KR100938695B1 - Boiler for refuse derived fuel - Google Patents

Abstract

PURPOSE: A boiler for a refuse derived fuel is provided to easily feed refuse derived fuel into a fuel feeding hopper, and prevent the backflow of the refuse derived fuel out of the fuel feeding hopper. CONSTITUTION: A boiler for a refuse derived fuel comprises a boiler body(10), a transfer pipe(20), an ignition unit(30), a blower(40), a first heating water storage unit(50), an air supply pipe(60), a mixer, and a motor(90). A fuel feeding hopper(11) is provided in the upper part of the boiler body. The transfer pipe is connected to the fuel feeding hopper, and carries a refuse derived fuel. The ignition unit ignites refuse derived fuel kept in the boiler body. The blower feeds air into the boiler body. The first heating water storage unit encloses the outer circumference of the boiler body. The air supply pipe pushes a refuse derived fuel approached near the fuel feeding hopper with an air pressure, and feeds it inside the boiler body. The motor rotates a rotary shaft(83) of the mixer.

Description

Boiler for refuse derived fuel

The present invention relates to a solid fuel combustion boiler, and more particularly, to a solid fuel combustion boiler whose structure is improved to easily inject the solid fuel into the boiler body and to promote the combustion of the solid fuel in the boiler body.

Recently, in order to save energy resources and reduce environmental pollution, boilers have been developed that use refractory derived fuel (RDF) that has been solidified by recycling waste plastic waste vinyl, waste wood, and waste paper. .

Even if the same solid fuel is used as a combustion source, there is a need for a technology for promoting the combustion of solid fuel in the boiler body to generate more heat, and a technology for reducing environmental pollution by cleanly removing dust after combustion of solid fuel. There is a demand.

The present invention has been made in view of the above-described matters, it is easy to supply the solid fuel to the boiler body, to promote the combustion of the solid fuel contained in the boiler body, and to clean the dust after combustion of the solid fuel to clean It is an object of the present invention to provide a boiler for solid fuel combustion with an improved structure.

Solid fuel combustion boiler according to the present invention for achieving the above object, in the solid fuel combustion boiler for burning solidified solid fuel, a fuel inlet is provided on the upper side, the solid fuel is accommodated therein A boiler body to be combusted, a transfer pipe connected to the fuel inlet, to which the solid fuel is transferred, an ignition unit to ignite the solid fuel, a blower to supply air to the boiler body, and an outer circumferential surface of the boiler body And a first heating water storage unit for receiving heating water therein, and an air supply pipe branching from the transfer pipe so that the solid fuel approached to the fuel inlet by air pressure is introduced into the boiler body. It features.

In addition, the air supply pipe is preferably connected to the blower.

In addition, the boiler body extends upward from the bottom surface of the boiler body, the lower end is provided with a supply port for the air supplied from the blower, the upper end is closed, the outer circumferential surface is a plurality of discharged air introduced through the supply port It is preferable to further include a cylindrical combustion accelerator formed with air holes.

In addition, the air hole is formed along the circumferential direction of the outer circumferential surface of the combustion accelerator at different heights from the bottom surface of the boiler body, it is preferable to extend in a spiral toward the outer circumferential surface from the inner circumferential surface of the combustion accelerator.

In addition, rotatably mounted inside the boiler body, one end is disposed adjacent to the bottom surface of the boiler body and a pair of rotation bars extending in parallel to the upper side, connecting bars for connecting the other ends of the respective rotation bars, It is preferable to further include a stirrer connected to the connecting bar and including a rotating shaft extending upward, and a motor for rotating the rotating shaft.

In addition, it is preferable to further include a dust collecting tank connected to the boiler body, the dust collected during the combustion of the solid fuel is collected.

In addition, the exhaust pipe is connected to the dust collecting tank, the upper side is opened and the combustion gas is discharged after the combustion of the solid fuel, and a water spraying device for injecting water into the exhaust pipe to remove residual dust, and at the bottom of the exhaust pipe It is preferably provided, further comprising a bucket for receiving the water injected from the water spray device.

