KR101170386B1 - Wood pellet combustion control device - Google Patents

Abstract

PURPOSE: A combustion control system of a pellet boiler is provided to prevent sticking of combustion wastes as wood pellets are burned in a uniformly spread state. CONSTITUTION: A combustion control system(100) of a pellet boiler comprises a pellet combustion unit(20), a pellet ash tray unit(30), an igniter unit, and an air supplying unit(50). When normal ignition is started by heating pellets(M) with the igniter unit, the operation of the igniter unit is stopped. Newly supplied wood pellets are ignited by the wood pellets being burned. The air supplying unit supplies air required for the ignition and combustion of the wood pellets with the simultaneous operation of the igniter unit. The air supplying unit supplies the air to a closed space between an ash tray and closing plates through an air supply pipe(51) in a blower(52). The air stored in the closed space is resupplied to the pellet combustion unit through a jetting hole of the ash tray of the pellet ash tray unit so that combustion efficiency of the wood pellets is increased. Air flow of the air supplying unit is sensed and controlled by an air flow detecting sensor(73) so that combustion load is controlled.

Description

Wood pellet combustion control device

The present invention relates to a combustion control apparatus of a pellet boiler, and evenly distributed by dispersing the wood pellets supplied into the combustion chamber throughout the combustion plate, and to control the amount of combustion by adjusting the air supply for combustion, The present invention relates to a combustion control device for a pellet boiler which is easy to maintain by increasing the combustion efficiency of a boiler by facilitating the treatment of remaining combustion waste after combustion.

In general, wood pellet boilers are gradually developed and used as an eco-friendly boiler that uses wood as a fuel by molding waste wood.

The wood pellet boiler is a heat exchanger for converting heat generated from the combustion unit into hot water supply and heating, a combustion unit for burning the pellets to generate a flame, a supply device for storing the wood pellets and automatically supplying to the combustion unit, It consists of a pellet material processing part for processing the remaining ash

Referring to Figure 1, the storage unit for storing the pellet in the Republic of Korea Utility Model Publication No. 20-0446832 conventionally, the combustion unit to generate hot water or steam with the combustion heat generated by the pellet is burned, the pellet is stored A pellet feeding part for transferring the part from the part to the combustion part; The combustion unit includes a combustion chamber in which pellets transferred from a pellet supply unit are burned, a combustion plate provided at a lower portion of the combustion chamber, in which pellets are stacked and burned on an upper surface thereof, a driving motor for rotating the combustion plate, and a lower portion of the combustion plate. It is made to include a burner for igniting the pellets; The pellet supply part has a horizontal conveying tube whose one end is in communication with the reservoir and the other end which is in communication with the combustion chamber, a conveying screw provided in the horizontal conveying tube for conveying pellets, and a conveying motor for driving the conveying screw. And a vertical transfer pipe installed upright in communication with the other end of the horizontal transfer pipe and positioned above the combustion plate; The diameter of the combustion plate is formed relatively larger than the diameter of the vertical transfer pipe, the lower side of the vertical transfer pipe is formed with an impeller having a curved wing, the diameter of the vertical transfer pipe when the combustion plate is rotated by the drive motor Wood pellet boilers are characterized in that the pellets located at the center of the combustion plate are pushed by the impeller to the edge of the combustion plate.

In the case of the combustion section of the conventional pellet boiler, the combustion plate is narrow in diameter, the combustion efficiency is slightly reduced, and the combustion plate is made of a circular plate and the waste is stuck to the waste treatment hole formed in the combustion plate in treating the waste. Since it is not easy to discharge, the combustion efficiency is lowered, a failure occurs in the combustion unit itself, there is a problem that the maintenance is not easy due to the complex structure.

The present invention has been made to solve the above problems, it is possible to burn the wood pellets as a heat source evenly distributed throughout the combustion plate, and to prevent the combustion and the remaining combustion waste is stuck to the device It can be automatically discharged to the outside and can be controlled to control the amount of combustion efficiently by adjusting the air supply required during combustion, thereby maximizing combustion efficiency and easy maintenance of the pellet boiler according to the simple structure Its purpose is to provide a control device.

