KR101305400B1 - Pellet stove - Google Patents

Abstract

PURPOSE: A pellet stove is provided to prevent a generation of a backfire phenomenon in a pellet inside a transfer tube body by supplying an air to a base part of the transfer tube body through an air supply hole by forming the air supply hole in a base part of the transfer tube body. CONSTITUTION: A pellet stove comprises a transfer tube body (31), a transfer screw (32), and a pellet supplying device (30) which comprises a drive motor (33). An air supply hole connected with an air supply fan (40) in a boundary surface of a base part of the transfer tube body is formed. An inlet port connected with a hopper (21) in an upper side of a middle part of the transfer tube body is formed. An air supplied through the air supply hole is exhausted to a leading end part of the transfer tube body. A powder generated in the pellet put into the inlet port is transferred towards a leading end part of the transfer tube body.

Description

Pellet stove

The present invention relates to a pellet stove of a new structure, which effectively prevents backfire from occurring and prevents powder of pellets from accumulating inside the pellet feeder.

In general, a pellet stove, which uses pellets as fuel, is provided with a combustion tank 10 having a combustion chamber 11 formed therein, and one side of the combustion tank 10, in which pellets are stored. A pellet supply device 30 connected to a reservoir 20 and a lower side of the reservoir 20 and extending into the combustion chamber 11 to supply pellets stored in the reservoir 20 to the combustion cylinder 12. It consists of.

At this time, the combustion tank 10 is provided with a combustion cylinder 12 having an upper surface open and a plurality of vent holes 12a formed on a circumferential surface thereof, and an exhaust pipe connected to the upper surface of the combustion tank 10.

In addition, an air supply fan 40 is connected to the combustion cylinder 12 so as to supply air into the combustion cylinder 12.

The reservoir 20 is provided with a cover 23 at the top, and the hopper 21 is provided at the bottom.

The pellet supply device 30 has an intermediate portion connected to the lower end of the hopper 21 and the front end portion rotates inside the transfer pipe 31 and the transfer pipe 31 extending to the upper end of the combustion cylinder 12. Consisting of the transfer screw 32 and the drive motor 33 is connected to the transfer pipe 31 to rotate the transfer screw 32.

Therefore, when the transfer screw 32 is driven by the drive motor 33, the pellets supplied into the transfer pipe 31 through the hopper 21 are supplied to the combustion cylinder 12 through the transfer pipe 31. It is possible to heat by burning the pellets supplied to the combustion cylinder (12).

Since the structure of the pellet stove is shown in detail in a number of prior documents, including the Patent Publication No. 10-2013-0047914, detailed description thereof will be omitted.

However, since the pellets are filled inside the pellet pipe 31, the pellets inside the feed pipe 31 are heated and burned by the heat generated by the pellets burning in the combustion cylinder 12. As a result of the heated pellets, there is a problem that a flame is transferred along the transfer pipe 31 and finally burned up to the pellets stored in the reservoir 20.

In order to solve this problem, as shown in FIG. 1, a method of arranging the transport pipe 31 inclined so that the end of the transport pipe 31 is upwardly used, but only such a method effectively prevents the backfire phenomenon. There was a problem that was difficult to do.

In addition, the pellets that are fuel for the pellet stove are mainly produced by compression molding wood, and a large amount of powder is generated during use.

However, the fine powder generated in the pellets as described above is smoothly conveyed by the transfer screw 32 and is not discharged through the transfer tube 31, and thus, the pellets are accumulated by the powder accumulated in the transfer tube 31. There was a problem that the transfer is not made smoothly.

Therefore, there is a need for a new method to solve such a problem.

The present invention has been made to solve the above problems, and an object thereof is to provide a pellet stove having a new structure that effectively prevents backfire from occurring and prevents the powder of pellets from accumulating inside the pellet feeder. .

