KR20160079506A - Separating apparatus for fuel material using wind force - Google Patents

Abstract

The present invention relates to a fuel material selection apparatus using wind power, and more specifically, to a fuel material selection apparatus using wind power, which is capable of selecting inflammable materials and flammable materials depending on the weight and specific gravity by using wind power in order to select materials for producing solid recovered fuel from industrial wastes. The fuel material selection apparatus using wind power according to the present invention comprises: a pre-processing unit (100) for cutting domestic wastes or industrial wastes into a predetermined size and moving the same; a selection drum unit (200) for selecting wastes (10) to be used from pre-processed wastes (10) supplied from the pre-processing unit (100) depending on a set weight through a rotation; a wind power supply unit (300) for supplying wind into the selection drum unit (200), and enabling the wastes (10) having the weight less than the set weight to pass through the selection drum unit (200); a weight section selection unit (400) for additionally selecting the wastes (10), which can be used as fuel, from the wastes (10) passing through the selection drum unit (200) and dropped depending on the set weight; and a seal housing unit (500) for surrounding and sealing the selection drum unit (200) and the weight section selection unit (400), collecting scattered dust, which is scattered by the wind power supply unit (300), from the wastes (10) passing through the selection drum unit (200), and removing the collected scattered dust.

Description

[0001] SEPARATING APPARATUS FOR FUEL MATERIAL USING WIND FORCE [0002]

The present invention relates to a fuel material sorting apparatus using wind power, and more particularly, to a fuel material sorting apparatus using wind power, and more particularly, to a fuel material sorting apparatus using wind power for crushing industrial waste and using it as waste fuel or for pre- To a fuel material sorting apparatus using wind power capable of selecting non-combustible materials and combustible materials according to their specific gravity or weight.

In general, municipal and industrial wastes are mostly disposed of by means of landfill or incineration.

However, in the case of landfill of municipal waste or industrial waste, there is a large-scale site for disposing a large amount of waste at a time, a landfill cost, and a soil environmental problem due to leachate before stabilization. In the case of incineration, Although it is possible to dispose municipal waste in the site, it is necessary to rely on landfill disposal of incineration residues as well as excessive facility costs, and there is a problem of the atmospheric environment due to incineration.

Therefore, in order to solve such problems, it is necessary to reduce the amount of landfill or reduce the amount of incineration. Such household waste is mostly classified at home, so that if household waste and industrial waste reduction efforts are not properly classified, Is difficult to achieve.

Finally, it is necessary to treat municipal waste or industrial waste before landfilling or incineration in landfill or incinerator, but it is difficult to mechanically treat it, so only the classification by hand is done and the rest is only landfilled or incinerated. It is not.

However, such municipal solid waste or industrial waste contains a large amount of vinyl or plastic that can be used as SRF (SOLID RECOVERED FULE: solid fuel product), and it contains many recycled materials such as steel products.

For reference, SRF has higher calorific value and lower price than anthracite, making it an alternative fuel for industrial and public institutions and heating fuel. As a result, in recent years, the local governments have been increasingly trying to use the SRF-based heating fuel.

However, it is time-consuming to divide non-combustible materials such as steel products and stones mixed in municipal waste or industrial waste into waste, and the cost is also increased.

In addition, an apparatus for classifying incombustible materials such as steel products and stones using existing wind power has a problem in that it separates some of incombustible materials but is difficult to separate depending on the weight.

In addition, the apparatus for classifying nonflammable materials in steel products using existing magnetic force has a problem in that it is impossible to separate nonflammable materials that do not react with magnetism.

Patent Document Registration Patent Publication No. 10-1077101

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems and to provide a fuel material sorting apparatus using wind power according to the present invention which is capable of easily separating municipal wastes or incombustible materials such as stones, And to provide a fuel material sorting device using wind power that can secure a material that can be made into a solid fuel product by compressing a material.

The fuel material sorting apparatus using wind power according to the present invention separates a nonflammable material according to a specific gravity and a weight to provide a fuel material sorting apparatus using wind power to supply a desired solid fuel product or a waste fuel raw material The purpose is to provide.

The fuel material sorting apparatus using wind power according to the present invention is intended to provide a fuel material sorting apparatus using wind power that can easily separate non-combustible materials that do not react with magnetism such as stones, as well as metals.

The fuel material sorting apparatus using wind power according to the present invention is characterized in that a sorting air injecting unit composed of two or more stages is applied to filter a substance which can not be separated at a raw material injecting unit but discharged directly to a sorting hall, And to provide a fuel material sorting apparatus using wind power that can be transferred to a fuel cell.

The fuel material sorting apparatus using the wind power according to the present invention enables the transfer guide protrusion to function as a crusher to dismantle the bag-shaped waste that has not yet been broken in the pretreatment apparatus, thereby maximizing the fuel material sorting efficiency And to provide a fuel material sorting apparatus using the wind power.