According to a feature of the present invention for achieving the above object, the present invention provides a combustion control apparatus for a pellet boiler, comprising: a pellet supply device for automatically supplying wood pellets; A combustion chamber installed at a lower portion of the heat exchange chamber and having a discharge port configured to discharge ash of the wood pellets burned at the lower end of the rear wall; A pellet combustion unit installed at an inner upper end of the combustion chamber, the pellet combustion unit including a first combustion plate for accommodating and burning wood pellets, and a second combustion plate fixedly installed in a structure extending from the first combustion plate; The pellet receiving plate is installed at the lower side of the pellet burner and provided with a plurality of injection holes penetrating through the pellet burner so as to be spaced apart from each other at regular intervals to form a closed space. Receiving section; A fuel supply pipe is installed between the pellet combustion unit and the pellet receiving portion and communicates with the combustion chamber front wall surface, and a flame radiator for flame radiation extends the fuel supply tube between the pellet combustion portion and the pellet receiving portion. An ignition unit installed by; An air supply pipe communicating with the sealing plate on the front wall of the combustion chamber to supply external air to the sealed space formed between the ashing plate and the sealing plate to inject air into the pellet burner through the injection hole of the ashing plate. An air supply unit provided with a blower for supplying external air to the air supply pipe; The discharge screw is installed inside the discharge port formed at the lower end of the rear surface of the combustion chamber, and the discharge screw is integrally formed at both ends on the end of the pellet receiving portion so that the wood pellets are burned and the remaining ash is discharged to the outside of the combustion chamber. Each of the rotating shafts at both ends of the discharge screw is arranged in bearings provided on both side wall surfaces of the combustion chamber, and a redistribution unit is provided with a driving motor for rotating the discharge screw to one side of the combustion shaft.

In the combustion control apparatus of the pellet boiler according to the present invention, the pellet supply device, the ignition unit, and the air supply unit is configured to control the operation by each sensor, the pellet supply device is excessive wood pellets A supply amount sensor is installed to prevent input, and the wood pellets supplied to the pellet burner are radiated through the flame outlet of the ignition to prevent malfunction due to the initial ignition failure at the initial combustion. The flame detection sensor is installed between the flame radiator which is installed on the inner wall of the front part of the combustion chamber so that the flame can be recognized, and the air can be controlled to detect the flow of air and control the amount of combustion while controlling the air pressure during combustion An air flow sensor is installed inside the supply pipe, and further includes a control unit for receiving and controlling the signals of the respective sensors. It is characterized by.

In the combustion control apparatus of the pellet boiler according to the present invention, the first combustion plate and the second combustion plate constituting the pellet burner is provided with a square frame to form a constant, a plurality of screw support bars on the inside of the frame The first and second combustion plates are arranged in a structure in which the first and second combustion plates are extended, and the upper surface of the front end portion of the second combustion plate is in contact with the bottom end of the first combustion plate. The first combustion plate and the second combustion plate may be installed to be inclined below a predetermined interval from the front of the combustion chamber to the rear portion.

In the combustion control apparatus of the pellet boiler according to the present invention, the screw support bar is made of a screw shape, it characterized in that the through-hole for air circulation at regular intervals formed.

In the combustion control apparatus of the pellet boiler according to the present invention, the first combustion plate is formed integrally with the rotating shaft in the middle portion of both sides of the square frame, the rotating shaft is arranged on the bearing provided on both side wall of the combustion chamber, one side It is characterized in that the forward and reverse motor extending forward and reverse rotation is installed so as to tilt the first combustion plate in a predetermined interval range by the rotation axis.

In the combustion control apparatus of the pellet boiler according to the present invention, the pellet receiving portion is characterized in that it is installed to be inclined at a predetermined interval so that the ash falling from the pellet burning portion moves in the direction of the outlet.