In order to achieve the above object, the present invention provides a combustion tank (10) having a combustion cylinder (12) in which an upper surface is opened in an internal combustion chamber (11) and a plurality of vent holes (12a) are formed in a circumferential surface thereof, It is provided on one side of the combustion tank 10 and pellets are stored therein, and a storage tank 20 having a hopper 21 at a lower end thereof is connected to a lower side of the storage tank 20 and extends into the combustion chamber 11. And a pellet supply device 30 for supplying the pellets stored in the reservoir 20 to the combustion cylinder 12, wherein the pellet supply device 30 has an intermediate portion connected to a lower end of the hopper 21 and has a front end portion. The transfer pipe 31 extending to the upper end of the combustion cylinder 12, the transfer screw 32 rotatably coupled to the inside of the transfer pipe 31, and is connected to the transfer pipe 31 transfer In a pellet stove comprising a drive motor 33 for rotating the screw 32, the machine of the transfer pipe 31 An air supply hole 31a through which the air supply fan 40 is connected is formed on the secondary circumferential surface, and an inlet 31b through which the hopper 21 is connected is formed on the upper surface of the middle portion of the transfer pipe 31. Air supplied through the pores 31a is discharged to the front end of the transfer pipe 31 to prevent backfire from occurring, and at the same time, the powder generated from the pellets introduced into the inlet 31b is transferred to the transfer pipe 31. A pellet stove is provided, which is adapted to be blown and conveyed toward the tip portion.

According to another feature of the invention, the upper surface of the reservoir 20 is formed with an opening 22 for supplying pellets, and further comprises a cover 23 detachably coupled to the opening 22, The cover 23 is provided with a pellet stove, which is provided with a packing 23b which is hermetically adhered to the storage container 20 and hermetically seals the opening 22.

According to another feature of the invention, the air supply hole (31a) is formed on the upper circumferential surface of the transfer pipe body 31, the outside of the proximal end of the transfer pipe body 31 to cover the outside of the air supply hole (31a) It further comprises an air supply box 34 that is hermetically coupled to the air supply fan 40 is connected to one side of the air supply box 34 to supply air to the air supply hole (31a) through the air supply box 34 Pellet stove is provided, characterized in that it is possible.

According to another feature of the invention, the combustion tank 10 is provided with an air supply housing 13 is detachably coupled to the combustion cylinder 12, the side of the combustion tank 10 is provided with the air supply An air supply unit 14 is formed to be connected to the housing 13, and further includes an external air supply duct 50 coupled to cover the air supply unit 14 on an outer surface of the combustion tank 10. The fan 40 is provided with a pellet stove, which is connected to the air supply box 34 and the external air supply duct 50 through a branch duct 60 at the same time.

According to another feature of the invention, the transfer pipe 31 has a front end extending through the external air supply duct 50 into the combustion tank 10 and the outer end of the transfer pipe 31 There is provided a pellet stove, characterized in that a plurality of auxiliary air supply holes (31c) located in the air supply duct 50 is further formed.

According to another feature of the invention, the side of the combustion tank 10 is formed with a coupling hole 16 through which the front end of the transfer pipe 31 is coupled to pass through the inner and outer sides, the coupling hole of the The lower circumferential portion is provided with a pellet stove, characterized in that a plurality of cooling air supply holes 17 are formed so that the air supplied to the external air duct 50 is introduced into the combustion tank 10.

The pellet stove according to the present invention is provided with an air supply hole (31a) at the base end of the transfer pipe 31, supplying air to the base end of the transfer pipe 31 through the air supply hole (31a), the transfer pipe 31 There is an advantage to prevent the backfire from occurring in the pellet inside.

In addition, the air generated in the pellets by the air supplied to the base end of the transfer pipe 31 blows the powder generated from the pellets introduced into the inlet 31b of the transfer pipe 31 toward the distal end of the transfer pipe 31, thereby There is an advantage that can be prevented that the pellets are not smoothly transferred to pile up inside the transfer pipe (31).

1 is a side cross-sectional view showing a conventional pellet stove,
Figure 2 is a side sectional view showing a pellet stove according to the present invention,
Figure 3 is an enlarged view showing the main part of the pellet stove according to the present invention,
4 is a perspective view showing a conveying pipe of the pellet stove according to the present invention,
5 is a reference diagram showing the cooling air supply of the pellet stove according to the present invention,
6 is a reference diagram for explaining the operation of the pellet stove according to the present invention.