The apparatus for sorting fuel materials using wind power according to the present invention comprises a pretreatment unit 100 for cutting municipal waste or industrial waste to a predetermined size and moving the municipal waste; A sorting drum unit 200 for sorting the waste 10 to be used according to the weight set in the pretreated waste 10 supplied from the pre-processing unit 100 by rotation; A wind power supply unit 300 for supplying wind to the inside of the selection drum unit 200 to allow waste 10 having a weight less than a predetermined weight to pass through the selection drum unit 200; A weight sorting unit 400 for additionally sorting wastes 10 usable as fuel according to the set weight in the waste 10 falling through the sorting drum unit 200; And the waste sorting part 200 and the weight sorting part 400 are enclosed and sealed so as to collect the scattered dust scattered by the wind power supply part 300 among the waste 10 passing through the sorting drum part 200. [ And a sealing housing part (500) for removing the sealing part (500).

The pretreatment unit 100 includes a cutter 110 for pretreating the waste 10 supplied to the pretreatment unit 100 to be cut to 15 to 30 cm and a waste 10 cut from the cutter 110 And a conveying conveyor 120 to be moved to the discriminating drum unit 200.

The sorting drum unit 200 includes a cylindrical rotary drum 210 for sorting the waste 10 by rotation according to the weight of the waste 10 after the waste 10 cut in the pre- A fixed drum 260 connected to the rotary drum 210 through a bearing 262 extended from the rotary drum 210 so as to be fixed irrespective of the rotation of the rotary drum 210, A rotary controller 220 connected to an outer surface of the rotary drum 210 to rotate the rotary drum 210 and a plurality of wafers 210 protruding from the inner surface of the rotary drum 210 so as to be separated from the rotary drum 210, A conveyance guide protrusion 230 for conveying the wind by the wind force of the wind power supply unit 300 while being spaced apart from the fixed drum 260 at a position adjacent to the weight section sorting unit 400, And is lifted up and down in the vertical direction so that the fixed drum 260 is lifted and lowered A height adjuster 240 for adjusting the inclination of the rotary drum 210 so that the rotary drum 210 can be tilted and the lower end of the rotary drum 210 at a position adjacent to the wind power supply 300, And a weight screening hole (250) for allowing the waste (10) to be stacked while falling over the set weight of the waste (10) to be supplied and dropped.

The rotation controller 220 includes a chain 222 connected to the outer surface of the rotary drum 210 to rotate with the rotary drum 210 and a gear 224 connected to the chain 222, And a motor 226 coupled to the gear 224 to provide power to rotate the gear 224.

The height regulator 240 includes a cylinder 242 disposed at an outer lower portion of the fixed drum 260 at a position adjacent to the weight segment selector 400 and a cylinder 242 disposed at a lower portion of the fixed drum 260, And a piston 244 connected to the fixed drum 260 to change the inclination of the rotary drum 210.

The weighing hole 250 may further include a take-out compartment 252 for discharging the waste 10 to the outside of the rotary drum 210 after the waste 10 is dropped into the weighing hall 250 .

The wind power supply unit 300 includes a plurality of supply nozzles 310 for supplying wind to the inside of the discriminating drum unit 200 and winds A blowing fan 330 for generating air to supply wind to the wind pipe 320 and a blowing fan 330 for connecting the supply nozzle 310 and the wind pipe 320 to each other, And an angle adjustment pin 340 for adjusting the direction in which the supply nozzle 310 adjusts the wind, and the supply nozzle 310 rotates about the angle adjusting pin 340, do.

The weighing section sorting section 400 includes a plurality of partition plates 410 through which the wastes 10 falling through the sorting drum section 200 and falling at different dropping points can be partitioned and stacked, .

The closed housing part 500 includes a housing 510 which encloses the discriminating drum part 200 and the weight parting part 400 and is disposed inside the housing 510, The dust collecting unit 520 is connected to the lower part of the cyclone dust collector 520 to collect the dust that has flowed into the cyclone dust collector 520, A filter 540 connected to an upper portion of the cyclone dust collector 520 to filter dust particles smaller than the dust particles deposited by the dust collector 530, An exhaust port 550 connected to the filter 540 and allowing a part of the air filtered by the filter 540 to be exhausted to the outside of the housing 510, And the dust is filtered by the filter 540 And an air re-supply pipe 560 that allows a part of the air to be supplied to the wind power supply unit 300.

The transfer guide protrusion 230 is formed in a spiral shape in the rotary drum 210 so that the waste 10 is transferred along the spiral by the wind force of the wind power supply unit 300.

The closed housing unit 500 further includes a dust control plate 570 formed on the upper portion of the housing 510 and controlling the flow of dust scattered in the housing 510 while being rotated.

The fuel material sorting apparatus using wind power according to the present invention can easily separate a non-combustible material such as a steel material or a stone and then compress a combustible material or a material burned by fire to secure a material that can be made into a solid fuel product There is an economic effect that enables energy to be recycled.

The fuel material sorting apparatus using wind power according to the present invention has a technical effect of securing a material capable of producing a solid fuel product by variously separating the nonflammable material according to the weight and improving the fuel energy use efficiency.

