KR102130371B1 - Burner device for smoke reduction device of active regeneration - Google Patents

Abstract

The present invention relates to a burner apparatus for a smoke reduction apparatus using a forced regeneration method, and more specifically, to a burner apparatus for a smoke reduction apparatus using a forced regeneration method, which is able to directly heat a canning in a burner mainframe unit by flames in case of regeneration, to increase the temperature of the canning in the burner mainframe unit, to emit red light of 600°C or above, to prevent the smoke attached to a wall surface in the burner mainframe unit from being directly burnt, to prevent the smoke from being attached to a wall surface in the burner mainframe unit, to periodically inject the air for cleaning of 1-10 bar through the air spray hole for cleaning the wall surface of the burner formed on the wall surface in the burner mainframe unit while regeneration is not being conducted, to remove the smoke attached to the wall surface of the burner mainframe unit, to periodically inject the air for cleaning of 1-10 bar through the air spray hole for a nozzle formed adjacent to the nozzle, to remove the smoke attached to the nozzle, to reduce the blocked part of the nozzle, and to be applicable to all of the DPF apparatus, the particle matter (PM)-NOx reducing apparatus, and the SCR apparatus for increasing the temperature of the exhaust gas.

Description

Burner device for smoke reduction device of forced regeneration method {Burner device for smoke reduction device of active regeneration}

According to the present invention, by directly heating the burner body portion canning by a flame during regeneration, the smoke attached to a wall surface inside the burner body portion is directly burned or the smoke is burned through a temperature rise to the burner body portion canning and red light emission of 600° C. or more. It is possible to prevent it from being attached to the wall surface inside the burner body part, and during the regeneration is not performed, periodic cleaning air of 1 to 10 bar is provided through the air injection hole for cleaning the burner wall surface formed on the wall inside the burner body part. By injecting with, it is possible to shake off the fumes attached to the wall surface inside the burner body, and periodically inject 1 to 10 bar of cleaning air through the nozzle air injection hole formed in the vicinity of the nozzle. By reducing the clogging of the nozzle by removing the soot attached to the nozzle, exhaust from the diesel particulate filter (DPF) device, PM (Particle matter)-NOx reduction device, and selective reduction catalyst (SCR) device It is a technology for a burner device for a smoke reduction device of a forced regeneration method that can be applied to all of the heating of gas.

In general, diesel vehicles are recognized as the main cause of pollutant emissions, despite their excellent fuel economy. Accordingly, as a method of reducing pollutants emitted from diesel vehicles, improvements in combustion technology and post-treatment technology have been developed.

Among these, the post-treatment technology has advantages of simple structure change, low cost, and excellent reduction efficiency. As such post-treatment technology, a diesel particulate filter (DPF) device for collecting and treating diesel particulate matter has been actively developed.

The DPF device is one of the methods of reducing PM (Particle Matter) among post-treatment technologies, and the DPF device adopts a method of collecting PM by passing exhaust gas generated from a diesel vehicle through a filter made of a porous material. It can be largely divided into a technique of collecting the filter using a filter and a technique of keeping the filter clean by regeneration by burning and collecting the collected PM.

The DPF regeneration method includes a forced regeneration method, an active regeneration method, a passive regeneration method, and a composite regeneration method (Active + Passive combination type), wherein the forced regeneration method uses exhaust gas through a DPF regeneration burner. It is a method of regenerating by heating the temperature of the soot to a temperature that the soot can oxidize.

However, the conventional DPF regeneration burner is difficult to stabilize the flame of the DPF regeneration burner under various exhaust conditions according to the engine conditions of the vehicle, for example, changes in exhaust gas temperature and oxygen concentration, and thus generates harmful emission gas due to flame loss There was an issue causing it.

On the other hand, Figure 1 is a photograph showing a shape in which soot is accumulated in the nozzle of a burner of a large-sized composite device mounted on a conventional construction machine, Figure 2 is a ignition means of a burner of a large-sized composite device mounted on a conventional construction machine It is a photographic drawing showing the shape in which soot is accumulated in (igniter) and nozzle.

