KR102610194B1 - Waste treatment and aggregate manufacture system - Google Patents

Abstract

The present invention uses crushers, sorters, coanda machines, vortex machines, pulse machines, hollow tubes, blowers, wind machines, complex wind machines, multi-stage wind machines, etc. to sort waste, waste concrete, construction waste, mixed waste, etc. It relates to devices, methods, and systems for processing through crushing, separation, recycling, recycling, etc., and producing soil, stone dust, aggregate, recycled aggregate, etc.

Description

Waste treatment and aggregate manufacture system

The present invention relates to devices, equipment, instruments, methods, methods, methods, etc. related to the selection, crushing, separation, pulverization, grinding, peeling, processing, production, aggregate production, recycled aggregate production, etc. of waste, waste concrete, construction waste, mixed waste, etc. It is about systems, combined wind turbines, multi-stage wind turbines, etc.

Waste, by-products, waste materials, sludge, soil, etc. are generated depending on human or industrial activities, and the amount of this generation is further increasing due to population growth and industrial development. Therefore, disposal of waste, sludge, etc. has become a major social problem. In addition, due to nature protection, pollution prevention, civil complaints, and the NIMBY phenomenon, it is becoming more difficult to dispose of waste and sludge due to difficulties in establishing landfills, incinerators, and prohibition of ocean dumping.

Therefore, waste, sludge, waste concrete, construction waste, etc. are considered as resources, and interest in their recycling is increasing. Based on this, laws and regulations on waste recycling have been enacted, waste recycling is becoming mandatory, and the mandatory rate is increasing. In order to recycle and recycle waste, sludge, etc., it is necessary to sort, crush, dehydrate, and treat them. To date, various types of sorting technology, crushing technology, dehydration technology, and processing technology have been developed. However, what is important is the development of technologies that increase the efficiency of sorting, crushing, dewatering, and processing.

The present invention aims to solve the problem of increasing the efficiency of sorting, crushing, processing, recycling, etc. of waste, sludge, waste concrete, construction waste, etc., and especially improving the sorting efficiency of waste by using a combined wind turbine. .

In order to solve the above problem, the present invention includes a) a Coanda machine, a vortex machine, a pulse machine, a hollow cylinder, a blower, a combined wind machine, a multi-stage wind machine; b) Waste disposal facilities, devices and systems in which they are incorporated; c) Devices and methods for processing waste, sludge, waste concrete, construction waste, etc. by sorting, crushing, separating, recycling, recycling, aggregate production, recycled aggregate production, etc.; etc. are designed.

The present invention relates to the above Coanda wind turbine to multi-stage wind turbine; instruments, devices, equipment, sorters, shredders, processors and systems equipped with one or more of these; Sorting, separation, crushing, grinding, recycling, mortar removal, dust removal, moisture removal, cement removal, foreign matter removal, aggregate production, recycled aggregate, etc. using waste, by-products, waste materials, sludge, recycled soil, recycled aggregate, etc. It provides the effect of improving production efficiency. In particular, it provides a composite wind turbine that effectively removes foreign substances and lightweight objects by blowing Coanda wind through a Coanda machine, Vortexram through a vortex machine, pulse wind through a pulse machine, and steady-flow wind through a hollow tube to the waste.

Figure 1 is a schematic diagram showing a combined wind turbine according to the present invention.
Figure 2 is a schematic diagram showing that foreign substances are selected from waste by the combined wind turbine according to the present invention.
Figure 3 is a schematic diagram showing a composite wind turbine that sorts foreign substances from waste falling from the vibrating screen separator according to the present invention using wind power.
Figure 4 is a schematic diagram showing a composite wind turbine including a composite nozzle according to the present invention.
Figure 5 is a schematic diagram showing a composite wind turbine that separates foreign substances from waste falling from the vibrating screen separator according to the present invention with a composite nozzle.
Figure 6 is a schematic diagram showing the nozzle body of the combined wind turbine according to the present invention.
Figure 7 is a schematic diagram showing the connection structure of a composite nozzle and a composite device according to the present invention.
Figure 8 is a schematic diagram showing a composite nozzle, composite device, and vibrating screen separator according to the present invention.
Figures 9 and 10 are schematic diagrams showing a combined wind turbine and a vibrating screen separator according to the present invention.
Figure 11 is a schematic diagram showing the side of the combined wind turbine according to the present invention.
Figures 12, 13, and 14 are schematic diagrams showing the front of the combined wind turbine according to the present invention.
15, 16, and 17 are schematic diagrams showing details of the combined wind turbine according to the present invention.
Figure 18 is a schematic diagram showing a vortex body according to the present invention.
Figures 19 and 20 are schematic diagrams showing the direction, pressure, and speed of the wind generated from the vortex body according to the present invention.
Figures 21, 22, 23, and 24 are schematic diagrams showing a wind turbine according to the present invention.
Figure 25 is a schematic diagram showing the waste treatment process according to the present invention.

The present invention is a waste sorting and recycled aggregate production system including a coanda machine, a vortex machine, a pulse machine, a hollow cylinder, a blower, a vortex ring, a venturi, a cyclone, a wind tunnel, a composite wind turbine, a multi-stage wind turbine, etc., or a It relates to waste sorting systems, recycled aggregate production systems, waste sorting and recycled aggregate production systems, etc., which include wind turbines and multi-stage wind turbines.

The present invention relates to a) waste, waste, sludge, construction waste, construction waste, industrial waste, concrete waste, construction site waste; b) Among them, one input, input, feeding, feeding, crushing, crushing, sorting, separation, separation, treatment, particle crushing, foreign matter selection, light weight separation, size crushing, particle size selection, particle size separation, primary crushing, Primary sorting, primary separation, secondary crushing, secondary sorting, secondary separation, tertiary crushing, tertiary sorting, tertiary separation; c) A hopper, hopper, input machine, feeder, feeder, feeding machine, crusher, crusher, sorter, separator, separator, processor, treater, primary crusher, primary sorter, primary separator, secondary crusher, secondary separator, secondary separator, crusher, jaw crusher, jawcrusher, double jaw crusher, dounle jawcrusher, cone crusher, concrusher, wind separator, wind power separator, dry separator, dry type separator, water separator, wet separator, wet type separator , specific gravity separator, magnetic separator, human separator, screen sorter, vibrating screen sorter; d) Producing and recycling soil, aggregate, recycled soil, recycled aggregate, recycled soil, recycled aggregate, etc. by one or more of the above; e) Devices, equipment, facilities, systems, methods, methods, methods, crushing devices, crushing equipment, crushing facilities, crushing systems, crushing methods, crushing methods, sorting devices, sorting equipment that perform one or more of the above or are equipped with one or more of the above, Sorting facility, sorting system, sorting method, sorting method, processing device, processing equipment, processing facility, processing system, processing method, processing method; f) Soil, aggregate, recycled soil, recycled aggregate, recycled soil and recycled aggregate produced, circulated or recycled by one or more of the above; g) Two or more of the above, composite, composite device, composite device, composite material, composite material; It is about etc. In the present invention, the waste or construction site waste is processed by the hopper or composite, etc. into the input or composite, or is produced as soil, aggregate, recycled soil, recycled aggregate, recycled soil or sand, recycled aggregate, etc. is recycled. The processing includes the input to tertiary separation, etc., and the processor includes the hopper to the vibrating screen separator.