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

2 to 6 illustrate a pellet stove according to the present invention, a combustion tank having a combustion cylinder 12 having an upper surface open in a combustion chamber 11 and a plurality of vent holes 12a formed in a circumferential surface thereof. (10) and the storage tank 20 is provided on one side of the combustion tank 10, the pellet is stored therein and the hopper 21 is provided at the bottom, and connected to the lower side of the storage tank 20, the combustion chamber ( It is the same as the conventional pellet stove that includes a pellet supply device 30 extending into the interior 11) to supply the pellet stored in the reservoir 20 to the combustion cylinder 12.

At this time, the pellet supply device 30 has an intermediate portion is connected to the lower end of the hopper 21, the front end portion of the transfer pipe 31 extending to the upper portion of the combustion cylinder 12 and the inside of the transfer pipe 31 Conveying screw 32 is rotatably coupled to the drive motor 33 is connected to the conveying pipe body 31 to rotate the conveying screw (32).

In addition, according to the present invention, an air supply hole 31a to which the air supply fan 40 is connected and an injection hole 31b to which the hopper 21 is connected are formed in the transfer pipe 31, and the air supply hole 31a is provided. Air supplied through the discharge is discharged to the front end of the transfer pipe 31, prevents the backfire phenomenon and at the same time blows the powder generated from the pellets introduced into the inlet (31b) toward the front end of the transfer pipe 31 Configured to do so.

To explain this in detail, as shown in FIG. 4, the transfer pipe 31 is configured in the shape of a long circular pipe in a lateral direction, and the front end portion is coupled to penetrate the inner and outer sides on the side of the combustion tank 10. Coupled to be inserted into the ball 16, the air supply hole (31a) is configured to be spaced apart at regular intervals in the lateral direction around the proximal end of the transfer pipe 31 in the form of a long elongated forward and backward.

At this time, the air supply hole (31a) is formed only in the upper side of the circumferential surface of the transfer pipe (31).

In addition, the inlet 31b is formed on the upper surface of the transfer pipe 31 so as to be positioned in front of the intermediate portion of the transfer pipe 31, that is, the air supply hole 31a, and is formed in the inlet 31b. The lower end of the hopper 21 is configured to be connected.

In addition, the base end of the transfer pipe 31 is provided with an air supply box 34 that is hermetically coupled to the outside of the base end of the transfer pipe 31 to cover the outside of the air supply hole (31a).

The air supply box 34 is configured in the form of a rectangular box, as shown in Figure 3, the front and rear side is formed with a through hole (34a) is coupled to the transfer pipe 31, the lower side of the connecting pipe to be described later The end pipe 34b to which the 62 is connected extends downward, and when air is supplied to the inside of the air supply box 34, air is supplied through the internal space of the air supply box 34 and the air supply hole 31a. It is supplied into the base end of the conveyance pipe | tube 31.

In addition, an opening 22 for supplying pellets is formed on an upper surface of the reservoir 20, and a lid 23 is detachably coupled to the opening 22, so that the lid 23 is opened. It is configured to supply pellets to the interior of the reservoir 20 through the opening 22.

At this time, the lower end of the lid 23 is extended to the extension portion 23a coupled to the upper end of the reservoir 20 is formed downward, the circumference of the extension portion 23a is provided with a packing 23b, When the cover 23 is coupled to the opening 22 at the upper end of the reservoir 20, the opening 22 of the reservoir 20 is hermetically sealed by the packing 23b.

In addition, an inside of the combustion tank 10 is provided with an air supply housing 13 detachably coupled to the combustion cylinder 12, the side of the combustion tank 10 is connected to the air supply housing 13 An air supply unit 14 is formed, and an external air supply duct 50 coupled to cover the air supply unit 14 is provided on an outer surface of the combustion tank 10, and the air supply fan 40 has a branching duct ( 60 is configured to be connected to the air supply box 34 and the external air supply duct 50 at the same time.

The air supply housing 13 is configured in the form of a long rectangular cylinder in the lateral direction, one end is fixed to the inner surface of the combustion tank 10, the coupling hole 13a is formed on one side of the upper surface, the coupling hole 13a It is configured to be detachably coupled to the combustion cylinder 12).