As shown in the shapes shown in FIGS. 1 and 2, soot is stagnant inside the burner mounted on the surface perpendicular to the flow of exhaust gas, so that the soot accumulates as well as accumulates on the burner surface and blocks the ignition means and the nozzle to thicken the burner Clogging occurs, which causes ignition failure and white smoke.

Therefore, during regeneration, the burner body portion can be directly heated by the flame, so that the smoke attached to the wall surface inside the burner body portion is directly burned or the smoke is burned through the red light of 600° C. It can be prevented from being attached to the wall inside the part, and during the regeneration is not performed, 1-10 bar of cleaning air is periodically injected through the burner wall cleaning air spray hole formed on the wall of the burner main body. It is possible to blow off the fumes attached to the wall inside the burner body, and periodically inject 1 to 10 bar of cleaning air through the nozzle air injection hole formed in the vicinity of the nozzle to give the smoke attached to the nozzle. It is possible to reduce the clogging of the nozzle by shaking off, and it can be applied to all of the exhaust gas heating in the diesel particulate removal filter (DPF) device, PM (Particle matter)-NOx reduction device, and selective reduction catalyst (SCR) device. There is an urgent need for the development of a burner device for a smoke reduction device of the forced regeneration method.

KR 10-2011-0016004 (2011. 2. 23)

Therefore, the present invention was conceived to solve the above problems, and by directly heating the burner body portion canning by a flame during regeneration, the burner body portion can be heated and heated to 600° C. or higher to emit red light. It is an object of the present invention to provide a burner device for a smoke reduction device of a forced regeneration method, which can directly burn the smoke attached to the wall surface or prevent the smoke from being attached to the wall inside the burner body.

Another object of the present invention is by periodically injecting 1 to 10 bar of cleaning air (air) through the air injection hole for cleaning the burner wall surface formed on the wall inside the burner body portion during regeneration is not made, the burner body portion It is to provide a burner device for a smoke reduction device of a forced regeneration method capable of removing the smoke attached to the inner wall surface.

Another object of the present invention by periodically injecting the cleaning air of 1 to 10 bar through the air injection hole for the nozzle formed in the vicinity of the nozzle, it is possible to reduce the clogging of the nozzle by shaking off the soot attached to the nozzle It is to provide a burner device for the smoke reduction device of the forced regeneration method.

Another object of the present invention is a diesel particulate filter (DPF) device, PM (Particle matter)-NOx reduction device, a selective reduction catalyst (SCR) device that can be applied to all of the exhaust gas to increase the temperature of the forced regeneration method It is to provide a burner device for the reduction device.

To achieve the above object, the burner device for the smoke reduction device of the forced regeneration method according to the preferred embodiment of the present invention is formed by combining the ignition means and the air inlet on one side and the nozzle at the lower end. A fuel injection port is formed under the nozzle, and a plate for air inlet is mounted in the horizontal direction at the interface between the first mixing chamber and the second mixing chamber inside the burner body, and for nozzles that inject air from both sides of the nozzle. An air injection hole is formed, and a burner main body part having an air injection hole for cleaning a burner wall surface that injects air into a wall surface inside the burner body part to inject air into the first mixing chamber and the second mixing chamber inside the burner body part. ; It is formed in the form of a circumferential surface at the upper end of the burner main body, and a plurality of fastening holes are formed to form a diesel particulate filter (DPF) device, a particle matter (PM)-NOx reduction device, and a selective reduction catalyst ( SCR) burner fastening unit to be combined with the one selected from the device; An igniter for igniting fuel and air injected into one side of the burner body part in a second mixing chamber to ignite a flame;
An air inlet formed on the lower side of the ignition means and supplying air through the air inlet to the first mixing chamber inside the burner body; A fuel injection port formed at a lower end of the burner main body and supplying fuel through a fuel injection port to a first mixing chamber inside the burner main body; A nozzle that injects fuel into a first mixing chamber when fuel enters through the fuel injection port; An air injection hole for a nozzle formed to inject air from both sides of the nozzle; A burner that is formed on a wall inside the burner body part and is formed to periodically inject 1 to 10 bar of cleaning air while forcible regeneration of a filter (DPF) device for removing diesel particulate matter connected to the burner body part is not performed. An air injection hole for cleaning walls; Characterized in that it includes.