The fuel material sorting apparatus using wind power according to the present invention can improve the efficiency of energy recycling by easily separating incombustible materials that are difficult to use with energy and incombustible materials that do not react with magnetism to produce materials for solid fuel products There is a technical effect.

The fuel material sorting apparatus using wind power according to the present invention can apply the waste to the waste treatment facility as a waste fuel of the form of a flute by selecting only the waste, so that the waste can be utilized at the fuel level, There is a technical effect that can be improved.

1 is a view showing a fuel material sorting apparatus using wind power according to the present invention.
2 is a view showing the movement of waste in the fuel material sorting apparatus using wind power according to the present invention.
3 is a view showing a main part of a fuel material sorting apparatus using wind power according to the present invention.
Fig. 4 is a view showing an embodiment according to Fig. 3. Fig.
5 is a view showing another essential part of the fuel material sorting apparatus using wind power according to the present invention.
6 is a view showing an embodiment according to Fig.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views, and length and area, thickness, and the like may be exaggerated for convenience.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, so that those skilled in the art can easily carry out the present invention.

In the following detailed description, for example, for the pretreatment for crushing industrial wastes as waste fuel, or for sorting waste products into solid fuel products, it is necessary to use non-combustible materials and combustible materials It is needless to say that the technical arrangement of the fuel material sorting device using the selectable wind power [particularly, the sorting drum portion, the wind power supply portion, the weight portion sorting portion, and the closed housing] can be equally applied.

1 is a view showing a fuel material sorting apparatus using wind power according to the present invention.

2 is a view showing the movement of waste in the fuel material sorting apparatus using wind power according to the present invention.

1 and 2, the fuel material sorting apparatus using wind power according to the present invention comprises a pretreatment unit 100 for cutting and moving a waste 10 to a predetermined size, A wind power supply unit 300 for supplying wind power to the discriminating drum unit 200 and a waste 10 passing through the discriminating drum unit 200 are sorted and sorted according to the weight of the discriminating drum unit 200 And a closed housing 500 for collecting and removing scattered dust generated by the waste 10 passing through the discriminating drum unit 200.

The pretreatment unit 100 cuts and moves the waste 10, which is municipal waste or industrial waste, to a predetermined size.

The pretreatment unit 100 includes a cutter 110 for pretreating the wastes 10 supplied to the pretreatment unit 100 to be cut to a length of 15 to 30 cm, 10 can be moved to the sorting drum unit 200. [0050]

The cutter 110 cuts the wastes 10 to 15 to 30 cm so that the incombustible wastes 10 and the combustible wastes 10 can be sorted smoothly.

The waste 10 cut by the cutter 110 is conveyed through the conveying conveyor 120 to be supplied to the discriminating drum unit 200.

The sorting drum unit 200 serves to sort the waste 10 to be used according to the set weight in the pretreated waste 10 supplied from the pre-processing unit 100 through rotation.

For this, the sorting drum unit 200 is rotated by a rotation of a cylindrical shape that selects whether the waste 10 is cut depending on the weight of the waste 10 after the waste 10 is cut by the pre-processing unit 100, And a fixed drum 260 connected to the drum 210 through a bearing 262 extended from the rotary drum 210 and fixed to the rotary drum 210 regardless of the rotation of the rotary drum 210 .

And a rotation controller 220 connected to an outer surface of the rotary drum 210 to rotate the rotary drum 210.

A plurality of separation drums 200 are formed on the inner surface of the rotary drum 210 so as to be spaced apart from each other so that the waste 10 flowing into the rotary drum 210 is spaced apart from the rotary drum 210, And a conveying guide protrusion 230 to be conveyed by the wind force of the motor 300.

The sorting drum unit 200 is formed at an outer lower portion of the fixed drum 260 at a position adjacent to the weight sorting unit 400 and is lifted up and down so that the fixed drum 260 is lifted And a height adjuster 240 for adjusting the inclination of the rotary drum 210 so as to be lowered.

The sorting drum unit 200 is disposed at an inner lower end of the rotary drum 210 at a position adjacent to the wind power supply unit 300 so that the waste water 10 supplied from the pretreatment unit 100, And a weight screening hole 250 for allowing the waste 10 to be stacked while falling over the set weight.

Here, the rotary drum 210 is formed in a cylindrical shape and is rotated by the rotation controller 220.

The rotation controller 220 includes a chain 222 connected to the outer surface of the rotary drum 210 so as to be rotated with the rotary drum 210 and a gear 222 connected to the chain 222, And a motor 226 coupled to the gear 224 to provide power to rotate the gear 224.

That is, the rotary drum 210 is simultaneously supported by the height adjuster 240 and the chain 222, the chain 222 is interlocked by the rotation of the gear 224, and the operation of the chain 222 The rotary drum 210 rotates while being interlocked.

In addition, the motor 226 provides power to rotate the gear 224.