In the present invention, waste is treated using the hopper or composite, or wood, fiber, paper, metal, foreign substances, combustibles, etc. are selected, separated, and removed from the waste to produce soil, stone dust, aggregate, fine aggregate, coarse aggregate, etc. Or recycling. In the above, wood, fiber, paper, metal, combustibles, soil, stone dust, aggregate, fine aggregate, coarse aggregate, etc. can be recycled. The above wastes, sludge, etc. include waste, by-products, sludge, waste liquid, sludge, food, food waste water, waste materials, waste home appliances, waste catalyst, waste cement, waste concrete, waste cars, waste furniture, waste automobiles, waste electrical appliances, waste electronics. These include products, designated waste, construction waste, domestic waste, municipal waste, dismantled waste, business waste, organic waste, inorganic waste, construction sludge, water treatment sludge, organic sludge, and inorganic sludge.

In the present invention, waste is largely sorted, separated, classified, and treated into inorganic matter, organic matter, combustible matter, etc. through the above inputting and combining processes. The inorganic materials are classified into soil, aggregate, minerals, metals, etc. The soil includes soil, soil, soil, and recycled soil. Aggregates include sand, gravel, crushed sand, crushed stone, and recycled aggregate. Metals include iron, copper, lead, copper, zinc, metals, non-metals, precious metals, rare metals, precious metals, non-ferrous metals, aluminum, etc. Combustible materials include paper, wood, fiber, organic materials, combustible materials, and lightweight materials, which become raw materials for fuel or pellets. The organic substances, combustibles, lightweight substances, etc. can be made into pellets, a type of solid fuel, through pelletization processes such as melting, molding, and cutting. The inorganic substances, soil, aggregate, minerals, sand, gravel, etc. contain foreign substances, which are removed through screening, separation, wind screening, water tank screening, etc. to form the above-mentioned minerals or gravel of high quality, or to improve their recycling rate. I order it. Here, lightweight materials or foreign materials include very small paper, wood, fiber, metal, lightweight materials, organic materials, foreign materials, organic foreign materials, and inorganic foreign materials that are difficult to recycle. In order to recycle soil, sand, gravel, aggregate, minerals, metals, etc. from waste, it is necessary to remove very small impurities such as foreign substances or lightweight materials. In order to obtain high-quality soil, stone dust, aggregate, fine aggregate, and coarse aggregate from waste, it is necessary to sort, separate, and remove foreign substances, lightweight materials, and combustible materials from the waste. The foreign substances, lightweight substances, combustibles, etc. include cotton, paper, wood, wood, vinyl, fiber, woven fabric, non-woven fabric, foreign substances, lightweight substances, flammable substances, floating substances, straw, organic foreign substances, and inorganic foreign substances. Soil, stone dust, aggregate, etc. obtained from waste are called recycled soil, recycled stone dust, recycled aggregate, recycled soil, recycled stone dust, recycled aggregate, etc. because waste is recycled, recycled, recycled, etc.

Claim 1 of the present invention relates to a system for producing aggregate by processing waste 110. The system includes a coanda machine 500, a vortex machine 400, a pulse machine 300, a first hollow tube 200, and blowers 1 and 6. The above system, coanda machine, vortex machine, pulse machine, first hollow common, blower, etc. are 1, 2, 3, multiple, 2 or more, 1 set, 2 sets, 3 sets, multiple sets, two. It may be provided as a set or the like. The coanda machine, vortex machine, pulse machine, and first common are each connected to the blower or to the outlet of the blower. The blower blows wind 10, and the wind 10 supplied from the blower is supplied to the Coanda machine, the vortex machine, the pulse machine, and the first hollow cylinder, respectively. The supplied wind is blown to the waste 110 falling to the front of the Coanda machine, vortex machine, pulse machine, and first hollow chamber through the Coanda machine, vortex machine, pulse machine, and first hollow chamber, respectively. Foreign substances 10 contained in the waste are scattered and selected.

In the present invention, a blower, fan, fan, blower, blower, ring blower, compressor, compressor, air compressor, air compressor, compression compressor, pneumatic machine, vacuum, air nozzle, air knife, pump, pump , vacuum pumps, impellers, impellers, etc. use wind for blowing, outflow, supply, delivery, discharge, etc. The wind blown or supplied from the blower is the following Coanda machine, the inlet formed in the hollow body of the Koanda machine, the fourth pipe, the vortex machine, the venturi, the pulse machine, the second pipe, the tube, the first hollow tube, and the first It can be blowing, supplying, providing, inputting, injecting, etc. through pipes, etc. A port, port, branch pipe, branch pipe, branch pipe, branch pipe, branch port, branch port, branch pipe, branch pipe, distribution pipe, distribution pipe, wind distribution pipe, wind distribution means, etc. are connected to the blower or its outlet. It can be. Between the blower or its outlet and the following Coanda machine, the inlet formed in the hollow body of the Coanda machine, the fourth pipe, the vortex machine, the venturi, the pulse machine, the second pipe, the tube, the first hollow tube, the first pipe, etc. The port or the wind distribution means, etc. are connected to the port, so that the wind from the blower can be input or evenly inputted to the port or the wind distribution means.

