contact with the cold communication condensation (wood vinegar) is generated, the wood vinegar flows down the inner wall of the communication.

While wood vinegar is flowing down, it is contaminated with dust, tar, etc. of charcoal in combustion gas, and is dried and adhered by the high temperature of the lower part of communication, thereby preventing communication. In particular, the use of wood with a high moisture content and a large amount of wood vinegar is produced in cold weather, the communication blockage is accelerated, the user's effort and burden is a great situation. As such, when the communication is blocked, the efficiency of the boiler is lowered and it becomes inoperable. Therefore, it is necessary to clean several times a month.

Therefore, an object of the present invention is to suppress the production of wood vinegar, which causes the blockage of communication, to delay communication blockage.

The temperature of the flue gas in the flue during the operation of the firewood boiler is unchanged, but it can be classified into two conditions in connection with condensation. The first is a condition in which communication is not blocked well, when the upper communication temperature is higher than the dew point temperature or the lower communication temperature is lower than the dew point, and the combustion gas temperature is extremely high or low. The second condition is that the communication is well blocked, where the communication lower temperature is above the dew point and the communication upper temperature is below the dew point.

The present invention is to induce relaxation in the first condition when the combustion gas temperature in the communication belongs to the second condition, to increase the combustion gas temperature of the communication top to reduce the amount of wood vinegar produced, the wood vinegar produced at the top of the communication is high temperature It is a specific object to provide a structure of the communication to prevent the clogging of the communication by preventing the accumulation of drying by flowing down so as not to flow through contact.

In order to achieve the above object, the present invention provides a structure for preventing the mixture of dust and tar contained in the wood vinegar and the combustion gas flowing down the inner wall of the communication to accumulate and adhere to dry by high heat at the bottom of the communication.

For this purpose, the communication consists of a double tube of inner tube and outer tube. That is, the exterior may be a conventional commercial communication can be used, the inner cylinder is shorter than the outer diameter and shorter in length so as to maintain a predetermined interval in the interior of the structure is installed.

In the above structure, the position and length of the inner tube are adjusted so that the temperature of the combustion gas on the upper side of the communication is higher than the dew point. That is, the length of the inner tube may be increased in order to increase the combustion gas temperature of the upper portion of the communication, but if it is too high, condensation may occur at the upper portion of the inner tube. Therefore, the length of the inner tube may be determined according to the temperature of the average combustion gas of the boiler in consideration of various matters such as the efficiency of the boiler.

Therefore, the condensation is reduced by the communication of the double tube structure, and even if condensation occurs at the upper part of the communication, the condensation flows down the inner wall of the outer surface of the lower temperature than the inner tube, so that the wood vinegar dries and accumulates and prevents the communication. It becomes possible.

According to the present invention, even when well-dried, it is possible to minimize the generation of wood vinegar (condensation) when using the wood fuel that always has moisture, and even if the wood vinegar occurs, it does not accumulate adhesion and has an effect of preventing the blockage of communication. . Therefore, the thermal efficiency of the firewood boiler is increased, the discharge of the combustion gas is smooth, the endurance life is increased, there is an effect that can reduce the user's effort by cleaning the communication. In addition, this makes it possible to use wood fuel containing moisture without any problem, so that the use of cheap fuel is highly recommended, and productivity in various industrial parts is improved.

1 is an overall configuration diagram of a firewood boiler of the present invention
2 is an exemplary view of a dual communication structure
3 is a cross-sectional view of double communication
Figure 4 is an exemplary embodiment of the inner tube
5 is an exemplary embodiment of the appearance

As shown in FIG. 1, the firewood boiler includes a combustion chamber 10, which is a space in which an inlet 1 and an exhaust port 2 are formed and fuel is combusted, and a water chamber 3 filled with a heat medium surrounding the combustion chamber 10. It is composed of a main body 20 including, and the communication 30 connected to the exhaust port 2 to discharge the combustion gas burned. The communication 30 is mainly installed vertically, and is installed high to smoothly discharge the combustion gas due to the pressure difference.

