KR101557870B1 - Combustion apparatus having clinker-removing device - Google Patents

Abstract

According to the present invention, the combustion apparatus having a clinker-removing unit comprises: a combustion chamber in a cylindrical shape surrounded by an internal wall in a combustion tank to burn solid fuel supplied into the combustion tank; a fuel supply unit comprising a fuel supply pipe installed vertically on a bottom of the combustion tank; a turntable installed in the bottom of the combustion chamber to be rotated by a rotating means; a supply cone installed in an outer circumference of the fuel supply pipe to rotate along with the turntable; a first clinker-removing unit comprising a scraper axis placed on a side of the combustion chamber to be extended to a top of the supply cone with a plurality of scraper wings on the outer circumferential surface, a supporting frame to support the scraper axis, and a driving motor to rotate the scraper axis in the opposite direction of the rotation direction of the supply cone to prevent and remove clinkers on the top of the supply cone; and a second clinker-removing unit comprising a scraper axis placed on an other side of the combustion chamber to be extended to the top of the supply cone with the plurality of scraper wings on the outer circumferential surface, a supporting frame to support the scraper axis, and a driving motor to rotate the scraper axis in the same direction as the rotation direction of the supply cone to equally distribute the fuel for the top of the supply cone and to resolve the accumulation of fuel.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a combustion device having a clinker removing device,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a combustion apparatus for recovering heat from a combustion gas generated by burning a solid fuel such as RDF, RPF, or biomass in a combustion chamber, And a device for removing the produced clinker.

Generally, in an industrial facility requiring industrial hot water, steam or high-temperature gas, a combustion apparatus for generating heat energy by igniting and burning fuel in a combustion cylinder for obtaining heat energy is used, and fuel Solid fuels such as RDF, which converts municipal waste into fuel, or RPF, biomass (wood pallet, wood chip, palm by-product pallet, rice husk pallet, etc.) that fuel waste plastics are widely used in terms of economy and resource recycling.

As shown in FIG. 1, there is a combustion apparatus of Patent Application Laid-Open No. 10-2012-16967 filed by the present inventor. The combustion apparatus includes a combustion chamber 11 surrounded by an inner wall 12 in a combustion cylinder 10 for burning a solid fuel to be mounted on a turntable 17 as a grate and a combustion chamber 11 for cooling the inner wall 12 of the combustion chamber 11 A side combustion air supply chamber 15 formed on the side surface of the combustion chamber 11 for supplying combustion air from the outside to the combustion chamber 11 and a fuel supply pipe 15 for supplying the solid fuel to the inside of the combustion chamber 11 And a supply unit 20.

The side combustion air supply chamber 15 is formed in a space between the outer wall 16 and the middle wall 14 formed apart from the middle wall 14 so that the combustion air supplied through the air supply port 16a is supplied to the side combustion air And is supplied while being turned into the combustion chamber 11 through the opened lower portion 12a. An upper portion of the fuel supply pipe 21 is connected to an upper end of the fuel supply pipe 21 and is connected to a supply cone 21a projecting into the combustion chamber 11 to guide the solid fuel supplied from the fuel supply pipe 21 onto the turntable 17. [ And the supply cone 21a is formed with a large number of air supply nozzles 21c through which the combustion air supplied from the lower combustion air supply pipe 23 flows in the circumferential direction.

The combustion apparatus shown in Fig. 1 has the above-described structure, so that the combustion air is supplied to the solid fuel which is supplied into the combustion chamber 11 by the fuel supply unit 20 and is stacked on the turntable 17, So that the solid fuel in the combustion chamber is burned and the solid fuel is burnt and the resulting material is discharged through the cultivation outlet 19.