The Coanda device 500 includes a hollow body 501, an inlet 502 formed on the outer surface of the hollow body, an outlet 503 formed on the inner surface of the hollow body, and a step 504 formed on the inner surface spaced apart from the outlet. ), a hollow portion 505 formed between the inlet and the outlet or between the outer surface and the inner surface, a curved portion 506 formed on the inner surface in connection with the outlet, and a straight portion formed on the inner surface while associated with the curved portion. (507), a passage 508 formed inside the inner surface, curved portion, and straight portion and passing through the center of the hollow body, one side of the hollow body 501, and the other side of the hollow body 501. This is shown in Figure 10, etc. The Coanda device is Coanda, Coanda device, Coanda device, Coanda device, Coanda device, Coanda facility, Coanda equipment, Coanda system, device in which Coanda phenomenon occurs, negative pressure (負壓) on the curved part ) is generated, equipment in which negative pressure is generated in the curved part, equipment in which negative pressure is generated in the curved part when fluid or wind passes through the curved part, Coanda, Coanda tool, Coanda machine, Coanda This includes equipment, Coanda facility, Coanda system, etc.

The passage 608 has a penetrating structure, the interior and one side 510 and the other side 511 of the passage are open portions, and has a hollow structure penetrating from one side 510 to the other side 511. The outlet 503 includes an outlet, a ring-shaped outlet, a slot-shaped outlet, a ring-slot-shaped outlet, an outlet formed on the inner surface of the hollow body, an outlet formed in a ring shape on the inner surface of the hollow body, and an inner surface of the hollow body. an outlet formed in a round ring shape, an outlet formed in a ring slot shape on the inner surface of the hollow body, an outlet formed in a round ring slot shape on the inner surface of the hollow body, an outlet formed in the circumferential direction of the inner surface of the hollow body, the hollow body an outlet formed in a circular circumferential direction along the inner surface, an outlet formed on the outer periphery of the passage, an outlet formed on the inner periphery of the passage, an outlet formed on the outer periphery of the passage which is the inner surface, an outlet formed on the outer periphery of the passage, an outlet formed in a ring shape on the outer periphery of the passage. These include an outlet, an outlet formed in a ring shape on the inner surface, which is the outer circumference of the passage, and an outlet formed in a ring shape on the outer circumference of the passage, which is the inner surface. The step 504 is a ledge, a wall, a wall, a plate, a stand, a pole, a staircase, a step, a hill, a protrusion, a protrusion, a guide plate, a guide plate, and the wind flowing out from the outlet is directed to the other side of the curved portion or passage. It is a guide board that points to .

The blowing wind 10 supplied from the blowers 1 and 6 sequentially passes through the inlet, hollow part, outlet, curved part, and straight part and is discharged to the other side 511 of the passage. In the present invention, wind or blowing wind supplied from a fan, rotating fan, blowing fan, blower, impeller, blower, compressor, etc. is sequentially discharged to the other side of the passage through the inlet, hollow part, outlet, curved part, and straight part. possible. At the moment the blowing wind passes through the curved portion 506 or when the blowing wind is discharged to the other side 511 of the passage, external wind flows in, injects, inputs, inserts, and flows into one side 510 of the passage. , pressing, pressurizing, blowing, etc. At the moment the blowing wind passes through the curved portion, wind such as positive pressure or negative pressure is generated in the curved portion. Wind from outside one side of the passage may flow into the interior of the passage due to the negative pressure.

The external wind is external wind, external wind on one side of the passage, external wind outside the passage, external wind outside the passage, fan wind, blower wind, impeller wind, blower wind, compressor wind; Wind flowing into the inside of the passage from the outside of one side of the passage, external wind flowing into the inside of the passage from the outside of one side of the passage, Coanda flowing into the inside of the passage from the outside of one side of the passage External wind on one side of the gi or koandagi; Wind that flows into the inside of the passage from the outside of one side of the passage due to the negative pressure generated when the wind blows through the curved part or the Coanda effect or the negative pressure caused by the Coanda effect, or The external wind or compressor wind supplied or provided, blown or introduced from one side of the passage or outside; Powered or non-powered wind; Said wind, whether powered or non-powered; etc. are applicable.

External wind introduced into one side 511 of the passage passes through the passage 508 and heads to the other side 511 of the passage. A fourth pipe 520 is provided spaced apart from the hollow body 501 or the coanda, and the blowers 1 and 6 or the blower wind branch port 230 are connected to one side 521 of the fourth pipe. . The wind 10 from the blower introduced into one side 521 of the fourth pipe passes through the fourth pipe and heads to the other side 522 of the fourth pipe. A fourth hollow common 530 is connected to the other side 511 of the passage and the other side 522 of the fourth pipe, and a fourth curved portion 531 and a fourth hollow common 530 are formed inside the fourth hollow common 530. Straight sections 532 are sequentially provided, and a fourth nozzle 540 is provided at the outlet 540 of the fourth hollow common 530. The blowing wind 10 and external wind supplied from the other side 511 of the passage 508 pass through the fourth hollow pipe 530 and are discharged through the fourth nozzle 540. The wind 10 of the blower supplied from the other side 522 of the fourth pipe passes through the fourth hollow pipe 520 and is discharged through the fourth nozzle 540. The wind 10 discharged from the fourth nozzle 540 is blown to the waste 110 falling to the front of the fourth nozzle, so that the foreign matter is scattered from the waste, and the foreign matter 120 is selected from the waste. In the Coanda machine, the blowing wind and external wind flowing in from the inlet, hollow part, outlet, one side of the passage, etc. are blown into the inside, the curved part, the straight part, the other side of the passage, the inlet of the fourth hollow common, and the fourth hollow common. , foreign substances, lightweight materials, etc. are scattered from the waste discharged through the fourth common exit, the fourth nozzle, etc. and fall to the front of the fourth nozzle, and foreign materials and lightweight materials are sorted or separated from the waste.

The vortex group 400 is composed of a venturi 410 and a reverse cyclone 420 in that order. The vortex machine is a vortex, a vortex machine, a vortex device, a vortex device, a vortex device, a vortex facility, a vortex facility, a vortex system, a device that generates a vortex phenomenon, a device that generates a vortex when fluid or wind passes through it, and a negative pressure in the reduction part. Equipment that generates negative pressure, equipment that generates negative pressure in the reduced part when fluid or wind passes through the reduced part, vortex machine, vortex body, vortex generator, vortex or whirlpool, aeration, cavitation, etc. This includes a generating mechanism, a mechanism forming the vortex or cavitation, a mechanism generating the vortex or cavitation, votex, votex tool, votex machine, votex equipment, votex facility, votex system, etc. The venturi is a venturi, a venturi tube, a venturi tube, a venturi passage, a venturi hole, a venturi tunnel, a hollow venturi body, a device that generates negative pressure in the reduction part, and a negative pressure in the reduction part when fluid or wind passes through the reduction part. This includes devices that generate vortices, devices that generate vortices in the expanded part, devices that generate vortices in the expanded part when fluid or wind passes through the reduced part, venturi, venturi pipe, venturi tube, etc. The venturi may be provided with an expansion part, an expansion part, a reduction part, a microtubule, etc.

