KR20120139231A - Pellet burner - Google Patents

Abstract

PURPOSE: A pellet burner capable of preventing the thermal damage to a combustion unit or an air tank unit is provided to stably discharge heat generated from a combustion process of pellets. CONSTITUTION: A pellet burner includes an air tank unit(20), an air inlet unit(30), and a combustion unit(10). The air inlet unit injects air into the air tank unit. The combustion unit includes a combustion chamber(11) and an outer wall(12) produced with a fireproof material. The outer wall includes at least one air inlet(13) and air blowing unit(14). The outer wall of the combustion chamber is fixed to the inner surface of the air tank unit using a dual partition wall structure to form an air insulating layer.

Description

Pellet burner

The present invention relates to a pellet burner, and more particularly, to a pellet burner that ignites and burns pellets compacted with crushed wood, thereby releasing hot heat into a boiler or the like.

Pellets are high calorific value renewable fuels produced by crushing, drying, firing and cooling wood, and are widely used in homes and industries, especially in Europe.

 These pellets are not only cheaper than calories compared to bunker C oil, but also emit very little carbon dioxide compared to other fossil fuels, and do not generate dusty sulfur oxides and carbon monoxide. have.

It is apparent that boilers employing such pellets as combustion sources have significantly reduced emissions of carbon dioxide causing air pollution as described above, have high thermal efficiency, and the like. Heat may flow back into the pellet feeder and backfire, which is vulnerable for safety.

In consideration of the thermal efficiency, the heat generated by the combustion of the pellets is preferably discharged through the fire, but in the related art, since the combustion chamber itself is made of steel having high thermal conductivity, it does not have stable heat resistance or heat insulation. In addition, it is difficult to expect stable thermal efficiency because a lot of heat to be supplied to the boiler is discharged to the outside and exhausted.

In addition, the problem of shortening the life of the apparatus by accelerating deterioration or oxidation of components formed in the combustion chamber and the exterior of the combustion chamber by the high temperature heat generated by the combustion of the pellets has been pointed out.

An object of the present invention devised to solve the above problems is to prevent thermal damage including oxidation and deterioration of a combustion unit by heat generated during combustion of pellets, and an air tank unit surrounding the combustion unit, and It is to provide a pellet burner that has improved thermal efficiency by suppressing the loss of heat released from the pellet.

The above object is achieved by the following constitutions provided in the present invention.

Pellet burner according to the present invention,

An air tank unit; An air injection unit for injecting air into the air tank unit; And a combustion section having a combustion chamber in which a crater is formed in front, and one or more air inlets communicating with the air tank section, and a combustion section having an outer wall of the refractory heat insulating material, each of which is formed with a blower.

Preferably, the outer wall of the combustion unit is fixed in a double partition structure spaced apart from the inner surface of the air tank unit to form an air insulation layer, so that the heat generated in the combustion chamber by combustion of the pellets is shielded by the air insulation layer.

More preferably, a pellet supply pipe is formed in the combustion section to communicate with the combustion chamber and the outside by passing through an air tank, and the pellet supply pipe has an air inlet tube for introducing air into the combustion chamber. The phenomenon of backflow along the pellet feed pipe is suppressed.

As described above, the pellet burner according to the present invention has a combustion unit having an air inlet port and a blower port communicating with the air tank unit on the outer wall, respectively, to provide stable combustion of pellets through stable air supply, and in this combustion process. Stable discharge of the generated heat is possible.

Particularly, in the present invention, the outer wall of the combustion section is composed of a castable which is a refractory insulating material, and an air insulation layer is formed on the outer wall of the combustion section, so that heat generated by combustion of the pellets is released to the outer wall and outside of the air tank section along the outer wall of the combustion section. Since it is prevented, it combines improved thermal efficiency, and prevents the phenomenon that each component except the combustion part is exposed to the high temperature heat generated during the combustion process of the pellets and is thermally deformed, thereby having stable durability.

In addition, by the opening and closing door that is closed by self-closing and closed by the interference with the ignition to enter, the loss of heat through the ignition furnace, and thermal damage of the ignition by the heat can be prevented, and By providing a backfire prevention structure through air in the pellet supply pipe to prevent the phenomenon that the heat of the combustion chamber backfires to ignite the pellets not supplied to the combustion chamber, improved fire safety is secured.

1 is a partial cutaway state diagram showing the overall configuration of a pellet burner according to a preferred embodiment of the present invention,
Figure 2 shows a detailed configuration of the burner in the pellet burner proposed in the preferred embodiment of the present invention,
3 is an operation state diagram of the pellet burner proposed in the preferred embodiment of the present invention,
4 is an enlarged view of a portion 'A' of FIG. 3,
5 is an enlarged view of an operation state of the 'B' portion of FIG.

Hereinafter, with reference to the accompanying drawings will be described in detail a pellet burner proposed as a preferred embodiment in the present invention.