The waste 10 in the rotary drum 210 is rotated between the rotation of the rotary drum 210 and the rotation of the rotary drum 210 while being provided between the transfer guide protrusions 230 provided on the inner surface of the rotary drum 210. [ And flows to the weight section sorting section 400 while being flowed by the wind power of the wind power supply section 300.

Specifically, the pre-processed wastes 10 which are introduced into the rotary drum 210 by the conveying conveyor 120 of the preprocessing unit 100 are separated by the conveying guide protrusions 230, And is caused to flow along the feed guide protrusion 230 by the wind force supplied from the wind power supply unit 300.

At this time, the waste 10 is dropped and moved in the rotary drum 210 by the rotation of the rotary drum 210 and the wind power of the wind power supply unit 300, so that the relatively heavy waste can not be moved, The lightweight waste is moved to the weight section sorting unit 400 while being moved.

Here, the height adjuster 240 is used in order to smoothly move relatively heavy waste to the weight screening hole 250 and to move relatively light waste to the weight partitioner 400.

The height regulator 240 includes a cylinder 242 disposed at an outer lower portion of the fixed drum 260 at a position adjacent to the weight segment selector 400, And a piston 244 connected to the fixed drum 260 while moving to change the inclination of the rotary drum 210.

That is, the piston 244 reciprocates in the cylinder 242 to support the fixed drum 260. When the piston 244 is exposed to the outside from the inside of the cylinder 242, the fixed drum 260 Is raised and lowered, one side of the rotary drum 210 is lifted and the other side is kept fixed, so that the rotary drum 210 is arranged to be inclined.

The fixed drum 260 is connected to the rotary drum 210 through a bearing 262 so that the rotary drum 210 can be held and fixed to the piston 244 even when the rotary drum 210 rotates.

As a result, the rotary drum 210 is connected to the chain 222 and rotates in conjunction with the rotation of the chain 222 and extends to the rotary drum 210 while being connected to the rotary drum 210 by a bearing 262, The fixed drum 260 supported by the rotary drum 210 can be maintained in a fixed state without interfering with the rotation of the rotary drum 210.

The weighing hole 250 is formed in the lower part of the inside of the rotary drum 210 at a position adjacent to the wind power supply part 300 and is connected to the waste 10 provided in the conveying conveyor 120 of the pre- , The waste 10 having a weight exceeding the set weight is drilled to be stacked while being dropped.

At this time, the waste 10 entering the discriminating drum unit 200 moves along the conveying guide protrusion 230 as the weight of the waste 10 is lower in the rotating drum 210, Is moved in the forming direction of the weight partitioning part (400) and moves in the forming direction of the weight screening hole (250) as the weight of the waste (10) increases.

In the lower part of the weighing hole 250, an unloading chamber 252 for discharging the wastes 10 falling into the weighing hall 250 to the outside of the rotary drum 210 .

The weighing hole 250 is provided with a weight enough to prevent the weight of the waste 10 from flowing by the wind power of the wind power supply unit 300 in the waste 10 supplied from the conveying conveyor 120 Or the slurry of the rotary drum 210 and the weight of the waste 10 enter the waste drum 10 to be slid in the rotary drum 210 and are stacked.

The wind power supply unit 300 provides a wind to the inside of the sorting drum unit 200 to enable the waste 10 having a weight less than a predetermined weight to pass through the sorting drum unit 200 do.

For this, the wind power supply unit 300 includes a plurality of supply nozzles 310 for supplying wind to the inside of the discriminating drum unit 200, and a plurality of supply nozzles 310 for supporting the respective supply nozzles 310, (Not shown).

The wind power supply unit 300 includes a blowing fan 330 for generating air so that the wind can be supplied to the wind pipe 320 and a blowing fan 330 for connecting the supply nozzle 310 and the wind pipe 320 to each other And may include an angle adjusting pin 340 that allows the supply nozzle 310 to adjust the direction in which the air is supplied.

At least two or more of the supply nozzles 310 inject wind at different positions to form two or more jetting layers of air according to their heights so that the waste 10, which can be a material of the waste fuel, It is possible to minimize the amount of waste that enters into the weight sorting hole 250 and is discarded.

In addition, the supply nozzle 310 of the wind power supply 300 is rotated about the angle adjusting pin 340 so that the angle of spray of wind can be adjusted.

Here, the supply nozzle 310 is supplied with the wind generated from the blowing fan 330 and supplied to the rotary drum 210 through the wind pipe 320.

It is preferable that a plurality of the supply nozzles 310 may be formed and the number of the wind tubes 320 corresponds to the supply nozzle 310.

The supply nozzle 310 connected to the angle adjusting pin 340 through the angle adjusting pin 340 is interlocked with the rotation of the angle adjusting pin 340 and is supplied into the rotary drum 210 The direction of the wind can be adjusted.

The angle adjusting pin 340 receives power through a sub-motor (not shown) and controls the operation of the sub-motor from a long distance by the user, so that the angle adjusting pin 340 rotates in one direction and counter- So that the air injection angle of the supply nozzle 310 can be adjusted.

