KR102564961B1 - Combustion apparatus - Google Patents

Abstract

The present invention relates to a combustion device having a configuration capable of generating high flame temperature by supplying amplified air to a combustion chamber and generating strong thermal power by spreading and ejecting flames throughout the space of a flame ejection guide tube.
That is, the present invention provides an injection nozzle provided inside a housing to inject liquid or gaseous fuel from the outside, a combustion chamber in which fuel injected from the injection nozzle and air supplied from the outside are mixed to perform combustion, and the combustion chamber An air supply unit provided at the rear of the housing to mix fuel and external air to generate a flame, amplifying and supplying high-pressure air to the rear side of the housing, and guiding the air flow along the wall of the flame ejection guide pipe to guide the flame ejection It is characterized by a combustion device in which a high-pressure amplification and diffusion unit is provided so that the flame is diffused and ejected in the tube.

Description

Combustion device {COMBUSTION APPARATUS}

The present invention relates to a combustion device, and more specifically, to supply amplified air to a combustion chamber to generate a high flame temperature, and to generate strong thermal power by spreading and ejecting flames throughout the space of a flame ejection guide tube. It relates to a combustion device consisting of the configuration.

In general, a combustion device is a device that safely and efficiently burns fuel to obtain high-temperature heat, and includes a gas burner for gas combustion and an oil burner for burning liquid fuel such as kerosene or heavy oil, depending on the type of fuel.

In the combustion device, liquid or gaseous fuel is supplied into the combustion chamber in a sprayed or vaporized state, and combustion is performed while the supplied fuel is mixed with air supplied from the outside.

Conventionally, various methods for mixing fuel and air well have been proposed, but most of them are to make the air flow for combustion into a swirling air flow so that the fuel and air are well mixed. To this end, a plurality of nozzles are formed in the passage of air supplied into the combustion chamber, and air is supplied so that an air vortex is formed in the combustion chamber to create a swirling air flow, and while supplying air in the axial direction of the combustion flame, the passage Wings are installed on it to create swirling airflow.

In addition, since combustion efficiency can be increased by preheating and supplying the air supplied through the nozzle, the air supply line is preheated while passing through a flue or a separate heat exchanger so that the air can be preheated before entering the combustion chamber.

In addition, it is also classified into a pre-mixed burner and a diffusion type burner according to a method of mixing fuel and air. At this time, small burners for home use or chemical experiments are generally pre-mixed types in which fuel and air are mixed in advance for combustion, and large-scale industrial burners send fuel and air separately to a combustor, mix them in the combustor, and burn them. do.

However, conventional combustion devices having such a structure have disadvantages in that a nozzle for supplying a swirling air flow, an air preheating device, and an insulator are separately configured, so that the size of the combustion device increases and the device becomes complicated.

KR No. 10-1284290 KR No. 10-1133434 KR No. 10-1055057 KR No. 10-0969857 KR No. 10-0941573

The combustion device of the present invention is provided with a high-pressure amplification and diffusion unit that amplifies and supplies high-pressure air to the rear side of the housing and induces an air flow along the wall surface of the combustion chamber so that flames are spread and ejected throughout the space of the flame ejection guide tube, and the injection nozzle It is to provide a combustion device capable of generating a high flame temperature, generating strong thermal power, and having a simple structure and miniaturization by supplying air amplified in the direction of the flame generated through the.

The present invention provides an injection nozzle provided inside a housing for injecting liquid or gaseous fuel from the outside, a combustion chamber in which fuel injected from the injection nozzle and air supplied from the outside are mixed to perform combustion, and a rear side of the combustion chamber. An air supply unit provided in a mixture of fuel and external air to generate a flame, and amplifying and supplying high-pressure air to the rear side of the housing, and an air flow is induced along the wall of the flame ejection guide pipe to the flame ejection guide pipe It is characterized by a combustion device provided with a high-pressure amplification and diffusion unit for spreading and ejecting flame.