Solid fuel is continuously supplied into the combustion chamber 11 by the transfer screw 22 of the fuel supply unit 20 and the combustion chamber 11 is continuously supplied with the solid fuel from the combustion chamber 11 The solid fuel supplied into the combustion chamber 11 is continuously burnt on the turntable 17 provided under the combustion chamber 11 and burned. However, as the new fuel is continuously supplied to the turntable 17 in the course of the combustion, the supplied solid fuel is positioned below the newly supplied solid fuel, so that the contact with the air is reduced and the combustion efficiency is lowered . The material generated by burning the solid fuel is discharged through the cultivation outlet 19 formed outside the periphery of the turntable 17. The time during which the generated ashes stay on the turntable becomes long and a clinker is generated There was a problem.

In order to solve such a problem, a combustion apparatus equipped with a reprocessing apparatus designed by the present inventor is shown in Fig. 2 includes a support frame 31, a scraper shaft 32, a drive motor 35, and a rotary joint 37. The support frame 31, the scraper shaft 32, the drive motor 35,

2, one end of the scraper shaft 32 of the reprocessing apparatus 30 is supported by a support frame 31 provided outside the combustion cylinder 10, and the other end of the scraper shaft 32 passes through the side surface of the combustion cylinder 10 And extends upwards on the grate 17 in the combustion chamber 11 and upwardly inclined toward the edge of the supply cone 21a of the fuel supply pipe 21 at the side of the combustion cylinder 10. A plurality of scraper blades 34 are formed on the outer circumferential surface of the scraper shaft 32 located inside the combustion chamber 11. The scraper blade 34 is formed on the outer circumferential surface of the scraper shaft 32 and rotates along with the rotation of the scraper shaft 32. The scraper blade 34 is formed in a plurality of lengthwise and circumferential directions of the scraper shaft 32. Each of the scraper blades 34 is inclined at a predetermined angle with respect to the axial direction of the scraper shaft 32 and rotates together with the scraper shaft 32 to move the ash through the cultivation outlet 19 formed outside the periphery of the turntable 17, . The scraper shaft 32 is also provided with a water pipe 33 in which cooling water is circulated so as to withstand a high temperature in the combustion chamber. The water pipe 33 buried in the scraper shaft 32 is formed in a central portion of the scraper shaft 32 so that the cooling water flows into the scraper shaft 32 and moves to the vicinity of the other end of the scraper shaft 32, The scraper shaft 32 is cooled while moving to one end of the scraper shaft 32 through the space between the outer walls of the shaft 32.

The driving motor 35 is for rotating the scraper shaft 32. The driving motor 35 is installed on the upper part of the supporting frame 31 and the driving motor 35 is rotated by the belt or the chain 36 on the scraper shaft 32 .

The rotary joint 37 is connected to one end of the scraper shaft 32 at the outside of the combustion cylinder 10 and is connected to a cooling water circulation device 32 for introducing and discharging cooling water into the water pipe 33 embedded in the scraper shaft 32. [ The cooling water is supplied from the outside through the inlet port 37a and the supplied cooling water is supplied to the water pipe 33 and is moved to one side end of the water pipe 33 and then the water pipe 33 and the outer surface of the scraper shaft 32 The cooling water exiting through the space is discharged to the outside of the rotary joint 37 through the outlet 37b.

The thus configured reprocessing apparatus 30 smoothly transfers the material generated by the combustion of the solid fuel to the edge of the turntable 17 while the scraper shaft 32 is rotated by the rotation of the drive motor 35, So that the clinker can be prevented from being generated as the ash stay on the turntable 17 becomes longer.

2 has an effect of removing and preventing the clinker on the turntable 17. However, even in the case of the supply cone 21a, the supply of the combustion air to the supply nozzle 21c causes the fuel The solid fuel transferred from the fuel cell 21 is burned. In this case, the generation of the clinker on the supply cone 21a can not be prevented or the generated clinker can not be removed. Further, there has been a problem that the solid fuel to be loaded on the turntable 17 from the supply cone 21a is discharged to the cultivation outlet 19 by the reprocessing device 30 in a completely unburned state.

It is an object of the present invention to solve the above-mentioned problems of the prior art, and to provide a method and apparatus for preventing and eliminating the formation of clinker on a supply cone while eliminating uniform distribution of fuel on a supply cone and fuel filling phenomenon, And an object of the present invention is to provide a device.