In the present invention, the particulate matter (PM) is combined with the burner device and collects particulate matter (PM) remaining in the exhaust gas to accumulate a predetermined amount of particulate matter (PM), thereby using particulate exhaust gas or additives. Diesel Particulate Filter (DPF) device for reburning and regenerating diesel particulate matter; Characterized in that it further comprises.

In the present invention, in the nozzle, the diameter of the outer hole of the nozzle is 1 to 2 mm, the inner hole of the nozzle is 0.5 to 1.5 mm, and the spraying characteristics of the nozzle include 0.65 to 35 gal/h at 100 psi. It is characterized by.

In the present invention, the air injection hole for the nozzle formed in the burner body portion and the air injection hole for cleaning the burner wall are characterized in that it comprises a plurality.

In the present invention, the air inlet plate is mounted in the horizontal direction on the boundary surface of the first mixing chamber and the second mixing chamber inside the burner body portion, the burner wall cleaning air injection hole coupled to the lower end of the burner body portion Characterized in that it comprises a support that is supported by a diagonal tube formed.

In the present invention, it characterized in that it comprises a cavity formed on both sides of the lower end of the burner body portion and the oblique tube having an air jet hole for cleaning the burner wall surface.

In the present invention, the ignition means directly burns or burns soot attached to a wall surface inside the burner body part by heating the burner body part canning directly and heating the burner body part canning and emitting red light of 600°C or higher. It characterized in that it comprises preventing the attachment to the wall surface inside the burner body.

In the present invention, the diesel particulate matter removal filter (DPF) device, PM (Particle matter)-NOx reduction device, a selective reduction catalyst (SCR) device includes all that can be applied for the heating of the exhaust gas Is done.

As described above, the burner device for the smoke reduction device of the present inventor's forced regeneration method has the following effects.

First, according to the present invention, by directly heating the burner body portion canning by a flame during regeneration, the smoke attached to a wall surface inside the burner body portion is directly burned through a temperature rise to the burner body portion canning and red light emission of 600° C. or higher. It is possible to prevent soot from adhering to the wall inside the burner body.

Second, the present invention by periodically injecting 1 to 10 bar of cleaning air (air) through the air injection hole for cleaning the burner wall formed on the wall inside the burner body during regeneration is not made, to the wall surface of the burner body You can try to shake off the attached fumes.

Third, according to the present invention, by periodically injecting 1 to 10 bar of cleaning air through the air injection hole for a nozzle formed in the vicinity of the nozzle, it is possible to reduce clogging of the nozzle by shaking off the smoke attached to the nozzle.

Fourth, the present invention can be applied to all of the exhaust gas in the diesel particulate matter removal filter (DPF) device, PM (Particle matter)-NOx reduction device, and selective reduction catalyst (SCR) device.

1 is a photograph showing a shape in which soot is accumulated in a nozzle of a burner of a large-sized composite device mounted on a conventional construction machine.
Figure 2 is a photograph showing a shape in which the smoke is accumulated in the ignition means and the nozzle of the burner of a large-sized composite device mounted on a conventional construction machine.
FIG. 3 is a view showing a form in which a burner device for a smoke reduction device of a forced regeneration method according to an embodiment of the present invention is installed and applied to a filter (DPF) device for removing particulate particulate matter.
Figure 4 is a view showing the configuration of a burner device for a smoke reduction device of the forced regeneration method according to an embodiment of the present invention.
5 is a view showing a planar shape of a burner device for a smoke reduction device of a forced regeneration method according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. In the description of the present invention, if it is determined that a detailed description of known technologies or configurations related to the present invention may unnecessarily obscure the subject matter of the present invention, detailed The description will be omitted, and the terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or practice, so the definition is a burner for a smoke reduction device of the present invention. It should be made based on the contents throughout this specification describing the device.

