KR101349913B1 - Air dispersion type burner for pellet boiler - Google Patents

Abstract

The present invention relates to an air dispersion type combustion device for a pellet boiler. According to the present invention, the air dispersion type combustion device comprises an outer case located on the outside of a boiler case and an inner case located on the inside of the boiler case. A center air path connected to the outer case is formed on the inner case. An additional air path separated by a partition is formed on the circumference and the upper part of the center air path. A plurality of holes is formed on the inner wall surface of the partition. When a pellet is combusted in the inner space of the inner case, as two air blowers send air from the outside, strong wind is supplied through the hole formed on the side so that combustion efficiency is improved.

Description

Air dispersion type burner for pellet boiler

The present invention relates to a combustion apparatus for a pellet boiler, and more particularly to an air dispersed pellet boiler in which pellets are uniformly dispersed using air to increase combustion efficiency.

Currently, boilers have a variety of structures and characteristics from industrial to home use. The boiler mainly heats water or air by using combustion heat of fuel such as gas or gas such as light oil, kerosene and gasoline.

By the way, oil, gas, etc. are very expensive, so heating costs are high.

In particular, farms that use boilers as heating devices for growing crops in greenhouses and plastic houses, etc., have increased the cost of fuel by increasing the price of cultivated crops.

Recently, solid fuels such as briquettes and coal have been used.

However, not only solid fuels such as coal are buried in a limited amount, and the gas generated when the solid fuel is burned is not only harmful to the human body but also causes problems of global warming.

In recent years, there has been a tendency to conserve natural resources and develop eco-friendly energy sources as the interest in the environment has increased and problems have arisen due to the depletion of resources. In this atmosphere, the waste wood is pelletized and used as fuel The use of pellet fuel is increasing.

Pellet fuel is produced by crushing wood with a fine sawdust near to powder and mixing, extruding, cutting and drying.

In the boiler using pellet fuel, a ignition heater of a hot wire type is generally used to ignite the pellets injected into the combustion port. After ignition, the boiler is burned by receiving air from a combustion furnace, that is, a case.

In the combustion chamber structure for this purpose, the pellet is seated on the combustion plate having a hole in the bottom, and the air is injected through the hole to burn the pellet.

One of the problems occurring in the conventional pellet boiler structure is that the combustion heat or flame generated from the combustion plate is backfired to the storage hopper into which the pellet boiler is injected, so that the pellets are carbonized, resulting in waste of pellets and damage to the pellet feeder. There was this.

In addition, unlike other liquids or gaseous fuels, pellets are not evenly dispersed in the combustion chamber, or due to the characteristics of the material itself, there is a problem that complete combustion cannot be achieved.

As a result, excessive flame rises vertically during the combustion process, resulting in incomplete combustion, resulting in increased fuel consumption, excessive combustion material, and even damage to the pellet feeder.

In order to solve this problem, various techniques are disclosed.

Among them, the "burner for pellet boiler" (Korean Patent Publication No. 10-2012-0130920, Patent Document 1) rotates the combustion plate in which the combustion of the pellets so that the pellets are evenly seated on the combustion plate to improve the combustion efficiency. To increase.

However, a technique such as Patent Document 1 has a problem in that heat generated by combustion is transferred to a motor shaft for rotating the combustion plate, so that it is practically impossible to use.

In addition, there are other technologies to improve the thermal efficiency by recirculating and supplying the exhaust gas multiple times, and devices for moving or stirring the pellets by various mechanical methods in the combustion chamber are disclosed. Due to the damage to the mechanical parts, there was a problem that the cost required for repair and maintenance of the mechanical parts is more expensive.

In particular, for pellets or firewood boilers, it costs around 5 million won for home use only, and for houses, etc., it requires more cost even with the existing configuration, and it adds complex mechanical components to increase thermal efficiency. Has a problem of declining consumer preference.

In order to solve this problem, the present applicant has filed a patent decision of "Air Dispersed Pellet Boiler" (Korean Patent Application No. 10-2013-0024659). In addition, by installing several air supply pipes, the air is distributed evenly inside the combustion chamber to increase thermal efficiency.

However, the pipe for supplying air has a problem in that it is easy to block or block the hole formed by a lot of ash generated as the pellets are burned, and the pipe inserted into the case may be easily damaged by heat.

KR 10-2012-0130920 (2012.12.04)

The air-dispersed combustion apparatus for pellet boilers of the present invention is intended to solve the problems occurring in the prior art as described above, and to further improve the technology patented and filed by the present applicant to increase the thermal efficiency while increasing durability.