A combustion apparatus equipped with a clinker removal device according to the present invention is a combustion apparatus having a combustion cylinder that receives combustion air from outside and burns solid fuel supplied into the combustion chamber, A fuel supply part including a cylindrical combustion chamber for burning the solid fuel supplied to the combustion chamber, a fuel supply part vertically installed at the lower part of the combustion cylinder and guiding the solid fuel to the combustion chamber, A supply cone which is installed around the outer circumference of the fuel supply pipe and has a plurality of supply nozzles and is connected to an upper portion of the turntable to rotate together with the turntable; A fuel supply pipe for supplying combustion air to the nozzle, A scraper shaft extending from the one side of the combustion chamber to the upper side of the supply cone; a support frame installed outside the combustion chamber to support the scraper shaft; A plurality of scraper blades formed on an outer circumferential surface of the scraper shaft and a driving motor formed outside the combustion con- tainer for rotating the scraper shaft in a direction opposite to the rotating direction of the supply cone to prevent generation of clinker on the supply cone A scraper shaft extending from the other side of the combustion chamber to the upper side of the supply cone; a support frame installed outside the combustion cylinder to support the scraper shaft; Outside of scraper shaft located inside A plurality of scraper blades formed on the main surface and a drive motor formed on the outside of the combustion cylinder for rotating the scraper shaft in the same direction as the rotation direction of the supply cone, And a second clinker removal device for eliminating the rubbing phenomenon.

Further, the inner end of the scraper shaft of the second clinker removal device extends from the inner end of the supply cone to the inside of the fuel supply pipe.

The outer ends of the scraper shafts of the first and second clinker removal devices are provided with cooling water flowing through the inlet port for cooling the scraper shaft and a rotary joint for discharging the cooling water discharged from each scraper shaft through the outlet port to the outside .

According to the present invention, there is provided a combustion apparatus that prevents and eliminates the generation of clinker on the supply cone, eliminates the even distribution of fuel on the supply cone, and the rusting of the fuel, and improves the combustion efficiency.

1 is a view showing a conventional combustion device,
FIG. 2 is a view showing a combustion apparatus provided with a conventional reprocessing apparatus,
3 is a longitudinal sectional view of a combustion apparatus equipped with a clinker removal device according to the present invention,
Fig. 4 is a plan view of Fig. 3. Fig.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a combustion apparatus equipped with a clinker removal device according to the present invention will be described in detail with reference to the drawings.

FIG. 3 is a longitudinal sectional view of a combustion apparatus having a clinker removing device according to the present invention, and FIG. 4 is a plan view of FIG.

A combustion apparatus having a clinker removal apparatus according to the present invention includes a combustion cylinder 100 having a combustion chamber 110 for burning a solid fuel therein and a fuel supply unit 200 for supplying a solid fuel into the combustion chamber 110, A first clinker removal device 400 installed on a side surface of the combustion cylinder 100, and a second clinker removal device 500.

The combustion cylinder 100 has a cylindrical shape and accommodates and burns the solid fuel therein. The combustion cylinder 100 includes a combustion chamber 110 surrounded by an inner wall 120 to burn fuel, A cooling chamber 130 for cooling the inner wall 120 and a side combustion air supply chamber 150 formed on the side of the combustion chamber 110 for supplying combustion air from the outside to the combustion chamber 110.

The cooling chamber 130 serves to lower the temperature of the inner wall 120 continuously contacting the high temperature combustion gas. The cooling chamber 130 includes a middle wall 140 spaced apart from the inner wall 120, And a cooling water outlet port and a cooling water inlet port are formed on the upper and lower sides of the middle wall 140 to allow the cooling water to flow in and out. The cooling water inlet is formed in the tangential direction of the cylinder wall (14). A cooling water guide plate is formed inside the middle wall 140 of the cooling chamber 130 so as to be wound in a spiral shape so that the cooling water introduced through the cooling water inlet moves upward while rotating along the cooling water guide plate, And flows out through the outlet. The cooling water flowing out through the cooling water outlet flows into the boiler for use in recovering heat from the hot combustion gas generated in the combustion chamber 110.

