KR100564881B1 - Centrifugal combustion apparatus using air-flow in a furnace - Google Patents

Abstract

The present invention is a combustion furnace capable of completely burning the liquid fuel (kerosene, diesel, heavy oil, waste oil, etc.) burned in the combustion furnace by the centrifugal force of the combustion air rotated in a spiral direction along the inner / outer circumferential surface of the furnace. The centrifugal combustion apparatus using the air flow of the, characterized in that the configuration is one side is blocked and the other side is open combustion cylinder 100, the fuel supply pipe 101 is installed on one side of the circumferential surface of the combustion cylinder 100 And a first flange having a spark plug 102 embedded in the combustion cylinder 100 to ignite the fuel, and the other surface of the combustion cylinder 100 and having an inlet hole 111 at the center thereof. 110, a combustion tube 120 fixed to the first flange 110 to coincide with the combustion cylinder 100, and a preheating chamber 150 is formed outside the combustion tube 120. ) Is larger in diameter and longer in length than the first flange (110) The induction pipe 130, the combustion air supply pipe 181 connected to one side of the outer peripheral surface of the induction pipe 130, and the other side of the induction pipe 130 and the exhaust hole 141 is formed in the center It includes the second flange 140 and the exhaust pipe 160 attached to the center of the second flange 140.

Combustor, Centrifugal Force, Centrifugal Separation, Complete Combustion, Blower

Description

Centrifugal combustion apparatus using air-flow in a furnace}

1 is a cross-sectional view showing a conventional combustion device.

2 is a perspective view showing a combustion device according to the present invention.

3 is a cross-sectional view showing a combustion apparatus according to the present invention.

4 is a cross-sectional view taken along the line AA of FIG.

5 is a cross-sectional view showing the air flow of the combustion apparatus according to the present invention.

※ Explanation of symbols about main part of drawing ※

100: combustion cylinder 101: fuel supply pipe

102 spark plug 103 discharge pipe

104: collecting means 110: first flange

111 inlet hole 120 combustion tube

130: guide pipe 140: second flange

141: exhaust hole 150: preheating chamber

160: exhaust pipe 180: blower

181: combustion air supply pipe

The present invention relates to a centrifugal combustion apparatus using an air flow in a combustion furnace, and more particularly, a liquid combusted in a combustion furnace by centrifugal force of high-speed rotation of the combustion air spirally along the inner and outer circumferential surfaces of the combustion furnace. The present invention relates to a centrifugal combustion apparatus using air flow to a combustion furnace capable of completely burning fuel (kerosene, diesel, heavy oil, waste oil, etc.).

Generally, various combustible wastes generated at home or combustible industrial wastes and waste oils (hereinafter referred to as “waste”) generated at various industrial sites are buried underground or recombustible wastes are combusted using a combustion device.

When combusting wastes with a conventional combustion device, combustible materials are introduced into a combustion chamber of a combustion furnace and then ignited using an ignition burner and blown so that combustion air is supplied in a straight direction into the combustion chamber from each side of the combustion furnace. Was added to cause combustion by the supplied combustion air.

However, this is because only combustion air supplied from the blower is combusted, so that combustion efficiency is low, and incomplete combustion of various high calorie, low calorie, and humid materials causes incomplete combustion, thus leaving incompletely combusted combustion products to the outside. Or it has been led to waste of resources and environmental destruction by landfilling, and incomplete combustion of combustible materials releases various harmful substances such as carbon dust and dioxin, which is fatal to human body, into the atmosphere, causing air pollution and pollution around. As a result, serious social and environmental problems have been raised, and since incompletely burned residues have to be operated continuously for recombustion, fuel costs are increased due to the use of auxiliary fuels (for example, diesel), and the combustion time is delayed. There was a problem of lowering.

In addition, in case of combustible material combustor requiring high temperature, it requires expensive installation cost and labor due to specially designed burner installation, high pressure oxygen injection, refractory brick construction of furnace wall, etc. Desired high-temperature combustion could be realized, and the combustion chamber made of metal could not withstand high temperatures, resulting in corrosion, thereby shortening the life of the combustion furnace.

On the other hand, as a way to solve the above problem has been filed as Korea Patent Application No. 200069748.

