KR102376677B1 - burner - Google Patents

Abstract

The burner 10 is provided with a fuel nozzle 2 for injecting fuel, and a pair of supporting gas nozzles 3 and 4 provided on the outer peripheral side of the fuel nozzle 2 to inject a supporting gas, , the supporting openings 3a and 4a of the furnace of the supporting gas nozzles 3 and 4 are provided at positions opposite to the fuel opening 2a of the furnace of the fuel nozzle 2 , and the supporting gas nozzles 3 , 4) has an inclined flow path 32a that is inclined with respect to the axial direction of the main body 31 of the supporting gas nozzles 3 and 4, and the inclined flow path 32a has a supporting opening 3a. , characterized in that it is inclined so as to approach the fuel opening 2a toward the 4a).

Description

burner

The present invention relates to a burner installed in a furnace.

Conventionally, in a furnace for heat-treating a treatment material such as a steel piece or a round bar, as shown in Patent Document 1, based on the shape of the furnace or the treatment request of the treatment material, the flame is specified in a shape, For example, it is made that a burner such as a flat shape is used.

Japanese Patent Application Laid-Open No. 10-183235

However, depending on the shape of the furnace or the processing request of the processing material, a flame having a different shape may be required.

Accordingly, it is an object of the present invention to provide a burner capable of obtaining flames of various shapes.

A first aspect of the present invention is a burner comprising: a fuel nozzle for injecting fuel;

A pair of supporting gas nozzles are provided on the outer peripheral side of the fuel nozzle to inject the supporting gas,

a smoke opening of the fuel nozzle into the furnace is provided at a position opposite to a fuel opening of the fuel nozzle into the furnace;

The front end of the supporting gas nozzle has an inclined flow path inclined with respect to the axial direction of the supporting gas nozzle body,

The inclined passage is characterized in that it is inclined so as to approach the fuel opening toward the supporting smoke opening.

According to the above configuration, since the inclined flow path is inclined so as to approach the fuel opening toward the supporting opening opening, the flame can be flattened by pressing the flame with the supporting gas from the supporting gas nozzle.

A second aspect of the present invention is a burner comprising: a fuel nozzle for injecting fuel;

A pair of supporting gas nozzles are provided on the outer peripheral side of the fuel nozzle to inject the supporting gas,

a smoke opening of the fuel nozzle into the furnace is provided at a position opposite to a fuel opening of the fuel nozzle into the furnace;

The front end of the supporting gas nozzle has an inclined flow path inclined with respect to the axial direction of the supporting gas nozzle body,

The inclined flow path is inclined toward the supporting smoke opening and away from the fuel opening.

According to the above configuration, since the inclined flow path is inclined so as to move away from the fuel opening toward the supporting smoke opening, the flame can be flattened by spreading the flame with the supporting gas from the supporting gas nozzle.

A third aspect of the present invention is a burner comprising: a fuel nozzle for injecting fuel;

It is provided in two pairs on the outer periphery of the fuel nozzle and includes a supporting gas nozzle for injecting the supporting gas,

the fuel openings into the furnace of the two pairs of the fuel nozzles are provided at opposing positions, respectively, with respect to the fuel openings into the furnace of the fuel nozzles;

The front end of the supporting gas nozzle has an inclined flow path inclined with respect to the axial direction of the supporting gas nozzle body,

The inclined flow path of a pair of supporting gas nozzles on one side is inclined so as to approach the fuel opening toward the supporting gas opening,

The inclined flow path of the pair of supporting gas nozzles on the other side is inclined toward the supporting gas opening part so as to be separated from the fuel opening part;

The first straight line passing through the center of the pair of supporting gas nozzles on the one side and the second straight line passing through the center of the pair of supporting gas nozzles on the other side are intersected, It is characterized in that it intersects.

According to the above configuration, the inclined flow path of the pair of supporting gas nozzles on one side is inclined so as to approach the fuel opening toward the supporting gas opening, and the inclined flow path of the pair of supporting gas nozzles on the other side has the supporting opening opening. The first straight line passing through the center of the pair of supporting gas nozzles on one side and the second straight line passing through the center of the pair of supporting gas nozzles on the other side intersect each other. As a result, the flame can be flattened along the direction of the first straight line by pressing the flame with the supporting gas from the supporting gas nozzle on one side and spreading the flame with the supporting gas from the other side of the supporting gas nozzle. there is.

A fourth aspect of the present invention is a burner comprising: a fuel nozzle for injecting fuel;

A plurality of supporting gas nozzles are provided in the circumferential direction on the outer peripheral side of the fuel nozzle to inject the supporting gas,

The front end of the supporting gas nozzle has an inclined flow path inclined with respect to the axial direction of the supporting gas nozzle body,

The inclined flow passages of the supporting gas nozzle are each inclined in the same circumferential direction toward the supporting opening opening.

