KR920001756B1 - Nozzle usher in combustion appratus - Google Patents

Abstract

The structure for promoting stabilized combustion, comprises a cylindrical nozzle holder (21) having a fuel supply hole (23) on the opposide side of air supply holes (17,18); nozzle clamping section (25) fixed at the hole (23); casing (24) with projecting edge provided on the hole (23); a flange (28) inserted to the casing (24).

Description

Nozzle Assembly of Combustor

1 is a cross-sectional view showing an embodiment of a burner device using the nozzle assembly of the present invention.

2 is an exploded perspective view showing the burner device of this embodiment.

* Explanation of symbols for main parts of the drawings

10: burner 17,18: air supply

20: nozzle assembly 21: nozzle holder

23: fuel supply port 24: tube

25: nozzle chuck 28: flange

The present invention relates to a structure of a nozzle assembly provided in a combustion device, and more particularly, to a nozzle assembly for installing a nozzle chuck in a nozzle holder corresponding to a burner.

Conventionally, in order to supply fuel to each burner in a combustor equipped with a plurality of thin burners such as a ribbon burner, a plurality of fuel supply ports corresponding to the supply port of each burner are used. A nozzle assembly for arranging nozzle holders corresponding to the burners, fixing nozzle chucks for fuel injection to each fuel supply port of the nozzle holder, and supplying fuel to the burners at the nozzle ports of the nozzle chucks, respectively, is used.

In this case, a male screw is formed in the outer circumference of the nozzle clamp, and a female screw corresponding to the male screw of the nozzle chuck is formed in each fuel supply port, and each nozzle chuck is screwed into the fuel supply port to fix the nozzle chuck. have.

However, in the nozzle assembly in which the nozzle chuck is fixed by screwing, the distal end portion of the ejection port of the nozzle chuck which ejects fuel to the burner air supply port due to the imbalance is not maintained if the precision in the formation of each screw is not maintained. The position and the jet port direction were different, and it was difficult to make the relative position or the jet direction between the air supply port of the burner and the tip of the nozzle chuck constant. As a result, even if the fuel is ejected at the same pressure from the nozzle, the amount of primary air sucked into the air supply of the burner is different for each burner due to the difference in the relative position between the air supply of the burner and the tip of the nozzle. You may not be able to make it constant. Therefore, if the amount of combustion is changed, there is a problem that stable combustion cannot be obtained because the amount of supplied air is different for each burner.

Accordingly, the present invention provides a combustion apparatus having a nozzle assembly for ejecting fuel from a nozzle chuck fixed to a nozzle holder in order to solve the above-mentioned problems, the nozzle capable of ejecting fuel in a predetermined direction at a constant ejection position with respect to the burner. It is an object to provide an assembly.

In the nozzle assembly of the combustor comprising a nozzle holder having a fuel supply port corresponding to an air supply port of a burner and having a substantially cylindrical shape, and a nozzle chuck fixed to the fuel supply port, the fuel supply port is The nozzle chuck has a tubular portion formed by protruding an outer portion, and the nozzle chuck has a flange fitted into the cylinder portion, and the cylinder means is plastically deformed (compressed) to fix the nozzle chuck to the fuel supply port. .

In the present invention, the pull chuck of the nozzle chuck is inserted into the cylinder portion protruding from the fuel supply port of the nozzle holder, and the nozzle chuck is fixed by plastic deformation of the cylinder chuck. For this reason, compared with the case of fixing a nozzle chuck by a screw, the fixing position of a nozzle chuck is stabilized and can be fixed to a fixed position toward a fixed position with respect to the air supply port of a burner. Therefore, the ejection position and ejection direction of the fuel are not different for each burner, and the intake of combustion air in the burner can be made constant, so that the burned state of the burner can be made constant.

In the case where a plurality of nozzles are provided in the nozzle holder, the inspection can be easily performed using the mounting tool or the mounting device of the nozzle chuck with respect to the precision in the ejecting direction of each nozzle, for example, the vertical degree.

EXAMPLE

Next, a nozzle assembly of the combustion apparatus of the present invention will be described according to the embodiment of the drawings.

2 is an exploded view of the main part of the burner device 1 for gas hot water, and includes four burners 10, a nozzle assembly 20, and a plurality of supports 30 for connecting and integrating them. 40) and (50).

The upper part of the burner 10 is formed by connecting the upper part to face each other, and a plurality of stainless steel sheets formed by forging are combined to bend and circumferentially circumscribed except for the upper part and the center part of the lower part, thereby ensuring airtightness. have,

Inside the burner 10, two distribution chambers 11, 12, and mixing chambers 13, 14 are formed symmetrically. The distribution chamber 11 and the mixing chamber 13, the distribution chamber 12, and the mixing chamber 14 communicate with each other, and the corresponding portions of the burner 10 communicate with the distribution chambers 11 and 12, respectively. A plurality of flame ports 15 and 16 are provided in two rows, respectively, and air supply ports 17 and 18 as opening portions of the mixing paths 13 and 14 are provided in the lower center portion.