In the combustion control apparatus of the pellet boiler according to the present invention, the pellet supply unit is a hopper for feeding into the supply unit while storing the wood pellet, and the supply pipe is installed in the lower end of the hopper feed screw for transporting the wood pellets therein It is installed and the supply port is formed so that the wood pellet freely falls at the lower end of the supply pipe, a supply unit is installed on one side of the supply pipe to drive the conveying screw, the lower part of the supply is installed by the wind A blower is installed at one side to inject the wood pellet into the pellet burner, and an inlet communicating with the supply port of the supply pipe is formed therethrough, and an inlet formed in the inlet pipe is formed to the upper portion of the first burned plate of the pellet burner.

According to the combustion control apparatus of the pellet boiler according to the present invention, the combustion plate in the combustion chamber is configured to be able to tilt up and down, so that the wood pellets supplied to the combustion plate can be evenly distributed throughout the combustion plate, and the wood pellets can be burned. The efficient supply of air required for the combustion of the fuel can be quickly removed, and the burned pellet material can be easily removed, and the combustion efficiency is improved.

1 is a view showing a conventional pellet boiler device.
2 is a cross-sectional view schematically showing a pellet boiler to which the combustion control apparatus of the pellet boiler according to the preferred embodiment of the present invention is applied.
3 is a perspective view showing a combustion control apparatus of a pellet boiler according to a preferred embodiment of the present invention.
Figure 4 is an exploded perspective view showing the main components of the combustion control apparatus of the pellet boiler according to a preferred embodiment of the present invention.
5 is an enlarged perspective view illustrating a combustion control unit in a combustion control apparatus of a pellet boiler according to a preferred embodiment of the present invention.
6 to 7 is a side cross-sectional view showing an operating state of the combustion control device of the pellet boiler according to a preferred embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In addition, it will be described a preferred embodiment of the present invention, but the technical idea of the present invention is not limited to this, but can be variously modified and implemented by those skilled in the art.

2 is a cross-sectional view schematically showing a pellet boiler to which the combustion control apparatus of the pellet boiler according to the preferred embodiment of the present invention, Figure 3 is a perspective view showing a combustion control apparatus of the pellet boiler according to the preferred embodiment of the present invention 4 is an exploded perspective view showing the main components of the combustion control device of the pellet boiler according to the preferred embodiment of the present invention, Figure 5 is a combustion control device of the pellet boiler according to the preferred embodiment of the present invention An enlarged perspective view of the combustion control unit is shown.

The combustion control apparatus 100 of the pellet boiler according to the present invention is a pellet supply device unit 3, combustion chamber 10, pellet combustion unit 20, pellet receiving section 30, ignition unit 40, It comprises an air supply unit 50, pellet material discharge means 60, sensor control unit 70, pellet supply unit 80.

The pellet supply unit 3 is installed on the upper part of the combustion chamber 10 to automatically supply the wood pellets (M), and the hopper (3a) for feeding into the supply unit (3b) while storing the wood pellets (M) and And, at the lower end of the hopper (3a) is provided a feed pipe (3b-2) is provided with a feed screw (3b-1) for transporting the wood pellet (M) therein, the wood at the lower end of the supply pipe (3b-2) Supply port (3b-3) is formed so that the pellets fall freely, the supply unit is provided with a motor (3b-4) for driving the feed screw (3b-1) on one side of the supply pipe (3b-2) 3b) and a blower 3c-1 is installed at one side of the lower portion of the supply portion 3b to inject the wood pellets M into the pellet burner 20 by wind. An inlet port 3c-2 communicating with the supply port 3b-3 of 2) is formed therethrough and an input pipe line 3c-3 is formed to the upper portion of the first combustion plate 21 of the pellet burner 20. It consists of part 3c.

The pellet feeder unit 3 feeds the wood pellet M stored in the hopper 3a by the feed screw 3b-1 of the feeder 3b, and the feeder 3b and the feeder 3b. The wood pellet (M) is free to fall through the inlet (3c-2) communicated, and the wood pellet (M) is supplied to the pellet burner (20) through the input unit 3c, the input unit ( 3c) Wood pellets (M) can be introduced into the pellet burner (20) by the wind by the blower (3c-1) provided on one side. This prevents the transfer screw 3b-1 from failing due to hot heat due to the combustion action of the pellet burner 20, and adjusts the supply amount of the wood pellets M according to the wind control of the blower 3c-1. It is made up.

