KR200402046Y1 - Gas Burner - Google Patents

Abstract

The present invention relates to a gas burner, the gas supply pipe for supplying gas as a fuel for combustion; A plurality of gas supply nozzles formed at an end of the gas supply pipe to inject gas; An air supply pipe inserted into the gas supply pipe and supplied with air; And an air supply nozzle which is formed at the end of the air supply pipe to inject air, and is applied to a melting furnace, a kiln or an incinerator for high temperature heating and heat treatment, thereby minimizing the occurrence of unflammed flames to improve combustion efficiency and quality of the plastic product. It is to provide a gas burner improved.

Description

Gas Burner

The present invention relates to a gas burner, and more particularly to a gas burner applied to a melting furnace, a kiln or an incinerator for high temperature heating and heat treatment.

Conventionally, industrial furnaces which require high temperature heating, heat treatment or melting use gas fuel such as natural gas (LNG) or liquefied petroleum gas (LPG). Oxygen is added to air, preheated air, or air as an oxidant for burning gas fuel at high temperature.

As such, the gas fuel is mixed with air as an oxidant in an appropriate ratio so that combustion occurs in the combustion chamber. However, when the air is pre-mixed with the gas fuel and combusted in the combustion chamber, uncombusted flame is generated in which the gas fuel is not completely burned. There was a problem that the flame flowed back into the supply pipe for supplying gas fuel mixed with air.

Moreover, in the case of unsoftened salt, the heat transfer or heat exchange applied to the furnace is not performed properly, thereby lowering the combustion efficiency, and in particular, the problem of causing a fatal defect in a plastic product heat-treated in the kiln has been exposed.

The present invention is to solve the above problems, the gas fuel supplied through the gas supply pipe is injected from the plurality of gas supply nozzles are arranged in parallel by inserting the air supply pipes in the gas supply pipe in order to achieve a complete combustion and the inside and the gas supply nozzles It is an object to provide a gas burner in which one or more air supply nozzles connected to an air supply pipe are arranged outside.

In addition, the present invention is to provide a combustion chamber at the end of the plurality of gas supply nozzles and one or more air supply nozzles for the complete combustion of gas fuel, the durability of the gas burner, and the stable heat treatment of the plastic products and the quality of the products. Another purpose.

As a means for achieving the above object, the gas burner according to the present invention is a gas supply pipe for supplying gas as fuel for combustion; A plurality of gas supply nozzles formed at an end of the gas supply pipe to inject gas; An air supply pipe inserted into the gas supply pipe and supplied with air; And an air supply nozzle formed at an end of the air supply pipe and injecting air.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the gas burner according to an embodiment of the present invention.

1 is a view showing a cross section of a gas burner as a first embodiment according to the present invention, Figure 2 is a view showing the front.

Referring to the drawings, first, the gas burner of the present invention is connected to the gas supply pipe 12 for supplying gas fuel to the burner 10, the gas supply pipe 12, such as natural gas or liquefied petroleum gas through a pipe, etc. Liquid fuel is supplied from a fuel tank or the like.

A plurality of gas supply nozzles 14 penetrates the burner 10 radially. The gas supply nozzle 14 is formed to have a predetermined diameter or various diameters so that the gas fuel is injected at a predetermined pressure.

An air supply pipe 20 is connected to the inside of the gas supply pipe 12. The air supply pipe 20 supplies air to be used as an oxidant when the gas fuel is combusted. Air and / or oxygen may be supplied through the air supply pipe 20. And the air supply nozzle 22 is connected to the air supply pipe 20, the air supply nozzle 22 is formed in the center of the burner 10 to a predetermined diameter.

Burner 10 is a heat-resistant and insulating material is applied, the gas supply pipe 12 and the air supply pipe 20 connected to the burner 10 is preferably installed with a material and thickness that can withstand a predetermined pressure, respectively.

