KR20130057541A - Pellet stove - Google Patents

Abstract

The present invention relates to a new type of pellet stove that can be utilized for heating indoors and outdoors with high heat efficiency by realizing complete combustion.
The pellet stove according to the present invention is composed of a pellet supply device 20 and the heating cylinder 10, the heat generated in the primary combustion network 24 and the secondary combustion network 25 in the heating cylinder 10 and The gas passes through the hot riser 13 insulated with the heat insulator 13a to maintain a high temperature. The unburned gas is further burned by passing through the secondary air inlet 13d and completely burned. In addition to achieving this, backflow of smoke can be sucked into the inlet 15 through the smoke intake hole 22a, so that clean indoor air can be maintained and warm enough for a long time due to heat accumulated in the heat insulating material 13a. There are advantages to it. In particular, since the pellet supply device 20 is attached to the upper edge of the heat generating cylinder 10 to form a wide plane, there is an advantage that can be used in various ways such as cooking by placing a cooker on the top surface of the heat generating cylinder 10. .

Description

Pellet Stove {Pellet Stove}

The present invention relates to a pellet stove that can be utilized for heating in the indoor and outdoor with high thermal efficiency and no backflow of smoke even with a small amount of fuel while realizing complete combustion.

The furnace using pellets as fuel consists of a tubular body and a combustion chamber and an exhaust pipe inside. When pellets are introduced into the body through the fuel inlet, the heat generated as the pellet is combusted inside the combustion chamber is transferred to the outside through the circumferential surface of the body. Delivered and allowed to heat.

However, such a pellet stove has a problem that the pellet is difficult to burn completely, so much soot is generated, the thermal efficiency is lowered, and the back flow of smoke is generated just before the pellet injected into the fuel inlet is exhausted.

In addition, when attempting to ignite the pellets for the first time, in order to prevent the backflow of the smoke in order to prevent the back flow of smoke, inconvenient to ignite the pellets after forming a flow of air to the exhaust pipe by installing a power fan for exhausting smoke. there was.

The present invention is to solve the above problems, to improve the thermal efficiency of the pellets to be completely burned, to give the convenience of ignition by not preheating the communication at the first ignition, to prevent the backflow of smoke indoors and outdoors The purpose is to provide a pellet stove of a new structure that can be used for heating and various applications.

According to the present invention for achieving the above object, the injection port is connected to the pellet supply device 20 to prevent the back flow of smoke, to adjust the amount of intake air and to adjust the input amount of the pellet is formed on one side, one side It consists of a cylindrical body formed with an exhaust port 40, the inside of the primary combustion network 24 and the secondary combustion network 25 mounted on the lower end of the inlet 15 connected to the pellet feeder 20 Pellets, characterized in that the heat and gas generated to pass through the hot riser 13 is heat insulation with a heat insulating material (13a) to maintain a high temperature state to further burn the gas at the secondary air inlet (13d) A stove is provided.

According to another feature of the invention, in the hot air riser 13 which is wrapped with the heat insulating material (13a) to maintain a high temperature and accelerate the flow of flame and heat to generate a strong suction force, the air flow to the exhaust port is made early A pellet stove is provided which is characterized in that ignition is facilitated.

According to another feature of the present invention, a pellet supply pipe 22 having a size smaller than the diameter of the inlet 15 is provided in the inlet 15 to form a space between the inlet 15 and the pellet supply tube 22. It is configured to suck the air necessary for combustion through the air inlet 21, the upper end of the pellet supply pipe 22 to form a smoke suction through-hole (22a) can suck the backflow smoke into the inlet (15) smoke A pellet stove is provided, which is free of backflow.

The pellet stove according to the present invention is composed of a pellet supply device 20 and the heating cylinder 10, the heat generated in the primary combustion network 24 and the secondary combustion network 25 in the heating cylinder 10 and The gas passes through the hot riser 13 insulated with the heat insulator 13a to maintain a high temperature. The unburned gas is further burned by passing through the secondary air inlet 13d and completely burned. Not only can it be achieved, the backflow of smoke can be sucked into the inlet 15 through the smoke intake hole 22a, so that clean indoor air can be maintained and warm enough for a long time due to the heat accumulated in the heat insulator 13a. There are advantages to it. In particular, since the pellet supply device 20 is attached to the upper edge of the heat generating cylinder 10 to form a wide plane, there is an advantage that can be used in various ways such as cooking by placing a cooker on the top surface of the heat generating cylinder 10. .

1 is a perspective view showing a pellet stove in the present invention,
Figure 2 is a side cross-sectional view showing a pellet stove in the present invention,
3 is a front view showing a pellet stove in the present invention,
4 is a perspective view showing a pellet supply apparatus according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 to 3 illustrate a pellet stove according to the present invention, which is configured in a tubular shape and has a pellet feeding device 20 installed at an inlet 15 at one side of an upper end thereof, which can check an ignition state at one side of the side surface. The cleaning port 30 and the exhaust port 40 provided with the window 31 is formed and the support 11 is provided at the bottom.

The support 11 is made of a metal material and is provided foldable at both ends of the bottom surface of the heat generating cylinder (10).