The air supply port 14 is formed to penetrate the side surfaces of the combustion tank 10 and the air supply housing 13.

The external air supply duct 50 is configured to extend in the vertical direction long to the side of the combustion tank (10). Preferably, the air supply port 14 and the external air supply duct 50 are formed on one side of the circumferential surface of the combustion tank 10 adjacent to the storage container 20.

The branch duct 60 extends in the lateral direction and has an extension pipe 61 to which the air supply fan 40 is connected at the center of the upper surface, and the left end is connected to the lower end of the external air duct 50, The right end is connected to the end pipe 34b of the air supply box 34 through the connection pipe 62.

At this time, the partition wall 63 located below the extension pipe 61 is extended upward in the branch duct 60, so that the air supplied to the extension pipe 61 by the air supply fan 40 is the partition wall ( 63 is divided into both sides, and is supplied to the external air supply duct 50 and the air supply box 34 through the branch duct 60.

In addition, the transfer pipe 31 has a front end extending through the external air supply duct 50 to the inside of the combustion tank 10, the front end of the transfer pipe 31 in the interior of the external air supply duct 50 A plurality of auxiliary air supply hole (31c) which is located in is formed.

A plurality of auxiliary air supply hole (31c) is formed in the upper peripheral portion of the front end of the transfer pipe (31).

In addition, a plurality of cooling air supply holes 17 are formed at the lower circumference of the coupling hole 16, and the air supplied to the external air supply duct 50 is supplied to the combustion tank 10 through the cooling air supply hole 17. It is configured to cool the lower side of the transfer pipe (31) while being supplied into the interior.

As shown in FIG. 5, the cooling air supply holes 17 are formed in plural so as to be spaced apart at a predetermined angle to the circumference of the coupling hole 16.

Reference numeral 15, which is not described, shows an induction duct provided in the combustion tank 10 to guide the pellet discharged to the tip of the transfer pipe 31 into the combustion cylinder 12.

The operation of the pellet stove configured as described above is as follows.

First, when the driving motor 33 of the pellet supply device 30 in the state in which the pellets are stored in the reservoir 20, the transfer screw 32 is rotated as shown by the dotted arrows in FIG. In addition, the pellets supplied to the inlet 31b of the transfer pipe 31 are transferred to the front and are supplied to the combustion cylinder 12.

Then, when the air supply fan 40 is operated in a state in which the pellets stored in the combustion cylinder 12 are burned using an ignition means not shown, as shown by the solid arrows in FIG. 6, the air supply fan 40 Air supplied to the branch duct 60 by the air is distributed to both ends of the branch duct 60, the air branched to the right side of the branch duct 60 is supplied to the air supply box (34) through the connecting pipe (62) After supplying to the inside of the, it is supplied to the base end of the conveying pipe 31 through the air supply hole (31a) of the conveying pipe (31).

At this time, the air supplied to the proximal end of the conveying pipe 31 moves to the distal end of the conveying pipe 31 and blows the powder generated from the pellet toward the distal end of the conveying pipe 31, and at the same time, the conveying pipe 31. It is discharged toward the front end of the to prevent the backfire phenomenon that the pellets inside the feed pipe 31 is burned by the heat or flame of the pellets burned in the combustion cylinder 12.

In addition, the air branched to the left side of the branch duct 60 is supplied into the air supply housing 13 through the external air duct 50 and the air supply port 14, and the vent hole of the combustion cylinder 12 is formed. 12a) is supplied to the pellets being burned in the combustion cylinder 12, so that the pellets are continuously burned.

At this time, a part of the air supplied into the air supply housing 13 functions to cool the front end of the transport pipe 31 through the auxiliary air supply hole 31c of the front end of the transport pipe 31.

In addition, a part of the air supplied into the air supply housing 13 flows into the combustion tank 10 through the cooling air supply hole 17, thereby cooling the lower end surface of the transfer pipe 31.