According to the above configuration, since the inclined flow passages of the supporting gas nozzle are each inclined in the same circumferential direction toward the supporting gas opening, the atmosphere in the furnace can be stirred by the swirling flow of the supporting gas from the supporting gas nozzle. , the temperature distribution in the furnace can be made uniform.

A fifth aspect of the present invention is a burner comprising: a fuel nozzle for injecting fuel;

A plurality of supporting gas nozzles are provided in the circumferential direction on the outer peripheral side of the fuel nozzle to inject the supporting gas,

The front end of the supporting gas nozzle has an inclined flow path inclined with respect to the axial direction of the supporting gas nozzle body,

Each of the inclined flow passages of the supporting gas nozzle is inclined in the same direction toward the supporting gas opening.

According to the above configuration, since the inclined flow passages of the supporting gas nozzle are each inclined in the same direction toward the supporting opening opening, directivity can be given to the flame by the supporting gas from the supporting gas nozzle, and the object is directed toward the flame. Alternatively, it is possible to avoid direct flame contact with the object.

The first to fifth aspects preferably further include the following configurations.

(1) The inclined flow path is provided rotatably with respect to the furnace body to which the burner is mounted.

(2) A guide groove for guiding the injection direction of the supporting flue gas injected from the opening is formed in the opening of the tip portion into the furnace.

According to the configuration (1), the injection direction of the crude gas can be changed by rotating the inclined flow path with respect to the furnace body. As a result, the shape of the flame can be flexibly changed according to the shape of the furnace, the shape of the processing material, and the characteristics.

According to the said structure (2), the injection direction of a supporting flue gas can be stabilized more by a guide groove.

In short, according to the present invention, it is possible to provide a burner capable of obtaining flames of various shapes.

1 is a schematic cross-sectional view of a burner according to an embodiment of the present invention.
FIG. 2 is a view viewed from the direction of arrow II in FIG. 1 .
3 : is a figure similar to FIG. 2 which showed the modified example of arrangement|positioning of a supporting gas nozzle.
4 : is a figure similar to FIG. 2 which showed the modified example of arrangement|positioning of a supporting gas nozzle.
5 : is a figure similar to FIG. 2 which showed the modified example of arrangement|positioning of a supporting gas nozzle.
FIG. 6 : is a figure similar to FIG. 2 which showed the modified example of arrangement|positioning of a supporting gas nozzle.
Fig. 7 is an enlarged schematic view of the supporting gas nozzle of Fig. 1 .
It is an enlarged perspective view of the front-end|tip part of a supporting gas nozzle.
9 is a schematic perspective view of a supporting flue gas nozzle in which a tip portion is rotatable with respect to a body portion.
Fig. 10 is a schematic perspective view of a tip portion of Fig. 9;

(full configuration)

1 is a schematic cross-sectional view of a burner 10 according to an embodiment of the present invention. FIG. 2 is a view viewed from the direction of arrow II in FIG. 1 . 1 and 2 , the burner 10 includes a fuel nozzle 2 for injecting fuel, and the fuel nozzle 2 provided on the outer periphery of the fuel nozzle 2 and injected from the fuel nozzle 2 . and a plurality of supporting gas nozzles 3 and 4 for injecting a supporting gas for mixing, for example, oxygen gas.

The supporting gas nozzles 3 and 4 are provided in a pair on the outer peripheral side of the fuel nozzle 2, and in this embodiment, on the concentric circle of the fuel nozzle 2, viewed from the inside of the furnace S, the upper and lower sides installed so as to be symmetrical. The supporting gas nozzle 3 is located above the fuel nozzle 2 , and the supporting gas nozzle 4 is located below the fuel nozzle 2 . The fuel nozzle 2 has a fuel opening 2a that opens with respect to the furnace S, and the supporting gas nozzles 3 and 4 have supporting openings 3a and 4a that open with respect to the inside S of the furnace, respectively. ) has The supporting smoke openings 3a and 4a are provided in positions to face the fuel opening 2a.

A fuel pipe 25 is connected to the fuel nozzle 2 on the fuel supply upstream side of the fuel nozzle 2 . The fuel pipe 25 is provided with a supply valve 25a that opens and closes the fuel pipe 25 and a control valve 25b that adjusts the fuel supply amount. The fuel injection amount of the fuel nozzle 2 can be changed by changing the degree of opening of the regulating valve 25b.

The supporting gas nozzles 3 and 4 have the same structure, and the supporting gas nozzle 3 will be described below as an example.

(Supporting Gas Nozzle)

A gas pipe 35 is connected to the supporting gas nozzle 3 on the gas supply upstream side of the supporting gas nozzle 3 . The gas pipe 35 is provided with a supply valve 35a that opens and closes the gas pipe 35 and a control valve 35b that adjusts the gas supply amount. The gas injection amount of the supporting gas nozzle 3 can be changed by changing the degree of opening of the regulating valve 35b.

