KR101261519B1 - Burning device for wood pellet fuel - Google Patents

Abstract

The present invention, the wood pellets are stored, the lower end of the storage tank is provided with a discharge path for discharging the wood pellets, is connected to the discharge path of the storage tank, receiving the wood pellets discharged freely through the discharge path in one direction A pellet feeder equipped with a screw for feeding is installed and connected to one end of the pellet feeder, and receives a wood pellet from the pellet feeder so as to receive a wood pellet conveyed by the pellet feeder and a pellet feeder for transporting wood pellets with a blowing force. It is connected to one end of the pellet conveying unit, the inside is provided with a heater that generates heat for ignition of the wood pellets supplied, the bottom of the block shape formed with a plurality of through-holes to discharge the flame and combustion materials generated during the combustion of the wood pellets It is installed in the ignition part and the lower part of the ignition part, and fires the wood pellet discharged through the through hole after being ignited by the ignition part. And burning material provides a wood pellet burning apparatus comprising reburn so that combustion parts of the combustion space are provided in the block-form.
In such a wood pellet combustion device, wood pellets supplied to the pellet feeder through the screw of the pellet feeder are introduced into the ignition unit by the blowing force of the pellet feeder, and then ignited and burned. Therefore, the wood pellets are transferred to the ignition unit by the blowing force of the pellet transfer unit, and the wood pellets are supplied to the ignition unit with the damage of the wood pellets minimized, and the flame generated from the ignition unit is prevented from flowing back to the pellet transfer unit. Enable combustion.

Description

Burning device for wood pellet fuel

The present invention relates to a wood pellet combustion device, and more particularly to a combustion device using wood pellets as fuel.

In general, a stove or a boiler is a heating device which is essentially provided with a combustion device for burning fuel. These diffusers are manufactured in various ways depending on the type of fuel used and supplied. Recently, heating products such as boilers and stoves using wood pellets made of wood by-products as fuels have been introduced. Energy savings and greenhouse gas emissions can be achieved

In the combustion device using the wood pellets, the wood pellets are transferred to the combustion unit by using the transfer device from the storage tank, and then combustion is performed on the wood pellets.

However, in the conventional wood pellet combustion device, the wood pellets are crushed or pulverized during the transfer on the conveying device by using a conveyor which physically transfers the wood pellets to the pellet burner by using a motor. There is a limit in supplying a quantity of wood pellets to the combustion unit within a certain time due to the low feed rate.

In addition, the flame generated during the combustion of the wood pellets in the combustion unit flows in the reverse direction along the transfer device disposed above the combustion unit, there is a risk of fire, a separate device for preventing this, or There is a problem that requires a separate sensor device for detecting the installation cost.

An object of the present invention is to provide a wood pellet combustion device that can stably supply wood pellets in a fixed amount to a place where combustion takes place quickly and prevent the flame generated during combustion from flowing in the reverse direction along the transfer device. There is this.

The present invention, the wood pellets are stored, the lower end of the storage tank is provided with a discharge path for discharging the wood pellets, is connected to the discharge path of the storage tank, the wood pellets discharged while freely falling through the discharge path A pellet feeder equipped with a screw to receive and transfer the screw in one direction, the pellet feeder is connected to one end of the pellet feeder, and receives the wood pellets from the pellet feeder to transport the wood pellets with a blowing force; It is connected to one end of the pellet conveying part to receive the wood pellets conveyed by the pellet conveying part, and is provided with a heater to generate heat for ignition of the wood pellets supplied therein, and the bottom of the wood pellets when burning Block-shaped ignition unit formed with a plurality of through holes to discharge the generated flame and combustion materials, and the ignition unit It is installed in communication with the lower end, provides a wood pellet combustion apparatus including a combustion unit of the block shape provided with a combustion space so that the flame and the combustion material of the wood pellets discharged through the through hole after being ignited in the ignition unit.

In addition, the storage tank may have a venturi shape that narrows toward the lower end so that the wood pellets can be discharged in a free fall state through the discharge path.

In addition, the pellet supply unit, the motor generating a rotational driving force, and one end in the longitudinal direction is in communication with the discharge path of the storage tank is connected to the pellet conveying unit, the screw is mounted on the inside so as to rotate axially And a drive belt to connect the rotating shaft of the motor and the shaft of the screw to transmit the rotation driving force of the motor to the screw.

In addition, the pellet conveying unit, a blower for generating a blowing force, and in communication with the blower and the ignition unit on one side is in communication with the pellet supply unit, received from the pellet supply unit by the blowing force flowing from the blower It may include a conveying pipe for guiding the wood pellets to the ignition unit.

In addition, at one side of the conveying pipe, an ignition air nozzle installed in communication with the ignition unit so that some air blown in the conveying pipe is injected into the ignition unit, and some air blown in the conveying pipe is inside the combustion unit. It may further include a combustion air nozzle installed in communication with the combustion unit so as to be supplied by injection.