The nozzle assembly 20 which blows out fuel is arrange | positioned between the support bodies 30 and 40 between these air supply ports 17 and 18. FIG.

The nozzle assembly 20 is composed of a nozzle holder 21 and a plurality of nozzle chucks 25.

The nozzle holder 21 is an aluminum die casting agent, and is composed of a distribution unit 22 for supplying fuel to each burner 10, and a gas amount control unit 29 for adjusting the gas supply amount.

The distribution part 22 has a hollow substantially cylindrical shape, and the fuel supply port 23 is shown in FIG. 1 at the position corresponding to the air supply ports 17 and 18 of each butter 10, respectively. Is installed.

A cylinder 24 having an inner diameter larger than the diameter of the fuel supply port 23 protrudes from the outside of the fuel supply port 23, and a brass nozzle chuck 25 made of brass is inserted into the cylinder part 24, respectively. have.

The nozzle chuck 25 has a substantially cylindrical shape, and a tapered through hole 26 for passing the fuel therein is provided therein, and guides the fuel gas to the jet port 27.

The nozzle chuck 25 is provided with a flange 28 for fixing to the nozzle holder 21, and the nozzle chuck 25 is fixed by inserting the flange 28 into the cylinder portion 24 of the nozzle holder 21. Here, in order to further improve the wearability, the tip 24a of the cylinder portion 24 is pressurized to the inside of the cylinder portion 24 after being pressed into the cylinder portion 24.

In this case, as another method of fixing the nozzle chuck 25, the flange 28 of the nozzle chuck 25 is inserted into the cylinder portion 24, and then the tip 24a of the cylinder portion 24 is inserted into the cylinder portion 24. You may fix only by plastic deformation by pressing inward further.

The gas amount control unit 29 communicates with the distribution unit 22, and within the gas amount control unit 29, a gas amount adjuster (not shown) displaced according to the state of the water level lever is disposed, and the gas amount adjuster is in accordance with the user's operation state. The amount of gas supplied to the distribution unit 22 is adjusted.

The supports 30 and 40 have an N-shaped cross section, and each of the supports 30 and 40 has a plurality of grooves 31 and 41 and each for positioning the burners 10. A plurality of grooves 31 and 41 for positioning each burner 10 in correspondence with the air supply mechanisms 17 and 18 of the burner 10 and the air supply mechanism 17 of each burner 10. And positioning of each burner 10 in correspondence with (18) and positioning of each burner 10 in correspondence with (17) and (18), protruding toward the supply ports (17) and (18). A plurality of air supply cylinders 32 and 42 are provided, respectively.

In addition, fixing parts 34 and 44 are fixed to upper ends of the supports 30 and 40 when the projections 33 and 43 for combination with the support 50 are integrated with the burner device 1. ) Are formed respectively.

End portions 51 and 52 are formed on both sides of the support 50, and each of the end portions 51 and 52 has a plurality of grooves 53 and 54 for positioning the burners 10. Each is installed.

The end portions 51 and 52 of the support 50 are provided with holes 55 through which the projections 33 and 43 of the support 30 and 40 pass.

The burner device 1 having the above-described configuration is provided with a support (for example) in the hole 55 after each burner 10 is positioned in each of the grooves 53 and 54 of the ends 51 and 52 of the support 50. 30 and 40, the projections 33 and 43 are inserted, and each burner 10 is positioned by the grooves 31 and 41, and then each of the air supply cylinders 32 and 42 is inserted again. ), Four burners 10 are integrated with each of the air supply holes 17 and 18 of each burner 10.

Further, the nozzle assembly 20 is disposed between the supports 30 and 40, and the nozzle assembly 20 is fixed to both ends of each of the supports 30 and 40 by a fixing member (not shown). ) And (44) to be the burner device (1).

In the burner device 1 having the above structure, the nozzle chuck 25 is inserted into the cylinder portion 24 of the nozzle holder 21 to plastically deform and fix the cylinder portion 24. ) And (18) can be arranged at a constant distance, and the ejection opening 27 of each nozzle chuck 25 can be directed in a constant direction.

Therefore, when fuel gas is ejected from the nozzle chuck 25, the same amount of air is sucked into each of the air inlets 17 and 18 of each burner 10, and the supply amount of combustion air does not change for each burner, Even when the fuel supply amount is changed, the combustion state of each burner can be changed in the same way. As a result, each burner 10 performs stable combustion at the same combustion amount, respectively.

Claims (1)

Combustion comprising a nozzle holder 21 having a fuel supply port 23 corresponding to the air supply ports 17 and 18 of the burner and having a substantially cylindrical shape, and a nozzle chuck 25 fixed to the fuel supply port. In the nozzle assembly of the apparatus, the fuel supply port has a tubular portion 24 formed by protruding the outer portion thereof, and the nozzle chuck has a flange 28 fitted into the tubular portion to plastically deform the tubular portion. The nozzle assembly of the combustion machine, characterized in that the nozzle chuck is fixed to the fuel supply port.

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