The housing is composed of first and second connecting members made of a tubular body, and the first and second screw parts respectively formed on the first and second connecting members are screwed together, and the gap adjusting ring is coupled to the first screw part of the first connecting member. It is characterized by having

An air inlet pipe is installed at the rear end of the second connection member, the air inlet pipe is provided in a form gradually expanded to the rear, and an air volume control member of the air supply unit is installed at the rear end.

The high-voltage amplification and diffusion unit is provided inside the connection portion of the first and second connection members, and the first connection member has a first screw portion formed on an outer circumferential surface to couple the second screw portion of the gap adjusting ring and the second connection member, respectively, and The rear end of the threaded portion is provided with a high-pressure air inlet chamber and a fluid flow guide, and the second connecting member has a second threaded portion formed on an inner circumferential surface and a fluid flow guide jaw inward toward the rear of the second threaded portion. It is characterized in that a high-pressure air inlet hole is formed on one side.

A spaced gap is formed between the fluid flow guide and the fluid flow guide jaw, and a curved portion is provided in the portion connected to the high-pressure air inlet chamber, and a guide portion made of an inclination angle in surface contact is provided in the portion connected to the flame ejection guide pipe. to be

The combustion apparatus of the present invention amplifies and supplies high-pressure air and allows flames of equal pressure to be diffused and ejected throughout the flame ejection guide pipe by a high-pressure amplification and diffusion unit that guides the air flow along the wall surface of the flame ejection guide pipe As a means, it has the effect of generating strong thermal power at a high temperature while having a simple structure.

1 is a cross-sectional view showing the overall configuration of a combustion device according to the present invention.
Figure 2 is an enlarged cross-sectional view showing a high-pressure amplification and diffusion part in the combustion device according to the present invention.
Figure 3 is a cross-sectional view showing adjusting the coupling interval of the second connecting member with a spacing adjusting ring screwed to the first screw portion of the first connecting member in the combustion device according to the present invention.
Figure 4 is an enlarged cross-sectional view showing the configuration of a high-pressure amplification and diffusion unit and an air inlet unit in the combustion device according to the present invention.
5 is an enlarged cross-sectional view showing an operating state of a high-pressure amplification and diffusion unit in a combustion device according to the present invention.
6 is a cross-sectional view showing an air quantity control state of an air inlet in a combustion device according to the present invention.
Figure 7 is a side view showing the configuration of the air amount control member of the air inlet in the combustion device according to the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in detail. And, in describing the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

The combustion device according to the present invention includes an injection nozzle 140 provided inside a housing 100 to inject liquid or gaseous fuel from the outside, and fuel injected from the injection nozzle 140 and supplied from the outside. A combustion chamber 150 in which combustion is mixed with air, an air supply unit 170 provided at the rear of the combustion chamber 150 to mix fuel and external air to generate a flame, and a rear side portion of the housing 100 A high-pressure amplification and diffusion unit provided in the amplifying and supplying high-pressure air and inducing an air flow along the wall surface of the flame ejection guide pipe 160 so that flames of equal pressure are diffused and ejected throughout the flame ejection guide pipe 160 (200) is provided to generate strong firepower.

The housing 100 is composed of first and second connecting members 110 and 120 formed of a tubular body, and first and second screw parts 111 formed on the first and second connecting members 110 and 120 respectively ( 121) is screwed together, but the spacing adjusting ring 130 is coupled to the first screw portion 111 of the first connecting member 110, and the first and second connecting members 110 are connected by the screwing position of the spacing adjusting ring 130. ) (120) to adjust the coupling interval.

The first connecting member 110 is made in the form of a gradually expanding middle portion, and a combustion chamber 150 is provided inside the first connecting member 110, and the flame of the combustion chamber 150 is an expanded flame ejection guide tube ( 160), and is ejected to the front end, and a high-pressure air inlet means for supplying high-pressure air to the high-pressure amplification and diffusion unit 200 is provided on one side of the second connection member 120, and the second connection member 120 At the rear end, an air inlet tube 180 for installing the air supply unit 170 is installed.