The venturi is composed of an expansion portion 411 and a contraction portion 413 that are adjacent to each other, and a vane 412 is built into the interior or expansion portion of the venturi. The vane is a vane, a knife, a blade, a board, a plate, a stand, a piece, a plank, two or more vanes or boards, two or more vanes or boards provided radially around the center, and a central axis. This includes two or more vanes or boards provided radially. A rotating body 421 is built into the reverse cyclone 420, and the reverse cyclone is differentiated from a reverse cyclone, a cyclone with an inlet at the bottom and an outlet at the top, and a cyclone with an inlet at the top and an outlet at the bottom. Cyclone, cyclone, reverse cyclone, etc. The wind supplied from the blowers 1 and 6 blows through one side 416 of the venturi, the inside of the venturi, the inside of the expanded part of the venturi, the inside of the reduced part of the venturi, the other side 417 of the venturi, and one side 422 of the reverse cyclone. It sequentially passes through the lower part 422 and the inside of the reverse cyclone and is discharged to the other side 423 or the upper part 423 of the reverse cyclone. When the wind 10 passes through the inside of the venturi, the wind hits the vane 412 and becomes a vortex, and when the wind 10 passes through the inside of the reverse cyclone, the inside of the reverse cyclone The rotating body 421 provided in is rotated, and the wind 10 passing through the inside of the reverse cyclone 420 is rotated or centrifugally rotated by the rotation of the rotating body 421, and the wind is rotated by the rotation. (10) becomes a vortex.

The inlet 431 of the third hollow common 430 is connected to the other side 423 of the reverse cyclone, and a spring 433 is built into the third hollow common 430. The spring may be a spring, a spring, a spiral, a spiral body, a screw, or a screw body. These include rotating lines, spiral lines, twisted lines, vortex lines, tunnels, wind tunnels, spring tunnels, tunnel springs, rotating line tunnels, spiral line tunnels, wind tunnels, and wind tunnels. A third nozzle 440 is provided at the outlet 440 of the third common. The nozzle includes a nozzle, a string nozzle, a slot nozzle, a long string nozzle, a long slot nozzle, a string nozzle that is longer than the width, a slot nozzle that is longer than the width, and a nozzle with a width of 3 cm and a length of 130 cm. etc. are applicable. The wind 10 supplied from the other side 423 of the reverse cyclone passes through the third hollow common 430 and is discharged through the third nozzle 440. When the wind 10 passes through the interior of the third hollow tube 430, the wind hits the spring 433 and becomes a vortex. The wind 10 discharged from the third nozzle 440 sequentially passes through the inlet and the inside of the third hollow common and is blown to the waste 110 falling to the front of the third nozzle, scattering foreign substances from the waste. Thus, foreign substances 120 are selected from the waste.

The pulser 300 consists of a second pipe 301, a tube 302, a valve 303, a solenoid 304, and a timer 305. The pulse machine is a pulse, a pulse machine, a pulse device, a pulse device, a pulse device, a pulse facility, a pulse facility, a pulse system, a device that generates a pulse phenomenon, a device in which pulse pressure is injected when fluid or wind passes through, wind or air. This includes devices that repeat injection and stopping at regular intervals, pulse, pulse tool, pulse machine, pulse equipment, pulse facility, pulse system, etc. The tube 302 is installed in the second pipe 301, the valve 303 is installed in the tube 302, the solenoid 304 is connected to the valve 303, and the solenoid ( The timer 305 is linked to 304). The solenoid 304 is a coil wound around a hollow tube, an electric wire is connected to the coil, electricity is supplied to the coil through the electric wire, and when electricity is supplied to the coil, a magnetic field is generated in the hollow tube coil. This occurs, and when electricity is not supplied to the coil, a magnetic field is not generated in the hollow passing coil. When the magnetic field is generated, the valve is lifted by the magnetic force of the magnetic field and the valve is opened, thereby opening the point of the tube where the valve is installed. If the magnetic field is not generated, the magnetic force is not generated and the valve is lowered by its own weight and the valve is closed, thereby closing the point of the tube where the valve is installed. The timer 305 adjusts the time interval between the supply and non-supply of electricity so that the supply and non-supply of electricity is repeated two or more times. By adjusting the time interval of the electricity supply, the generation or non-generation of the magnetic field is repeated two or more times, and the valve opens and closes repeatedly two or more times.

The wind 10 supplied from the blowers 1 and 6 is discharged to one side 311 of the second pipe, the inside of the second pipe, and the other side 312 of the second pipe. Air supplied from the compressor flows into the tube 302. The compressor is mounted and spaced apart from the coanda machine, vortex machine, pulse machine, first hollow chamber, and blower. The air may be air or wind supplied by a fan, blower, impeller, blower, compressor, etc. Air supplied from the compressor is introduced into the second pipe 301 through the tube 302. By the timer 305, the opening and closing of the valve installed in the tube is repeated two or more times, and the injection and stopping of air introduced into the second pipe through the tube is repeated two or more times. The injection and stopping of the air is repeated two or more times as the wind 10 passes through the second pipe 301. The injection and stop of the air is repeated two or more times, so that the air becomes pulse air or pulsed air, which is injected in a pulsating manner, and is injected into the wind passing through the second pipe, so that the wind becomes pulsed wind or pulsed wind. Either this, a pulse pressure is generated in the wind, or the wind is vortexed by pulsed air. The above vortices include vortex, aeration, whirlpool, vortex, votex, whirlpool, hurricane, cyclone, cavitation, etc. The inlet 321 of the second hollow pipe 320 is connected to the other side 312 of the second pipe. The inlet of the second common may be connected to the other side of the second pipe, tube, etc. A second nozzle 330 is provided at the outlet 330 of the second hollow common 320. The wind 10 discharged from the second nozzle 330 sequentially passes through the inlet and the inside of the second hollow tube 320 and is blown to the waste 110 falling to the front of the second nozzle. The foreign matter scatters and the foreign matter 120 is selected from the waste.