The supporting gas nozzle 3 is positioned in the furnace S with respect to the main body 31 and the main body 31 , and has a tip 32 attached to the main body 31 . A gas flow path 31a through which the supporting gas passes is formed in the main body 31 , and an inclined flow path 32a through which the supporting gas passes is also formed at the tip portion 32 . The gas flow path 31a extends in the axial direction of the main body 31 . The inclined flow path 32a is inclined with respect to the axial direction of the main body 31 . The inclined flow path 32a is inclined so as to approach the fuel opening 2a toward the supporting smoke opening 3a. And the inclined flow path of the supporting gas nozzle 4 also inclines so that it may approach the fuel opening part 2a toward the supporting smoke opening part 4a.

In addition, the furnace inner end surface 32b of the front-end|tip part 32 is located in the inner side of the combustion gas nozzle 3 from the furnace wall surface 91. As shown in FIG. Here, in the furnace inner end face 32b, the gas injected from the supporting smoke opening 3a is directly on the corner 92c of the furnace wall concave surface 92 sandwiched between the furnace wall surface 91 and the furnace inner end face 32b. in a non-collision position.

3 : is a figure similar to FIG. 2 which showed the modified example of arrangement|positioning of a supporting gas nozzle. As shown in FIG. 3 , the supporting gas nozzles 5 and 6 are provided as a pair on the outer peripheral side of the fuel nozzle 2 , and in this modified example, on the concentric circle of the fuel nozzle 2 , It is installed so that it can be seen from the inside of the furnace (S) and symmetrically left and right. The supporting gas nozzle 5 is located on the left side of the fuel nozzle 2 , and the supporting gas nozzle 6 is located on the right side of the fuel nozzle 2 . The supporting gas nozzles 5 and 6 have supporting openings 5a and 6a that are opened to the inside of the furnace S, respectively. The supporting smoke openings 5a and 6a are provided at positions facing the fuel opening 2a.

The supporting gas nozzles 5 and 6 have a structure similar to that of the supporting gas nozzle 3 , and only the inclination of the inclined flow path is different. The inclined flow path of the supporting gas nozzle 5 is inclined toward the supporting gas opening 5a so as to be separated from the fuel opening 2a. And the inclination flow path of the supporting gas nozzle 6 also inclines so that it may separate from the fuel opening part 2a toward the supporting smoke opening part 6a.

4 : is a figure similar to FIG. 2 which showed the modified example of arrangement|positioning of a supporting gas nozzle. As shown in FIG. 4 , the supporting gas nozzles 301 and 41 are provided as a pair on the outer peripheral side of the fuel nozzle 2 , and in the present embodiment, on the concentric circle of the fuel nozzle 2 , It is installed so that it is symmetrical up and down when viewed from the inside of the furnace (S). The supporting gas nozzle 301 is located above the fuel nozzle 2 , and the supporting gas nozzle 41 is located below the fuel nozzle 2 . The supporting gas nozzles 301 and 41 each have supporting openings 301a and 41a that open to the inside of the furnace S. The supporting smoke openings 301a and 41a are provided at positions facing the fuel opening 2a.

The supporting gas nozzles 51 and 61 are provided as a pair on the outer peripheral side of the fuel nozzle 2, and in this modified example, on the concentric circle of the fuel nozzle 2, the left and right viewed from the inside of the furnace S installed so as to be symmetrical. The supporting gas nozzle 51 is located on the left side of the fuel nozzle 2 , and the supporting gas nozzle 61 is located on the right side of the fuel nozzle 2 . The supporting gas nozzles 51 and 61 have supporting openings 51a and 61a that are opened to the inside of the furnace S, respectively. The supporting smoke openings 51a and 61a are provided at positions opposite to the fuel opening 2a.

And the 1st straight line L1 which passes through the center of the supporting gas nozzles 301 and 41, and the 2nd straight line L2 which passes through the center of the supporting gas nozzles 51 and 61 are made to intersect. In the present embodiment, the first straight line L1 and the second straight line L2 are orthogonal to each other.

The supporting gas nozzles 301 and 41 have a structure similar to that of the supporting gas nozzle 3 , and only the inclination of the inclined flow path is different. The inclined flow path of the supporting gas nozzle 301 is inclined so as to approach the fuel opening 2a toward the supporting smoke opening 301a. And the inclined flow path of the supporting gas nozzle 41 also inclines so that it may approach the fuel opening part 2a toward the supporting combustion opening part 41a.

The supporting gas nozzles 51 and 61 have a structure similar to that of the supporting gas nozzle 3 , and only the inclination of the inclined flow path is different. The inclined flow path of the supporting gas nozzle 51 is inclined toward the supporting gas opening 51a so as to be separated from the fuel opening 2a. And the inclined flow path of the supporting gas nozzle 61 also inclines so that it may separate from the fuel opening part 2a toward the supporting smoke opening part 61a.