The combustion chamber 10 is composed of a mold frame 11 of a predetermined size so that the heat exchange tube (2) is installed in the lower portion of the heat exchange chamber (1), the wood pellet (M) is burned and remaining at the lower end of the rear wall A discharge port 12 through which ash can be discharged is formed.

The pellet burner 20 is installed on the inner upper end of the combustion chamber 10 to receive and burn wood pellets M supplied from the pellet supply device 80, the upper and lower tilting operation by a drive motor The first combustion plate 21 and the second combustion plate 22 fixedly installed in a structure extending from the first combustion plate 21 are formed.

Here, the first burner plate 21 and the second burner plate 22 are provided with square frames 21 'and 22' having a constant mold, and a plurality of screw support bars 23 are arranged inside the frame. It is installed, the first combustion plate 21 and the second combustion plate 22 is installed in a structure in which the connection is extended, the front end of the second combustion plate 22 in the bottom end of the rear end of the first combustion plate 21 The upper part of the upper surface is in contact with each other, and the first combustion plate 21 and the second combustion plate 22 are installed to be inclined below a predetermined interval from the front of the combustion chamber 10 toward the rear portion.

The screw support bar 23 is made of a screw shape to easily fall to the lower side while preventing oxygen from adhering to the combustion and the remaining ash while smoothly supplying between the screw support bar 23 arranged in a plurality of arrangement, the screw The support bar 23 penetrates the through hole 23a for a smoother oxygen supply at regular intervals.

In the first combustion plate 21, each of the rotating shafts 21a integrally formed at the middle portions of both sides of the square frame 21 'is arranged on bearings 25 provided on both side wall surfaces of the combustion chamber 10, and one rotating shaft ( 21a) the forward and reverse motors 24, which rotate forward and backward so that the first combustion plate 21 is tilted up and down within a predetermined interval range, are extended.

The pellet receiving portion 30 is installed on the lower portion of the pellet burner 20 spaced apart a predetermined interval, the pellet burner 20 while being installed to be inclined in the same manner as the first and second burner plates (21, 22) A plurality of injection holes 31 through which the plurality of injection holes 31 are penetrated so as to inject air into the air; and the air is supplied from the air supply unit 50 by being installed at a lower distance from the lower side of the back plate 32. It is composed of a sealing plate 34 for forming a sealed space portion 33 to control the storage and stored air pressure.

The ignition unit 40 is installed between the pellet combustion unit 20 and the pellet receiving portion 30 to ignite the wood pellets (M) loaded on the pellet combustion unit 20, the combustion chamber 10 A fuel supply pipe 41 communicating with the front wall is installed, and a flame radiator 42 including a vaporization pipe and a spark plug for flame radiation is disposed between the pellet combustion unit 20 and the pellet receiving part 30. The fuel supply pipe 41 is extended to be installed.

In addition, the flame radiator 42 is installed to have the same slope as the pellet burner 20 for efficient ignition.

The air supply unit 50 burns pellets through the injection hole 31 of the back plate 32 by supplying external air to the closed space portion 33 formed between the back plate 32 and the closing plate 34. It is installed to supply oxygen to the wood pellets (M) by burning the air to the part 20, the air supply pipe 51 is installed in communication with the sealing plate 34 on the front wall surface of the combustion chamber (10). In addition, a blower 52 for supplying external air to the air supply pipe 51 is installed.

The air supply unit 50 may be composed of one or more places for rapid air supply.

The pellet material discharging means 60 is installed to discharge the ash falling into the ash receiving plate 32 to the outside of the combustion chamber 10 after burning in the pellet combustion unit 20, the combustion chamber 10 Both ends on the inner end of the discharge port 12 formed in the lower end of the rear surface, the pellet material receiving portion 30 is formed to be inclined so that the ash falling from the pellet burning portion 20 is easily moved in the direction of the discharge opening (13). Discharge screws 61 are formed integrally with the rotation shaft 61a, and each of the rotation shafts 61a at both ends of the discharge screw 61 is provided on bearings 63 provided on both side wall surfaces of the combustion chamber 10, respectively. The driving motor 62 is installed to rotate the discharge screw 61 to one side of the rotating shaft (61a).