The side combustion air supply chamber 150 is formed in a space between the outer wall 160 and the middle wall 140 formed apart from the middle wall 140 and is formed in the upper side of the outer wall 160 to supply air A supply port is formed. The combustion air supplied through the air supply port formed in the tangential direction of the cylindrical outer wall 160 is swirled inside the side combustion air supply chamber 150 and is supplied while being turned into the combustion chamber 110 through the opened lower portion .

On the other hand, the upper part of the combustion cylinder 100 is opened to discharge the combustion gas at a high temperature, and the discharged high temperature combustion gas is supplied to the boiler (not shown) through a combustion gas discharge pipe And the boiler recovers heat from the high temperature combustion gas to obtain high temperature steam and the like.

3, the fuel supply unit 200 includes a fuel supply pipe 210 vertically installed at the center of the lower portion of the combustion cylinder 100 so that the solid fuel is supplied from the outside through the fuel supply pipe 210 And then supplied into the combustion chamber 110. An outer side of the fuel supply pipe 210 is formed to have a diameter larger than that of the fuel supply pipe 210 and formed concentrically with the lower combustion air supply pipe 210 for supplying the combustion air from the lower portion of the combustion chamber 110 into the combustion chamber 110 by the air supply means. (Not shown).

The upper end of the fuel supply pipe 210 is provided with a cone-shaped supply cone 220 installed on the turntable 170 and rotating together with the turntable 170. The supply cone 220 has a lower combustion air supply pipe 230, And a plurality of air supply nozzles 221 into which combustion air supplied from the air supply nozzle 221 flows are formed in the circumferential direction.

Therefore, the solid fuel guided along the fuel supply pipe 210 is supplied to the upper side of the supply cone 220, and the combustion air supplied through the lower combustion air supply pipe 230 is supplied to the supply nozzle 220 So that the solid fuel is burned on the supply cone 220.

Meanwhile, a turntable 170 is provided under the combustion chamber 110 to rotate. As shown in FIG. 3, a supply cone 220 is installed on the turntable 170 and rotates together with the turntable 170, and is rotated by a driving motor at a rotation speed of 1 rev / 1 minute to 1 rev / 3 minute .

The first clinker removal device 400 is for preventing and removing clinker on the supply cone 220 and includes a support frame 410, a scraper shaft 420, a drive motor 450, a rotary joint 470).

The support frame 410 supports the scraper shaft 420 and is installed outside the combustion cylinder 100 to support one end of the scraper shaft 420.

The outer end of the scraper shaft 420 is supported by the support frame 410 and extends to the upper portion of the supply cone 220 through the side of the combustion cylinder 100 and the inner end of the scraper shaft 420 is connected to the supply And extends to the inner end of the cone 220. A plurality of scraper blades 440 are formed on the outer circumferential surface of the scraper shaft 420 located inside the combustion chamber 110. The scraper blades 440 are arranged in the longitudinal direction and the circumferential direction of the scraper shaft 420, And is formed at an angle with respect to the axial direction of the scraper shaft 420 at an angle.

The rotary joint 470 is connected to one end of the scraper shaft 420 at the outer side of the combustion cylinder 100 so that the scraper shaft 420 can be positioned inside the scraper shaft 420 to withstand high temperatures in the combustion chamber 110 A cooling water circulating device for introducing and discharging cooling water into a water pipe (not shown) to be buried is provided with cooling water from outside through an inlet port 471, and the supplied cooling water is supplied to a water pipe embedded in the scraper shaft 420 The cooling water flowing out through the space between the water pipe and the outer wall of the scraper shaft 420 is discharged to the outside of the rotary joint 470 through the outlet port 472.

The driving motor 450 rotates the scraper shaft 420 and is installed on the support frame 410 so that the rotational force of the driving motor 450 is transmitted to the scraper shaft 420 by a belt or a chain.