FIG. 5 : is a figure similar to FIG. 2 which showed the modified example of arrangement|positioning of a supporting gas nozzle. As shown in FIG. 5 , the supporting gas nozzles 302 and 42 are provided as a pair on the outer peripheral side of the fuel nozzle 2 , and in the present embodiment, on a concentric circle of the fuel nozzle 2 , It is installed so that it is symmetrical up and down when viewed from the inside of the furnace (S). The supporting gas nozzle 302 is located above the fuel nozzle 2 , and the supporting gas nozzle 42 is located below the fuel nozzle 2 . The supporting gas nozzles 302 and 42 each have supporting openings 302a and 42a that open with respect to the furnace S. The supporting smoke openings 302a and 42a are provided at positions facing the fuel opening 2a.

The supporting gas nozzles 52 and 62 are provided as a pair on the outer peripheral side of the fuel nozzle 2, and in this modified example, on the concentric circle of the fuel nozzle 2, the left and right viewed from the inside of the furnace S installed so as to be symmetrical. The supporting gas nozzle 52 is located on the left side of the fuel nozzle 2 , and the supporting gas nozzle 62 is located on the right side of the fuel nozzle 2 . The supporting gas nozzles 52 and 62 each have supporting openings 52a and 62a that open with respect to the furnace S. The supporting smoke openings 52a and 62a are provided at positions opposite to the fuel openings 2a.

And the 1st straight line L3 passing through the center of the supporting gas nozzles 302 and 42, and the 2nd straight line L4 passing through the center of the supporting gas nozzles 52 and 62 are made to intersect. In the present embodiment, the first straight line L3 and the second straight line L4 are orthogonal to each other.

The supporting gas nozzles 302 and 42 have a structure similar to that of the supporting gas nozzle 3, only the inclination of the inclined flow path is different. The inclined flow path of the supporting gas nozzle 302 inclines to the left as seen from the inside of the furnace S toward the supporting gas opening 302a. And the inclined flow path of the supporting gas nozzle 42 inclines to the right as seen from a furnace toward the supporting smoke opening part 42a.

The supporting gas nozzles 52 and 62 have a structure similar to that of the supporting gas nozzle 3, only the inclination of the inclined flow path is different. The inclined flow path of the supporting gas nozzle 52 inclines downward as viewed from the inside of the furnace S toward the supporting gas opening 52a. And the inclined flow path of the supporting gas nozzle 62 inclines upward, looking from the inside of the furnace S toward the supporting smoke opening part 62a.

Accordingly, the inclined flow passages of the supporting gas nozzles 302 , 42 , 52 , and 62 are respectively directed toward the supporting gas openings 302a , 42a , 52a , 62a in the same circumferential direction (the fuel opening 2a as viewed from the furnace S). ) in a counterclockwise direction).

FIG. 6 : is a figure similar to FIG. 2 which showed the modified example of arrangement|positioning of a supporting gas nozzle. As shown in FIG. 6 , the supporting gas nozzles 303 and 43 are provided as a pair on the outer peripheral side of the fuel nozzle 2 , and in the present embodiment, on the concentric circle of the fuel nozzle 2 , It is installed so that it is symmetrical up and down when viewed from the inside of the furnace (S). The supporting gas nozzle 303 is located above the fuel nozzle 2 , and the supporting gas nozzle 43 is located below the fuel nozzle 2 . The supporting gas nozzles 303 and 43 each have supporting openings 303a and 43a that open to the inside of the furnace S. The supporting smoke openings 303a and 43a are provided at positions opposite to the fuel opening 2a.

The supporting gas nozzles 53 and 63 are provided as a pair on the outer peripheral side of the fuel nozzle 2 , and in this modified example, on the concentric circle of the fuel nozzle 2 , it is viewed from the inside of the furnace S, left and right. installed so as to be symmetrical. The supporting gas nozzle 53 is located on the left side of the fuel nozzle 2 , and the supporting gas nozzle 63 is located on the right side of the fuel nozzle 2 . The supporting gas nozzles 53 and 63 have supporting openings 53a and 63a that open to the inside of the furnace S, respectively. The supporting smoke openings 53a and 63a are provided at positions opposite to the fuel opening 2a.

And the 1st straight line L5 which passes through the center of the supporting gas nozzles 303 and 43, and the 2nd straight line L6 which passes through the center of the supporting gas nozzles 53 and 63 are made to intersect. In the present embodiment, the first straight line L5 and the second straight line L6 are orthogonal to each other.