The rear end of the injection nozzle 140 is installed in a form penetrating the center of the air amount control member 172 of the air supply unit 170 installed in the air inlet pipe 180 and is connected to a fuel supply pipe (not shown), and the injection nozzle The front end of the 140 is configured so that the fuel is injected in the combustion chamber 150 so that the flame is ejected into the flame ejection guide pipe 160.

The flame ejection guide pipe 160 is to eject flames in a straight line from the front end after the first connecting member 110 is gradually expanded in the direction in which the flame is ejected from the combustion chamber 150 of the housing 100. is made possible.

The air inlet pipe body 180 is provided in a form gradually expanded to the rear, the front end is connected to the second connection member 120, and the rear end is installed with the air amount control member 172 constituting the air supply unit 170.

The air amount control member 172 is provided with a plurality of ventilation holes 174 radially formed in the central portion of the disk and an external air control plate 176 corresponding to the ventilation holes 174 to rotate the air control plate 176. As a means for adjusting the size of the ventilation hole 174, the amount of air inflow can be adjusted.

The high-pressure amplification and diffusion unit 200 is provided inside the screw-connected connection portion of the first and second connection members 110 and 120 to amplify the high-pressure air introduced through the high-pressure air supply unit 210 and the flame ejection guide tube. A flow of high-pressure air is induced along the wall surface of the 160 so that flames of equal pressure are diffused and ejected throughout the flame ejection guide pipe 160.

In the above, the flame is diffused and ejected in the flame ejection guide pipe 160 so that the flame is not concentrated in the central portion and high-pressure air is concentrated at an equal pressure in the entire space of the flame ejection guide pipe 160, so that strong thermal power is generated. it means one

The first connection member 110 has a first screw part 111 formed on an outer circumferential surface so that the second screw part 121 of the gap adjusting ring 130 and the second connection member 120 can be coupled to each other. The rear end of the one-screw portion 111 is provided with a fluid flow guide 240 consisting of a concavely formed high-pressure air inlet chamber 230 and an upward protruding annular jaw.

The second connection member 120 has a second screw part 121 formed on its inner circumferential surface and is formed inward toward the rear of the second screw part 121 so that there is a certain gap between the outer surface of the guide part 242 of the fluid flow guide 240 and the second screw part 121. A fluid flow guide jaw 250 to have is formed.

In addition, a high-pressure air inlet hole 220 is formed on one side of the second connection member 120 so that the high-pressure air introduced by the high-pressure air supply unit 210 made of a compressor is introduced into the high-pressure air inlet chamber 230. it is made to be

The fluid flow guide 240 is provided with a curved portion 241 at a portion connected to the high-pressure air inlet chamber 230, and a guide portion made of an inclination angle that makes surface contact at a portion connected to the flame ejection guide pipe 160 ( 242) is provided, and the high-pressure air introduced into the high-pressure air inlet chamber 230 flows along the curved portion 241 of the fluid flow guide 240, and then the guide portion 242 forming an angle in a straight line is brought into surface contact. After being turned, the flow of high-pressure air can be induced along the wall surface of the flame ejection guide pipe 160.

In addition, a spaced gap 260 is formed between the fluid flow guide 240 and the fluid flow guide jaw 250 so that the high-pressure air is amplified through the gap 260 and the guide portion of the fluid flow guide 240 It is to obtain the Coanda effect, which is turned through the inclination angle in surface contact with 242, so that the flow of high-pressure air can be induced along the wall surface of the flame ejection guide pipe 160.

That is, the high-pressure air is amplified through the gap 260 between the outer surface of the guide part 242 of the fluid flow guide 240 and the fluid flow guide jaw 250 so that the fluid flow is achieved, but the first connecting member ( The installation interval at which the first and second connecting members 110 and 120 are connected can be adjusted by the screwing position of the spacing adjusting ring 130 coupled to the first screw portion 111 of 110).

In addition, the high-pressure amplification and diffusion unit 200 according to the present invention is installed at the rear of the spray nozzle 140 located on the opposite side where the flame is ejected and is not affected by the flame, so the high-pressure amplification and diffusion unit 200 will prevent fire corrosion from occurring.