Hereinafter, a burner device for a smoke reduction device of a forced regeneration method according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 3 is a view showing a form in which a burner device for a smoke reduction device of a forced regeneration method according to an embodiment of the present invention is installed and applied to a filter (DPF) device for removing particulate particulate matter, and FIG. 4 is an embodiment of the present invention. It is a diagram showing the configuration of a burner device for a smoke reduction device of a forced regeneration method according to an embodiment, and FIG. 5 is a view showing a planar shape of a burner device for a smoke reduction device of a forced regeneration method according to an embodiment of the present invention.

The burner device for the smoke reducing device of the present inventor's forced regeneration method includes a burner body portion 10, an air injection port 11, a fuel injection port 12, a first mixing chamber 13, a second mixing chamber 14, and an air injection port Plate (15), oblique tube (16), cavity (17), nozzle air injection hole (18), burner wall cleaning air injection hole (19), ignition means (20), nozzle (30), burner It is composed of a fastening part 40, a fastening hole 41, a burner device 50 for a smoke reduction device, a filter (DPF) device 60 for removing diesel particulate matter, and the like.

3 to 5, the present invention is a burner device 50 for the smoke reduction device of the forced regeneration method is formed by combining the ignition means 20 and the air inlet 11 on one side surface, the lower part The nozzle 30 is formed by combining, and the fuel injection port 12 is formed under the nozzle 30, and the first mixing chamber 13 and the second mixing chamber 14 inside the burner main body 10 are formed. ) Is installed on the boundary surface of the air inlet plate 15 in the horizontal direction, the air injection hole 18 for nozzles for spraying air from both sides of the nozzle 30 is formed, inside the burner body portion 10 Burner in which air is injected into the wall inside the burner main body 10 to inject air into the first mixing chamber 13 and the second mixing chamber 14 of the burner. A body part 10; The burner body portion 10 is formed in the form of a circumferential surface at the upper end and a plurality of fastening holes 41 are formed to filter a diesel particulate filter (DPF) device 60, PM (Particle matter) -NOx reduction device, a burner fastening unit 40 to be combined with that selected from a selective reduction catalyst (SCR) device; An igniter (20) for igniting the fuel and air injected into the side surface of the burner body part (10) in a second mixing chamber (14) to ignite a flame; An air inlet 11 formed on the lower side of the ignition means 20 and supplying air through the air inlet 11 to the first mixing chamber 13 inside the burner body 10; A fuel injection hole (12) formed at a lower end of the burner body portion (10) to supply fuel through the fuel injection hole (12) to the first mixing chamber (13) inside the burner body portion (10); A nozzle 30 for injecting fuel into the first mixing chamber 13 when fuel enters through the fuel inlet 12; An air injection hole 18 for nozzles formed to inject air from both sides of the nozzle 30; It is formed on the wall inside the burner body part 10, and periodically cleans air of 1 to 10 bar during forced regeneration of the filter for removing particulate matter (DPF) connected to the burner body part 10. A burner wall cleaning air injection hole 19 formed to be injected; It is equipped with, and is combined with the burner device 50, and collects the particulate matter (PM) remaining in the exhaust gas to accumulate an appropriate amount of particulate matter (PM) to use particulate exhaust gas (PM) using soot exhaust gas or additives Diesel Particulate Filter (DPF) device 60 for reburning and regenerating diesel particulate matter; It is further provided.

When describing the function of each technical means constituting the burner device for the smoke reduction device of the present invention the forced regeneration method is as follows.