The supporting gas nozzles 303 and 43 have a structure similar to that of the supporting gas nozzle 3, only the inclination of the inclined flow path is different. The inclined flow path of the supporting gas nozzle 303 inclines to the left as viewed from the inside of the furnace S toward the supporting gas opening 303a. And the inclined flow path of the supporting gas nozzle 43 inclines to the left, seeing from a furnace toward the supporting smoke opening part 43a.

The supporting gas nozzles 53 and 63 have a structure similar to that of the supporting gas nozzle 3, only the inclination of the inclined flow path is different. The inclined flow path of the supporting gas nozzle 53 inclines to the left when viewed from the inside of the furnace S toward the supporting gas opening 53a. And the inclined flow path of the supporting gas nozzle 63 inclines to the left, looking from the inside of the furnace S toward the supporting smoke opening part 63a.

Therefore, the inclined flow paths of the supporting gas nozzles 303 , 43 , 53 , and 63 are inclined in the same direction (to the left as viewed from the inside of the furnace S) toward the supporting openings 303a , 43a , 53a and 63a, respectively. .

FIG. 7 : is an enlarged schematic diagram of the supporting gas nozzle 3 of FIG. As shown in FIG. 7 , outside the furnace T, a flange 37 protruding outward in the radial direction is formed on the main body 31 of the supporting gas nozzle 3 . In addition, the furnace body 1 is provided with a protrusion 11 protruding from the outer T side of the furnace, and a threaded portion 11a is formed on the outer peripheral surface of the protrusion 11 . And the fixing member 38 which fixes the flange 37 and the protrusion part 11 is provided in the supporting gas nozzle 3 . The fixing member 38 is screwed with the screw part 11a. The fixing member 38 fixes the body part 31 to the furnace body 1 , and by removing or loosening the fixing member 38 , the fuel gas nozzle 3 is moved to the body part with respect to the furnace body 1 . It can be rotated around the axis of (31).

The main body 31 and the distal end 32 are integrally rotatable around the axis of the main body 31, and by rotating, the inclination direction of the inclined flow path 32a formed in the distal end 32 is changed. is meant to be

Since the inclined flow path 32a is inclined with respect to the axis of the body part 31 , the supporting opening 3a is formed at a position inclined with respect to the center of the furnace inner end face 32b of the tip part 32 . Here, as described above, when the supporting gas nozzle 3 is rotated with respect to the furnace body 1 , the supporting opening portion 3a rotates with respect to the center of the furnace inner end face 32b of the tip portion 32 . And, since the inclined flow path 32a is inclined with respect to the axis of the main body 31 , when the supporting gas nozzle 3 is rotated with respect to the furnace body 1 , the injection direction of the supporting gas nozzle 3 changes. do. Therefore, by changing the fixed state of the main body part 31 with respect to the furnace body 1 by the fixing member 38, the injection direction of the fuel gas nozzle 3 can be operated and changed from the outside of the furnace T. .

8 : is a schematic perspective view of the front-end|tip part 32 of the flue gas nozzle 3 . As shown in FIG. 8 , in the furnace inner end face 32b of the tip portion 32, a guide groove 32c for guiding the injection direction of the fueling gas to be injected around the supporting gas opening 3a of the inclined flow path 32a is provided. ) is formed. The guide groove 32c is a groove concave on the inner side of the tip 32 in the furnace inner end surface 32b, and the outer edge of the furnace inner end surface 32b on the injection direction side is cut out to match the shape of the groove. there is.

According to the burner 10 of the above configuration, the following effects can be exhibited.

(1) As shown in FIG. 2, the supporting openings 3a and 4a of the supporting gas nozzles 3 and 4 are installed at positions facing up and down with respect to the fuel opening 2a of the fuel nozzle 2, The inclined flow passages of the supporting gas nozzles 3 and 4 are inclined toward the fuel openings 2a toward the supporting gas openings 3a and 4a. Accordingly, the shape of the flame F can be flattened by pushing the flame up and down by the supporting gas from the supporting gas nozzles 3 and 4 .

(2) As shown in FIG. 3, the supporting openings 5a and 6a of the supporting gas nozzles 5 and 6 are installed at positions opposite to the left and right with respect to the fuel opening 2a of the fuel nozzle 2, The inclined flow passages of the supporting gas nozzles 5 and 6 are inclined toward the supporting gas openings 5a and 6a so as to be separated from the fuel opening 2a. Accordingly, the flame F can be flattened by spreading the flame from side to side with the supporting gas from the supporting gas nozzles 5 and 6 .