The weight sorting unit 400 further functions to sort the wastes 10 that can be used as fuel according to the set weight of the wastes 10 that fall through the sorting drum unit 200.

For this purpose, the weight partitioner 400 includes a plurality of partition plates (not shown) for partitioning and stacking the wastes 10, which have passed through the selection drum unit 200, 410).

The partition plate 410 is spaced apart from the weight plate sorting unit 400 and is spaced apart from the partition plate 410 according to the needs of the user so that three to ten partition plates 410 As shown in FIG.

That is, since the weight of the waste 10 transferred from the rotary drum 210 is different, the weight of the heavy waste 10 is directly dropped to the vertical lower portion of the rotary drum 210, And the weight of the waste 10 is reduced and deposited on the weight section separator 400 at a position distant from the rotary drum 210 as the weight 10 is lighter.

The wastes 10 that are dropped and stacked at different positions by weight in the weight partitioning part 400 are partitioned and stacked by the partition plate 410 so that the wastes 10 can be sorted according to the weight of the wastes 10 .

The closed housing unit 500 encloses and seals the sorting drum unit 200 and the weight partitioning unit 400 so that the wind power supply unit 300 is disposed in the waste 10 passing through the sorting drum unit 200. [ And collects and removes the scattered dust scattered by the dust collector.

The closed housing part 500 includes a housing 510 which encloses the discriminating drum part 200 and the weight parting part 400 and is disposed inside the housing 510, And a cyclone dust collector 520 for sucking and collecting dust scattered in the dust collector 510.

The closed housing part 500 is connected to the lower part of the cyclone dust collector 520 and is connected to the cyclone dust collecting part 520 so that the dust introduced into the cyclone dust collector 520 can be stacked, And a filter 540 connected to an upper portion of the cyclone dust collector 520 to filter dust particles smaller than dust particles deposited by the dust collector 530.

The closed housing part 500 includes an exhaust port 550 which is connected to the filter 540 and allows a part of the air filtered by the filter 540 to be exhausted to the outside of the housing 510, And an air re-supply pipe 560 connected to the filter 540 so that another part of the air filtered by the filter 540 can be supplied to the wind power supply part 300.

The cyclone dust collector 520 is provided with an aspirator 522 capable of sucking dust so as to suck dust scattered in the housing 510 and to be introduced into the cyclone dust collector 520 through the aspirator The dust can be stacked on the recharging unit 530 and taken out to the outside of the housing 510 to be discarded.

The filter 540 may be a filter having various shapes and materials as long as it can filter the dusts entering the cyclone dust collector 520 to be clean air.

A part of the air filtered through the filter 540 is exhausted to the outside of the housing 510 through the exhaust port 550 and another part of the air flows into the air grade feed pipe 560.

In addition, some of the air filtered through the filter 540 flows into the air re-supply pipe 560 so that the air re-supply pipe 560 can be reused while being supplied to the wind power supply unit 300.

3 is a view showing a main part of a fuel material sorting apparatus using wind power according to the present invention.

Fig. 4 is a view showing an embodiment according to Fig. 3. Fig.

3 and 4, the fuel material sorting apparatus using wind power according to the present invention includes a pretreatment unit 100 for cutting and moving waste 10 to a predetermined size, A wind power supply unit 300 for supplying wind force to the discriminating drum unit 200 and a waste water collecting unit 300 for collecting the wastes 10 that have passed through the discriminating drum unit 200, A weight sorting unit 400 for sorting the waste water 10 by a predetermined weight and a closed housing 500 for collecting and removing scattered dust generated by the waste 10 passing through the sorting drum unit 200 do.

Since the waste 10 having a relatively high weight is highly likely to be a nonflammable material and the relatively low weight is highly likely to be a combustible material, the waste 10 is selected and compressed to produce a solid fuel product In the present invention, a material having a relatively heavy weight must be selectively removed.

In addition, when the waste 10 is excessively sorted, most of the wastes are sorted and discarded, and materials that can be used as actual waste fuel become insignificant, making it difficult to produce a solid fuel product.

On the contrary, when the sorting of the waste 10 is minimized, a large amount of solid fuel product material is secured, but the quality of the solid fuel product is deteriorated. Therefore, the set weight of the waste, The wind intensity is important.

As described above, the sorting drum unit 200 selects whether or not the waste 10 is cut depending on the weight of the waste 10 through rotation after the waste 10 cut in the pre-processing unit 100 is introduced A fixed drum 260 connected to the rotary drum 210 through a bearing 262 extending from the rotary drum 210 and fixed to the rotary drum 210 regardless of rotation of the rotary drum 210, .

The selection drum unit 200 includes a rotation controller 220, a conveyance guide protrusion 230 and a height adjuster 230 for adjusting the inclination of the rotary drum 210 so that the fixed drum 260 can be raised and lowered 240, and a weight screening hole 250 to allow the waste 10 to be stacked while being dropped.

Here, a detailed description of the discriminating drum unit 200 will be omitted.