Thus, the combustion device of the present invention injects liquid or gaseous fuel through the injection nozzle 1 provided inside the housing 100, and external air introduced into the combustion chamber 150 through the air supply unit 170. is mixed with the injected fuel to generate a flame in the combustion chamber 150, and then the flame is ejected through the flame ejection guide pipe 160.

As described above, the flame of the flame ejection guide pipe 160 is supplied by amplifying high-pressure air, and the high-pressure amplification and diffusion unit 200 guides the air flow along the wall surface of the flame ejection guide pipe 160. As a means of spreading and ejecting flames of equal pressure throughout the (160), high-temperature and strong thermal power is generated.

That is, the high-pressure amplification-diffusion unit 200 is provided inside the screwed connection portion of the first and second connection members 110 and 120 to supply high-pressure air to the high-pressure air supply unit 210 through the high-pressure air inlet hole 220. A gap formed between the fluid flow guide 240 and the fluid flow guiding ledge 250 when the fluid flows along the fluid flow guide 240 made up of protruding annular jaws after being introduced into the inlet chamber 230. The high-pressure air amplified through 260 causes a high-temperature flame to be diffused and ejected toward the front end of the flame ejection guide pipe 160 by the action of inducing a strong air flow along the wall surface of the flame ejection guide pipe 160.

In the above, the present invention has been described with reference to the above embodiments, but various modifications are possible within the scope of the technical idea of the present invention.

100: housing 110: first connecting member
111: first screw portion 120: second connecting member
121: second screw part 130: spacing adjustment ring
140: injection nozzle 150: combustion chamber
160: flame ejection guide tube 170: air supply unit
172: air volume control member 174: ventilation hole
176: air control plate 180: air inlet tube
200: high pressure amplification and diffusion unit 210: high pressure air supply unit
220: high pressure air inlet hole 230: high pressure air inlet chamber
240: fluid flow guide 241: curved part
242: guide part 250: fluid flow guide jaw
260: gap part

Claims (5)

An injection nozzle 140 provided inside the housing 100 to inject liquid or gaseous fuel from the outside, and a combustion chamber in which fuel injected from the injection nozzle 140 and air supplied from the outside are mixed to perform combustion. 150, an air supply unit 170 provided at the rear of the combustion chamber 150 so that fuel and external air are mixed to generate a flame, and high-pressure air is amplified and supplied to the rear side of the housing 100, A high-pressure amplification and diffusion unit 200 is provided so that the air flow is induced along the wall surface of the flame ejection guide pipe 160 so that the flame is diffused and ejected in the flame ejection guide pipe 160,
The housing 100 is composed of first and second connecting members 110 and 120 formed of a tubular body, and first and second screw parts 111 formed on the first and second connecting members 110 and 120 respectively ( 121) is screwed together, but the gap adjusting ring 130 is coupled to the first screw portion 111 of the first connecting member 110,
The high-pressure amplification and diffusion unit 200 is provided inside the connection portion of the first and second connection members 110 and 120, but the rear end of the first screw portion 111 is formed in a concave high-pressure air inlet chamber 230 and upward. A fluid flow guide 240 made of a protruding circular jaw is provided, and the second connection member 120 has a second screw portion 121 formed on an inner circumferential surface and a fluid flow guide jaw ( 250) is formed, and a high-pressure air inlet hole 220 is formed on one side of the second connecting member 120.
delete According to claim 1,
An air inlet tube 180 is installed at the rear end of the second connection member 120, and the air inlet tube 180 is provided in a form gradually expanded to the rear, and the rear end is an air volume control member of the air supply unit 170 ( 172) is installed, characterized in that the combustion device.
delete According to claim 1,
A spaced gap 260 is formed between the fluid flow guide 240 and the fluid flow guide jaw 250, and a curved portion 241 is provided at a portion connected to the high-pressure air inlet chamber 230, and a flame ejection guide Combustion device characterized in that the portion connected to the pipe 160 is provided with a guide portion 242 made of an inclination angle that makes surface contact.