1 is a partial cutaway state diagram showing the overall configuration of a pellet burner according to a preferred embodiment of the present invention, Figure 2 is a pellet burner proposed as a preferred embodiment in the present invention, showing a detailed configuration of the combustion section, Figure 3 is a working state diagram of the pellet burner proposed as a preferred embodiment in the present invention, Figure 4 is an enlarged view of the 'A' portion of Figure 3, Figure 5 is an operating state of the 'B' portion of Figure 3 To zoom in.

Pellet burner 1 according to the present invention, as shown in Figure 1, the air tank unit 20; An air injection unit 30 for injecting air into the air tank unit 20; And a combustion section 10 having a combustion chamber 11 in which a crater 11a is formed in front.

The outer wall 10a of the combustion unit 10 forms a double partition wall structure with the inner surface of the air tank unit 20, so that the outer wall of the combustion unit 10 has an air insulating layer 21 formed in the air tank unit 20 ) So that the outer wall is wrapped.

In addition, the outer wall 12 of the combustion unit 10 is made of a refractory heat insulating material, the outer wall 12 is formed with at least one air inlet 13 and the air outlet 14 in communication with the air tank unit 20, respectively. .

In the present invention, as an example, the combustion section 10 formed of a castable, which is a refractory insulating material having both stable heat insulation and fire resistance, is provided in the air tank 20 in a double partition structure.

Then, as shown in Fig. 2, the outer wall 12 of the combustion section 10 is embedded with a reticular member 12a, and the outer diameter is wrapped by the metallic sleeve 12b, and the reticular member 12a and the metallic sleeve are covered. (12b) has durability including form stability and stable impact resistance.

Accordingly, as shown in FIG. 3, the pellets P introduced into the combustion chamber 11 are burned by the air flowing into the combustion chamber 11 from the air tank unit 20 along each air inlet 13. Create

And, since the heat is discharged to the crater (11a) formed in the front by the air flowing along the tuyeres 14 formed in the rear of the combustion unit 10, the pellet burner 1 according to the present embodiment is a stable air supply Stable combustion of the pellets (P) through, and stable discharge of the heat generated by the combustion is possible.

At this time, the combustion unit 10 is composed of a caster of the outer wall is a fire-resistant insulation and the outer wall is wrapped in the air insulation layer 21, the heat generated by the combustion of the pellets (P) is the outer wall of the combustion unit 10 The phenomenon emitted along (12) can be suppressed.

Therefore, the pellet burner 1 according to the present embodiment has a stable heat insulating property of the combustion unit 10 by the heat insulating property of the castable material itself and the air heat insulating layer. Thus, while the pellet burner 1 has improved thermal efficiency, deterioration or oxidation of the air tank unit 20 which fixes the combustion unit 10 in a wrapped state can be suppressed, thereby having improved durability.

Meanwhile, as shown in FIGS. 1, 3, and 4, the combustion unit 10 is formed with a pellet supply pipe 15 penetrating the air tank 20 to communicate the combustion chamber 11 with the outside. The pellet supply pipe 15 is installed in communication with the pellet discharge pipe 110 of the pellet supply device 100, it is configured to enable automatic supply of the pellets (P).

Referring to the drawing, the pellet supply pipe 15 includes pellets P stored in the hopper 120 through the action of feeding the screw 130 to the pellet supply pipe 15 of the combustion unit 10 through the pellet discharge pipe 110. The pellet supply apparatus 100 which supplies automatically is arrange | positioned.

And the pellet supply pipe 15 which communicates with the combustion chamber 11 is fixed in the state penetrated by the outer wall of the air tank part 20 in the state wrapped by the fireproof heat insulation member 15a which consists of castables, and the said fireproof heat insulation By the heat insulation of the member 15a, the phenomenon that the heat conducted through the pellet supply pipe 15 is conducted to the outer wall of the air tank 20 is suppressed.

In the present embodiment, an air inlet tube 22 for forcibly injecting air into the combustion chamber 11 is disposed in the pellet supply tube 15 for communicating between the pellet supply apparatus 100 and the combustion chamber 11. The pellet discharge pipe 110 of the pellet supply device 100 is provided with a blower 111 for injecting air into the combustion chamber 11 through the pellet supply pipe 15.

Accordingly, the heat generated in the combustion chamber 11 is heated by the air flowing into the combustion chamber 11 along the pellet supply pipe 15 through the air injection pipe 15a and the blower 111. Since the backflow is prevented along, the loss of heat by the pellet supply pipe 15 can be prevented, and the ignition of the pellets P remaining between the pellet supply device 100 and the combustion section 10 can be prevented. have.

In addition, in the present embodiment, the ignition furnace 16 is formed to penetrate the outer wall of the combustion unit 10, and the ignition member 41 of the ignition unit 40 passes through the ignition furnace 16. Configured to enter and exit.