A first pipe 202 is provided on one side of the first hollow common 205. The hollow cylinder includes a cylinder, passage, hole, box, tunnel, duct, long cylinder, hollow cylinder, hollow body, quadrangular cylinder, pentagonal cylinder, polygonal cylinder, cylinder, quadrangular duct, polygonal duct, cylindrical duct, internal hollow cylinder, etc. This applies. The blowers 1 and 6 or their branch ports 230 are connected to one side 201 of the first pipe. The wind 10 supplied from the blowers 91 and 6 blows through one side 201 of the first pipe, the inside of the first pipe, the other side 203 of the first pipe, one side 204 of the first hollow pipe, and the first pipe 201. It sequentially passes through the interior of the first common and the exit 206 of the first common. A first nozzle 207 is provided at the outlet 207 of the first hollow common. The wind 10 discharged from the outlet or the first nozzle 207 sequentially passes through the inlet and the inside of the first hollow pipe 205 to the waste 110 falling on the front of the first nozzle 207. The foreign matter 120 is blown out from the waste by blowing, and the foreign matter 120 is selected from the waste.

The system is equipped with a shredder separated from the sorter consisting of the Coanda machine 500, the vortex machine 400, the pulse machine 300, the first hollow tube 200, and the blowers 1 and 6. The processing includes shredding of the waste and sorting of the waste, and after the shredding of the waste, the sorting of the waste occurs. Examples of the above processing include waste shredding, waste sorting, waste sorting and shredding, waste sorting and then shredding, waste sorting and then sorting, waste sorting and shredding performed two or more times each, processing the waste through the process of Figure 25, etc. It is done. The crushing is to crush the waste, and by the crushing, the waste becomes pulverized aggregate. The selection is to select foreign substances from the waste or aggregate. The crushing is performed by the crusher, the selection is performed by the selector, and the processing; Alternatively, aggregate with foreign substances selected through crushing and screening is produced.

The aggregate includes aggregate, recycled aggregate, recycled aggregate, recycled aggregate, aggregate contained in waste, and crushed waste aggregate. Wind turbines, composite wind turbines, multi-stage wind turbines, Coanda wind turbines, vortex wind turbines, pulse wind turbines, composite, complex, combine, multi by the above-mentioned Coanda machine, vortex machine, pulse machine, hollow tube, blower, nozzle, etc. , multi step separator or wind power separator, etc. are built. Complex winds such as Coanda wind in the Coanda machine of the present invention, votex wind in the vortex machine, pulse wind in the pulse machine, and steady wind in the first common wind. (comples wind) is emitted. The wind turbine of the present invention includes a complex device such as the Coanda machine, vortex machine, pulse machine, hollow tube, blower, nozzle, and four nozzles. The system of the present invention is a complex system that includes a crusher, sorter, coanda machine, vortex machine, pulse machine, hollow tube, blower, nozzle, and 4 nozzles.

In the present invention, a separator, a separator, a wind turbine separator (100), a multi-stage wind separator (100), a first wind separator (101), a second wind separator (102), a wind turbine separator (100), a dry separator (100), Dry sorting device (100), waste sorting machine, waste sorting device, sorting machine (100) for sorting waste (110), sorting device for sorting waste, sorter for sorting waste (100) with wind or wind power (11, 12) (100), a sorting device (100) for sorting waste (110) by wind or wind power (11, 12), a device for producing recycled aggregate by sorting, a device for producing recycled aggregate by sorting waste, waste (100) A device that produces recycled aggregate 130 by selecting lightweight materials 120 or foreign materials 120, a device that selects lightweight materials or foreign materials from waste and produces the remaining recycled aggregate 130, etc. can be used. .

The present invention relates to a steady wind (11) through the fan (6), discharge port (7), and first nozzle (70) of the first wind turbine (101) and the fan (6) of the second wind turbine (102). ), two types of vortex wind (12, votex wind) through discharge port (8), vortex body or coanda machine (20), venturi (40, 50), cyclone (60), second nozzle (80), etc. Provided is a combined wind turbine (100) that blows wind to the waste (110) to effectively remove the lightweight material (120). Here, vortex ring becomes vortex type or koandagi.

The above sorting machines or devices include a vortex body (20), a vortex frame (20), a vortex ring (20), a vortex cylinder (20), votex body, votex form, votex mold, votex ring, votex module, votex frame, and vortex. Sieve, vortex frame, vortex ring, vortex vessel, vortex sieve, vortex frame, vortex ring, vortex vessel, vortex body, vortex frame, vortex ring, vortex vessel, vortex or sieve or frame or ring or vessel that forms a vortex or whirlpool. , a sieve, frame, ring, or barrel that generates a vortex, whirlpool, or whirlpool (20) is provided. In the vortex font 20, the vortex corresponds to a vortex, votex, vortex, whirlpool, whirlpool, etc., and the sieve refers to a sieve, body, frame, ring, tube, membrane, plate, sheet, body, form, module, mold. , ring, frame, etc. The vortex body or vortex ring may be the vortex body or vortex tube. Wind, air, substances, fluids, objects, etc. pass through the vortex or vortex, and the passing wind, air, substances, fluids, objects, etc. form vortices, vortices, votex, vortices, eddies, whirlpools, etc. Cavitation, cavation, etc. are generated, or the vortex or cavation is generated in the passing wind, air, material, fluid, object, etc., or the vortex or cavation is generated in the vortex or vortex.

The vortex body 20 or the coanda group is sequentially placed in an inner hollow, cylinder, cylinder, round cylinder, square cylinder, polygonal cylinder, inner hollow cylinder, inner hollow cylinder, and inner hollow spaced apart from each other in the direction from the inside to the outside. It consists of a first body (21), a second body (22), a third body (23), and a fourth body (24) such as a round cylinder, an internal hollow square cylinder, and an internal hollow polygonal cylinder. The vortex body or coanda group may be a quadruple body, a quadruple body, a multiple body, a large body, etc., which are composed of four layers with the first body, the second body, the third body, and the fourth body being spaced apart from each other. In the first body (21), second body (22), third body (23), fourth body (24), etc., the sieve is a sieve, body, frame, ring, tube, membrane, plate, sheet, body, body. , form, module, mold, ring, frame, etc. Among these, the ring may be given priority, and in this case, the vortex body or coanda body is composed of four rings with the first ring, second ring, third ring, and fourth ring spaced apart from each other, such as quadruple ring, four heavy ring, and multiple ring. It can be a ring, a heavy ring, etc. In the vortex body, the vortex is the wind passing through the vortex body itself or the wind passing through the first body, second body, third body, fourth body and the hollow part between them, etc., which constitutes the vortex body. Since it becomes a vortex, cavation, etc., it is derived from a vortex that represents or represents the vortex, cavation, etc.