More specifically, the combustion device is composed of an outer case located outside the boiler case, and an inner case located inside the boiler case, forming a central air passage from the outer case to the inner case, while the upper portion of the central air passage and A separate air passage is formed around the side surface by a partition wall, and a plurality of holes are formed in the inner wall surface of the partition wall, and two blowers are blown from the outside to allow the pellet to be burned in the inner space of the inner case. Strong wind is supplied through the formed holes to increase the combustion efficiency.

This is due to the fact that outside air, which has passed through the outer passage in the form of bulkheads, flows into the central air passage through a number of holes, and blows the wind, thereby further increasing the combustion efficiency of the pellets by the evenly distributed blowing of air. It is intended to increase durability by minimizing occurrence.

In addition, the ash tray is located at a lower position than a plurality of holes for air blowing on the side while the center has a downwardly inclined inverted triangle shape, and ashes generated by burning pellets inside the inner case are blown, and the ash is introduced into the boiler case. It is intended to prevent scattering and contamination.

In addition, the pellets introduced through the pellet supply pipe are distributed and installed as close as possible to the inner space of the inner case as closely as possible along the inclined pellet guide passage in the outer case and the guide inclined plate installed in the inner case. The air inlet is formed to allow the pellets to be more evenly dispersed while falling in accordance with the output of the blower, so that the fuel can be evenly dispersed.

In particular, it is intended to relatively easily increase the combustion efficiency by controlling the output of the two blowers by allowing the outside air blown from the two blowers to be supplied to the inside separated by the partition.

In order to solve the above problems, the air-dispersed combustion device for a pellet boiler of the present invention is provided with a boiler case (1), one side of which is installed in the boiler case (1) to burn the pellet boiler combustion device In the above, the pipe connection hole 11 is connected to the pellet supply pipe (11a) to be supplied with the pellet is formed on the upper side, the first air inlet 12 is formed on one side of the back, the first air inlet (12) The first blower (12a) is provided on the outside to supply the outside air to the inside, the second air inlet (13) is formed on the other side of the rear side, the second blower (13a) is installed outside the second air inlet (13) And supplying the outside air to the inside, and a pellet discharge port 14 is formed at the center of the front upper portion, and connects the pipe connection hole 11 and the pellet discharge port 14 to form a downwardly inclined pellet guide passage (15) The guide box 15a is installed inside the above. In the lower portion of the outlet outlet 14, a central air outlet 16 having inclined portions 16a is formed at both sides thereof so that the shape of the lower end is lower in the center, and on both sides and the upper portion of the pellet outlet 14, respectively. An outer case 10 having an outer air outlet 17 having a “∩” shape spaced apart from the circumference of the pellet outlet 14, and installed outside the boiler case 1; A pellet supply port 21 is formed at the upper center of the rear surface and connected to the pellet discharge port 14 through which the pellet discharged through the pellet discharge port 14 is introduced. The central air inlet port 22 is connected to the central air outlet port 16 through which the air discharged through the central air outlet port 16 is introduced, and the outer air outlet port 17 is connected to the outer air outlet port 17. The outer air inlet 23 through which air discharged through the inlet is formed, and the partition wall 24 including the outer wall 24b and the inner wall 24c in the front-rear direction along both ends of the outer air inlet 23 is formed. The hollow portion 24a is formed between the partition walls 24, and a barrier wall 25 connecting the two partition walls is formed at the front side of the partition wall, and a heat outlet 26 is formed at the center of the front upper side. In the lower portion of the heat discharge port 26 A rim jaw 26a is formed, and a plurality of side air inflow holes 27 are formed in the inner wall 24c, and a lower back support part 28 is formed in the lower portion of the inner wall 24c. (1) It is comprised including the inner case 20 installed in the inside.

At this time, the back support portion 28 takes the same shape as the inclined portion 16a, the bottom of the shape has a "∨" shape inclined downward toward the center, and the connecting rod 31 is connected to one side The backrest 30 having the handle 32 at the end of the connecting rod 31 is seated on the backrest support 28 and the inclined portion 16a and is installed to be slidably moved forward and backward. It is done.

In addition, the lower portion of the pellet supply port 21 is provided with a guide inclined plate 29 inclined downward toward the front side is characterized in that the pellets introduced through the pellet supply port 21 is configured to slide forward.

In addition, the guide inclined plate 29 is positioned at a lower end spaced apart from the upper portion of the back support 28 and the back 30, characterized in that both sides are connected to the inner surface of the inner wall (24c). .

In addition, the outside case 10 is introduced into the first air inlet 12 by the outside air flowing into the second air inlet 13 by the operation of the second blower 13a and the first blower 12a. The partition member 40 is installed so that the outside air moves to the outer air outlet 17 and the central air outlet 16, respectively.