The present invention has a structure characteristic of the communication (30), as shown in Figure 2, the exterior (4) connected to the exhaust port (2) formed in the combustion chamber (10); The inner pipe is installed inside the facade 4 so that the heat insulation space 5 is formed between the inner wall surface of the vertical part of the facade 4, and the length is shorter than the facade 4, and the inner pipe is installed below the facade 4; (6); consists of the outer appearance 4 only in a predetermined section of the upper side of the communication 30, the remaining lower section has a double tube structure of the exterior (4) and the inner tube (6). The inner tube 6 is 10 ~ 30mm in diameter smaller than the outer appearance 4, the length is preferably about 1/4 to 3/4 of the outer appearance 4, but can be adjusted according to the thermal efficiency and structure and characteristics of the boiler. .

And assembling the exterior 4 and the inner tube 6 is a floating type, it is preferable to facilitate the cleaning after the communication 30 is removed from the boiler. In other words, the inner tube 6 has a structure in which the inner tube 6 is free to be pulled out and inserted so that the inner tube 6 is movable, not a fixed structure inside the outer tube 4.

It is preferable that a plurality of spacers 7 are installed in the inner tube 6 so as to secure an insulating space 5 between the outer tube 4 and the inner tube 6. Spacer 7 may be implemented in a variety of materials and shapes, as shown in Figure 2 (a) may be a structure for fastening the bolt through the inner tube 6 with a nut, as shown in Figure 2 (b) and 4 A small iron plate may be bent and fixed to the inner tube 6 by spot welding or the like.

And the lower part of the exterior 4 is provided with the locking stand 8a, 8b which supports the lower end part of the inner tube 6. As shown in FIG. As shown in FIGS. 2 (b) and 5 (a), one or more hangers 8a may be installed at one or more inner walls of the exterior 4, and as shown in FIGS. 2 (a) and 5 (b). It may be provided with one long hanger 8b across the diameter portion of the exterior 4. The material and shape of the hangers 8a and 8b may be variously modified, but its main function is to support the inner tube 6.

In the case of the hanger 8a, a small iron plate is bent and fixed to the inner wall of the outer wall 4 by spot welding, or the like. In the case of the hanger 8b, the long bolt penetrating the outer wall 4 and fixed thereto An embodiment consisting of a nut.

Referring to the operation of the double communication 30 for the firewood boiler having the structure as described above are as follows.

Wood used as fuel for firewood boilers has a certain amount of moisture, no matter how well-dried, and the raw wood immediately after logging has a water content of 40-50%. When the wood is burned in the combustion chamber 10, the conventional problem that the communication 30 is blocked. However, the present invention does not block the communication 30 even when wood is used as a fuel because of the operation of the communication 30 having a double tube structure.

The temperature of the combustion gas of a coal fired boiler changes from time to time with characteristics such as boiler efficiency. If the temperature at which the combustion gas escapes the communication 30 is higher than the dew point of the combustion gas, no condensation occurs and there is no blockage of the communication 30. In addition, when the combustion gas temperature at the lower portion of the communication 30 is lower than the dew point, the wood vinegar is not dried on the wall while it is generated and flows down, and thus flows down to the lower end of the communication 30 so that there is no blockage of the communication 30.

However, when the lower temperature of the communication 30 is above the dew point, and the upper temperature of the communication 30 is below the dew point, wood vinegar is generated on the upper part of the communication 30 to flow down while contaminating charcoal dust and tar. When the wood vinegar flows down and the temperature of the communication 30 is about 100 ° C., water is evaporated and only the solid matter adheres and accumulates and starts to block the communication 30.