The conveyance guide protrusion 230 may protrude in the form of a spiral in the rotary drum 210 so that the waste 10 may be conveyed along the spiral by the wind power of the wind power supply unit 300.

The waste 10 is moved along the transfer guide protrusion 230 in the rotary drum 210 by the wind power supplied from the wind power supply unit 300 and the rotary drum 210 By the slope inclined by the height adjuster 240, the relatively heavy waste can flow into the weighing hole 250.

In addition, it is the slope of the rotary drum 210 that can affect the flow of the waste 10 in the rotary drum 210.

The height regulator 240 includes a cylinder 242 disposed at an outer lower portion of the fixed drum 260 at a position adjacent to the weight segment selector 400, And a piston 244 connected to the fixed drum 260 so as to reciprocate in and out of the rotary drum 210 to change the inclination of the rotary drum 210.

That is, the piston 244 reciprocates in the cylinder 242 to support the fixed drum 260. When the piston 244 is exposed to the outside from the inside of the cylinder 242, the fixed drum 260 Is raised and lowered, one side of the rotary drum 210 is lifted and the other side is kept fixed, so that the rotary drum 210 is arranged to be inclined.

The fixed drum 260 is connected to the rotary drum 210 through a bearing 262 so that the rotary drum 210 can be held and fixed to the piston 244 even when the rotary drum 210 rotates.

As the piston 244 is exposed from the cylinder 242, the piston 244 moves up and down the fixed drum 260 so that the inclination of the rotary drum 210 gradually increases.

As the slope of the rotary drum 210 increases, the relatively heavy waste is no longer flowed by the wind power of the wind power supply unit 300 and slides on the rotary drum 210, (250).

The weighing hole 250 may further include a take-out compartment 252 for stacking the wastes 10 to be dropped into the weighing hall 250 and then being taken out of the rotary drum 210 have.

Therefore, the waste introduced into the weighing hole 250 is stacked on the take-out compartment 252, discharged to the outside, and discarded.

Conversely, as the piston 244 moves into the cylinder 242, the piston 244 moves down the fixed drum 260 so that the inclination of the rotary drum 210 gradually decreases.

As the slope of the rotary drum 210 becomes smaller, relatively heavy waste is also flowed by the wind power of the wind power supply unit 300, passes through the rotary drum 210, (400). ≪ / RTI >

However, in the case of relatively heavy heavy waste, in the case of relatively heavy weight waste, the placement of the weight partition selector 400 may be reduced to a position where the placement of the weight partition selector 400 is started. It will fall close to the ending position.

Therefore, the waste 10 may be re-sorted according to the location of the waste 10 falling on the weight section sorter 400, and selected as a material to be disposed of and a material to be used as a solid fuel product.

The wind power supply unit 300 provides a wind to the inside of the sorting drum unit 200 so that waste 10 having a weight less than a predetermined weight can pass through the sorting drum unit 200.

The wind power supply unit 300 includes a plurality of supply nozzles 310 for supplying wind to the inside of the sorting drum unit 200 and a wind pipe 320 connected to each of the supply nozzles 310, A blowing fan 330 for generating air to supply wind to the wind pipe 320 and an angle adjusting pin 340 for adjusting a direction in which the supply nozzle 310 supplies wind can do,

Here, the description of the wind power supply unit 300 will be omitted.

In addition, the supply nozzle 310 of the wind power supply 300 is rotated about the angle adjusting pin 340 so that the angle of spray of wind can be adjusted.

The supply nozzle 310 is supplied with the wind generated from the blowing fan 330 through the wind pipe 320 to supply the wind power to the rotary drum 210.

At this time, the waste 10 supplied into the rotary drum 210 flows through the wind generated from the blowing fan 330, so that the supply fan (not shown) 310 can be controlled.

That is, if the intensity of the wind supplied from the blowing fan 330 is strong, the waste having a relatively heavy weight may flow through the rotary drum 210 to the weight sorting unit 400, Only the relatively light weight waste can be passed through the rotary drum 210 and flowed into the weight sorting unit 400.

In this way, the blowing fan 330 controls the wind intensity and the supply nozzle 310 controls the direction of wind blowing through the angle adjustment.

That is, if the spraying direction of the supply nozzle 310 is positioned in the inner lower direction of the rotary drum 210, the waste 10 disposed under the rotary drum 210 may also be relatively heavy in weight, And may be supplied to the weight segment sorting unit 400 through the rotary drum 210 along the guide protrusion 230.

If the spraying direction of the supply nozzle 310 is positioned in the upper direction of the inner side of the rotary drum 210, the waste 10 disposed under the rotary drum 210 is relatively heavy, The influence is insignificant and it can not pass through the rotary drum 210.

The angle of the wind of the supply nozzle 310 may be changed corresponding to the inclination of the rotary drum 210.

In addition, if the height adjuster 240 can smoothly change the inclination angle of the rotary drum 210, a separate support plate (not shown) may be installed in the space between the height adjuster 240 and the rotary drum 210 and the fixed drum 260 246 so that the height adjuster 240 ascends and descends the support plate itself so that the rotary drum 210 forms an inclination angle.