(3) As shown in FIG. 4 , the supporting openings 301a and 41a of the supporting gas nozzles 301 and 41 are provided at positions facing up and down with respect to the fuel opening 2a of the fuel nozzle 2, The inclined flow passages of the gas nozzles 301 and 41 incline so as to approach the fuel opening 2a toward the supporting smoke openings 301a and 41a. Then, the supporting openings 51a and 61a of the supporting gas nozzles 51 and 61 are provided at positions opposite to the left and right with respect to the fuel opening 2a of the fuel nozzle 2, and The inclined flow path is inclined so as to be separated from the fuel opening 2a toward the supporting smoke openings 51a and 61a. Furthermore, the 1st straight line L1 which passes through the center of the supporting gas nozzles 301 and 41, and the 2nd straight line L2 which passes through the center of the supporting gas nozzles 51 and 61 are made to orthogonally cross. Therefore, the shape of the flame F is changed by pressing the flame from the top and bottom with the supporting gas from the supporting gas nozzles 301 and 41 and spreading the flame from side to side with the supporting gas from the supporting gas nozzles 51 and 61. It can be further flattened in the vertical direction.

(4) As shown in FIG. 5, the supporting openings 302a and 42a of the supporting gas nozzles 302 and 42 are installed at positions facing up and down with respect to the fuel opening 2a of the fuel nozzle 2, The inclined flow passages of the supporting gas nozzles 302 and 42 incline to the left and right, respectively, as viewed from the furnace S toward the supporting gas openings 302a and 42a. Then, the supporting openings 52a and 62a of the supporting gas nozzles 52 and 62 are provided at positions opposite to the left and right with respect to the fuel opening 2a of the fuel nozzle 2, and The inclined flow path inclines downward and upward, respectively, as viewed from the furnace S toward the supporting openings 52a and 62a. That is, the inclined flow paths of the supporting gas nozzles 302 , 42 , 52 , and 62 are respectively directed toward the supporting openings 302a , 42a , 52a , 62a in the same circumferential direction (the fuel opening 2a as viewed from the furnace S). ) in a counterclockwise direction). Moreover, the 3rd straight line L3 which passes through the center of the supporting gas nozzles 302 and 42, and the 4th straight line L4 which passes through the center of the supporting gas nozzles 52 and 62 are made to orthogonally cross. Therefore, the flame F becomes a counterclockwise vortex flow centering on the fuel opening 2a as seen from the furnace S by the supporting gas from the supporting gas nozzles 302 , 42 , 52 , and 62 . , the atmosphere in the furnace can be stirred, and the temperature distribution in the furnace can be made uniform. In addition, a clockwise direction may be sufficient as the direction of turning, The number of the supporting gas nozzles is not limited to four, What is necessary is just two or more.

(5) As shown in FIG. 6 , the supporting openings 303a and 43a of the supporting gas nozzles 303 and 43 are installed at positions facing up and down with respect to the fuel opening 2a of the fuel nozzle 2, The inclined flow passages of the supporting gas nozzles 303 and 43 incline to the left when viewed from the furnace S toward the supporting gas openings 303a and 43a, respectively. Then, the supporting openings 53a and 63a of the supporting gas nozzles 53 and 63 are provided at positions opposite to the left and right with respect to the fuel opening 2a of the fuel nozzle 2, and The inclined flow passages are each inclined to the left as viewed from the furnace S toward the supporting openings 53a and 63a. That is, the inclined flow paths of the supporting gas nozzles 303 , 43 , 53 , and 63 are inclined in the same direction (to the left as viewed from the inside of the furnace S) toward the supporting openings 303a , 43a , 53a and 63a, respectively. . Moreover, the 5th straight line L5 which passes through the center of the supporting gas nozzles 303 and 43, and the 6th straight line L6 which passes through the center of the supporting gas nozzles 53 and 63 are made to orthogonally cross. Therefore, it is possible to have directivity to the flame F by the supporting gas from the supporting gas nozzles 303, 43, 53, 63, to direct the flame F to the object, or to direct the flame F to the object. You can avoid touching it.

In addition, in FIG. 6, although the inclination flow path of the supporting gas nozzles 303, 43, 53, 63 inclines to the left toward the supporting opening, respectively, you may incline in the right, upper, lower, or arbitrary directions. In addition, the number of the supporting gas nozzles is not limited to four, What is necessary is just to have two or more.

In addition, in FIGS. 2-6, although the supporting opening part of the supporting gas nozzle is arrange|positioned with respect to the fuel opening part 2a of the fuel nozzle 2, up, down, left and right, the arrangement|positioning with respect to the fuel opening part 2a is up and down , is not limited to the left and right, and may be arranged in any direction with respect to the fuel opening 2a.

(6) The fixing member 38 is fixing the main body 31 to the furnace body 1, and by removing or loosening the fixing member 38. The flue gas nozzle 3 can be rotated relative to the furnace body 1 . That is, the inclined flow path 32a is provided rotatably with respect to the furnace body 1 . Therefore, by rotating the inclined flow path 32a with respect to the furnace body 1, the injection direction of the crude gas can be changed. As a result, the shape of the flame can be flexibly changed according to the shape of the furnace, the shape of the processing material, and the characteristics. In addition, since the fixing member 38 is located outside the furnace T, the injection direction of the supporting gas can be easily changed from the outside T of the furnace.