As shown in FIG. 1, a flange 2 is formed at the lower end of the primary combustion chamber 1 so as to protrude outwardly, and an upper outer cylinder 3 and a lower outer cylinder 4 are formed on the upper and lower surfaces of the periphery of the flange 2. Each of them is fixedly installed, and a lower portion of the primary combustion chamber 1 is provided with a fuel tank 6 having an upper portion opened and a fuel tank detachable hydraulic jack 5 coupled to a lower portion thereof, and an upper surface thereof is formed of the primary combustion chamber 1. The flange 9 is fixedly installed in contact with the bottom surface of the flange 2 and protrudes outwardly at the lower end of the secondary combustion chamber 8 having the exhaust cylinder 7 on the upper surface of the upper outer cylinder 3. The air intake pipe 12 and the air connection pipe 13 connected to the upper side of the lower outer cylinder 4 is provided with one or a plurality of blowers 11 in the air supply pipe 10 connected to the lower side of the upper outer cylinder (3). Is installed in communication with each other, and the upper portion of the space between the primary combustion chamber (1) and the upper outer cylinder (3) above the upper outer cylinder (3) Is the direction of the air throttle and the fixed-position air direction control panel (14) to a plurality of air conditioner (16) composed of a control rod 15 is rotatably coupled is installed.

Referring to the operating state of the conventional combustion furnace 50 configured as described above in detail.

First, the fuel 17 is injected into the fuel container 6, and then ignition is performed by using a manual or automatic ignition device, and the upper and lower surfaces of the fuel container 6 are operated by operating the hydraulic jack 5 for attaching and detaching the fuel container 1. ) If the lower part of the flange (2) is in close contact with the bottom surface of the flange and the air blower (11) is operated at high pressure and high speed, the flame is generated during the mixed combustion in the fuel container (6), and the lower outer cylinder (4) is supplied. The cooling air is sucked into the space between the fuel container 6 and the lower outer cylinder 4 to cool the outer wall surface of the fuel container 6 and simultaneously preheat the cooling air, and the preheated cooling air is blower 11 Since it is conveyed by), through the space between the primary combustion chamber (1) and the upper outer cylinder (3) is rotated in a tangential direction to rise at a high speed.

At this time, the air rising while rotating the space between the primary combustion chamber (1) and the upper outer cylinder (3) is blocked on the bottom surface of the flange 9 of the secondary combustion chamber (8) and can no longer rise, the air conditioner (16) The air injection amount supplied to the primary combustion chamber 1 and the secondary combustion chamber 8 is adjusted according to the adjustment angle of the air direction control plate 14 by the rotation control of the control rod 15.

On the other hand, the air injected into the primary combustion chamber 1 is continuously rotated while the centrifugal force is generated so that it is not dispersed to the center portion, the fuel 17 is stored while rotating in close contact with the inner wall surface of the primary combustion chamber 1 It descends into the fuel cell 6 which is present.

Cooling air injected into the fuel container (6) is sufficiently preheated and mixed with the fuel (17) while rotating at high speed, and centrifuged by the cooling air (rotated at high speed) so that the low-density fuel moves to the center and is completely burned. After this is made is exhausted through the exhaust cylinder (7), the high-density fuel is centrifuged and completely burned through a circulation process that moves with the air descending while rotating in close contact with the inner wall surface of the primary combustion chamber (1) After being exhausted through the exhaust cylinder (7).

However, such a conventional combustion device is ignited after the fuel 17 is injected into the fuel container 6, so that after the fuel contained in the fuel container 6 has been burned, the operation of the combustion device is stopped and the fuel is supplied to the fuel container 6. (17) Since the filling operation was to be performed repeatedly, continuous operation of the combustion apparatus was not possible.

In addition, in the conventional combustion apparatus, since no means for confirming the combustion amount of the fuel 17 charged into the fuel container 6 has been devised, there is a problem that the operation efficiency of the combustion apparatus is lowered.

The present invention has been invented to solve the above problems, the object is to connect the fuel supply pipe capable of supplying fuel to one side of the fuel tank to adjust the amount of fuel supply to continuously operate the combustion apparatus, as well as to the combustion furnace The present invention provides a centrifugal combustion apparatus using an air flow in a combustion furnace capable of completely burning fuel by centrifuging the fuel by centrifugal force of cooling air moved while rotating in a spiral direction.

Referring to the characteristic configuration of the present invention for achieving the above object is as follows.

In the centrifugal combustion apparatus using the air flow of the combustion furnace of the present invention, a cylindrical cylinder having one side blocked and the other opened, and a fuel supply pipe installed at one side of the circumferential surface of the combustion cylinder to supply fuel to the interior of the combustion cylinder. And a spark plug built in the combustion cylinder to ignite the fuel supplied through the fuel supply pipe, a first flange supporting the other surface of the combustion cylinder and having an inlet at the center thereof, and coinciding with the combustion cylinder. The first flange is formed to have a larger diameter and longer length than the combustion tube so as to form a cylindrical combustion tube fixed to the first flange so as to form a preheating chamber in which the combustion air is preheated while the combustion air is moved to the outer circumferential surface of the combustion tube. A lead connected to one side of an outer circumferential surface of the induction pipe so as to supply combustion air to the inside of the induction pipe; And the air line, is the hayeoseo supporting the other surface of the introducer sheath and the center comprises an exhaust pipe attached to the second flange such that the second flange, the exhaust ball center exhaust hole formed in the match.