The burner body portion 10 is formed by combining the ignition means 20 and the air injection port 11 on one side, and the nozzle 30 is formed at the lower end, and the fuel injection port is provided under the nozzle 30. (12) is formed in combination, the burner body portion 10 inside the first mixing chamber 13 and the second mixing chamber 14 in the horizontal direction in the air inlet plate 15 is mounted, the above An air injection hole 18 for nozzles for spraying air from both sides of the nozzle 30 is formed, and air is supplied to the first mixing chamber 13 and the second mixing chamber 14 inside the burner body part 10. In order to inject, the burner wall cleaning air injection hole 19 for spraying air to the wall surface inside the burner body part 10 is formed.

Here, the air inlet plate 15 is mounted in the horizontal direction on the interface between the first mixing chamber 13 and the second mixing chamber 14 inside the burner body portion 10, the burner body portion 10 ) It is supported by the oblique tube 16 in which the air injection hole 19 for cleaning the wall of the burner combined with the lower end is formed.

In addition, a cavity 17 is formed on both side surfaces of the oblique tube 16 and the burner main body 10 at which the air injection hole 19 for cleaning the burner wall is formed.

The burner fastening part 40 is formed in the form of a circumferential surface at the upper end of the burner main body part 10 and a plurality of fastening holes 41 are formed to filter a diesel particulate filter (DPF) device ( 60), and in addition, it may also be combined with one selected from a particle matter (PM)-NOx reduction device and a selective reduction catalyst (SCR) device.

The igniter (igniter) 20 is to ignite so that a flame is formed by igniting the fuel and air that has been injected to one side of the burner main body 10 in the second mixing chamber (14). Here, the ignition means 20 directly heats the burner main body 10 canning, so that the smoke attached to the wall inside the burner main body 10 is directly heated to the canning of the burner main body portion and red light emitted at a temperature of 600° C. or higher. To prevent burning or soot is not attached to the wall surface inside the burner body 10.

The air inlet 11 is formed on the lower side of the ignition means 20, and supplies air to the first mixing chamber 13 inside the burner main body 10 through the air inlet 11.

The fuel inlet 12 is formed at the lower end of the burner body portion 10 to supply fuel through the fuel inlet 12 to the first mixing chamber 13 inside the body portion 10.

The nozzle 30 is to inject fuel into the first mixing chamber 13 when fuel enters through the fuel inlet 12. Here, in the nozzle 30, the diameter of the outer hole of the nozzle is 1 to 2 mm, the inner hole of the nozzle is 0.5 to 1.5 mm, and the injection characteristics of the nozzle are 0.65 to 35 gal/h at 100 psi.

The nozzle air injection hole 18 is formed to inject air from both sides of the nozzle 30. Here, a plurality of the air injection holes 18 for the nozzle, but two are the most preferable.

The air injection hole 19 for cleaning the burner wall is formed on the wall inside the burner main body 10, and forced regeneration of the filter (DPF) device for removing diesel particulate matter connected to the burner main body 10 is not performed. It is formed to periodically inject 1 to 10 bar of cleaning air. Here, a plurality of air injection holes 19 for cleaning the wall of the burner, but six are most preferable.

The diesel particulate matter removal filter (Diesel Particulate Filter: DPF) device 60 is coupled to the burner device 50, collects the particulate matter (PM) remaining in the exhaust gas to collect the particulate matter (PM) a predetermined amount When accumulated, the particulate matter (PM) is recombusted and regenerated using soot exhaust gas or additives.

As described above, the burner device for the smoke reduction device of the forced regeneration method can be applied to all vehicles of diesel, and also, a filter (DPF) device for removing particulate matter of diesel, a particle matter (PM)-NOx reduction device, and selective reduction In the catalyst (SCR) device, all of them can be applied for raising the exhaust gas, and thus the use and application are wide.