The sensor control unit 70 is configured to control the operation of the pellet supply device 3, the ignition unit 40, and the air supply unit 50 by each sensor, the wood in the pellet supply device (3) A supply amount sensor 71 is installed to prevent the pellet M from being excessively injected, and the wood pellet M supplied to the pellet burner 20 in the ignition unit 40 is initially initialized at the time of combustion. In order to prevent malfunction due to the ignition misfire, the flame radiator 42 is installed on the inner wall of the front part of the combustion chamber 10 to recognize the flame radiated through the flame radiator 42 of the ignition unit 40. Between the flame detection sensor 72 is installed. In addition, an air flow sensor 73 is installed inside the air supply pipe 51 so as to sense the air flow of the air supply unit 50 to control the amount of combustion while controlling the air pressure during combustion. In addition, the controller is configured to control a combustion control device in response to the signals of the respective sensors.

On the other hand, the structure and function of the heat exchange chamber (1) for converting heat generated by the combustion control apparatus according to the present invention into hot water supply and heating, as a technique that is commonly used will not be described in detail.

Hereinafter, the operation of the combustion control apparatus of the pellet boiler according to the present invention will be described with reference to FIGS.

First, when the wood pellets M are supplied to the pellet combustion unit 20 installed in the combustion chamber 10 by the pellet supply unit 3, the wood pellets M stored in the hopper 3a are transferred to the supply unit 3b. The wood pellets (M) fall freely through the supply port (3b) and the inlet (3c-2) communicated with the supply port (3b) while being transported by the screw (3b-1), falling wood pellet (M) ) Is supplied to the pellet burner 20 along the feeder 3c. At this time, the wood pellet (M) is introduced into the pellet burner 20 by the wind by the blower (3c-1) provided on one side of the feeder (3c), which constitutes the pellet burner 20 The wood pellet M is loaded on the first combustion plate 21 and the second combustion plate 22 fixedly installed in a structure in which the first combustion plate 21 and the first combustion plate 21 are extended extends downward. As the inclined structure is formed, a predetermined amount of wood pellets M are dispersed while naturally moving along an inclined slope. At this time, the first combustion plate 21 installed so as to be rotatable by both side wall rotating shafts of the combustion chamber 10 so as to quickly disperse the wood pellets (M) throughout the pellet combustion unit 20 within a predetermined interval range. The first combustion plate 21 is connected to the second combustion plate 22 installed in a structure in contact with the rear end of the first combustion plate 21 while tilting up and down by the positive and reverse motor 24 that operates forward and reverse rotation. While striking it is possible to evenly distribute the wood pellets (M) throughout the pellet combustion unit (20).

In addition, the wood pellets M are evenly dispersed in the entire first and second combustion plates so that the combustion proceeds by igniting the wood pellets M by the ignition unit 40.

Here, when the first supply of wood pellets (M) to the pellet burner 20, the initial supply is to supply about 40 ~ 50g. And it is installed between the flame chamber 42 inside the combustion chamber 10 during the flame radiation between the pellet burner 20 and the back plate 32 through the flame radiator 42 of the first ignition unit (40) Flame detection sensor 72 detects the flame according to the flame to check whether the wood pellets (M) normal combustion to prevent the initial ignition malfunction of the ignition unit (40).

Therefore, when the flame is detected by the flame detection sensor 72 and normal combustion is made, the pellet supply device 3 automatically supplies the wood pellets M by a predetermined amount continuously, and the ignition unit 40 malfunctions. If the initial ignition fails due to the ignition is again made so that the normal fire on the wood pellets (M) for the initial supply.

Thus, in the initial combustion, the pellet is heated and ignited through the ignition unit 40 to ignite the pellet. When the normal ignition starts, the ignition unit 40 is fired.

The operation is stopped, and the newly supplied wood pellets M can be continuously ignited by the wood pellets M being burned.