The air supply pipe 20 is preferably connected in parallel with the gas supply pipe 12, but may be installed through the gas supply pipe 12. Furthermore, the diameter of the gas supply pipe 12 may be larger than the diameter of the air supply pipe 20. However, in some cases, the diameter of the air supply pipe 20 and the diameter of the gas supply pipe 12 may be small, and the gas supply pipe 12 may be penetrated into the air supply pipe 20. The air supply pipe 20 is preferably connected to a device for blowing high pressure air, may be provided with a control mechanism for adjusting the amount of air supplied to the air supply pipe (20).

The air supply nozzle 22 connected to the air supply pipe 20 may be formed in a straight line shape or narrowed toward the combustion chamber 30. The plurality of gas supply nozzles 14 connected to the gas supply pipe 12 may have a straight line shape, a narrower shape shape, or a straight line shape toward the combustion chamber 30, and may be inclined toward a central portion of the combustion chamber 30. Can be.

In addition, the combustion chamber 30 is configured at the end of the burner 10 according to the present invention, and the gas fuel injected from the gas supply nozzle 14 and the air injected from the air supply nozzle 22 are mixed and combusted to generate a flame. To form. The combustion chamber 30 has a function of allowing the mixed gas to be easily burned and preventing the flame from being dispersed. It is preferable that the combustion chamber 30 has a space part narrowing from an inner side to an outer side.

In the present invention having such a configuration, gas fuel is supplied through the gas supply pipe 12, and air for oxidation is supplied through the air supply pipe 20. At this time, the gas fuel supplied through the gas supply pipe 12 is injected at high pressure through a plurality of gas supply nozzles 14 penetrating radially through the burner 10, and the air supplied through the air supply pipe 20 is burner ( 10 is injected at a high pressure through the air supply nozzle 22 penetrated in the center. The gas fuel and air injected from the gas supply nozzle 14 and the air supply nozzle 22 are mixed in the space part of the combustion chamber 30. The mixed gas mixed in the space part of the combustion chamber 30 is ignited by a separate ignition device (not shown) and is generated as a high-temperature light emitting flame.

Therefore, when the mixed gas is ignited by a high-temperature luminous flame in the space of the combustion chamber 30, the flame does not flow back through the gas supply nozzle 14 or the air supply nozzle 22, and the high temperature heating and Emitted into a melting furnace, kiln or incinerator for heat treatment.

In addition, unburned flames are not generated, and the heat transfer or heat exchange of the applied flames is constant to improve combustion efficiency, and to obtain an even quality of a fired product that is heat treated in a kiln or the like.

In addition, Figure 3 is a second embodiment according to the present invention, a view showing a cross section of the gas burner, Figure 4 is a view showing the front.

A gas supply hole 13 having a predetermined diameter is formed at an end of the gas supply pipe 12, and an air supply nozzle 22 connected to the air supply pipe 20 is disposed at the center of the gas supply hole 13. A plurality of gas supply nozzles 14 are formed outside the gas supply hole 13. The gas supply hole 13 and the gas supply nozzle 14 have a step 11 formed inward from the end of the burner 10.

This allows a large amount of fuel gas to be supplied to the central portion of the burner through the gas supply pipe 12, and mixes with the oxidizing air injected from the air supply nozzle 22 provided in the center of the gas supply hole 13 to generate a flame. Be sure to That is, by allowing the air to be supplied from the inside of the burner 10 through the air supply nozzle 22, the flames are collected in the center and combusted. Furthermore, a small amount of fuel gas is supplied to the outside through the plurality of gas supply nozzles 14 formed on the outside of the gas supply hole 13, thereby increasing the intensity of the flame, and the flame is discharged from the central air supply nozzle 22. It is made to be more inwardly aggregated by the supplied air.

In addition, Figure 5 is a third embodiment according to the present invention, a view showing a cross section of the gas burner, Figure 6 is a view showing the front.