When the pellet is supplied to the reservoir 27 of the pellet supply device 20, the pellet is discharged to the lower side of the reservoir 27 is supplied to the inlet 15, the pellets burned in the primary combustion network 24 The pellets are automatically supplied to the primary combustion network 24 by the weight of the pellets in the empty space generated when falling into the secondary combustion network 25.

The lower part of the inlet 15 is formed with a plurality of secondary combustion holes 25a formed at the lower portion of the primary combustion network 24 and the primary combustion network 24 having a plurality of primary through holes 24a penetrating the upper and lower surfaces. The secondary combustion network 25 is arranged.

Therefore, when pellets are supplied into the inlet 15, the supplied pellets are primarily combusted in the primary combustion network 24, and when the pellets are combusted and become smaller in size, secondary pellets are formed through the primary through holes 24a. If it falls to the desired 25 and is further burned, and if the size of the pellet becomes smaller, it will fall to the ash receiving network 26 through the secondary through-hole 25a, and if it is completely burned and will be re-made, it will return through the ash receiving hole 26a. It is discharged to the ash tray 14.

At this time, one side of the inlet 15 is provided with a cleaning opening 30 to open, the cleaning opening 30 to ignite the pellets supplied to the upper portion of the primary combustion network (24). In addition, the lower end of the inlet (15) is provided with a ash tray 14 for collecting ash, the ash tray 14 is configured to be detachably coupled to clean the ash collected therein.

The hot air riser 13 is connected to the inlet 15 and is surrounded by a heat insulator 13a and maintains high temperature and accelerates the flow of flame and heat to generate a powerful suction force, so that air flow to the exhaust port is desired. Let's do it.

Therefore, heat and gas generated while the pellets are burned in the inlet 15 pass through the hot riser 13 and are further combusted in the secondary air inlet 13d and discharged to the exhaust port 40.

The primary combustion network 24, the secondary combustion network 25 and the backing network 26 are configured to minimize the heat deformation using a mesh of castings.

Figure 4 shows a pellet supply apparatus 20 according to the present invention, consisting of a dual structure of a circular pellet supply pipe 22 and a fixed tube 23 connected to the funnel-shaped storage container 27, the pellet supply pipe ( 22 is provided with a smoke suction through-hole (22a), so that when the smoke generated in the inside of the pellet supply pipe 22 flows back through the smoke suction through-hole (22a) to flow into the inlet (15) It can keep clean indoor air.

In addition, the air inlet 21 is provided in a rotary shape as a cylindrical shape is configured to adjust the amount of air flowing in it can adjust the intensity of the fire.

The fixed pipe 23 of the pellet supply device 20 is provided with a step-shaped height adjusting device 23a to be engaged with the fastener 15a of the inlet 15, and the pellet supply device 20 is the inlet 15. The inside of the pellet feeder 20 and the height of the pellet feeder 20 can be changed to change the space between the pellet feed pipe 22 and the primary combustion network 24 to control the amount of pellets used for combustion. I can regulate the strength of the firepower.

10. Heat generation
11. Support
12. Heat generation hot
13. Hot air rise
13a. insulator
13b. Secondary air room
13c. Air inlet for secondary air injection
13d. Secondary air inlet
14. Reclaim
15. Slot
15a. Anchor
20. Pellet Feeder
21. Air Intake
22. Pellet Supply Pipe
22a. Smoke Suction
23. Fixed tube
23a. Height adjuster
24. Primary combustion network
24a. Primary throughhole
25. Secondary combustion network
25a. Secondary through
26. Reclaimed Net
26a.
27. Reservoir
30. Cleaning
31.Windows
40. Air vent
50. Communication

Claims (4)

Opening and closing cleaning opening 30 and the exhaust opening 40 is provided with an inlet opening 15 into which the pellet is introduced into one side and a window 31 for checking the ignition state on one side of the tubular heating element 10. ) Is formed and the bottom of the ash tray 14 and the support 11 is composed,
A pellet supply device 20 is connected to the inlet 15 of the heating cylinder 10, and a primary combustion network having a plurality of through-holes penetrating the upper and lower surfaces at the lower end of the inlet 15 in the heating cylinder 10. 24, secondary combustion network 25 and backing network 26,
It includes a heat riser (13) wrapped with a heat insulating material (13a),
Pellet stove characterized in that it is connected to the hot riser (13) wrapped with a space portion and the heat insulating material (13a) formed between the primary combustion net 24 and the backing net (26). The method of claim 1,
Pellet supply device 20 is composed of a dual structure of the pellet supply pipe 22 and the fixed pipe 23 connected to the reservoir 27, the pellet supply pipe 22 is characterized in that the smoke suction through-hole (22a) is provided with a pellet Fireplace. The method of claim 1,
Pellet supply device 20 is a pellet stove, characterized in that it comprises a rotary air inlet 21 configured to surround the circumference of the fixed tube (23). The method of claim 1,
The fixed pipe 23 of the pellet supply device 20 is configured to operate in engagement with the clamping portion 15a of the inlet 15 by forming a step height adjusting device 23a to change the height of the pellet supply device 20. Pellet stove characterized in that the amount of pellets can be adjusted.

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