Referring to the present invention having such characteristics in detail as follows.

2 is a perspective view showing a combustion apparatus according to the present invention, Figure 3 is a cross-sectional view showing a combustion apparatus according to the present invention, Figure 4 is a cross-sectional view taken along line A-A of Figure 3, Figure 5 is a combustion apparatus according to the present invention Is a cross-sectional view of the air flow.

As referred to herein, the combustion apparatus has a fuel supply pipe for supplying fuel to one side of the combustion cylinder 100 in which fuel is combusted and the other surface is open, and to an outer circumferential surface of the combustion cylinder 100. The 101 is connected, and the spark plug 102 is built in the inside of the combustion cylinder 100 so that the fuel supplied through the fuel supply pipe 101 may be ignited.

An end portion of the fuel supply pipe 101 is installed in the tangential direction of the combustion cylinder 100 so that the fuel supplied into the combustion cylinder 100 rotates and vaporizes at high speed in the combustion cylinder 100. A plurality of injection nozzles corresponding to each fuel may be installed at the end of the supply pipe 101 so that a constant injection pressure is generated according to the type of fuel (kerosene, light oil, heavy oil, waste oil, etc.) supplied through the fuel supply pipe 101. The injection nozzle may be any one of a plurality of injection nozzles depending on the type of fuel supplied, and it is well known to provide a separate means for opening and closing the injection nozzles.

On the other hand, the other surface of the combustion cylinder 100 is provided with a first flange 110, the inlet hole 111 is formed so as to pass through the combustion cylinder 100 in the center of the first flange 110, The other surface of the first flange 110 is provided with a cylindrical combustion tube 120 in which the raw material ignited by the spark plug 102 is burned.

In addition, the induction pipe 130 is installed on the first flange 110 to be positioned on the outer circumferential surface of the combustion pipe 120, and the induction pipe 130 has a preheating chamber 150 that is preheated while the combustion air is moved. It is formed so that the diameter is larger than the combustion tube 120 and the length is formed so that the combustion tube 120 and the center coincides.

In addition, one end of the combustion air supply pipe 181 for supplying combustion air to the inside of the induction pipe 130 is connected to the outer circumferential surface of the induction pipe 130, the combustion air supply pipe 181 is supplied combustion It is connected to maintain a predetermined angle in the direction in which the combustion air is moved so that the air can be moved smoothly, and the other end of the combustion air supply pipe 181 is connected to the blower 180 to supply the combustion air at high speed.

On the other hand, the other surface of the induction pipe 130 is connected to the second flange 140, the exhaust hole 141 is formed in the center of the second flange 140, the exhaust hole 141 is burned An exhaust pipe 160 for discharging the completed exhaust gas to the outside is installed.

In addition, the discharge pipe 103 is connected to one surface of the combustion cylinder 100 so as to connect the circumferential surface of one surface of the combustion cylinder 100 to the center to discharge the unburned foreign substances generated in the combustion cylinder 100 to the outside. Although installed, the collecting means 104 for collecting the foreign matter in the center of the discharge pipe 103 may be installed.

Referring to the operating state of the present invention configured as described in detail as follows.

First, when fuel is supplied through the fuel supply pipe 101 while the injection nozzle corresponding to the fuel supplied from among the plurality of injection nozzles installed at the end of the fuel supply pipe 101 is opened, fuel is supplied to the distal end of the injection nozzle. The injection is performed in a state where a predetermined injection pressure is maintained, and the injected fuel is vaporized while rotating at high speed along the inner circumferential surface of the combustion cylinder 100.

In this case, when the spark plug 102 built in the combustion cylinder 100 is operated, it is ignited by the vaporized fuel.

As such, when the blower 180 is operated while the fuel is ignited in the combustion cylinder 100, the combustion air supplied through the combustion air supply pipe 181 connected to the blower 180 is introduced into the induction pipe 130 and the combustion pipe. It is supplied to the preheating chamber 150 formed between the 120, one side of the preheating chamber 150 is blocked by the first flange 110 between the combustion pipe 120 and the induction pipe 130. It moves while rotating in a spiral direction to cool the combustion pipe 120 and the combustion air is preheated.

When the preheated combustion air is moved to the end of the preheating chamber 150 while rotating the preheating chamber 150, it is blocked by the second flange 140, so that the preheating chamber 150 flows into the end of the combustion tube 120 and the inside of the combustion tube 120. It is moved to the combustion cylinder 100 side while rotating in a spiral direction on the side.

Since the centrifugal force is acted on by the combustion air rotated in a spiral direction in the combustion tube 120, the fuel combusted in the combustion tube 120 is centrifuged, and the high specific gravity of the fuel is the circumference of the combustion tube 120. It is moved to the surface is moved along with the combustion air and the low specific gravity fuel is completely burned by the flame generated in the combustion cylinder 100 in the center of the combustion pipe 120, the exhaust pipe 160 installed on the second flange 140 It is exhausted to the outside through.