The inner diameter, outer diameter, diameter, size, length, extension, width, thickness, width, height, etc. of the first body 21, the second body 22, the third body 23, and the fourth body 24, etc. Scale, size, volume, area, size, spacing, spacing between, mutual spacing, hollow part, hollow part between, mutual hollow part, etc. can be the same, different, different, different, sequentially different, etc. Examples of this include the inner diameter of the first body 10 cm, the inner diameter of the second body 11 cm, the inner diameter of the third body 20 cm, the inner diameter of the fourth body 30 cm, the length of the first body 5 cm, the length of the second body 7 cm, and the length of the third body. 10cm, length of the 4th body 30cm, gap between the 1st and 2nd bodies 0.5cm, gap between the 2nd and 3rd bodies 4.5cm, gap between the 3rd and 4th bodies 5cm, 1st body The width of the hollow part between the and the second body is 0.5 cm, the width of the hollow part between the second and third bodies is 4.5 cm, the width of the hollow part between the third and fourth bodies is 5 cm, etc. In the above, sizes or numbers such as 10, 11, 20, 30, 5, 7, 10, 30, 0.5, 4.5, 5 are constants, cardinal numbers, arbitrary numbers, free numbers, 1~100, 1~1000, 1~10000. It can be replaced with, etc., and cm can be replaced with m, mm, nm, μm, etc.

The second body 22 is spaced apart from the exterior or outer surface of the first body 21 or the inner surface of the second body is mounted, and the third body is spaced apart from the exterior or outer surface of the second body 22. The body 23 or the inner surface of the third body is mounted, and the fourth body 24 or the inner surface of the fourth body is mounted spaced apart from the outside or outer surface of the third body 23. Spaces, voids, gaps, hollow parts, etc. may be formed in the spaced apart areas. A hollow portion 27 is formed in the interior 27 of the first body 21, a hollow portion 28 is formed between the first body and the second body, and the second body and the third body are formed. A hollow part 29 is formed between them, and a hollow part 30 is formed between the third body and the fourth body. Hollow parts 27, 28, 29, and 30 are formed inside or on the inner surface of the first body 21, second body 22, third body 23, fourth body 24, etc. A hollow portion 27 is formed inside 27 of the first body 21. A hollow portion 28 is formed between the first body or the outside of the first body and the second body or the inside of the second body. A hollow portion 29 is formed between the second body or the outside of the second body and the third body or the inside of the third body. A hollow portion 30 is formed between the third body or the outside of the third body and the fourth body or the inside of the fourth body.

A plate ( 26) is provided. The vortex body 20, first body, second body, third body, fourth body; One side of one or two of them (31), whole, part, part, separation, between, space; The back may be equipped with a plate, membrane, sheet, curtain plate, iron plate, stopper, cover, cover, finishing material, blocking material, closing material, waste composite material, porous material, perforated material, closed structure, etc. (26). However, in some cases, a plate ( 26) It may have an open form or an open structure. Here, in the case of an open structure, external wind, air, pressure, etc. flows into the interior or hollow parts (27, 28, 29, 30) of the vortex body or Coanda through the open part, and the venturi at the rear end of the vortex body , cyclones, nozzles, etc.

One side 31 of the first body is fixed, mounted, provided, fixed, inserted, etc. into the plate 26. One side (31) of the second body is spaced apart (33) from the plate (26), and due to this separation, wind (12) passes between one side (31) of the second body and the plate (26). A space (28) is created. One side 31 of the third body 23 is fixed to the plate 26. A curved body 25 is provided between the other side 32 of the second body 22 and the other side 32 of the third body 23. A hollow portion 29 surrounded by the second body 22, the third body 23, and the curved body 25 is formed. The hollow parts 27, 28, 29, and 30 may be cylindrical, ring-shaped, cylindrical, or internally hollow. The plate 26 supports, supports, supports, maintains, anchors, places, separates, etc. the first body 21, the second body 22, the third body 23, and the fourth body 24. can do. The first body, second body, third body, fourth body, etc. can be supported, supported, supported, maintained, anchored, placed, spaced, etc. by the plate 26.

on the other side (32) of the second body (22); or between the other side 32 of the second body 22 and the other side 32 of the third body 23; Provided with curved bodies, curved materials, members, curved surfaces, circumferential members, curved parts, round members, round parts, arc members, arc parts, arch members, arch parts, closed composite materials, closed parts, connecting materials, connection parts, etc. (26), It can be mounted, extended, connected, linked, etc. Accordingly, the second body may be composed of its own straight portion 22 and a curved portion 25 extending therefrom, or may be composed of its own straight portion 22 and a curved portion 25 extending therefrom. In addition, the inner surface of the second body may be sequentially formed into a straight portion 22 and a curved portion 25 in the direction 32 of the other side 32 or the first venturi 40 below. The curved body or connection part 25 may be provided between the other side 32 of the second body and the other side 32 of the third body to have a closed structure 29. A closed portion, a hollow portion, a closed hollow portion, a hollow closed portion, such as surrounded, surrounded, enclosed, composed, comprised, combined, etc., of the second body 22, the third body 23, and the curved body 25. A back 29 is formed, or is surrounded by the second body 22, the other end 32 of the second body, the third body 23, the other end 32 of the third body, the curved body 25, etc. A closed portion, a hollow portion, a closed hollow portion, a hollow closed portion, etc. 29 are formed.

The first body 21, the second body 22, the third body 23, the fourth body 24, etc. are a) straight lines, straight parts, and straight members in the direction from one side 31 to the other side 32. , straight lines, etc. are given priority, b) Other curves, curved parts, curved bodies, curved materials, curved surfaces, curved parts, curved bodies, curved materials, arches, arched parts, arched materials, etc. are also possible, and c) also straight lines, straight lines, etc. Combinations of parts, straight members, straight members, etc. with curved parts, curved parts, curved members, curved bodies, curved surfaces, curved bodies, curved surfaces, curved members, arches, arched parts, arched members, etc. are also possible. The vortex body 20, the first body 21, the second body 22, the third body 23, and the fourth body 24 have holes, holes, slots, perforations, and open holes. , an open part, a closed part, an opening part, an open part, two or more of the holes or open parts, a plurality of the holes or open parts, etc. can be formed. In the present invention, a slot refers to a slot, a slot, a hole, a groove, a hole, a perforation, an opening, an open part, a thin hole, a long hole, an elongated hole, a thin hole through which a material passes, a narrow hole, a narrow width and a long length. This includes a long hole, a hole through which wind passes, an elongated hole through which wind passes, the hole or open portion, etc. The slot can be used as an exit, entrance, etc.