In addition, at the same time as the operation of the ignition unit 40, the air supply unit 50 supplies the oxygen necessary for ignition and combustion of the wood pellet (M), for this purpose through the air supply pipe 51 in the blower 52 Air is supplied to the sealed space portion 33 formed between the back plate 32 and the sealed plate 34. And the air stored in the closed space 33 is blown in the direction of the pellet burner 20 through the injection hole 31 of the back plate 32 again wood pellets according to the supply of oxygen in the air ( M) to increase the combustion efficiency, by detecting the air flow of the air supply unit 50 by the air flow sensor 73 provided inside the air supply pipe 51 to control the flow of air to adjust the amount of combustion Done.

In addition, the first and second combustion plates 21 and 22 have a structure in which a plurality of screw support bars 23 having a screw shape are arranged on a square frame, and thus the back plate 32 is interposed between the screw support bars 23. Ventilation of the air injected through the injection hole 31 of the) is free, and the through hole 23a is drilled at a predetermined interval in the screw support bar 23 itself, thereby supplying more oxygen in the process of burning wood pellets (M). This is done smoothly to maximize the combustion efficiency.

As described above, the combustion heat and the flame generated while the wood pellets are burned heat the heat exchange tube of the heat exchange chamber provided above the combustion chamber 10, thereby supplying the heating water and the hot water supply.

Ash generated in the process of burning the wood pellet (M) is discharged to the outside of the combustion chamber 10 by the pellet material discharge means 60, the pellet material burned in the first and second combustion plates (21, 22) While falling to the side is naturally discharged to the pellet material discharge means 60 along the slope to the back plate 32 is discharged to the outside of the combustion chamber 10 by the discharge screw 61. In this case, the first and second combustion plates 21 and 22 may be shaken by the tilting operation of the first and second combustion plates 21 and 22, thereby burning the first and second combustion plates 21 and 22. To fall easily to the lower back plate 32.

In this way, by allowing the pellet material discharge means 60 to automatically discharge the ash to the outside of the combustion chamber 10, the ash is fixed in the first and second combustion plates 21 and 22 and the back plate 32 It prevents poor ignition or deterioration of combustion efficiency and makes maintenance more convenient by maintaining cleanliness.

It will be apparent to those skilled in the art that various modifications, substitutions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. will be. Accordingly, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical spirit of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by the embodiments and the accompanying drawings. . The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

3: pellet feeder
10: combustion chamber 11: mold frame 12: outlet
20: pellet burner 21: first burner plate 22: second burner plate
23: screw support bar 24: stationary motor
30: pellet receiving portion 31: injection hole 32: ash tray
33: sealed space 34: sealed plate
40: ignition unit 41: fuel supply pipe 42: flame radiator
50: air supply unit 51: air supply pipe 52: blower
60: pellet material discharge means 61: discharge screw 62: drive motor
70: sensor control unit 71: supply amount sensor 72: flame detection sensor
73: air flow sensor

Claims (7)