5 is a view showing another essential part of the fuel material sorting apparatus using wind power according to the present invention.

6 is a view showing an embodiment according to Fig.

5 and 6, the fuel material sorting apparatus using wind power according to the present invention includes a pretreatment unit 100 for cutting and moving waste 10 to a predetermined size, A wind power supply unit 300 for supplying wind power to the sorting drum unit 200 and a waste water collecting unit 300 for collecting the wastes 10 through the sorting drum unit 200. [ And a closed housing 500 for collecting and removing scattered dust generated by the waste 10 passing through the discriminating drum unit 200. The waste sorting unit 400 collects and removes scattered dust generated by the waste 10 passing through the discriminating drum unit 200, .

As described above, the closed housing part 500 encloses the sorting drum part 200 and the weight parting part 400 and closes the waste part 10 passing through the sorting drum part 200 Collects and removes scattered dust scattered by the wind power supply unit 300 during the operation.

The closed housing part 500 includes a housing 510 which encloses the discriminating drum part 200 and the weight parting part 400 and is disposed inside the housing 510, And a cyclone dust collector 520 for sucking and collecting dust scattered in the dust collector 510.

In addition, the closed housing part 500 includes a recharging unit 530 that allows the dust introduced into the cyclone dust collector 520 to be taken out to the outside of the housing 510 after being stacked, A filter 540 for filtering the dust of particles smaller than the particles of dust deposited by the filter 540, and an exhaust port 540 for allowing a part of the air filtered by the filter 540 to be exhausted to the outside of the housing 510 And an air re-supply pipe 560 for allowing another part to be supplied to the wind power supply 300. [

The cyclone dust collector 520 is provided with an aspirator 522 capable of sucking dust so as to suck dust scattered in the housing 510. The dust introduced into the cyclone dust collector 520 through the aspirator And is stacked on the reinforcement 530 and taken out to the outside of the housing 510 to be discarded.

Here, the overlapping description of the closed housing part 500 will be omitted.

The closed housing unit 500 may further include a dust control plate 570 formed on the housing 510 and controlling the flow of dust scattered in the housing 510 while being rotated.

The dust control plate 570 is connected to a rotation pin 572 that rotates the dust control plate 570 at an upper portion of the housing 510 and is rotated about the rotation pin 572.

The dust control plate 570 is disposed on the upper portion of the housing 510 and rotates so that dust scattered in the housing 510 can smoothly flow to the suction unit 522 .

Here, the dust control plate 570 may be arranged close to or away from the discriminating drum unit 200 according to the intensity of the wind power supplied from the wind power supply unit 300.

That is, the dust control plate 570 is disposed farther away from the discriminating drum unit 200 as the wind force of the wind power supply unit 300 becomes stronger. As the wind force of the wind power supply unit 300 becomes weaker, Are arranged close to each other in the discriminating drum unit 200.

As a result, the dust control panel 570 is configured such that the wind of the wind power supply unit 300 flows while hitting the dust control plate 570, and the scattered dust, which is flowed by the wind, flows smoothly into the inhaler 522 .

With this configuration, the fuel material sorting apparatus using wind power according to the present invention can easily separate combustible materials or incombustible materials such as stones, So that the energy can be recycled.

In addition, by separating the nonflammable material according to the specific gravity and the weight, it is possible to secure the material capable of producing the solid fuel product and obtain the technical effect to improve the fuel energy utilization efficiency.

In addition, since the non-combustible material which is difficult to use as energy and the non-combustible material which does not react with magnetism are easily separated to produce the material of the solid fuel product, the technical effect to improve the energy recycling efficiency can be obtained.

In addition, since the waste can be applied to the waste treatment facility as waste fuel of the form of flouffe by only sorting the waste, the waste can be utilized at the fuel level, so that the technical effect to improve the waste energy efficiency can be obtained .

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is to be understood that the invention may be embodied in many other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

10: Waste
100: preprocessing unit 110:
120: conveying conveyor
200: selection drum unit 210: rotary drum
220: rotation controller 222: chain
224: gear 226: motor
230: feed guide protrusion 240: height adjuster
242: cylinder 244: piston
246: Support plate
250: Weight selection hole 252: Exit
260: stationary drum
262: Bearings
300: wind power supply 310: supply nozzle
320: wind tunnel 330: blow fan
340: Angle adjusting pin
400: Weighing section selection section 410:
500: sealed housing part 510: housing
520: Cyclone dust collector 522: Aspirator
530: Reintegration 540: Filter
550: exhaust port 560: air re-supply pipe
570: dust control panel 572: rotation pin

Claims (11)