An inlet 34 is formed between one side 31 and the other side 32 of the third body 23. The third body (23); A part of this, a point, a certain area, the middle, between one side (31) and the other side (32), between one side and the other side; Holes, holes, slots, inlets, inlets, and the like holes or inlets 34 through which wind flows are formed on the back. The inlet 34 formed in the third body or the pipe 35 connected to the inlet passes through the fourth body 24. The second discharge port 8 below is connected to the inlet 34 or pipe 35. The following second discharge port (8), its outlet (16), etc. are connected, connected, connected, fastened, combined, mounted, mounted, etc. to the inlet (34) formed in the third body or the pipe (35) connected to the inlet, It can be settlement, etc. The second wind (12) discharged from the second discharge port (9) or its outlet (16) is transmitted through the inlet (34), the pipe (35), the inlet (34) of the third body, and the pipe (35) connected to the inlet. ), etc.

The wind or second wind (12) flowing into the inlet (34) or pipe (35) of the third body is blown through the second body, the third body and the hollow portion (29) surrounded by the curved body, the second body and the third body. It is sequentially discharged through the spaced portion 33 spaced between the plates and the hollow portion 28 formed between the first body and the second body. The wind or second wind (12) flowing into the inlet (34) flows into the hollow part (29) between the second and third bodies, and the hollow part (29) surrounded by the second and third bodies and the curved body. ), a spaced portion 33 spaced apart between the second body and the plate, a hollow portion 28 formed between the first body and the second body, a curved portion 25, the interior of the curved body 25 , and is sequentially discharged through the interior of the fourth body (29).

The ventilation area of the hollow part 28 formed between the first body and the second body is a) smaller than the ventilation area of the hollow part 29 surrounded by the second body, the third body, and the curved body, and b) It is smaller than the ventilation area of the spaced portion 33 between the second body and the plate. Due to the small ventilation area, the speed of the second wind discharged from the hollow part 28 formed between the first body and the second body is a) the hollow part surrounded by the second body, the third body, and the curved body. It is greater than the speed of the second wind passing through (29), and b) is greater than the speed of the second wind passing through the spaced portion 33 spaced between the second body and the plate. The second wind 12 discharged from the hollow part 28 formed between the first body and the second body becomes a vortex due to the small ventilation area or the large wind speed. Due to the small ventilation area or large wind speed, the second wind discharged from the hollow part formed between the first body and the second body is a vortex, spiral, disturbance, typhoon, typhoon, aeration, aeration, whirlpool, and whirlpool. , cyclone, hurricane, hurricane, willy-willy, willy-willy, top flow, rotation, rotational flow, vortex rotation, whirlpool rotation, whirlpool rotation, vortex, votex, cavitation, cavitation, etc., or as a second wind. A vortex or cavitation, etc. is generated, or a phenomenon such as a vortex or cavitation is expressed in the second wind or hollow part. The vortex or vortex corresponds to the vortex or cavitation.

The second wind 12 discharged from the hollow part 28 formed between the first body and the second body is blown to the hollow straight part 22 formed inside the second body, the other side of the second body ( 32), a curved portion 25 of a curved body provided between the other side of the second body and the other side of the third body, the other side 32 of the third body, and a hollow portion 30 inside the fourth body It sequentially passes through and heads to the first venturi (40) or its extension. The direction of the second wind 12 passing through the hollow portion 36 of the interior 36 of the second body 22 is a forward direction in the section between the straight portion 22 and the curved portion 25 of the second body. Changes occur in (37), in the reverse direction (38), and at the inflection point (z in Figure 19). Here, the forward direction 37 is the direction toward the first venturi 40, the reverse direction 38 is the direction toward the plate 26, and the inflection point (z in FIG. 19) is the forward direction 37 and the reverse direction. It is a point where the two of (38) intersect or change, or a direction that is neither forward (37) nor reverse (38). Here, the position of the inflection point (z in FIG. 19) is from the inner surface (x in FIG. 19) or the inner surface (x in FIG. 19) of the second body to the inner center of the second body (y in FIG. 19). This corresponds to the daily point. At the inflection point (z in Figure 19), there is no wind, there is no wind direction, and the wind speed becomes zero (0). As an example of the direction of the second wind 12 passing through the hollow portion 36 of the interior 36 of the second body 22, see the change from x in FIG. 19 to y in FIG. 19. 1) In FIG. 19 In the case of a and b, it is the forward direction (37), the inflection point (z in Figure 19), and the reverse direction (38). 2) In the case of c in Figure 19, it is the reverse direction (38), the inflection point (z in Figure 19), and the forward direction (37). ), the inflection point (z in FIG. 19), and the reverse direction (38). 3) In the case of d, e, and f in FIG. 19, they are the reverse direction (38), the inflection point (z in FIG. 19), and the forward direction (37).

The pressure of the second wind 12 passing through the hollow portion 36 of the interior 36 of the second body 22 is a static pressure in the section between the straight portion 22 and the curved portion 25 of the second body. Changes occur due to (37), negative pressure (38), and inflection point (z in Figure 19). Here, the positive pressure 37 is a (+) pressure, the negative pressure 38 is a (-) input, and the inflection point (z in Figure 19) is the point where the positive pressure 37 and the negative pressure 38 intersect or change, or the positive pressure It is a direction that is neither 37 nor negative pressure 38. Here, the position of the inflection point (z in Figure 19) is the position of the second body on the inner surface (x in Figure 19) or the inner surface (x in Figure 19) of the second body. The point up to the inner center of the two bodies (y in Figure 19) corresponds. At the inflection point (z in Figure 19), there is no wind, there is no wind pressure, and the wind pressure becomes zero (0). As an example of the pressure of the second wind 12 passing through the hollow portion 36 of the interior 36 of the second body 22, look at the change from x in FIG. 19 to y in FIG. 19. 1) a in FIG. 19 , In the case of b, it is positive pressure (37), inflection point (z in Figure 19), and negative pressure (38). 2) In the case of c in Figure 19, it is negative pressure (38), inflection point (z in Figure 19), and positive pressure (37). , the inflection point (z in FIG. 19) and negative pressure 38. 3) In the case of d, e and f in FIG. 19, they are negative pressure 38, inflection point (z in FIG. 19), and positive pressure 37.

