KR20180109467A - Complete combustion device for oil burner - Google Patents

Abstract

The present invention relates to a complete combustion device for an oil burner comprising an oil spray nozzle and a pipe-shaped blow unit arranged in the oil spray nozzle to spray oil and a flame and, more specifically, provides a complete combustion device for an oil burner, which comprises: a tertiary combustion unit arranged in a front end of an oil spray port of the blow unit, and having a ring-shape body, a plurality of combustion pins formed to protrude to the center of the body, and a plurality of legs coupled to an outer circumferential surface of the body to be coupled to an external surface of the oil spray port of the blow unit; and a secondary combustion mesh unit formed with wire mesh corresponding to the body of the tertiary combustion unit, and coupled to a nozzle direction side of the tertiary combustion unit.

Description

COMBUSTION DEVICE FOR OIL BURNER FOR OIL BURNER -

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a complete combustion apparatus for an oil burner, and more particularly, to a complete combustion apparatus for an oil burner that promotes complete combustion through secondary tertiary combustion.

The burner is a device for burning liquid fuel, gaseous fuel and pulverized coal. In the conventional vaporizing method, a method of burning fuel vaporized by using a preheating heater is predominant. This is because when the preheater is used, Not only does it consume much, but it also takes a long time. In a vaporized burner that does not use the preheating heater, it has an auxiliary device which is heated by the initial sulfur salt itself to vaporize the fuel.

However, since there is fuel in the auxiliary device to be heated, it causes problems due to tar when used for a long time, and takes a long time. In addition, it has a device for heating itself to the initial sulfuric salt, and due to the influence of the sulfuric salt, the efficiency may be deteriorated and it may cause adherence (non-burning). In terms of environmental performance, there is a drawback that NOx and CO are high.

In addition, it is used in the form of ignition by high pressure spraying together with combustion air. This is because the combustion of the fuel and the nitrogen oxide (NOx) generated by it cause various environmental pollution problems, As the industrialization progresses, the regulation of generation is becoming more strict. Such nitrogen oxides generate nitrogen oxides in the combustion air when they are burned through the burner in a high-temperature atmosphere, resulting in a large amount of nitrogen oxides.

On the other hand, in the case of the oil burner, the oil is sprayed from the nozzle and the spray oil is ignited. When the oil is sprayed, the oil is finely injected into the path of the central axis of the nozzle to complete burning. However, The oil injected from the spray path to the outer portion is not fine and incomplete combustion occurs. This incomplete combustion causes fine dust and soot, and lowers the thermal efficiency.

Korean Patent Publication No. 10-2017-0001970 Korean Utility Model No. 20-1998-0062191

It is an object of the present invention to provide a complete combustion apparatus for an oil burner which is provided with a secondary tertiary combustion section on a path through which a flame is injected to enable secondary combustion of unburned oil for complete combustion do.

According to the first embodiment of the present invention, there is provided a complete combustion apparatus for an oil burner including an oil spray nozzle and a tubular blow portion in which the oil spray nozzle is disposed to inject oil and flame,

A plurality of combustion fins which are disposed at the front end of the oil atomizing front of the blowing unit and have a ring-shaped body, a plurality of combustion fins protruding from the center of the body, a plurality of combustion fins coupled to an outer circumferential surface of the body, A tertiary combustion section including a leg; And

And a secondary combustion mesh portion constituted by a wire mesh having a shape corresponding to the body of the tertiary combustion portion and coupled to the nozzle direction side of the tertiary combustion portion.

And the combustion fin is formed to have a length of 1/10 to 1/6 times the inner diameter of the body.

And the tertiary combustion unit is set to be disposed between the position of the maximum oil radiation position fmax and the position of the maximum oil radiation position fmax at the oil radiation angle sprayed from the oil spray nozzle.

According to a second embodiment of the present invention, there is provided a complete combustion apparatus for an oil burner including an oil spray nozzle and a tube-shaped blow portion in which the oil spray nozzle is disposed,

A plurality of combustion fins disposed forward of the blowing portion and protruding toward the center at predetermined intervals along the inner circumference of the body, the ring-shaped body having a diameter set according to the angle of the oil spray and the angle of the flame generated thereby; A tertiary combustion section including a connecting bar having a bar shape to be coupled therewith;

A secondary combustion mesh part composed of a wire mesh having a shape corresponding to the body of the tertiary combustion part and coupled to the blowing direction side of the body;

A fastening part fixed to one side of the blowing part or the oil burner;

A length adjuster coupled to the fastening portion; And

And a guide bar fitted to the length adjusting part and coupled to the connecting bar of the tertiary combustion part at one end thereof.