The solid fuel combustion boiler according to the present invention pressurizes the solid fuel to the fuel inlet side using the air pressure so that the solid fuel transported adjacent to the fuel inlet easily enters the fuel inlet side, and the boiler body is pressed by the air pressure. Air is supplied to the fuel to accelerate the fuel, and the solid fuel introduced into the boiler body is prevented from rising upward by the combustion gas in the combustion process and flowing back out of the fuel inlet.

In addition, a dust collecting tank is provided to collect dust after combustion, and a discharge pipe connected to the dust collecting tank to discharge combustion gas is provided with a water spraying device and a bucket to remove dust contained in the combustion gas discharged to the outside cleanly. to provide.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is a schematic cross-sectional view of a solid fuel combustion boiler according to an embodiment of the present invention, Figure 2 is an exploded cross-sectional view of the main portion of Figure 1, Figure 3 is an extract of the main portion of FIG.

1, in the solid fuel combustion boiler for burning the solidified solid fuel 1 according to the present embodiment, a fuel inlet 11 is provided at an upper side thereof, and the solid fuel 1 is accommodated therein. Is connected to the boiler body 10, the fuel inlet 11 is burned, the transfer pipe 20, the solid fuel (1) is transported, and the ignition unit 30 for igniting the solid fuel (1) and Blower 40 for supplying air to the boiler body 10, the outer circumferential surface of the boiler body 10, the first heating water storage unit 50, the heating water is accommodated therein, and by air pressure It is configured to include an air supply pipe 60 branched from the transfer pipe 20 so that the solid fuel (1) approaching the fuel inlet (11) is introduced into the boiler body (10).

The boiler body 10 is a portion in which the solid fuel 1 is received and burned, and the tubular fuel inlet 11 provided on the upper side extends downward from the upper end of the boiler body 10. That is, the lower end of the fuel inlet 11 is disposed below the upper end of the boiler body 10.

The transfer pipe 20 extends from the fuel inlet 11, and the solid fuel 1 is fuel inlet (3) by the transfer screw 3, which is powered by the motor 4 from the fuel reservoir 2. Is transported to a point adjacent to 11).

In this embodiment, the transfer pipe 20 is the first transfer pipe 21 extending upward from the fuel reservoir 2 and the second transfer pipe 22 extending downward from the upper end of the first transfer pipe 21. ) Is transferred to the upper end of the first transfer pipe (21) by a transfer screw (3) disposed inside the first transfer pipe (21), and then by the weight of the solid fuel (1) 2 is slid to the conveying pipe 22 is configured to be conveyed to the fuel inlet (11) side.

The ignition unit 30 is disposed at the lower end of the boiler body 10, and ignites the solid fuel 1 by electric spark, the configuration is a general configuration, so a detailed description thereof will be omitted.

The blower 40 supplies air into the boiler body 10, and supplies air to the center of the bottom of the boiler body 10. In addition, the air generated from the blower 40 is provided to the air supply pipe 60 to be described later.

The air supply pipe (60) is provided to transport the solid fuel (1) transferred to the fuel inlet (11) side through the second transfer pipe 22 by air pressure, in the present embodiment the air supply pipe (60) ) Is connected to the blower 40 receives air from the blower 40.

The first heating water storage unit 50 forgot the outer peripheral surface of the boiler body 10, the heating water is accommodated between the outer peripheral surface. The first heating water storage unit 50 has a first inlet 51 through which heating water flows in the lower side of the boiler body 10, and a first outlet 52 through which heating water is discharged.

In addition, the boiler for solid fuel combustion according to the present embodiment includes a combustion accelerator 70.

The combustion promotion unit 70 is a cylindrical member extending upward from the bottom surface of the boiler body 10, the lower end is provided with a supply port 71 through which air supplied from the blower 40 is introduced, The upper end portion is closed, and a plurality of air holes 72 through which the air introduced through the supply port 71 is discharged are formed on the outer circumferential surface thereof.

The air hole 72 is formed along the circumferential direction of the outer circumferential surface of the combustion promotion unit 70 at different heights from the bottom surface of the boiler body 10. As shown in FIG. 1, in the present embodiment, a plurality of air holes 72 are formed along three circumferential directions at three different heights at the lower end of the combustion accelerator 70 adjacent to the bottom surface of the boiler body 10. The plurality of air holes 72 are formed along the outer circumferential surface of the stop, and the plurality of air holes 72 are formed on the outer circumferential surface of the upper end portion.