The first clinker removal device 400 thus prevents and eliminates the generation of clinker on the supply cone 220 by the scraper shaft 420 rotating in the direction opposite to the direction of rotation of the supply cone 220, And moves toward the edge of the supply cone 220.

The second clinker removal device 500 is installed on the other side of the combustion cylinder 100 to prevent clinker on the upper part of the supply cone 220 as well as to be used together with the first clinker removal device 400, The first clinker removal device 400 is installed outside the combustion cylinder 100 to support the scraper shaft 520. The first clinker removal device 400 includes a first crinker removal device 400, A scraper shaft 520 in which a plurality of scraper blades 540 are formed on an outer circumferential surface of the scraper shaft 520, a driving motor 550 for rotating the scraper shaft 520, And a rotary joint 570 for inflow and outflow.

The inner end of the scraper shaft 520 of the second clinker removal device 500 is extended to the inside of the fuel supply pipe 210 through the inner end of the supply cone 220 and the rotation of the supply cone 220 In the same direction. 4, the second clinker removal device 500 rotates the scraper shaft 520 in the same direction as the rotation direction of the supply cone 220, unlike the first clinker removal device 400 The solid fuel on the upper part of the supply cone 220 is moved toward the fuel supply pipe 210. When the first clinker removal device 400 is operated, the solid fuel is gradually moved to the edge of the supply cone 220 by the scraper shaft 420 rotating in the direction opposite to the rotation direction of the supply cone 220, The burned solid fuel can be discharged to the cultivation outlet 190. The solid fuel is moved back toward the fuel supply pipe 210 with the clinker prevention by the second clinker removal device 500 to distribute the fuel evenly, So that the phenomenon of being accumulated on only one side is solved.

The inner end of the scraper shaft 520 of the second clinker removal device 500 is extended to the inside of the fuel supply pipe 210 through the inner end of the supply cone 220 to return the fuel again to the fuel supply pipe 210. [ The fuel is redistributed and evenly distributed so as to achieve complete combustion of the fuel.

A refill outlet 190 is formed at the lower edge of the combustion cylinder 100 so that the ash of the solidified fuel can be discharged. Although not shown in the drawing, the fuel is supplied from the solid fuel combusted in the combustion chamber 110 An air supply means such as a ring blower may be provided at the lower end of the fuel supply pipe 210 so as to supply combustion air through the fuel supply pipe 210 to prevent backflow into the solid fuel present in the fuel supply pipe 210.

First, the solid fuel supplied from the fuel hopper (not shown) is supplied to the combustion chamber (not shown) along the fuel supply pipe 210 by the fuel transferring means 110, and the solid fuel initially supplied into the combustion chamber 110 is preheated and ignited by a preheating burner and an ignition burner (not shown).

The combustion air necessary for the solid fuel to be burned is supplied from the outside to the combustion chamber 110 through the side combustion air supply chamber 150 and the lower combustion air supply pipe 230. In the side combustion air supply chamber 150, The combustion air supplied through the air supply port formed in the tangential direction on the upper portion of the outer wall 160 is circulated downward in the side combustion air supply chamber 150 and then supplied into the combustion chamber 110 through the opened lower portion. Accordingly, since the combustion air is supplied while being rotated at the combustion chamber 110 side in the side combustion air supply chamber 150, combustion air is supplied to most of the fuel even if the combustion chamber 110 is smaller than when the combustion air is linearly supplied to the fuel Thereby making it possible to improve the thermal efficiency while lowering the manufacturing cost.

The combustion air supplied by the lower combustion air supply pipe 230 formed on the outer side of the fuel supply pipe 210 is supplied through the air supply nozzle 221 formed in the supply cone 220 and is present in the lower part The solid fuel also burns smoothly.