According to the present invention, the combustion device comprises an outer case positioned outside the boiler case and an inner case positioned inside the boiler case, and forms a central air passage from the outer case to the inner case, while the upper portion of the central air passage is formed. A separate air passage is formed around the side wall and the side wall, and a plurality of holes are formed in the inner wall surface of the partition wall, and two blowers are blown from the outside to burn the pellets in the inner space of the inner case. The strong wind is supplied through the hole formed in the to increase the combustion efficiency.

This is due to the fact that outside air, which has passed through the outer passage in the form of bulkheads, flows into the central air passage through a number of holes, and blows the wind, thereby further increasing the combustion efficiency of the pellets by the evenly distributed blowing of air. It is possible to increase the durability by minimizing the occurrence.

In addition, the ash tray is located at a lower position than a plurality of holes for air blowing on the side while the center has a downwardly inclined inverted triangle shape, and ashes generated by burning pellets inside the inner case are blown, and the ash is introduced into the boiler case. It is possible to prevent scattering and contamination.

In addition, the pellets introduced through the pellet supply pipe are distributed and installed as close as possible to the inner space of the inner case as closely as possible along the inclined pellet guide passage in the outer case and the guide inclined plate installed in the inner case. Since the air inlet is formed, the pellets may be more evenly distributed forward while falling according to the output of the blower, so that the fuel may be evenly dispersed.

In particular, by allowing the outside air blown from the two blowers to be supplied to the inside separated by the partition, the combustion efficiency can be relatively easily increased by controlling the output of the two blowers.

1 is an exploded perspective view showing a partially cut air dispersing combustion apparatus for a pellet boiler of the present invention.
Figure 2 is a partially cut perspective view showing an air dispersed combustion device for a pellet boiler of the present invention.
Figure 3 is a partially cut perspective view showing an example in which the partition is installed in the present invention.
Figure 4 is a production picture of the outer case side in the present invention.
Figure 5 is a photograph showing an embodiment of the inner case in the present invention.

The present invention relates to a boiler boiler (1) is provided as shown in Figure 1, one side is installed inside the boiler case (1) to burn pellets for the combustion boiler.

Hereinafter, the air dispersion type combustion apparatus for pellet boiler of the present invention will be described in detail with reference to the accompanying drawings.

The air dispersion type combustion apparatus for pellet boiler according to the present invention is largely composed of an outer case 10 and an inner case 10.

In addition, although not shown, an electric heater for igniting pellets, such as a conventional pellet boiler, may be installed obviously.

The outer case 10, which is a component of the present invention, takes the form of a hollow metal box as shown in FIG. 1, and is installed outside the boiler case 1.

Outer Case (10)

The upper portion is formed with a pipe connection hole 11 is connected to the pellet supply pipe (11a) is supplied with the pellet.

As is known in the pellet feed pipe (11a), a screw feeder or the like can be installed therein so that the pellet can be smoothly transferred from the storage hopper or the like.

In addition, the outer case 10 has a first air inlet 12 is formed on one side of the rear surface, the first blower 12a is provided on the outside of the first air inlet 12 is configured to supply the outside air to the inside.

In addition, a second air inlet 13 is formed on the other side of the rear surface, and a second blower 13a is provided outside the second air inlet 13 so as to supply outside air to the inside.

Having two blowers is to burn the pellets transferred into the inner case 20 in various directions to increase the combustion efficiency.

On the other hand, the pellet outlet 14 is formed in the upper front center of the outer case 10 as shown.

At this time, as shown in the drawing, the guide housing 15a connecting the pipe connecting hole 11 and the pellet outlet 14 and forming the downwardly inclined pellet guide passage 15 is installed inside the outer case 10. The pellet introduced into the interior through the connection hole 11 can be easily discharged along the inclined pellet guide passage (15).

In addition, a central air outlet 16 is formed at the bottom of the pellet outlet 14, the central air outlet 16 is formed in the inclined portion (16a) on both sides so that the shape of the bottom is low in the center as shown in the figure Form.

In addition, the outer side air outlet 17 of the "∩" shape spaced apart from the circumference of the pellet outlet 14 is formed on both sides and the upper portion of the pellet outlet (14).

The inner case 20, which is a component of the present invention, is installed inside the boiler case 1 and is not shown but may be assembled with the outer case 10 through elements such as bolts, or may be integrally formed. have.

In order for the inner case 20 to be installed inside the boiler case 1, it will be apparent that an open opening is formed at one side of the wall of the boiler case 1.