A pretreatment unit 100 for cutting and moving municipal waste or industrial waste to a predetermined size;
A sorting drum unit 200 for sorting the waste 10 to be used according to the weight set in the pretreated waste 10 supplied from the pre-processing unit 100 by rotation;
A wind power supply unit 300 for supplying wind to the inside of the selection drum unit 200 to allow waste 10 having a weight less than a predetermined weight to pass through the selection drum unit 200;
A weight sorting unit 400 for additionally sorting wastes 10 usable as fuel according to the set weight in the waste 10 falling through the sorting drum unit 200; And
The dust collecting unit 200 encloses and seals the sorting drum unit 200 and the weight sorting unit 400 and collects scattered dust scattered by the wind power supply unit 300 in the waste 10 passing through the sorting drum unit 200 And a hermetically sealed housing part (500) for removing the fuel material.
The method according to claim 1,
The preprocessing unit (100)
A cutter 110 for pretreating the waste 10 supplied to the pretreatment unit 100 to be cut to 15 to 30 cm,
And a conveying conveyor (120) for allowing the waste (10) cut by the cutter (110) to be moved to the discriminating drum unit (200).
The method according to claim 1,
The sorting drum unit 200 includes:
A rotary drum 210 in the form of a cylinder for sorting the waste 10 according to the weight of the waste 10 after the waste 10 is introduced from the pre-processing unit 100,
A fixed drum 260 extending through the rotary drum 210 and connected through a bearing 262 which can be fixed irrespective of the rotation of the rotary drum 210,
A rotation controller 220 connected to an outer surface of the rotary drum 210 to rotate the rotary drum 210,
A plurality of projections formed on the inner surface of the rotary drum 210 so as to be spaced apart from each other so as to be conveyed by the wind power of the wind power supply unit 300 while the waste 10 flowing into the rotary drum 210 is spaced apart A guide protrusion 230,
The fixed drum 260 is provided at a lower portion of the fixed drum 260 adjacent to the weight sorting unit 400 so that the fixed drum 260 can be raised and lowered while being vertically raised and lowered, A height adjuster 240 for adjusting the tilt,
The wastes 10 which are formed in the inner lower portion of the end of the rotary drum 210 at a position adjacent to the wind power supply unit 300 and which are supplied from the pretreatment unit 100 and fall down, And a weight selection hole (250) for allowing the fuel to be stacked while being stacked.
The method of claim 3,
The rotation controller (220)
A chain 222 linked to the outer surface of the rotary drum 210 to rotate with the rotary drum 210,
A gear 224 connected to the chain 222 and rotated,
And a motor (226) coupled to the gear (224) to provide power to rotate the gear (224).
The method of claim 3,
The height adjuster 240,
A cylinder 242 disposed at an outer lower portion of the fixed drum 260 at a position adjacent to the weight sorting unit 400,
And a piston (244) connected to the fixed drum (260) while reciprocating in and out of the cylinder (242) to change the inclination of the rotary drum (210).
The method of claim 3,
In the lower part of the weighing hole 250,
Further comprising a take-out compartment (252) for stacking the waste (10) falling into the weight sorting hole (250) and then taking it out of the rotary drum (210).
The method according to claim 1,
The wind power supply 300 includes:
A plurality of supply nozzles 310 for supplying wind to the inside of the discriminating drum unit 200,
A wind tube 320 for supporting the respective supply nozzles 310 and allowing the wind to flow therein,
A blowing fan 330 for generating air so that wind can be supplied to the wind pipe 320,
And an angle adjusting pin 340 formed to interconnect the supply nozzle 310 and the wind pipe 320 to adjust a direction in which the supply nozzle 310 supplies wind,
Wherein the supply nozzle (310) is rotated about the angle adjusting pin (340) to adjust the angle of spray of wind.
The method according to claim 1,
The weight segmentation unit 400 includes:
And a plurality of partition plates (410) that pass through the sorting drum unit (200) so that wastes (10) falling down at different dropping points according to their weight can be partitioned and stacked, respectively.
The method according to claim 1,
The closed housing part (500)
A housing 510 for enclosing the sorting drum unit 200 and the weight sectioning unit 400,
A cyclone dust collector 520 disposed inside the housing 510 to suck and collect dust scattered in the housing 510,
A recharging unit 530 connected to the lower part of the cyclone dust collector 520 to allow the dust introduced into the cyclone dust collector 520 to be stacked and then be taken out to the outside of the housing 510,
A filter 540 connected to an upper portion of the cyclone dust collector 520 to filter dust particles smaller than the dust particles deposited by the dust collector 530,
An exhaust port 550 connected to the filter 540 so that a part of the air filtered by the filter 540 can be exhausted to the outside of the housing 510,
And an air re-supply pipe (560) connected to the filter (540) so that another part of the air filtered by the filter (540) can be supplied to the wind power supply part (300) Sorting device.
The method of claim 3,
The conveying guide protrusion 230 is provided with a plurality of
Is formed in a spiral shape in the rotary drum (210) so that the waste (10) is conveyed along the spiral by the wind power of the wind power supply part (300).
10. The method of claim 9,
The closed housing part (500)
And a dust control plate (570) formed on the upper portion of the housing (510) and controlling the flow of dust scattered in the housing (510) while being rotated.

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