The pellet stove configured as described above is provided with an air supply hole 31a at the base end of the transfer pipe 31, and supplies air to the base end of the transfer pipe 31 through the air supply hole 31a, thereby to transfer the inside of the transfer pipe 31. There is an advantage that can prevent the backfire phenomenon in the pellet of.

In addition, the air generated by the air supplied to the proximal end of the conveying pipe 31 blows the powder generated from the pellets introduced into the inlet 31b of the conveying pipe 31 toward the distal end of the conveying pipe 31, thereby causing the powder to be generated from the pellets. There is an advantage that can be prevented that the pellets are not smoothly transferred to pile up inside the transfer pipe (31).

In particular, the cover 23 is coupled to the reservoir 20 is provided with a packing 23b, the opening 22 of the reservoir 20 is hermetically sealed, so that the air supplied through the air supply hole 31a It prevents the discharge to the outside through the inlet (31b) and the opening 22 of the reservoir 20, and all the air is discharged to the front end of the transfer pipe 31, it can be more effectively prevent the backfire phenomenon occurs There is an advantage.

And, the air supply hole (31a) is formed on the upper circumferential surface of the transfer pipe 31, the powder generated in the pellets when the air supply fan 40 is stopped, the air supply hole (31a) of the transfer pipe 31 There is an advantage that can be prevented from being discharged to the outside.

That is, when the air supply hole (31a) is formed on the lower circumferential surface of the conveying pipe 31, when the air supply fan 40 is stopped, that is, in the state in which the operation of the pellet stove is stopped, generated in the pellet After the powder flows down to the base end along the transfer pipe 31 and is discharged downward through the air supply hole 31a, problems such as damage to the air supply fan 40 may occur.

However, in the present invention, since the air supply hole (31a) is formed on the upper circumferential surface of the transfer pipe 31, even if the powder generated in the pellet flows down the base end along the transfer pipe 31, it is not discharged to the outside When the air supply fan 40 is restarted, the powder of the pellet is blown to the front end of the transport pipe 31 by the wind, and the air supply fan 40 is stopped. Even in the state, there is an advantage of preventing problems such as failure or malfunction due to the powder of the pellets.

In addition, the air supply box 34 is provided at the base end of the transfer pipe 31 to be airtightly coupled to the outside of the base end of the transfer pipe 31 so as to cover the outside of the air supply hole 31a. ) Is not only easy to connect to the air supply hole (31a), the air supplied by the air supply fan 40 is first supplied to the inside of the air supply box 34, and then the transfer pipe through the air supply hole (31a) By being supplied to the inside of the 31, the air supply box 34 functions as a reserve tank to control the pressure of the air, the air of a constant wind pressure is supplied into the air supply hole (31a), the transfer pipe 31 There is an advantage that can prevent the dust of the pellet from scattering inside the).

In addition, an inside of the combustion tank 10 is provided with an air supply housing 13 detachably coupled to the combustion cylinder 12, the side of the combustion tank 10 is connected to the air supply housing 13 An air supply unit 14 is formed, and an external air supply duct 50 coupled to cover the air supply unit 14 is provided on an outer surface of the combustion tank 10, and the air supply fan 40 has a branching duct ( 60 is simultaneously connected to the air supply box 34 and the external air supply duct 50 by using a single air supply fan 40 to simultaneously supply air to the inside of the air supply housing 13 and the transfer pipe 31. In addition to supplying air, the air is heated while passing through the heated external air supply duct 50 and then supplied to the air supply housing 13, so that external cool air is directly supplied to the air supply housing 13 to burn the pellets. There is an advantage that can be prevented from being made smoothly.

In addition, the transfer pipe 31 has a front end extending through the external air supply duct 50 to the inside of the combustion tank 10, the front end of the transfer pipe 31 in the interior of the external air supply duct 50 Since a plurality of auxiliary air supply holes 31c positioned in the air are further formed, air in the external air supply duct 50 is supplied to the peak end of the transfer pipe body 31 through the auxiliary air supply holes 31c, thereby transferring the transport pipe ( 31 and the tip of the transfer screw 32 provided in the transfer pipe 31 are cooled.

Therefore, there is an advantage that the tip of the transfer pipe 31 and the tip of the transfer screw 32 can be excessively heated to prevent damage.