The solid fuel supplied into the combustion chamber 110 moves to the upper portion of the supply cone 220 formed at the upper end of the fuel supply pipe 210 and is rotated together with the supply cone 220 while being rotated. And is gradually transferred to the edge of the supply cone 220 while being mixed by the scraper shaft 420 of the first clinker removal device 400 rotating in the opposite direction to the rotation direction of the supply cone 220. 2, the supply cone 21a is integrally fixed to the upper portion of the fuel supply pipe 21 and the reprocessing apparatus 30 is also installed in the turntable 17, Only the upper clinker can be removed. However, in the present invention, the supply cone 220 is separated from the fuel supply pipe 210 and installed on the turntable 170 to rotate together with the turntable 170, Clinker generation can also be prevented and eliminated on the supply cone 220 by the device 400.

In the first clinker removal device 400, the solid fuel is moved only in the edge direction of the supply cone 220, and the unburned solid fuel can not be completely combusted and can be discharged to the cultivation outlet 190. The second clinker removal device 500 moves the solid fuel back to the fuel supply pipe 210 with the prevention of the clinker, thereby uniformly distributing the fuel and eliminating the phenomenon that the fuel is accumulated only on one side.

Accordingly, in the present invention, the solid fuel on the supply cone 220 alternately receives the scraper shafts 420 and 520 of the first and second clinker removal devices 400 and 500, The solid fuel is uniformly distributed and at the same time is completely burned and finally discharged to the cultivation outlet 190. [

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but many variations and modifications may be made without departing from the scope of the present invention. It will be easily understood.

100: Combustion tube 110: Combustion chamber
120: inner wall 130: cooling chamber
140: middle wall 160: outer wall
170: turntable 200: fuel supply part
210: fuel supply pipe 220: supply cone
230: Lower combustion air supply pipe 400: First clinker removal device
500: Second clinker removal device

Claims (4)

1. A combustion apparatus having a combustion cylinder for supplying combustion air from the outside and burning solid fuel supplied to the inside thereof,
A cylindrical combustion chamber surrounded by the inner wall of the combustion cylinder to burn solid fuel supplied into the combustion cylinder,
A fuel supply unit including a fuel supply pipe vertically installed at a lower center of the combustion cylinder to guide the solid fuel into the combustion chamber;
A turntable installed under the combustion chamber and rotated by a rotating means,
A supply cone installed around the outer circumference of the fuel supply pipe and coupled to an upper portion of the turntable to rotate together with the turntable,
A scraper shaft extending from the one side of the combustion chamber to the top of the supply cone, a support frame installed outside the combustion cylinder to support the scraper shaft, and a plurality of scraper shafts disposed on the outer circumferential surface of the scraper shaft located in the combustion chamber And a drive motor for rotating the scraper shaft in a direction opposite to the rotation direction of the supply cone, the first clinker for preventing and eliminating clinker formation on the supply cone, Removing device,
A scraper shaft extending from the other side of the combustion chamber to the upper portion of the supply cone; a support frame provided outside the combustion chamber for supporting the scraper shaft; and a plurality of scraper shafts disposed on the outer circumferential surface of the scraper shaft located in the combustion chamber And a drive motor for rotating the scraper shaft in the same direction as the rotation direction of the supply cone, the scraper blade having a scraper blade and a drive motor for rotating the scraper shaft in the same direction as the supply cone, A clinker removing apparatus comprising a clinker removing device. The method according to claim 1,
Wherein a plurality of supply nozzles are provided on the upper surface of the supply cone and a lower combustion air supply pipe is provided around an outer periphery of the fuel supply pipe to supply combustion air to the supply nozzles of the supply cone. 3. The method of claim 2,
Wherein the inner end of the scraper shaft of the second clinker removal device extends to the inside of the fuel supply pipe through the inner end of the supply cone. The method according to claim 1,
The outer ends of the scraper shafts of the first and second clinker removal apparatuses are provided with rotary joints for allowing cooling water to flow through the inlet port to cool the scraper shaft and to allow the cooling water discharged from each scraper shaft to flow out through the outlet port Wherein the clinker removing device is provided with a clinker removing device.

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