And the combustion fin is formed to have a length of 1/10 to 1/6 times the inner diameter of the body.

The guide bar penetrates through the length adjusting part, and the length adjusting part adjusts the fixing and the operation of the guide bar.

Wherein advance and retreat of the guide bar is performed by the length regulating portion so that the tertiary combustion portion is disposed between the 1/2 position of the maximum oil radiation position fmax and the maximum oil radiation position fmax at the oil emission angle sprayed from the nozzle .

And the guide bar is moved forward and backward by the length adjusting unit so that the outer diameter of the oil spraying locus is located at the inner diameter of the body of the tertiary combustion unit.

According to an embodiment of the present invention, a secondary tertiary combustion unit is provided on a path through which a flame is injected to burn secondary combustion of the unburned oil to burn all of the remaining oil, thereby removing fine dust, The soot can be reduced and the thermal efficiency can be improved.

1 is a schematic cross-sectional view of an oil burner to which a complete combustion apparatus according to a first embodiment of the present invention is applied.
Fig. 2 is a schematic view of a complete combustion device coupled to the blowing portion of the oil burner of Fig. 1; Fig.
Fig. 3 (a) is a side view of the tertiary combustion section, Fig. 3 (b) is a front view of the tertiary combustion section, and Fig. 3 (c) is a front view of the secondary combustion section.
4 is a schematic cross-sectional view of a complete combustion apparatus for an oil burner according to a second embodiment of the present invention.
FIG. 5 is a schematic view of the tertiary combustion unit of FIG. 4. FIG.
6 is a front view showing a state in which the secondary combustion mesh unit and the tertiary combustion unit are combined.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art to which the present invention pertains. The present invention may be embodied in many different forms and is not limited to the embodiments described herein.

The drawings are schematic and not drawn to scale. The relative dimensions and ratios of the parts in the figures are exaggerated or reduced in size for clarity and convenience in the figures, and any dimensions are merely illustrative and not restrictive. And to the same structure, element or component appearing in more than one drawing, the same reference numerals are used to denote similar features.

The embodiments of the present invention specifically illustrate ideal embodiments of the present invention. As a result, various variations of the illustration are expected. Thus, the embodiment is not limited to any particular form of the depicted area, but includes modifications of the form, for example, by manufacture.

Hereinafter, an oil burner 100 to which the complete combustion apparatus according to the first embodiment of the present invention is applied will be described with reference to FIGS. 2 is a sectional side view and a front view of the complete combustion device, and FIG. 3 (a) is a sectional view of the third combustion section (B) is a front view of the tertiary combustion section 200, and (c) shows the secondary combustion mesh section 300.

As shown in Fig. 1, the complete combustion apparatus according to the first embodiment of the present invention is applied to the oil burner 100. Fig. The oil burner 100 may be an oil pressure spray evaporative burner. The oil burner 100 includes a blow portion 110 through which oil is injected to form a flame and an oil injection nozzle 120 through which oil is injected. Description of the ignition device for forming the flame will be omitted. The complete combustion apparatus according to the first embodiment of the present invention is coupled to the blow section 110. The complete combustion apparatus according to the first embodiment of the present invention includes a tertiary combustion unit 200 disposed in front of the oil spraying port of the blowing unit 110, And a coupling unit 400 for coupling the tertiary combustion unit 200 to the blowing unit 110. The coupling unit 400 includes a first combustion chamber 300 and a second combustion chamber 300,