The inner case 20 is connected to the pellet outlet 14 in the upper center of the rear surface as shown, the pellet supply port 21 is introduced into the pellet discharged through the pellet outlet 14 into the interior .

In addition, a central air inlet 22 is formed at the lower portion of the pellet supply port 21 and connected to the central air outlet 16 so that air discharged through the central air outlet 16 is introduced.

In addition, the outer air inlet 23 is connected to the outer air outlet 17 so that the air discharged through the outer air outlet 17 is formed.

The pellet supply port 21, the central air inlet 22, the outer air inlet 23 is a pellet outlet 14, the central air outlet 16, the outer air outlet 17 of the outer case 10 as shown in the drawing It is preferable to maintain the airtightness in accordance with the shape of), but is not limited thereto, and may be a condition for maintaining the airtightness.

However, it is most preferable to take the same shape for smooth movement of the outside air and pellets.

The inner case 20 has a partition wall 24 formed of the outer wall 24b and the inner wall 24c in the front-rear direction along both ends of the outer air inlet 23 as shown.

That is, the outer wall 24b and the inner wall 24c are formed in both side surfaces and the upper side, respectively.

In addition, a hollow portion 24a serving as a passage between the partition walls 24 is formed.

However, the front wall of the partition wall 24 is formed with a blocking wall 25 connecting the two partition walls is configured to prevent the air introduced into the hollow portion 24a is discharged to the front side.

On the other hand, in the upper front center of the inner case 20, a heat discharge port 26 is formed in which heat such as heat, flame, radiant heat, convection heat, etc. generated by burning the pellets is discharged to the inner space side of the boiler case 1.

At this time, the lower end of the heat discharge port 26 is formed with a locking jaw (26a) is preferably to prevent unlimited movement of the ash tray 30 to be described later.

In particular, the inner case 20 is characterized in that a plurality of side air inlet hole 27 is formed in the inner wall (24c).

This is because the outside air introduced into the hollow portion is introduced through the central air inlet 22 through the side air inlet hole 27 and supplied from the side in a direction orthogonal to or perpendicular to the outside air going straight to the combustion efficiency of the pellets Will increase.

The inner case 20 has a back support portion 28 is formed in the lower portion of the inner wall (24c) to support the back support 30 to be described later to receive the ash of the burned pellets.

At this time, the back support portion 28 takes the same shape as the inclined portion 16a, and the back support 30 also has a lower back shape by taking a “∨” shape inclined downward toward the center. 30 is preferably mounted on the back support 28 and the inclined portion 16a so as to be slidably moved forward and backward.

In addition, the backrest 30 is connected to the connecting rod 31 on one side, and the handle 32 is provided at the end of the connecting rod 31, it is preferable to hold the handle 32 to slide back and forth.

At this time, as shown in the method for removing the ash received in the ash tray 30, an opening 18 may be installed at one side of the outer case 10, and the opening and closing door 18a may be installed at the opening 18.

In addition, the upper part of the ash tray 30 as shown in the detachably installed net 50, the size of the net is smaller than the pellet so that the pellet is seated on the net 50, through the ash net 50 Can be stacked on the bottom.

In this case, if the height of the side air inlet hole 27 is located at the middle of the inner wall 24c, the height of the pellets on the side and the height of the side air inlet hole 27 coincide with each other to increase the combustion efficiency. The lower center of the ash tray is less affected by the outside air injected through the side air inlet hole 27 by the inclined surfaces on the left and right sides thereof, thereby reducing the phenomenon of falling ash flying off.

In addition, in the present invention, as shown in Fig. 1, the lower portion of the pellet supply port 21 is provided with a guide inclined plate 29 inclined downward toward the front side, so that the pellets introduced through the pellet supply port 21 are directed to the front side. It can slide and move.

In this case, the pellets are prevented from accumulating on the inlet side of the inner case 20 and slide to the front side as much as possible to allow even distribution of fuel.

In addition, when the wind is pushed by the blower in the sliding process can be more evenly distributed in the inner case 20, the combustion efficiency is increased.

At this time, the guide inclined plate 29 is positioned with the lower end spaced apart from the upper portion of the back support 28 and the back 30, both sides are connected to the inner surface of the inner wall (24c) the back plate It is preferable not to disturb the movement of the 30.

On the other hand, as shown in FIG. 3 in another embodiment the outside case 10, the outside air introduced into the second air inlet 13 by the operation of the second blower (13a), the first blower ( The partition member 40 may be installed to move the outside air introduced into the first air inlet 12 by 12a) into the outer air outlet 17 and the central air outlet 16, respectively.

In this case, the amount of air moving to the outer hollow part 24a and the air moving to the central passage can be controlled through the control of the blowers, so that the optimum combustion efficiency can be more easily found and adjusted.