In the combustion control device of the pellet boiler,
A pellet feeder unit 3 for automatically supplying wood pellets M;
A combustion chamber 10 in which an outlet 12 for discharging ash of the wood pellets M is formed;
It is installed on the inner upper end of the combustion chamber 10, the wood pellets (M) is accommodated and the first combustion plate 21 and the structure fixed to the structure extending to the first combustion plate 21 for burning A pellet burner 20 formed of two burner plates 22;
The back plate 32 and a plurality of injection holes 31 are formed in the lower portion of the pellet burner 20 and the plurality of injection holes 31 penetrate through the pellet burner 20 to inject air. Pellet material receiving portion 30 is installed on the lower side spaced apart by a predetermined interval to form a sealing plate 34 to form a sealed space portion 33;
A fuel supply pipe 41 is installed between the pellet burner 20 and the pellet receiver 30 and communicates with the front wall of the combustion chamber 10, and the pellet burner 20 and the pellet receiver An ignition device 40 provided with a flame radiator 42 for flame radiation between the sections 30 and extending the fuel supply pipe 41;
Air is supplied to the pellet combustion unit 20 through the injection hole 31 of the back plate 32 by supplying external air to the closed space portion 33 formed between the back plate 32 and the sealing plate 34. An air supply pipe 51 communicating with the sealing plate 34 is installed on the front wall surface of the combustion chamber 10 so as to spray the air, and a blower 52 for supplying external air to the air supply pipe 51 is provided. An installed air supply unit 50;
It is installed inside the outlet 12 formed at the lower end of the rear surface of the combustion chamber 10, the pellet receiving portion 30 so that the wood pellet (M) is burned and the remaining ash discharged to the outside of the combustion chamber (10) Discharge screw 61 is formed on both ends of the rotating shaft integrally formed at both ends on the end of the), and each of the rotating shafts at both ends of the discharge screw 61 is arranged in bearings provided on both side walls of the combustion chamber 10, respectively. Combustion control device for a pellet boiler, characterized in that consisting of; re-discharge unit 60 is provided with a drive motor for rotating the discharge screw 61 to one side rotation shaft. According to claim 1, wherein the pellet supply device 3, the ignition unit 40, and the air supply unit 50 is configured to control the operation by each sensor, the pellet supply device 3 A supply amount sensor 71 is installed to prevent the wood pellet M from being excessively injected, and the wood pellet M supplied to the pellet burner 20 in the ignition unit 40 is initially burned. In order to prevent malfunction due to the initial ignition failure, the flame radiator is installed on the inner side wall of the front part of the combustion chamber 10 to recognize the flame radiated through the flame radiator 42 of the ignition unit 40 ( 42 is installed between the flame detection sensor 72, the air flow detection sensor (inside the air supply pipe 51 to detect the air flow of the air supply unit 50 to control the amount of combustion while controlling the air pressure during combustion ( 73) is installed,
Combustion control device of a pellet boiler characterized in that it further comprises a control unit for receiving and controlling the signals of the respective sensors.

According to claim 1, wherein the first combustion plate 21 and the second combustion plate 22 constituting the pellet burner 20 is provided with a square frame (21 ', 22') of a constant frame, A plurality of screw support bars 23 are arranged inside the frame,
The first combustion plate 21 and the second combustion plate 22 is installed in a structure extending from the connection, but the upper end of the front end of the second combustion plate 22 in the bottom end of the first combustion plate 21 The first combustion plate 21 and the second combustion plate 22 are installed to be in contact with each other, the combustion of the pellet boiler, characterized in that the inclined down a predetermined interval from the front of the combustion chamber 10 toward the rear portion. Control unit. According to claim 3, The screw support bar 23 is made of a screw shape, the combustion control device of the pellet boiler characterized in that the through-holes (23a) for the air circulation at a predetermined interval. According to claim 1 or 3, wherein the first combustion plate 21, the rotating shaft 21a is integrally formed at the middle of both sides of the square frame 21 ', the rotating shaft 21a is the combustion chamber 10 Each of the bearings provided on both sides of the wall is arranged, and the forward and reverse motor 24 is rotated forward and backward so as to tilt the first combustion plate 21 up and down within a predetermined interval range by one side of the rotating shaft (21a) is extended. Combustion control device for pellet boiler.
2. The combustion control apparatus for a pellet boiler according to claim 1, wherein the pellet receiving portion (30) is inclined at a predetermined interval so that ash falling from the pellet burning portion (20) moves in the direction of the discharge port (13).
The hopper 3a according to claim 1, wherein the pellet feeder unit 3 includes a hopper 3a for feeding the wood pellets M into the feeder 3b.
A supply pipe 3b-2 having a feed screw 3b-1 for transferring wood pellets M therein is installed at a lower end of the hopper 3a, and a wood pellet is provided at a lower end of the supply pipe 3b-2. Supply port (3b-3) is formed through the supply port 3b-3 to fall freely, the supply portion (3b) is provided with a motor (3b-4) for driving the transfer screw (3b-1) on one side of the supply line (3b-2) )Wow,
It is installed in the lower portion of the supply portion 3b and a blower (3c-1) is installed on one side to feed the wood pellets (M) to the pellet burner 20 by the wind, supply of the supply pipe (3b-2) An inlet portion 3c through which an inlet port 3c-2 communicating with the sphere 3b-3 is formed, and an inlet line 3c-3 is formed to an upper portion of the first combustion plate 21 of the pellet burner unit 20. Combustion control device of a pellet boiler, characterized in that consisting of.

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