As shown in FIG. 4, each of the air holes 72 extends helically from the inner circumferential surface of the combustion promotion unit 70 toward the outer circumferential surface, and the air passing through the helical air holes 72 is a boiler body. 10) form a vortex inside.

In addition, the boiler for solid fuel combustion according to the present embodiment includes an agitator 80 and a motor 90.

The stirrer 80 is rotatably mounted inside the boiler body 10, and as shown in FIG. 3, one end thereof is disposed adjacent to the bottom surface of the boiler body 10 and extends in parallel to the upper side. A pair of rotating bars 81, a connecting bar 82 for connecting the other ends of the rotating bars 81, and a rotating shaft 83 connected to the connecting bars 82 and extending upward. .

The motor 90 is disposed above the fuel inlet 11 and is connected to the rotation shaft 83 to rotate the rotation shaft 83.

In addition, the solid fuel combustion boiler according to the present embodiment, in order to remove dust before the combustion gas is discharged through the exhaust pipe 110 after the combustion of the solid fuel 1, the collecting tank 100, the water spray device 120 ), A bucket 130 is provided.

The dust collecting tank 100 is provided in the connecting pipe 150 in which combustion gas after combustion of the solid fuel 1 is transferred to the exhaust pipe 110 side, and passes through the connecting pipe 150 in a shape in which the lower side is narrowed in a conical shape. Dust contained in the combustion gas is accumulated in the conical receiving portion 101. The lower end of the collecting tank 100 is formed with a hole 102 through which dust accumulated in the receiving portion 101 is discharged, and the finishing cam 103 is screwed into the hole 102. In the present embodiment, the dust collecting tank 100 is accommodated in the case 5 together with the boiler body 10.

In the inside of the collecting tank 100, a partition plate 104 for dividing the inside so that the combustion gas passes through the receiving portion 101 is extended from the upper side to the lower side. The combustion gas flows into the first region 100a through the first connecting pipe 151 extending from the upper side of the boiler body 10, and passes through the receiving portion 101 to the second region 100b. It is moved to the exhaust pipe 110 through the second connecting pipe 152. As shown in FIG. 5, the lower end of the dividing plate 104 is formed to be bent toward the first region 100a.

The outer circumferential surfaces of the second connecting pipe 152, the collecting tank 100, and the first connecting pipe 151 are provided with second, third, and fourth heating water storage units 160, 170, and 180 for receiving heating water.

The second heating water storage unit 160 provided on the outer circumferential surface of the second connecting pipe 152 has a second inlet 161 formed adjacent to the upper end of the collecting tank 100, and is adjacent to the exhaust pipe 110. As a result, the second outlet 162 is formed. The second inlet 161 is formed at a position lower than the second outlet 162 with respect to the ground.

The third heating water storage unit 170 provided on the outer circumferential surface of the collecting tank 100 has a third inlet 171 through which the heating water discharged from the second outlet 162 flows into the lower side of the collecting tank 100. It is formed, and the third discharge port 172 is formed on the upper side.

A fourth heating water storage unit 180 is provided on the outer circumferential surface of the first connecting pipe 151 has a fourth inlet 181 is formed adjacent to the upper end of the collecting tank 100, the boiler body 10 Adjacent fourth outlets 182 are formed. The fourth inlet 181 is formed at a position lower than the fourth outlet 182 with respect to the ground.

The heating water discharged through the fourth discharge port 182 flows to the first inlet port 51 provided at the lower end of the boiler body 10, and is accommodated in the first heating water storage unit 50 to receive the first discharge port 52. ) Is discharged to the place to be heated.

The water injection device 120 injects water into the exhaust pipe 110 so that the dust contained in the combustion gas discharged to the outside through the exhaust pipe 110 is agglomerated by the water. The lower end of the exhaust pipe 110 is open, the water tank 130 is coupled to the lower end of the water sprayed from the water injection device 120 is collected.