The second air supply pipe 40 is provided in parallel with the gas supply pipe 12 and the first air supply pipe 20 connected to the burner 10. The gas supply pipe 12 through which the first air supply pipe 20 is penetrated is installed in the second air supply pipe 40. In the center of the burner 10, a first air supply nozzle 22 for injecting air supplied from the first air supply pipe 20 is formed, and a gas supply pipe radially outside the first air supply nozzle 22. A plurality of gas supply nozzles 14 for injecting the gas fuel supplied from 12 is formed, and a plurality of gas injecting air supplied from the second air supply pipe 20 radially outside the gas supply nozzles 14. The second air supply nozzle 42 is formed.

It is possible to supply air and / or oxygen through the second air supply pipe 40, the second air supply pipe 40 is installed so as to be connected to the same air and / or oxygen supply means and the first air supply pipe (20) Air and / or oxygen can be supplied.

The first air supply nozzle 22 connected to the first air supply pipe 20 may be formed in a straight line shape or narrowed toward the combustion chamber 30. The plurality of gas supply nozzles 14 connected to the gas supply pipe 12 may have a straight line shape, a narrower shape shape, or a straight line shape toward the combustion chamber 30, and may be inclined toward a central portion of the combustion chamber 30. Can be. In addition, the plurality of second air supply nozzles 42 connected to the second air supply pipe 40 may be linear, narrower, or straight toward the combustion chamber 30. It may be formed in the form of a photograph or an isosceles triangular prism.

The space portion of the combustion chamber 30 is preferably formed to be narrower toward the outside from the burner 10 so that the flame can be concentrated to the outside.

On the other hand, the cross-sectional shape of the gas burner of the present invention is not only the structure of the gas supply nozzle and the air supply nozzle directed to the combustion chamber, but also the number and diameter of the gas supply nozzle and the air supply nozzle, and the amount of gas or air and / or oxygen to each nozzle. The installation structure of the supply pipe for supply may also be variously changed, and may also vary depending on the conditions applied to a melting furnace, a kiln or an incinerator for high temperature heating and heat treatment.

While the invention has been shown and described in connection with specific embodiments, it is common in the art that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the utility model registration claims. Anyone with knowledge will know it easily.

As described above, the gas burner of the present invention is installed by being applied to a melting furnace, a kiln or an incinerator for high temperature heating and heat treatment, and each of the gas supply pipe connected to the burner and one or more air supply pipes, and a gas supply pipe and an air supply pipe, respectively. By variously configuring the shape and shape of the nozzle for injecting the supplied gas fuel and air into the combustion chamber, it is possible to minimize the generation of unflammed flames in which the gas fuel is not completely burned, thereby reducing gas fuel and reducing the generation of pollutants. It prevents the flame from flowing back to the gas supply pipe or the oxygen supply pipe, improves the heat transfer and heat exchange to the furnace, improves the combustion efficiency, and provides an even quality of the heat-treated plastic product.

1 is a view showing a cross section of a gas burner as a first embodiment according to the present invention.

FIG. 2 is a front view of FIG. 1.

3 is a cross-sectional view of a gas burner as a second embodiment according to the present invention.

4 is a front view of FIG. 3.

5 is a cross-sectional view of a gas burner as a third embodiment according to the present invention.

FIG. 6 is a front view of FIG. 3.

♣ Explanation of symbols for main part of drawing ♣

10: burner 12: gas supply pipe

14: gas supply nozzle 20, 40: air supply pipe

22, 42: air supply nozzle 30: combustion chamber

Claims (4)

In the gas burner, A gas supply pipe for supplying gas as a fuel for combustion; A plurality of gas supply nozzles formed at an end of the gas supply pipe to inject gas; An air supply pipe inserted in the middle of the gas supply pipe to supply air; And Air supply nozzle is formed at the end of the air supply pipe for injecting air Gas burner, characterized in that consisting of. The gas burner according to claim 1, wherein a gas supply hole for ejecting gas supplied from a gas supply pipe is formed at an outer circumference of the air supply nozzle. The gas burner according to claim 3, wherein a plurality of air supply nozzles are formed outside the plurality of gas supply nozzles. The method according to any one of claims 1 to 3, Gas burner, characterized in that the combustion chamber which is burned by mixing the gas and air at the end of the burner.