(7) In the furnace inner end face 32b of the tip portion 32, a guide groove 32c for guiding the injection direction of the blowing supporting gas is formed around the supporting gas opening 3a of the inclined flow path 32a. . Therefore, the directivity of the injection direction of a supporting gas can be improved by the guide groove 32c. As a result, for example, when the supporting gas nozzle 3 injects the supporting gas so that the flame is flattened or the flame is rotated, the flatness or the turning property of the flame is improved by the guide groove 32c. can do it

(8) The fuel injection amount of the fuel nozzle 2 can be changed by changing the opening degree of the adjustment valve 25b, and the gas injection amount of the supporting gas nozzle 3 is the opening degree of the adjustment valve 35b. By changing , change is possible. Therefore, by adjusting the fuel injection amount and the gas injection amount, the size and flatness of the flame can be easily changed.

(9) The furnace inner end face 32b of the tip portion 32 is located on the inner side of the combustion gas nozzle 3 from the furnace wall surface 91 . Therefore, the influence of the gas injected from the supporting smoke opening 3a from the furnace environment can be reduced, and the directivity of the gas injected from the supporting smoke opening 3a can be improved. In addition, since the furnace inner end face 32b is concave from the furnace wall surface 91, it is possible to create a shadowed portion with respect to the furnace inner end face 32b, and protect the furnace inner end face 32b from radiant heat in the furnace, resulting in durability can improve However, the furnace inner end face 32b of the tip portion 32 is at a position where the gas injected from the supporting smoke opening 3a does not collide with the corner portions 92c of the furnace wall concave surface 92 . Therefore, while changing the injection direction of the gas injected from the supporting smoke opening 3a, the injected gas collides with the corners 92c of the furnace wall concave surface 92 to disturb the gas flow or change the injection direction into the furnace can be deterred from doing

(10) Since the flue gas nozzle 3 includes a fixing member 38 for fixing the main body 31 to the furnace body 1 , an inclined flow path 32a is formed with respect to the furnace body 1 . It can be fixed more reliably in a predetermined injection direction.

(11) Since the fixing member 38 is configured to fix the main body 31 to the furnace body 1 from the outside of the furnace T side, it is not affected by the in-furnace environment and can be easily moved outside the furnace T From this, fixing of the main body 31 or adjustment of the injection direction can be performed.

(Other embodiment)

In the above embodiment, the supporting gas nozzle 3 is rotatable with respect to the furnace body 1 . However, in the supporting gas nozzle 3 , the tip part 32 is rotatable with respect to the body part 31 . there may be 9 is a schematic perspective view of a supporting flue gas nozzle in which the tip portion 32 is rotatable with respect to the body portion 31 . As shown in FIG. 9 , a threaded part 31b is formed on the outer circumferential surface of the end of the body part 31 on the inner side (S) side of the furnace, and the tip part 32 is coupled to the threaded part 31b and the main body part 31b. (31) is to be installed. Accordingly, the tip portion 32 is rotatably attached to the body portion 31 . And, by rotating the tip part 32 with respect to the body part 31 to adjust the direction of the inclination, similarly to the case where the supporting gas nozzle 3 rotates with respect to the furnace body 1, the The spray direction can be changed.

FIG. 10 is a schematic perspective view of the tip portion 32 of FIG. 9 . As shown in FIG. 10 , in the furnace inner end face 32b of the tip part 32 , a slit groove 32d is formed in which a rotary jig for rotating the tip part 32 with respect to the body part 31 can engage. The slit grooves 32d extend from the outer peripheral edge of the furnace inner end face 32b toward the center, and are formed so as to be symmetrical with respect to the center, for example. The slit groove 32d does not interfere with the supporting opening 3a.

According to the said other embodiment, the following effects can be exhibited.

(1) By making the front-end|tip part 32 rotatable with respect to the body part 31, the mechanism which adjusts the direction of the inclination flow path 32a can be made small, and the structure of the supporting gas nozzle 3 can be simplified.

(2) As the slit groove 32d is formed in the distal end 32 , the distal end 32 can be easily rotated with respect to the main body 31 . As a result, the injection direction of the flue gas nozzle 3 can be changed easily.

In the said embodiment, although the fuel injection amount is changed by changing the opening degree of the regulating valve 25b, you may change the fuel injection amount by changing the fuel supply pressure. In addition, the regulating valve 25b is not provided, but the supply valve 25a may be equipped with the function of the regulating valve 25b.

In the above embodiment, the gas injection amount is changed by changing the degree of opening of the control valves 35b and 45b. However, the gas injection amount may be changed by changing the gas supply pressure. Moreover, the regulating valves 35b and 45b may not be provided, but the supply valves 35a and 45a may be equipped with the function of the regulating valves 35b and 45b.