2 shows a side sectional view and a front view of a complete combustion device according to an embodiment of the present invention. As shown in the drawing, the tertiary combustion unit 200 includes a ring-shaped body 210, a plurality of combustion fins 220 protruding toward the center of the body 210, And a plurality of legs (230). The inner diameter of the body 210 is preferably formed to have a size corresponding to the outer diameter of the blowing portion 110. The combustion fins 220 are preferably formed along the inner diameter at an interval of 7.5 degrees. The length of the combustion fins 220 is preferably set so that the residual oil can be thirdly combusted without interfering with the progress of the atomizing oil flame. In the case of oil spraying, the spraying oil has a spraying trajectory in which the spraying nozzle becomes the apex of the cone and the area of the circle gradually increases and then decreases again. At this time, although the oil spray is uniform in the region close to the coaxial axis of the spray nozzle, the droplet of the spray oil becomes larger as it goes outward from the coaxial axis of the spray nozzle in the spray locus. Accordingly, the combustion fins 220 are disposed in the outer region of the spray locus, so that the spray oil formed by incompletely burned relatively large droplets can be thirdly combusted. The length of the combustion pin 220 is set in consideration of the spray oil droplet size in the oil spray locus. It is preferable that the combustion pin 220 is formed to have a length of 1/10 to 1/6 of the inner diameter of the body. More preferably, the outer diameter and inner diameter of the body 210 and the length of the combustion fin 220 are set such that the inner diameter is 80 and the length of the combustion fin 220 is 10 when the outer diameter is 90. That is, it is preferable to set the length of the inner diameter of the ring-shaped body of the tertiary combustion section 200 and the length ratio of the combustion fins to 8: 1. The legs 230 are included in the embodiment of Fig. The third combustion portion 200 is positioned at a position corresponding to the outer diameter of the oil spray path and the inner diameter of the body 210 in the oil spray path that is sprayed from the nozzle 120, ) Length is set. The legs 400 may be fixed to the band-shaped fastening part 400 as shown in the outer diameter of the blowing part 110. The shape of the fastening portion 400 is not limited to the band shape. The secondary combustion unit 300 is composed of a wire mesh and is coupled to the body 210 of the tertiary combustion unit 200 so as to be positioned on the side of the blow unit 110. The secondary combustion mesh portion 300 is preferably made of SUS316. It is preferable that the dimensions of the secondary combustion mesh unit 300 are made to be Ø0.5 for the wire diameter and 60 for the mesh.

Some of the oil which is not 100% combusted and remains at the time of oil spraying from the oil injection nozzle 120 of the oil burner 100 to the secondary combustion mesh section 300 and the tertiary combustion section 200 side, The residual oil that has passed through the wire mesh collides with the combustion pin 241 of the tertiary combustion section 240 and is subjected to tertiary combustion. Therefore, fine dust soot due to incomplete combustion is reduced and thermal efficiency is improved. During the oil spray, the oil is finely injected into the path of the central axis of the nozzle to complete combustion, but the oil is not finely injected as it goes from the truncated cone-shaped oil spray path to the outer portion, resulting in incomplete combustion. When the complete combustion apparatus according to the embodiment is applied to the oil burner, the oil droplets that are sprayed on the outer side finely collide with the combustion fins 220 to be completely burned. That is, a part of the remaining oil collides with the mesh wire of the secondary combustion mesh part 300, and the residual oil passes through the mesh wire and collides with the combustion pin 220 of the tertiary combustion part 200 While the third combustion takes place. Therefore, fine dust and soot due to incomplete combustion are reduced and thermal efficiency is improved.

Fig. 4 shows an oil burner 1000 to which a complete combustion apparatus according to the second embodiment of the present invention is applied, Fig. 5 shows a tertiary combustion section 1400, Fig. 6 shows a secondary combustion section 1500, And the third combustion mesh unit 1400 are combined. 4 and 6, the complete combustion apparatus applied to the oil burner according to the second embodiment of the present invention will be described in detail.

4, the oil burner 1000 includes a tube-shaped blow portion 1100 in which oil is injected to form a flame, and an oil injection nozzle 1200 disposed in the blow portion 1100 to inject oil. . Description of the ignition device for forming the flame will be omitted. The complete combustion device is coupled to the blow portion 1100.

4, the complete combustion apparatus according to the second embodiment includes a coupling portion 1320 fixed to one side of the blowing portion 1100 or the oil burner 1000, a length adjusting portion 1320 coupled to the coupling portion 1320, A guide bar 1310 fitted to the length adjusting part 1330, a tertiary combustion part 1400 coupled to one end of the guide bar 1310, a blowing part 1100 of the tertiary combustion part 1400, And a secondary combustion mesh unit 1500 coupled to the secondary combustion mesh unit 1500 side.