Hereinafter, the action of the solid fuel combustion boiler according to the present embodiment by the above configuration will be described in detail.

As shown in FIG. 1, the user applies power to the boiler through the controller 140 and sets a desired temperature.

The solid fuel contained in the fuel reservoir 2 is transferred to the upper side of the boiler body 10 by a transfer screw 3 installed inside the first transfer tube 21, and at the end of the first transfer tube 21. It slides to the feed pipe 22 and is conveyed to the fuel injection port 11 side.

At this time, the air supplied by the blower 40 is guided to the air supply pipe 60 to pressurize the solid fuel 1 accommodated in the second transfer pipe 22 to the fuel inlet 11 side.

The solid fuel 1 dropped to the lower end of the boiler body 10 is ignited and burned by the ignition unit 30, and the air supplied by the blower 40 is fuel-promoting unit installed at the center of the lower end of the boiler body 10. It is supplied into the boiler body 10 through the air hole 72.

The air hole 72 is formed spirally on the outer circumferential surface of the fuel promotion portion to form a vortex in the boiler body 10 to promote the combustion of the solid fuel (1).

The stirrer 80 operated by the motor 90 during combustion mixes the solid fuel 1 accumulated on the bottom surface of the boiler body 10, thereby facilitating the combustion of the solid fuel 1, and the stirrer during combustion. When the solid fuel 1 mixed by 80 rises from the bottom of the boiler body 10 by hot combustion gas and is blown off, it is supplied to the air supplied by the air hole 72 formed at the upper end or the stop of the fuel accelerator. This further promotes combustion.

In addition, when the solid fuel 1 is supplied, the air supplied through the air supply pipe 60 is supplied into the boiler body 10 to promote combustion of the solid fuel 1, and also to supply the second feed pipe 22. The air pressure supplied to the fuel inlet 11 side from) prevents the solid fuel 1 from flowing back by the hot combustion gas rising upward from the inside of the boiler body 10.

The hot combustion gas flows to the first region 100a of the collecting tank 100 through the first connecting pipe 151 provided on the upper side of the boiler body 10, and then includes a receiving unit provided at the lower end of the collecting tank 100. (101).

At this time, the dust contained in the combustion gas is first collected in the receiving portion 101 narrowing toward the lower side, the combustion gas passes through the second region (100b) and the second connecting pipe 152 in sequence.

The combustion gas passing through the second connecting pipe 152 is discharged through the exhaust pipe 110, and the water injected by the water spray device 120 while passing through the exhaust pipe 110 is dust contained in the combustion gas. Remove the secondary, the injected water is to be accommodated in the bucket 130 is provided below the exhaust pipe (110).

During the combustion of the solid fuel 1, the heating water is first introduced into the second inlet 161 of the second connection pipe 152, so that the second heating water storage unit 160 and the third heating water storage unit 170 are provided. ), The fourth heating water storage unit 180 and the first heating water storage unit 50 are sequentially heated to be moved to a desired heating space through the first discharge pipe of the first heating water storage unit 50.

As described above, in the solid fuel combustion boiler according to the present embodiment, the solid fuel 1 is introduced into the boiler body 10 by air pressure, and the air supplied by the air supply pipe 60 is applied to the solid fuel 1. Promotes combustion, and the air pressure provided by the air supply pipe 60 prevents the solid fuel 1 from rising by the combustion gas of high temperature during combustion and flowing back to the fuel inlet 11 side. In the present invention provides an effect of improving the combustion efficiency of the solid fuel (1).

In addition, the air provided to the air supply pipe 60 is also used to guide the air by the blower 40, thereby providing an effect of effectively providing air without having a separate device for providing air to the air supply pipe (60) do.

In addition, during combustion, the stirrer 80 mixes the solid fuel 1, and the spiral air hole 72 formed in the combustion accelerator 70 forms a vortex in the boiler body 10 to promote combustion. Furthermore, the air holes 72 are formed at different heights and supply air to the elevated solid fuel 1 when the solid fuel 1 mixed by the stirrer 80 is elevated by the high temperature combustion gas, thereby providing combustion efficiency. Further improve.