Various modifications and changes can be made without departing from the spirit and scope of the present invention as defined in the appended claims.

In the present invention, since it is possible to provide a burner capable of obtaining flames of various shapes, industrial use value is great.

1 --- no sieve
2 --- fuel nozzle
2a --- fuel opening
25 --- fuel line
25a --- supply valve 25b --- regulating valve
3 --- supporting gas nozzle
3a --- supporting opening
31 --- Body part 31a --- Gas flow path 31b --- Thread part
32 --- Tip 32a --- Inclined flow path
32b --- furnace inner section 32c --- guide groove 32d --- slit groove
35 --- Gas Pipe 37 --- Flange
38 --- Fixed member
35a --- supply valve 35b --- regulating valve
301 --- supporting gas nozzle 301a --- supporting gas opening
302 --- supporting gas nozzle 302a --- supporting gas opening
303 --- supporting gas nozzle 303a --- supporting gas opening
4 --- supporting gas nozzle 4a --- supporting gas opening
41 --- supporting gas nozzle 41a --- supporting gas opening
42 --- supporting gas nozzle 42a --- supporting gas opening
43 --- supporting gas nozzle 43a --- supporting gas opening
45a --- supply valve 45b --- regulating valve
5 --- supporting gas nozzle 5a --- supporting gas opening
51 --- supporting gas nozzle 51a --- supporting gas opening
52 --- supporting gas nozzle 52a --- supporting gas opening
53 --- supporting gas nozzle 53a --- supporting gas opening
6 --- supporting gas nozzle 6a --- supporting gas opening
61 --- supporting gas nozzle 61a --- supporting gas opening
62 --- supporting gas nozzle 62a --- supporting gas opening
63 --- supporting gas nozzle 63a --- supporting gas opening
91 --- Furnace wall 92 --- Furnace wall concave surface 92c --- Each part
10 --- burner
11 --- Projection 11a --- Thread
F --- flame
S --- No My
T --- Noh et al.
L1 --- 1st straight line L2 --- 2nd straight line
L3 --- 1st straight line L4 --- 2nd straight line
L5 --- 1st straight line L6 --- 2nd straight line

Claims (11)

a fuel nozzle for injecting fuel;
It is installed in two pairs on the outer peripheral side of the fuel nozzle, and is provided with a supporting gas nozzle for injecting the supporting gas,
the fuel openings into the furnace of the two pairs of the fuel nozzles are provided at opposing positions, respectively, with respect to the fuel openings into the furnace of the fuel nozzles;
The front end of the supporting gas nozzle has an inclined flow path inclined with respect to an axial direction of the supporting gas nozzle body,
The inclined flow path of a pair of supporting gas nozzles on one side is inclined so as to approach the fuel opening toward the supporting gas opening,
The inclined flow path of the pair of supporting gas nozzles on the other side is inclined toward the supporting gas opening part so as to be separated from the fuel opening part;
The first straight line passing through the center of the pair of supporting gas nozzles on the one side and the second straight line passing through the center of the pair of supporting gas nozzles on the other side intersect each other,
The furnace inner end face of the front end of the supporting gas nozzle is located on the inner side of the supporting gas nozzle from the furnace wall surface, and the gas injected from the supporting gas opening is at a position where the gas injected from the supporting gas nozzle does not collide with the corners of the furnace wall concave surface, characterized in that burner. a fuel nozzle for injecting fuel;
It is installed in two pairs on the outer peripheral side of the fuel nozzle, and is provided with a supporting gas nozzle for injecting the supporting gas,
the fuel openings into the furnace of the two pairs of the fuel nozzles are provided at opposing positions, respectively, with respect to the fuel openings into the furnace of the fuel nozzles;
The front end of the supporting gas nozzle has an inclined flow path inclined with respect to an axial direction of the supporting gas nozzle body,
The inclined flow path of a pair of supporting gas nozzles on one side is inclined so as to approach the fuel opening toward the supporting gas opening,
The inclined flow path of the pair of supporting gas nozzles on the other side is inclined toward the supporting gas opening part so as to be separated from the fuel opening part;
The first straight line passing through the center of the pair of supporting gas nozzles on the one side and the second straight line passing through the center of the pair of supporting gas nozzles on the other side intersect each other,
The front end of the supporting gas nozzle is rotatable with respect to the main body,
A burner, characterized in that a slit groove is formed in the furnace inner end face of the tip of the fuel gas nozzle to engage a rotary jig for rotating the tip to face the main body. 3. The method according to claim 1 or 2,
A guide groove for guiding an injection direction of the supporting combustion gas injected from the opening is formed in an opening of the tip of the supporting gas nozzle into the furnace. delete delete delete delete delete delete delete delete

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