That is, the fuel ignited by the spark plug 102 is first burned in the combustion cylinder 100 and then moved to the combustion tube 120. At this time, the centrifugal force is applied to the combustion tube 120 by the combustion air introduced while rotating. As a result, a low specific gravity fuel is collected in the central portion, and a thermonuclear region in which the low specific gravity fuel is secondary burned (completely burned) is formed. The high specific gravity fuel is centrifuged to form an inner circumference of the combustion tube 120. After moving to the surface is moved together with the rotating combustion air is introduced into the re-burned thermonuclear zone with the flame generated in the combustion cylinder 100 is completely burned.

On the other hand, the unburned foreign matter generated inside the combustion cylinder 100 is moved to the center of the combustion cylinder 100 through the discharge pipe 103 connected to the circumferential surface of one side of the combustion cylinder (100) to maintain the vacuum degree It is discharged to the outside through the center of the.

Alternatively, when the collecting means 104 is installed in the center of the discharge pipe 103, foreign matter discharged through the discharge pipe 103 is collected inside the collecting means 104, thereby minimizing the foreign matter discharged to the atmosphere. will be.

In addition, the combustion apparatus of the present invention is not limited to the supply of the raw material through the raw material supply pipe 101, the supply that can continuously supply the recombustible waste generated at home or industrial sites on one surface of the combustion cylinder (100) If the means is provided, it can also be used as a waste treatment apparatus capable of completely burning the waste.

As described above, the present invention supplies the inside of the combustion tube while rotating the combustion air in the helical direction, thereby preheating the combustion air and centrifuging the fuel in the combustion tube by the combustion air rotated in the helical direction to completely remove the low specific fuel. As well as the combustion, since the high specific gravity fuel is moved together with the combustion air and then completely burned, there is a unique effect of improving the combustion efficiency.                     

In addition, since the present invention completely burns fuel, harmful components are not released into the atmosphere, and thus there is a unique effect of preventing environmental pollution.

In addition, the present invention has a unique effect that can effectively burn the recombustible waste generated at home or industrial sites to minimize the disposal cost of the waste.

Claims (7)

One side is cut off and the other side is open cylindrical cylindrical cylinder 100, the fuel supply pipe 101 installed on one side of the circumferential surface of the combustion cylinder 100 to supply fuel to the interior of the combustion cylinder 100, Supports the spark plug 102 embedded in the combustion cylinder 100 and the other surface of the combustion cylinder 100 to ignite the fuel supplied through the fuel supply pipe 101 and the inlet hole 111 at the center thereof. The first flange 110, a cylindrical combustion tube 120 fixed to the first flange 110 so that the center coincides with the combustion cylinder 100, and burns to the outer circumferential surface of the combustion tube 120 An induction pipe 130 fixed in the first flange 110 to have a diameter and a length longer than that of the combustion pipe 120 so that the preheating chamber 150 that is preheated as the air moves is formed, and has a center coinciding with the combustion pipe 120. And an outer circumferential surface of the induction pipe 130 to supply combustion air to the inside of the induction pipe 130. Combustion air supply pipe 181 connected to one side, the second flange 140 is formed to support the other surface of the induction pipe 130 and the exhaust hole 141 in the center, so that the center and the exhaust hole 141 The exhaust pipe 160 attached to the second flange 140, and connecting the circumferential surface and the central portion of one surface of the combustion cylinder 100 so as to discharge the unburned foreign matter generated in the combustion cylinder 100 to the outside Centrifugal combustion apparatus using an air flow in the combustion furnace characterized in that it comprises an exhaust pipe (103). According to claim 1, wherein the end of the fuel supply pipe 101 in the tangential direction of the combustion cylinder 100 so that the fuel supplied to the interior of the combustion cylinder 100 rotates and vaporizes at a high speed inside the combustion cylinder 100. Centrifugal combustion device using the air flow of the furnace, characterized in that installed. The centrifugal combustion apparatus according to claim 1, wherein a plurality of injection nozzles are installed at an end of the fuel supply pipe (101) to generate a constant injection pressure according to the type of fuel supplied. The centrifugal combustion apparatus according to claim 1, wherein a blower (180) is connected to an end of the combustion air supply pipe (181) to supply air at a high speed. [Claim 2] The centrifugal combustion apparatus according to claim 1, wherein the combustion air supply pipe 181 is installed on the outer circumferential surface of the combustion pipe 120 to maintain a predetermined angle in a direction in which the combustion air moves. . delete 7. The centrifugal combustion apparatus according to claim 6, wherein the central portion of the discharge pipe (103) further comprises collecting means (104) for collecting foreign matter.

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