The best embodiments have been disclosed in the drawings and the specification, and the terms used herein are only used for the purpose of describing the present invention, and are not used to limit the scope of the present invention as defined in the claims or the claims. Therefore, a person having ordinary knowledge in the technical field will be able to perform various modifications and other equivalent embodiments therefrom, and therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

10: burner body portion 11: air inlet
12: fuel inlet 13: first mixing chamber
14: second mixing chamber 15: air inlet plate
16: Diagonal tube 17: cavity
18: nozzle air injection hole 19: burner wall cleaning air injection hole
20: ignition means 30: nozzle
40: burner fastening part 41: fastening hole
50: burner device for smoke reduction device
60: diesel particulate matter removal filter (DPF) device

Claims (8)

In the burner device for the smoke reduction device of the forced regeneration method,
The ignition means and the air injection port are formed by being coupled to the side of one side, and a nozzle is formed by being coupled to the lower end, and the fuel injection port is formed by combining the lower part of the nozzle. A plate for air inlet is mounted in the horizontal direction on the boundary surface, an air injection hole for nozzles for spraying air from both sides of the nozzle is formed, and a burner for injecting air into the first mixing chamber and the second mixing chamber inside the burner body part A burner body part having a burner wall cleaning air jet hole for spraying air to the wall surface inside the body part;
It is formed in the form of a circumferential surface at the upper end of the burner main body, and a plurality of fastening holes are formed to form a diesel particulate filter (DPF) device, a particle matter (PM)-NOx reduction device, and a selective reduction catalyst ( SCR) burner fastening unit to be combined with the one selected from the device;
An igniter for igniting fuel and air injected into one side of the burner body part in a second mixing chamber to ignite a flame;
An air inlet formed on the lower side of the ignition means and supplying air through the air inlet to the first mixing chamber inside the burner body;
A fuel injection port formed at a lower end of the burner main body and supplying fuel through a fuel injection port to a first mixing chamber inside the burner main body;
A nozzle that injects fuel into a first mixing chamber when fuel enters through the fuel injection port;
An air injection hole for a nozzle formed to inject air from both sides of the nozzle;
A burner that is formed on a wall inside the burner body part and is formed to periodically inject 1 to 10 bar of cleaning air while forcible regeneration of a filter (DPF) device for removing diesel particulate matter connected to the burner body part is not performed. An air injection hole for cleaning walls; Burner device for a smoke reduction device of the forced regeneration method, characterized in that it comprises a. According to claim 1,
Diesel that is combined with the burner device and collects particulate matter (PM) remaining in the exhaust gas to regenerate and regenerate the particulate matter (PM) using soot exhaust gas or additives when a certain amount of particulate matter (PM) accumulates A device for removing particulate matter (Diesel Particulate Filter: DPF); A burner device for a smoke reduction device of the forced regeneration method further comprising a. According to claim 1,
In the nozzle, the diameter of the outer hole of the nozzle is 1 to 2 mm, the inner hole of the nozzle is 0.5 to 1.5 mm, and the spraying characteristics of the nozzle include 0.65 to 35 gal/h at 100 psi Burner device for smoke reduction device. According to claim 1,
A burner device for a forced regeneration type smoke reduction device comprising a plurality of air injection holes for nozzles formed in the burner main body and air injection holes for cleaning the burner walls. According to claim 1,
The air inlet plate is mounted in a horizontal direction on the interface between the first mixing chamber and the second mixing chamber inside the burner main body, and has an oblique form in which an air injection hole for cleaning a burner wall surface coupled with the lower end of the burner main body is formed. A burner device for a smoke reduction device of the forced regeneration method, characterized in that it comprises a support by the tube. According to claim 1,
The burner device for a forced regeneration type smoke reduction device, characterized in that it includes a sloping tube in which the air injection hole for cleaning the burner wall is formed and a cavity is formed at both sides of the lower end of the burner body part. According to claim 1,
The ignition means directly burns the burner body portion canning to directly burn the smoke that is attached to the wall surface inside the burner body portion through a temperature rise for the burner body portion canning and red light emission of 600° C. or higher, or the soot is a wall surface inside the burner body portion. The burner device for the smoke reduction device of the forced regeneration method, characterized in that it comprises not to be attached to. According to claim 1,
A filter for removing particulate matter (DPF), a particle matter (PM)-NOx reduction device, and a selective reduction catalyst (SCR) device, all of which can be applied for heating of exhaust gas. Burner device for smoke reduction device.

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