The ignition air nozzle and the combustion air may be operated while connecting the opening and closing dampers mounted in the respective ignition air nozzles and the combustion air nozzles, and the ignition air nozzles and the opening and closing dampers in the combustion air nozzles. It further comprises a link member for opening and closing the nozzle, the opening and closing damper may be arranged perpendicular to each other to be opened and closed alternately by the link member the ignition air nozzle and the combustion air nozzle.

In the wood pellet combustion apparatus according to the present invention, the wood pellets supplied to the pellet feeder through the screw of the pellet feeder are introduced into the ignition unit by the blowing force of the pellet feeder and then ignited and burned. Therefore, the wood pellets are transferred to the ignition part by the blowing force of the pellet conveying part, so that the damage of the wood pellets is supplied to the ignition part with minimal damage, and the flame generated from the ignition part is prevented from flowing back to the pellet conveying part. Can make stable combustion work.

1 is an overall cross-sectional view of a wood pellet combustion apparatus according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

1 is an overall cross-sectional view of a wood pellet combustion apparatus according to an embodiment of the present invention. Referring to FIG. 1, the wood pellet combustion apparatus includes a storage tank 100, a pellet supply unit 200, a pellet transfer unit 300, an ignition unit 400, and a combustion unit 500.

The storage tank 100 is a tank having an upper opening so as to store wood pellets 10 to be supplied to the ignition unit 400 which will be described later. Such, the lower end of the storage tank 100 is provided with a discharge path 110 to discharge the stored wood pellets 10 in the free fall state to the pellet supply unit 200 to be described later.

Here, the storage tank 100 has a venturi shape at the bottom so that the wood pellet 10 stored therein can be discharged freely onto the discharge path 110 by its own load. That is, the storage tank 100 has a shape in which the diameter decreases from the top to the bottom.

The pellet supply unit 200 transfers the wood pellets 10 discharged through the discharge path 110 of the storage tank 100 to the pellet transfer unit 300 to be described later. The pellet supply unit 200 includes a motor 210, a supply pipe 220, and a driving belt 230.

The motor 210 generates a rotational driving force so that the wood pellets 10 can be transferred to the pellet transfer part 300 which will be described later. The rotation shaft of the motor 210 is connected to a screw 221 mounted to the supply pipe 220 through a driving belt 230 to be described later.

The supply pipe 220 guides the wood pellets 10 supplied through the discharge path 110 of the storage tank 100 to the pellet transfer part 300. This, one end in the longitudinal direction of the supply pipe 200, the wood pellet 10 is installed in communication with one side of the pellet conveying unit 300 to be delivered to the pellet conveying unit 300 to be described later. In addition, one side of the supply pipe 200 is in communication with the lower end of the discharge path 110 of the storage tank 100.

In addition, the inside of the supply pipe 220 receives the rotational driving force from the motor 210 and rotates, one end of the wood pellet 10 supplied into the supply pipe 220 in the longitudinal direction, that is, the pellets. A screw 221 to be transferred to the transfer part 300 is provided to be rotatably mounted. Here, the wing portion of the screw 221 may be formed of a synthetic resin or rubber material to prevent damage to the wood pellets 10 during transport.

The driving belt 230 is a driving force transmission means for transmitting the rotational driving force of the motor 210 to the screw 221 mounted to the supply pipe 220, so that the screw 221 can rotate. . One end of the driving belt 230 is connected to the rotation shaft of the motor 210 and the other end is connected to the shaft end of the screw 221.

The pellet feeder 300 receives the wood pellets 10 transferred through the feed pipe 220 of the pellet feeder 200, and then blows them into the ignition unit 400 to be described later. The wood pellets 10 are transferred. The longitudinal end of the pellet feeder 300 is connected to the ignition unit 400 which will be described later. In addition, one end of the feed pipe 220 is connected to one side of the pellet feeder 300 so that the wood pellet 10 can be supplied from the pellet feeder 200. Here, the pellet conveying unit 300 includes a blower 310, the conveying pipe 320.

The blower 310 is the wood pellet 10 introduced into the conveying pipe 320 from the supply pipe 220 of the pellet supply unit 200 toward the ignition unit 400 in the conveying pipe 320 Blowing force is generated while inhaling and discharging external air so as to be transferred to the air. The blower 310 is connected to one end of the conveying pipe 320 in a length of a discharge passage portion (not shown) for discharging the external air.

The conveying pipe 320 is to be transferred to the ignition unit 400 by the blowing force generated in the blower 310 to the wood pellets 10 supplied from the supply pipe 220 of the pellet supply unit 200. Guide. This, one end in the longitudinal direction of the conveying pipe 320 is connected to the discharge passage portion of the blower 320 as described above, the other end is in communication with one side of the ignition unit 400 to be described later.