1, 3, and 5 showing a preferred embodiment, the ignition part 40 includes an ignition member 41 and ignition by applying heat to the pellets P in the combustion chamber 11 and the ignition member ( And an actuator 42 for providing thrust according to the advance and retreat of the ignition member 41 installed in the guide 43, and the ignition member 41 installed in the retreat structure. 41 drives the ignition path 16 in and out by driving the actuator 42.

As the ignition member 41, as shown in FIG. 1A, a burner type in which hot air combusting carbides such as oil or gas is introduced into the combustion chamber to ignite the pellet, or as shown in FIG. 1B, electric heat is generated and introduced into the combustion chamber. An electrothermal heater type or the like for igniting pellets may be adopted, and the actuator 42 may be an actuator of various types such as a motor type and a cylinder type.

In addition, the ignition path 16 formed on the outer wall of the combustion chamber 11 is provided with an opening and closing door 17 for closing the ignition path 16 by turning in the forward direction about the hinge shaft 17a by its own weight. It is configured to enable automatic opening and closing of the ignition furnace 16 according to the entry and exit of the furnace 16.

Specifically, as shown in FIG. 5A, when the ignition member 41 is advanced by the driving of the actuator 42 and enters the ignition path 16 of the combustion chamber, the opening / closing door 17 is in the forward direction by the interference with the ignition member 41. When the ignition furnace 16 is opened and the closed ignition furnace 16 is opened, and the ignition furnace 16 retreats after the ignition of the pellets injected into the combustion chamber 11 as shown in FIG. 5B, the opening / closing door 17 moves the hinge shaft 17a. Turning in the reverse direction to the center to close the open ignition path (16).

Therefore, the pellet burner 1 according to the present embodiment is configured such that the ignition member 41 enters the combustion chamber only during the ignition process of the pellets P to prevent thermal damage of the ignition member 41.

In addition, since the ignition furnace 16, which is the entry / exit path of the ignition member 41, forms an open state only in the ignition process of the pellets through the ignition member 41, the phenomenon in which heat is released through the ignition furnace 16 is suppressed. On the other hand, the phenomenon in which the complex member 41 is thermally damaged by the heat released along the ignition furnace 16 can be prevented.

1. Pellet Burner
10. Combustion section 11. Combustion chamber
11a. fireball
12. Outer wall 12a. Reticular member
12b. Sleeve 13. Air Inlet
14. Blower 15. Pellet supply pipe
15a. Fireproof insulation member 16. Ignition furnace
17. Opening and closing door 17a. Hinge shaft
20. Supply tank section 21. Air insulation layer
22. Air injection line 30. Supply inlet
40. Ignition part 41. Ignition member
42. Actuator 43. Guide
100. Pellet Feeder 110. Pellet outlet
111.Blower 120.Hopper
130. Screw

Claims (8)

An air tank unit; An air injection unit for injecting air into the air tank unit; And a combustion section having a combustion chamber in which a crater is formed in front, and at least one air inlet communicating with the air tank section, and a combustion section having an outer wall of a fireproof heat insulating material, each having a blower opening. The method of claim 1, wherein the outer wall of the combustion unit is fixed in a double partition structure spaced from the inner surface of the air tank unit to form an air insulation layer, so that the heat generated in the combustion chamber by the combustion of the pellets is shielded by the air insulation layer. Pellet burner, characterized in that. According to claim 1, wherein the combustion unit is formed through the air tank unit pellet supply pipe for communicating with the combustion chamber and the outside, the pellet supply pipe is an air injection pipe for introducing air into the combustion chamber is built, the heat generated in the combustion chamber Pellet burner, characterized in that configured to suppress the phenomenon of back flow along the pellet supply pipe. According to claim 1, wherein the combustion unit is formed through the air tank to the pellet supply pipe for communicating with the combustion chamber and the outside, the pellet supply pipe is installed in communication with the pellet discharge pipe of the pellet input device, the pellet discharge pipe, or pellet The supply pipe is provided with a blower for discharging air into the combustion chamber through the pellet supply pipe, the pellet burner, characterized in that the heat generated in the combustion chamber is prevented from flowing back along the pellet supply pipe. The pellet burner according to claim 1, wherein an ignition path is formed through the outer wall of the combustion unit, and the ignition unit is configured to enter and exit the combustion chamber. 6. The pellet burner according to claim 5, wherein the ignition furnace is provided with an opening / closing door which is opened and closed by interference with the ignition part to enter and exit. 7. The pellet burner according to claim 6, wherein the opening / closing door is fixed to a point of the ignition through a hinge shaft, and is configured to pivot by self weight to close the ignition. 6. The apparatus of claim 5, wherein the ignition unit comprises: an ignition member for ignition by applying heat to pellets introduced into the combustion chamber; Pellet burner, characterized in that it comprises an actuator for advancing the ignition member along the ignition furnace.

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