As seen above, since the lower side temperature of the communication 30 is above the dew point and condensation occurs when the upper side temperature is below the dew point, the present invention causes the upper side temperature of the communication 30 to also be above the dew point to generate condensation. As a structure for suppressing the structure of the double pipe is provided. And a certain section of the upper portion of the communication (30) has a structure of a single tube having only the exterior (4) so that the condensation does not accumulate even if condensation occurs, the lower portion provides a double tube structure of the exterior (4) and the inner tube (6). .

When wood is burned in the combustion chamber 10, the moisture is gasified and discharged to the outside along the communication 30 with the combustion gas. When the combustion gas passes through the communication tube 30 of the double tube, most of the combustion gas passes through the center of the inner tube 6, and some of the combustion gas passes through the adiabatic space 5.

The interior of the inner tube 6 has a higher temperature than the thermal insulation space 5. That is, since the exterior 4 located at the outer side of the heat insulation space 5 is in contact with the outside air, the temperature is relatively low. Therefore, in the double pipe structure, the combustion gas temperature at the upper end of the inner tube 6 is higher than the upper end temperature of the adiabatic space 5, so that the combustion gas in the thermal insulation space 5 is slower than the flow in the inner tube 6 and stagnant.

Therefore, the heat insulation space 5 has an adiabatic action for preventing the combustion gas flowing along the inner tube 6 from being cooled by the outside air, and the combustion gas reaching the upper portion of the communication 30 has a lower temperature of the communication 30. Will remain the same. Therefore, even in the upper part of the communication, it becomes more than the dew point and there is no generation of condensation.

In addition, when the upper portion of the communication 30 is below the dew point under the influence of air temperature, condensation may occur on the upper inner wall of the exterior 4. That is, the communication 30 of the present invention has a structure of a double tube, the upper portion is a structure having only the appearance (4). Therefore, if condensation occurs on the upper inner side wall of the exterior 4, it flows down along the wall of the exterior 4.

When condensation flows down and comes into the structure of a double pipe | tube, it does not contact high temperature inner pipe | tube 6, but continues to flow down along the inner wall of the exterior | casing 4. As shown in FIG. Since the inside of the insulated space 5 of the double pipe structure has a lower temperature than the inside of the inner pipe 6, the wood vinegar flowing along the inner wall of the exterior 4 of the insulated space 5 does not dry up and continues to flow out and is discharged. .

Thus, in the present invention, the upper side of the communication (30) has a structure of one external appearance (4), and only the lower part of the communication (30) has a structure of a double pipe, condensation is formed at the top of the external appearance (4), It flows downward along the inner wall surface of the exterior 4 but continues to flow along the exterior 4 wall surface of the heat insulation space 5 without any contact with the inner tube 6, and never dries and accumulates. The wood vinegar flowing down the bottom of the communication (30) is discharged to the outside.

In this way, even when the wood fuel is used, the generation of condensation is suppressed, and even if condensation is generated, there is no problem of clogging because the communication 30 is not dried and accumulated.

1: inlet port 2: exhaust port
3: sink room 4: appearance
5: insulation space 6: inner pipe
7 spacer 8a, 8b hanger
10: combustion chamber 20: main body
30: communication

Claims (3)

An exterior 4 connected to the exhaust port 2 formed in the combustion chamber 10 of the firewood boiler; The inner pipe is installed inside the facade 4 so that the heat insulation space 5 is formed between the inner wall surface of the vertical part of the facade 4, and the length is shorter than the facade 4, and the inner pipe is installed below the facade 4; (6); consisting of, for the firewood boiler, characterized in that the upper section of the communication (30) only the outer section (4), the remaining lower section has a double tube structure of the outer (4) and the inner tube (6) Double communication.
2. The double communication for a firewood boiler according to claim 1, characterized in that a plurality of spacers (7) are provided in the inner tube (6) to secure an insulation space (5) between the outer tube (4) and the inner tube (6).
2. The double communication for a firewood boiler according to claim 1, wherein at least one hanger (8a) (8b) is provided at a lower portion of the outer appearance (4), so that the lower end of the inner tube (6) is supported.

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