5, the tertiary combustion unit 1400 includes a circular body 1410 having an appropriate diameter in consideration of an oil injection angle and a flame generation angle, and a cylindrical body 1410 having an appropriate diameter and protruding toward the center side at predetermined intervals along the inner circumference of the body 1410 And a connecting bar 1430 for connecting to the guide bar 1310. The connecting bar 1430 includes a plurality of combustion pins 1420 having a predetermined length, It is preferable that the length of the combustion fins 1420 is set to a length capable of tertiary combustion of the residual oil without interfering with the progress of the spray oil flame. It is preferable that the combustion pin 1420 is formed to have a length of 1/10 to 1/6 times the inner diameter of the body. More preferably, the outer diameter and inner diameter of the body 210 and the length of the combustion fin 220 are set such that the inner diameter is 80 and the length of the combustion fin 220 is 10 when the outer diameter is 90. It is preferable to set the length of the inner diameter of the ring-shaped body 1410 of the tertiary combustion section 1400 and the length ratio of the combustion pin 1420 to 8: 1. The connecting bar 1430 connects the end portion of the body 1410 with the guide bar 1310 in a bar shape so that the center of the body 1410 of the tertiary combustion portion 1400 can be located at the center of the nozzle 1200 . The secondary combustion mesh unit 1500 is preferably formed of a wire mesh. It is preferable that the secondary combustion mesh unit 1500 is coupled to the tertiary combustion unit 1400 so as to be positioned in the nozzle 1200 arrangement direction. The secondary combustion mesh unit 1500 is preferably made of SUS316. The dimensions of the secondary combustion mesh unit 1500 are preferably such that the diameter of the wire is Ø0.5 and the mesh is 60. [

The fastening part 1320 can be realized as a clamp or the like by coupling the guide bar 1310 to the oil burner 1000. It is preferable that the fastening portion 1320 is coupled to one side of the oil burner 1000 or is coupled to the start end side of the blow portion 1100. The guide bar 1310 is provided at one end thereof with a connection bar 1430 of the tertiary combustion unit 1400 to be engaged with the guide bar 1310 so as to adjust the positions of the tertiary combustion unit 1400 and the secondary combustion mesh unit 1500 in front of the nozzle do. The guide bar 2310 is fitted in the length adjusting part 1330 and the length adjusting part 1330 serves as a stopper to adjust the forward and backward extent of the guide bar 1310.

When oil is sprayed from the oil injection nozzle 1200 of the oil burner 1000 to the secondary combustion mesh portion 1500 and the tertiary combustion portion 1400 side, flame and oil are sprayed as shown in Fig. 4F. The guide bar 1310 is moved forward and backward and fixed by the length adjusting unit 1330 so that the tertiary combustion unit 1400 and the secondary combustion mesh unit 1500 are located between the center of the nozzle and the maximum oil radiation position fmax do. The tertiary combustion portion 1400 and the secondary combustion mesh portion 1500 are disposed in the guide bar 2310 so as to be disposed between the 1/2 position of the maximum oil radiation position fmax and the maximum oil radiation position fmax at the center of the nozzle, It is preferable that the forward and backward movement of the guide member is adjusted. It is preferable that the tertiary combustion unit 1400 is disposed so that the outer diameter of the oil spray path is located on the inner peripheral surface of the body 1410 indicated by the dotted line L in Fig.

The oil is injected finely in the path of the central axis of the nozzle at the time of oil spraying to complete combustion but is radiated and incomplete combustion occurs because the oil sprayed toward the outer part from the conical oil spray path is not fine, When the complete combustion apparatus according to the embodiment is applied to an oil burner, oil droplets that are not fine-fired outside collide with the mesh wire heated by the flame and the combustion fins 1420 to be completely burned. That is, a part of the residual oil collides with the mesh wire of the secondary combustion mesh part 1500 to be secondary-burned, and the oil mist outside the oil mist trajectory formed by the relatively large droplet, The third combustion is performed while colliding with the combustion fins 1420 of the tertiary combustion unit 1400. Therefore, fine dust soot due to incomplete combustion is reduced and thermal efficiency is improved.

7 is a photograph showing the combustion state of the oil burner to which the complete combustion apparatus according to the embodiment of the present invention is applied. As shown in the figure, the complete combustion device controls the range of the injection of the oil to thereby regulate the range of the flame, and to minimize the fine dust and the residual oil caused by the incomplete combustion.