In addition, the solid fuel combustion boiler according to the present embodiment is provided with a collecting tank 100, a water spraying device 120, a bucket 130 to cleanly remove dust contained in the combustion gas.

In addition, when the hot combustion gas is moved through the boiler body 10, the first connecting pipe 151, the collecting tank 100, the second connecting pipe 152, the exhaust pipe 110, the heating water is the second heating The water storage unit 160, the third heating water storage unit, the fourth heating water storage unit 180, and the first heating water storage unit 50 are sequentially subjected to heat exchange by heat-exchanging from all regions passing through the hot combustion gas. Improve effectively.

In addition, the solid fuel combustion boiler according to the present embodiment, as shown in Figure 2, the lower end and the upper end of the boiler body 10 can be separated by screwing, it is possible to clean the inside of the boiler body 10 after combustion. Easy post management

In the above, the present invention has been described in detail with reference to preferred embodiments, but the present invention is not limited to the above embodiments, and many other modifications may be provided without departing from the scope of the present invention.

1 is a schematic cross-sectional view of a solid fuel combustion boiler according to an embodiment of the present invention;

Figure 2 is an exploded cross-sectional view of the main portion of Figure 1;

3 is a view extracting the main part of FIG.

4 is a view taken along the line IV-IV of FIG. 3;

5 is a view illustrating main parts of FIG. 1.

<Explanation of symbols for the main parts of the drawings>

Solid fuel 10. Boiler body

20 ... transfer pipe 30 ... ignition

40 ... blower 50 ... first heating water storage

60 ... Air supply line 70 ... Combustion accelerator

80 ... Agitator 100 ... Dust collection tank

110 ... exhaust pipe 120 ... water jet device

150 ... connector 160 ... second heating water storage

170 ... third heating water storage unit 180 ... fourth heating water storage unit

Claims (7)

In the solid fuel combustion boiler for burning solidified solid fuel, A fuel injection hole 11 is provided at an upper side of the boiler body 10 in which the solid fuel 1 is received and burned therein; A transfer pipe 20 connected to the fuel inlet 11 and to which the solid fuel 1 is transferred; Ignition unit 30 for igniting the solid fuel (1) accommodated in the boiler body (10); A blower 40 for supplying air to the boiler body 10; A first heating water storage unit 50 surrounding the outer circumferential surface of the boiler body 10 and receiving heating water therein; An air supply pipe (60) branched from the transfer pipe (20) so as to push the solid fuel (1) approaching the fuel inlet (11) by air pressure into the boiler body (10); Rotatingly mounted inside the boiler body 10, one end is disposed adjacent to the bottom surface of the boiler body 10 and a pair of rotating bar 81 extending in parallel to the upper side, and each of the rotating bar An agitator 80 including a connection bar 82 connecting the other end of the 81 and a rotation shaft 83 connected to the connection bar 82 and extending upward; And Solid fuel combustion boiler, characterized in that it comprises a motor (90) for rotating the rotary shaft (83). The method of claim 1, The air supply pipe is a solid fuel combustion boiler, characterized in that connected to the blower. The method of claim 1, Extend upward from the bottom of the boiler body, The lower end is provided with a supply port through which the air supplied from the blower is introduced, the upper end is closed, and the outer peripheral surface further comprises a cylindrical combustion accelerator formed with a plurality of air holes through which the air introduced through the supply port is discharged Solid fuel combustion boilers. The method of claim 3, The air hole is formed along the circumferential direction of the outer circumferential surface of the combustion promotion unit at different heights from the bottom surface of the boiler body, and extends in a spiral form toward the outer circumferential surface from the inner circumferential surface of the combustion promotion unit. . delete The method of claim 1, Solid fuel combustion boiler, characterized in that further comprising a dust collecting tank connected to the boiler body, the dust generated during the combustion of the solid fuel is collected. The method of claim 6, An exhaust pipe connected to the dust collecting tank, the upper side of which is open to discharge combustion gas after the solid fuel combustion; A water spray device for spraying water into the exhaust pipe to remove residual dust; It is provided at the bottom of the exhaust pipe, the solid fuel combustion boiler, characterized in that it further comprises a bucket for receiving water injected from the water spray device.

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