Here, the other end of the conveying pipe 320 is in communication with the ignition unit 400 in the form of a vertical pipe. Therefore, the wood pellets 10 conveyed through the conveying pipe 320 are moved into the inner space of the ignition part 400 positioned relatively downward through the other end of the conveying pipe 320 located above. With the free fall immediately, the blown external air is also vertically supplied downward so that the spark ignited by the ignition unit 400 can flow in the direction of the combustion unit 500 disposed under the ignition unit 400. .

In addition, one side of the conveying pipe 320, the ignition air to be injected into the ignition unit 400 and the combustion unit 500 to supply some air to be blown in the conveying pipe 320 to be described later The nozzle 321 and the combustion air nozzle 322 may be provided. That is, the end of the ignition air nozzle 321 is the wood pellet ignited in the ignition unit 400 while supplying air into the ignition unit 400 while being installed in communication with one side of the ignition unit 400 ( 10) to facilitate the combustion. And, the end of the combustion air nozzle 322 is the wood pellet discharged into the combustion unit 400 while supplying air into the combustion unit 500 in a state in communication with one side of the combustion unit 500 ( Allow the flame and the combustor of 10) to burn completely.

In addition, the ignition air nozzle 321 and the combustion air nozzle 322 inside the ignition unit 400 and the combustion unit 500 through the ignition air nozzle 321 and the combustion air nozzle 322. An opening and closing damper 323 for opening and closing the ignition air nozzle 321 and the combustion air nozzle 322 may be installed to control whether the air is supplied to the furnace. In addition, the ignition air nozzle 321 and the ignition air nozzle 321 are connected to the opening and closing damper 323 in the combustion air nozzle 322, while the activating damper 323 is interoperable with each other. A link member 324 is provided to open and close the combustion air nozzle 322. Here, the ignition air nozzle 321 and the open / close damper 323 in the combustion air nozzle 322 are alternately alternated between the ignition air nozzle 321 and the combustion air nozzle 322 by the link member 324. They are arranged perpendicular to each other so that they can be opened and closed as they go.

As such, the external air blown through the conveying pipe 320 of the pellet conveying part 300 flows into the ignition part 400 together with the wood pellets 10 and is generated by the ignition part 400. This is prevented from flowing back to the conveying pipe 320 of the pellet conveying unit 300, it is possible to prevent the flame flow back through the conveying pipe 320 of the pellet conveying unit (300).

The ignition unit 400 is a block-shaped member that receives and transfers the wood pellets 10 from the feed pipe 320 of the pellet transfer unit 300 to provide a space to ignite and burn the wood pellets 10. . One side of the transfer pipe 320 is communicatively coupled to one side of the ignition unit 400, and a combustion unit 500 to be described later is communicatively installed at a lower end thereof.

Here, a plurality of through holes 420 are formed at the bottom of the ignition unit 400 to communicate with the combustion unit 500 to be described later. Through the through hole 420, the flame and the combustion material generated during the combustion of the wood pellets 10 are discharged to the combustion unit 500 to be described later.

In addition, the ignition unit 400 is provided with a heater 410 to be burned by igniting the wood pellet 10 supplied to the ignition unit 400 while being heated by receiving power from the outside. .

The combustion unit 500 is a block-shaped member that provides a combustion space to reburn the flame and the combustion material generated during the ignition combustion of the wood pellet 10 in the ignition unit 400. That is, after the flame and the combustion material discharged through the through hole 420 of the bottom of the ignition unit 400 is introduced into the combustion unit 500, the combustion is performed again. This, the combustion unit 500 is installed in communication with the lower end of the ignition unit 400 to receive the flame and the combustion material through the through hole 420 of the ignition unit 400.

In addition, one side of the combustion unit 500 may be provided with an opening and closing door 510 for opening and closing the combustion unit 500 so that an operator can discharge the combustion material accumulated in the combustion unit 500. The open / close door 510 may be provided with a transparent window 520 so that the combustion state and the stacking state of the combustion material in the combustion unit 500 can be grasped.

Referring to the operation of the wood pellet combustion apparatus according to an embodiment configured as described above, first, the wood pellet 10 to be burned into the storage tank 100 is supplied and stored. Then, the wood pellets 10 are discharged in the free fall state through the discharge path 110 in the storage tank 100, and are supplied into the supply pipe 220 of the pellet supply unit 200.

In this way, the wood pellets 10 supplied into the supply pipe 220 of the pellet supply unit 200 is the pellet by the screw 221 is rotated by receiving a rotation driving force from the motor 210 It is transferred to the conveying pipe 320 of the sending unit (300).

The wood pellets 10 supplied into the conveying pipe 320 of the pellet conveying part 300 are conveyed to the ignition part 400 by the blowing force of the outside air introduced through the blower 310. .