In addition, the side of the combustion tank 10 is formed with a coupling hole 16 through which the front end of the transfer pipe 31 is coupled so as to pass through the inner and outer sides, the lower peripheral portion of the coupling hole 16 in the external air supply Since a plurality of cooling air supply holes 17 are formed to allow the air supplied to the duct 50 to flow into the combustion tank 10, the air flows into the combustion tank 10 through the cooling air supply holes 17. The lower side of the front end portion of the transfer pipe body 31 is cooled by the air which is used, and thus, the front end portion of the transfer pipe body 31 may be prevented from being damaged by heat generated while the pellet is burned.

It will be appreciated by those skilled in the art that changes may be made to the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

10. Combustion tank 20. Reservoir
30. Pellet Feeder 40. Supply Fan
50. External air supply duct 60. Branch duct

Claims (6)

A combustion tank 10 having a combustion cylinder 12 having an upper surface open therein and a plurality of ventilation holes 12a formed on a circumferential surface thereof;
The storage tank 20 is provided on one side of the combustion tank 10 and the pellets are stored therein and the hopper 21 is provided at the bottom thereof.
Is connected to the lower side of the reservoir 20 and extends into the interior of the combustion chamber 11 includes a pellet supply device 30 for supplying the pellet stored in the reservoir 20 to the combustion cylinder 12,
The pellet supply device 30
An intermediate part is connected to the lower end of the hopper 21, and the front end portion and the transfer pipe 31 extending to the upper portion of the combustion cylinder 12,
A transfer screw 32 rotatably coupled to the inside of the transfer pipe 31;
In the pellet stove comprising a drive motor 33 is connected to the transfer pipe 31 to rotate the transfer screw 32,
An air supply hole 31a to which an air supply fan 40 is connected is formed on the proximal end of the transfer pipe 31.
On the upper surface of the middle portion of the transfer pipe 31 is formed an inlet 31b to which the hopper 21 is connected,
Air supplied through the air supply hole 31a is discharged to the front end of the transfer pipe 31 to prevent backfire from occurring and at the same time transfer the powder generated from the pellets introduced into the feed hole 31b to the transfer pipe 31. Pellet stove characterized in that the blower can be transported toward the tip end.
The method of claim 1,
Openings 22 for supplying pellets are formed on the upper surface of the reservoir 20,
Further comprising a cover 23 detachably coupled to the opening 22,
The cover (23) is a pellet stove characterized in that the packing (23b) is hermetically in close contact with the reservoir 20 to hermetically seal the opening (22).
The method of claim 1,
The air supply hole (31a) is formed on the upper circumferential surface of the transfer pipe 31,
It further includes an air supply box 34 which is hermetically coupled to the outside of the proximal end of the transfer pipe 31 to cover the outside of the air supply hole (31a),
The air supply fan 40 is connected to one side of the air supply box 34 is pellet stove, characterized in that to supply air to the air supply hole (31a) through the air supply box (34).
The method of claim 1,
Inside the combustion tank 10, the air supply housing 13 is detachably coupled to the combustion cylinder 12,
A side of the combustion tank 10 is formed with an air supply port 14 connected to the air supply housing 13,
And an external air supply duct 50 coupled to the outer surface of the combustion tank 10 to cover the air supply 14.
The air supply fan 40 is pellet stove, characterized in that connected to the air supply box 34 and the external air supply duct at the same time through a branch duct (60).
5. The method of claim 4,
The transfer pipe 31 has a tip portion penetrating the external air supply duct 50 to extend into the combustion tank 10 and a tip of the transfer pipe 31 is located inside the external air supply duct 50. Pellet stove, characterized in that a plurality of auxiliary air supply hole (31c) is further formed.
5. The method of claim 4,
The side of the combustion tank 10 is formed with a coupling hole 16 through which the front end of the transfer pipe 31 is coupled to pass through the inner and outer sides, and the outer air supply duct at the lower circumference of the coupling hole 16. A pellet stove, characterized in that a plurality of cooling air supply holes (17) are formed so that the air supplied to the 50 is introduced into the combustion tank (10).

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