FIG. 8 is a photograph showing the combustion state of the oil burner to which the complete combustion apparatus according to the embodiment of the present invention is not applied. As shown in part A of the figure, it is difficult to control the oil injection range. There is a problem that residual oil exists.

When the complete combustion apparatus according to the embodiment of the present invention is applied to the same oil burner, 1.08 Kg of fuel oil is required to heat 100 L of water from 20 째 C to 90 째 C, while when the complete combustion apparatus is not applied, Of fuel oil. That is, it can be confirmed that the thermal efficiency of the oil burner is improved when the complete combustion apparatus according to the embodiment of the present invention is applied.

As a result of measuring the surface area of the flame using a far infrared ray thermometer, it was found that when the complete combustion apparatus according to the embodiment of the present invention was applied, the thermal efficiency was almost doubled according to the embodiment of the present invention at 250 ° C, And achieves a high temperature, thereby minimizing incomplete combustion.

Further, since the complete combustion apparatus according to the embodiment of the present invention can be easily applied to a blow tube of an existing oil burner, it can be easily and inexpensively applied to an oil burner used in a greenhouse or a rural area in a rural area, And it is possible to contribute to prevention of environmental pollution by reducing fine dust.

100, 1000: Oil burner 110, 1100: Blow unit
120, 1200: Nozzle 200, 1400: Third combustion part
210, 1410: Third combustion body 220, 1420: Combustion pin
300, 1500: secondary combustion mesh section

Claims (8)

A complete combustion apparatus for an oil burner, comprising an oil atomizing nozzle and a tubular blowing portion in which the oil atomizing nozzle is disposed to inject oil and a flame,
A plurality of combustion fins which are disposed at the front end of the oil atomizing front of the blowing unit and have a ring-shaped body, a plurality of combustion fins protruding from the center of the body, a plurality of combustion fins coupled to an outer circumferential surface of the body, A tertiary combustion section including a leg; And
And a secondary combustion mesh portion constituted by a wire mesh of a shape corresponding to the body of the tertiary combustion portion and coupled to the nozzle direction side of the tertiary combustion portion. The method according to claim 1,
Wherein the combustion pin is formed to have a length which is 1/10 times to 1/6 times the inner diameter of the body. The method according to claim 1,
Characterized in that the tertiary combustion section is set to be disposed between a half position of the maximum oil radiation position (fmax) and a maximum oil radiation position (fmax) at an oil radiation angle sprayed from the oil atomizing nozzle Combustion device. A complete combustion apparatus for an oil burner, comprising an oil spray nozzle for spraying oil and a tube-shaped blow portion in which the oil spray nozzle is disposed,
A plurality of combustion fins disposed forward of the blowing portion and protruding toward the center at predetermined intervals along the inner circumference of the body, the ring-shaped body having a diameter set according to the angle of the oil spray and the angle of the flame generated thereby; A tertiary combustion section including a connecting bar having a bar shape to be coupled therewith;
A secondary combustion mesh part composed of a wire mesh having a shape corresponding to the body of the tertiary combustion part and coupled to the blowing direction side of the body;
A fastening part fixed to one side of the blowing part or the oil burner;
A length adjuster coupled to the fastening portion; And
And a guide bar that is fitted in the length adjusting part and has a connecting bar of the tertiary combustion part coupled to one end thereof. 5. The method of claim 4,
Wherein the combustion pin is formed to have a length which is 1/10 times to 1/6 times the inner diameter of the body. 5. The method of claim 4,
Wherein the guide bar penetrates through the length adjusting part, and the length adjusting part adjusts the fixing and the operation of the guide bar. The method according to claim 6,
Wherein advance and retreat of the guide bar is performed by the length regulating portion so that the tertiary combustion portion is disposed between the 1/2 position of the maximum oil radiation position fmax and the maximum oil radiation position fmax at the oil emission angle sprayed from the nozzle Wherein the control means controls the operation of the combustion device. The method according to claim 6,
Wherein the advance / retreat of the guide bar is adjusted by the length adjuster so that the outer diameter of the oil spray trajectory from the oil spray nozzle is located in the inner diameter of the body of the third combustion part.

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