When the wood pellets 10 are supplied into the ignition unit 400, the heater 410 generates heat and ignites the wood pellets 10 so as to be burned. In this case, some air in the conveying pipe 420 supplied through the ignition air nozzle 321 connected to the conveying pipe 420 is injected into the ignition unit 400, so that the ignition of the wood pellet 10 Make it easy. As such, after the wood pellets 10 are ignited, the flame and the combustion material generated while burning are discharged into the combustion unit 500 disposed below through the through hole 420 of the bottom of the ignition unit 400. do. At this time, the external air is supplied vertically downward through the conveying pipe 320 of the pellet conveying unit 300, so that the flame and the combustion material generated in the ignition unit 400 are not flowed back into the conveying pipe 320. Instead, the discharge is made into the combustion unit 500 through the through hole 420 formed at the bottom of the ignition unit 400.

As such, the flame and the combustion material discharged through the through hole 420 at the bottom of the ignition unit 400 are reburned in the combustion unit 500. At this time, some of the air in the conveying pipe 420 supplied through the combustion air nozzle 322 connected to the conveying pipe 420 is injected into the combustion unit 500, the flame inside the combustion unit 500 And the combustion material can be easily reburned.

As such, the wood pellet combustion apparatus of one embodiment, the wood pellets 10 supplied to the pellet conveying unit 300 through the screw 221 of the pellet supply unit 200 is the pellet conveying unit 300 After the flow into the ignition unit 400 by the blowing power of the ignition combustion. Therefore, the wood pellets 10 are transferred to the ignition part 400 by the blowing force of the pellet conveying part 300, so that the damage of the wood pellets 10 is minimized. In addition to being supplied to), the flame generated from the ignition unit 400 can be prevented from flowing back to the pellet transfer unit 300 to enable a stable combustion operation.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: wood pellet 100: storage tank
110: discharge path 200: pellet supply unit
210: motor 220: supply pipe
221: screw 230: drive belt
300: pellet feeder 310: blower
320: transfer pipe 321: ignition air nozzle
322: combustion air nozzle 323: opening and closing damper
324: link member 400: ignition unit
310: heater 420: through hole
500: combustion unit 510: opening and closing door
520: transparent window

Claims (6)

A storage tank in which wood pellets are stored, and a lower end of the storage tank having a discharge path through which the wood pellets are discharged;
A pellet supply part connected to the discharge path of the storage tank and equipped with a screw for receiving the wood pellets discharged freely through the discharge path and transferring them in one direction;
A pellet conveying part connected to one end of the pellet supply part and receiving the wood pellets from the pellet supply part to transfer the wood pellets with a blowing force;
It is installed connected to one end of the pellet conveying unit to receive the wood pellets conveyed by the pellet conveying unit, the inside is provided with a heater that generates heat for ignition of the wood pellets supplied, the bottom of the combustion of the wood pellets Block-shaped ignition unit formed with a plurality of through-holes so that the flame and the combustion material generated during the discharge; And
And a block-shaped combustion unit communicating with the lower end of the ignition unit, the combustion space being provided so that the flame and the combustion material of the wood pellets discharged through the through-hole after being ignited by the ignition unit are reburned. The method according to claim 1,
The storage tank has a wood pellet combustion device having a venturi shape narrowing toward the bottom so that the wood pellets can be discharged in a free fall state through the discharge path. The method according to claim 1,
The pellet supply unit,
A motor for generating rotational driving force,
One end of the longitudinal direction is connected to the pellet conveying portion in a state in which one side is in communication with the discharge passage of the storage tank, the inner side of the supply pipe is mounted to the screw rotatably,
And a driving belt connecting the rotating shaft of the motor and the shaft of the screw to transmit the rotating driving force of the motor to the screw to rotate the screw. The method according to claim 1,
The pellet transfer unit,
A blower for generating a blowing force,
One side of the state in which the blower and the ignition unit is connected to communicate with the pellet supply unit, and includes a conveying pipe for guiding the wood pellets supplied from the pellet supply unit to the ignition unit by the blowing force flowing from the blower Wood pellet burner. The method of claim 4,
On one side of the conveying pipe,
An ignition air nozzle installed in communication with the ignition unit so that some air blown in the transfer pipe is injected into the ignition unit;
And a combustion air nozzle installed in communication with the combustion unit such that some air blown in the transfer pipe is injected into the combustion unit. The method according to claim 5,
An opening / closing damper mounted in each of the ignition air nozzle and the combustion air nozzle;
And a link member for opening and closing the ignition air nozzle and the combustion air nozzle while operating the connected ignition air nozzle and the open / close damper in the combustion air nozzle.
The opening and closing dampers are wood pellet combustion apparatus arranged vertically to be opened and closed alternately by the link member the ignition air nozzle and the combustion air nozzle.

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