In the figure, the partition member 40 is installed between the central air outlet 16 and the pellet outlet 14 and between the outer air outlet 17 and the pellet outlet 14 so that outside air can move independently. Member 40 is not limited to the illustrated example.

Pellet boiler air-dispersed combustion apparatus of the above configuration can be applied to various fields such as home, factory as well as house use in the general rural.

1: boiler case 10: outer case
11: pipe connection hole 11a: pellet supply pipe
12: first air inlet 12a: first blower
13: 2nd air inlet 13a: 2nd blower
14: pellet outlet 15: pellet guide passage
15a: guide box 16: central air outlet
16a: inclined portion 17: the outside air outlet
18: opening 18a: opening and closing door
20: inner case 21: pellet feed port
22: central air inlet 23: outer air inlet
24: partition 24a: hollow part
24b: outer wall 24c: inner wall
25: blocking wall 26: heat outlet
26a: locking jaw 27: side air inlet hole
28: back support portion 29: guide slope plate
30: reload 31: connecting rod
32: handle 40: partition member
50: mens

Claims (5)

In the boiler case (1) is provided, one side is installed in the boiler case (1) in the combustion device for a pellet boiler for burning pellets,
A pipe connection hole 11 is connected to a pellet supply pipe 11a through which pellets are supplied, and a first air inlet 12 is formed at one side of a rear surface thereof, and a first air inlet 12 is formed outside the first air inlet 12. One blower 12a is installed to supply outside air, and a second air inlet 13 is formed at the other side of the rear surface, and a second blower 13a is provided outside the second air inlet 13 so that outside air is provided. It is supplied to the inside, the center of the upper front of the pellet discharge port 14 is formed, connecting the pipe connecting hole 11 and the pellet discharge port 14, the guide housing for forming a downwardly inclined pellet guide passage ( 15a) is provided therein, and the lower portion of the pellet discharge port 14 is provided with a central air discharge port 16 provided with inclined portions 16a at both sides such that the shape of the lower end has a low center height. On both sides and the upper portion of the outlet 14 is formed a "∩" shape spaced apart around the pellet outlet 14 Kwak the air outlet 17 is formed in the boiler case 1 is provided outside the outer case 10 in which the;
A pellet supply port 21 is formed at the upper center of the rear surface and connected to the pellet discharge port 14 through which the pellet discharged through the pellet discharge port 14 is introduced. The central air inlet port 22 is connected to the central air outlet port 16 through which the air discharged through the central air outlet port 16 is introduced, and the outer air outlet port 17 is connected to the outer air outlet port 17. The outer air inlet 23 through which air discharged through the inlet is formed, and the partition wall 24 including the outer wall 24b and the inner wall 24c in the front-rear direction along both ends of the outer air inlet 23 is formed. The hollow portion 24a is formed between the partition walls 24, and a barrier wall 25 connecting the two partition walls is formed at the front side of the partition wall, and a heat outlet 26 is formed at the center of the front upper side. In the lower portion of the heat discharge port 26 A rim jaw 26a is formed, and a plurality of side air inflow holes 27 are formed in the inner wall 24c, and a lower back support part 28 is formed in the lower portion of the inner wall 24c. (1) configured to include an inner case 20 installed inside,
Air distributed combustion device for pellet boiler.
The method of claim 1,
The back support 28 has the same shape as the inclined portion 16a,
The shape of the lower end has a "∨" shape inclined downward toward the center, the connecting rod 31 is connected to one side, and the backrest 30 is provided with a handle 32 at the end of the connecting rod 31. It is mounted on the back support 28 and the inclined portion 16a, characterized in that the sliding movement in the front and rear direction is provided,
Air distributed combustion device for pellet boiler.
3. The method of claim 2,
The lower portion of the pellet supply port 21 is provided with a guide inclined plate 29 inclined downward toward the front side, characterized in that the pellets introduced through the pellet supply port 21 is configured to slide forward.
Air distributed combustion device for pellet boiler.
The method of claim 3, wherein
The guide inclined plate 29 is positioned at a lower end spaced apart from the upper portion of the back support 28 and the back 30, characterized in that both sides are connected to the inner surface of the inner wall (24c),
Air distributed combustion device for pellet boiler.
5. The method of claim 4,
Inside the outer case 10, the outside air introduced into the second air inlet 13 by the operation of the second blower 13a, and the outside air introduced into the first air inlet 12 by the first blower 12a. Characterized in that the partition member 40 is installed so as to move while being separated into the outer air outlet 17 and the central air outlet 16, respectively,
Air distributed combustion device for pellet boiler.

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