The speed of the second wind 12 passing through the hollow portion 36 of the interior 36 of the second body 22 is ( Changes occur in +) speed (37), (-) speed (38), and inflection point (z in Figure 19). At the inflection point (z in FIG. 19), there is no wind, no wind speed, and the wind speed becomes zero (0). As an example of the speed of the second wind 12 passing through the hollow portion 36 of the interior 36 of the second body 22, look at the change from x in FIG. 19 to y in FIG. 19. 1) In FIG. 19 In the case of a and b, it is (+) speed (37), the inflection point (z in Figure 19), and (-) speed (38). 2) In the case of c in Figure 19, it is (-) speed (38) and the inflection point ( z) in Figure 19, (+) speed (37), inflection point (z in Figure 19), and (-) speed (38). 3) In the case of d, e, and f in Figure 19, (-) speed (38) ), inflection point (z in Figure 19), and (+) speed (37). Refer to FIG. 19 for the above.

Figure 20 shows the plate 26 corresponding to the interior or hollow portion 27 of the first body 21 and the interior or hollow portion 30 of the fourth body 24 or the plate 26 meeting the section or The plate 26 to be installed may be non-installed, non-mounted, absent, hole, hole, perforated, open, open portion, etc. (m in FIG. 20), or may be installed inside or in the hollow portion 27 of the first body 21. ), the inner surface of the second body (x in FIG. ) or the direction of the wind, pressure, speed, etc. from the inner surface (x in FIG. 19) to the direction of the inner center (y in FIG. 19) of the second body. The speed of the second wind 12 passing through the hollow portion 36 of the interior 36 of the second body 22 is in the section of the straight portion 22 of the second body, the inner surface of the second body ( a due to the resistance of the second wind 12 and the inner surface (x in Figure 19) or the inner surface (x in Figure 19) of the second body. ) increases (37) toward the inner center of the second body (y in FIG. 19), or b) or increases (37) toward the inner center (x of FIG. 19) of the second body. The above increase (37) can be kept constant. The speed of the second wind 12 passing through the inside 36 of the second body is in the section of the curved portion 25, at the inner center of the second body (x in FIG. 19) Based on the inflection point or constant point (z in Fig. 19) between y) in Fig. 19, the inner surface of the second body (x in Fig. 19) decreases (38) in the direction, and the inner center of the second body (Fig. In the y) direction of 19, it increases (37). And the speed of the second wind 12 passing through the inside 36 of the second body is in the section of the curved portion 25, so that the second body It may decrease (38) and then increase (37) in the direction of the inner center (y in Figure 19). The speed of the second wind 12 passing through the inside 36 of the second body is the curved portion 25 at the surface (x in FIG. 19) of the inner surface (x in FIG. 19) of the second body. In the direction of the inner center of the two bodies (y in Figure 19), there is a large decrease (38), a small decrease (38), a decrease of 0, an inflection point, a decrease and then an increase (37), a gradual decrease (38) and then a gradual increase (37). , Gradually increase (37), gradually increase (37), decrease (38), gradually increase (37), increase (37), gradually increase (37), slightly increase (37), gradually increase (37), and then It could be a schedule, etc. For the above, refer to FIG. 20.

In areas where the second wind (12) has forward direction (37), positive pressure (37), positive speed (37), speed increase (37), etc., the second wind (12) is directed to the other side of the second body. It flows in steady state flow in the direction of (32). In areas where the second wind (12) has reverse direction (38), negative pressure (38), negative speed (38), speed reduction (38), etc., the second wind (12) blows to the other side of the second body. It flows in the direction of (32) and becomes a vortex. In areas where the second wind has a reverse direction (38), negative pressure (38), negative speed (38), and speed reduction (38), the second wind moves in the direction of one side of the second body (31), While flowing in the reverse direction (31) of the direction in which the second wind passes, in the reverse direction (31) opposite to the forward direction in which the second wind passes, etc., vortices, spirals, disturbances, typhoons, tornadoes, whirlpools, top flows, rotational flows, etc. It becomes a vortex, votex, cavitation, cavitation, etc., or the vortex or cavitation, etc. is generated in the second wind, or the vortex or cavitation, etc., occurs in an area where the speed of the second wind or wind is reduced. . The forward direction 38 through which the second wind passes is the hollow straight portion 22 formed inside the second body, the other side 32 of the second body, and the other side of the second body. It is a direction that sequentially passes through the curved portion 25 of the curved body provided between the other sides of the third body and the other side 32 of the third body.

One side 31 of the fourth body 24 is fixed to the plate 26, a closing plate, a fixing plate, a closed plywood, etc. 26. The first extension 43 of one side 41 of the first venturi 40 is connected to the other side 32 of the fourth body, or the first venturi (43) is connected to the outer periphery of the other side 32 of the fourth body ( The outer periphery of the first extension 43 on one side 41 of 40 is connected. A tank, barrel, box, single pipe, single barrel, single box, etc. may be provided between the first extension portion 43 of one side 41 of the first venturi 40 on the other side 32 of the fourth body. The fourth body (24), the vortex body (20); One of these is the other side (32), the rear end, the rear end, the rear end (32); A first venturi (40), one side (41) of the first venturi, an inlet (41) of the first venturi, an inlet portion (41) of the first venturi, a first extension portion (41) on one side of the first venturi, etc. connected. The fourth body may be a barrel, a container, a vortex container, a vortex box, a vortex tank, etc. The first body, second body, third body, etc. 21, 22, 23 may be built into the fourth body 24. The first body, the second body, etc. 21 and 22 may be built into the third body 23. The first body 21, etc. may be built into the second body 22. In the above, one side (31, 41) corresponds to one side, one end, front end, front end, front end, forward, forward direction, the opposite side of the other side, etc., and the other side (32, 42) corresponds to the other side, the other end, the tail end, the back end, and the rear end. , backward, backward, backward, the opposite side of one side, etc. The venturi includes a venturi, a venturi, a venturi tube, a venturi passage, a venturi hole, a venturi tunnel, a pipe or passage with a constricted portion, and a pipe or passage with an expansion portion on both sides and a constriction portion on the inside.

The second wind passing through the hollow part inside the fourth body flows into the first expansion part on one side of the first venturi. The first venturi 40 is composed of a first expansion part 43 on one side 41, a first reduction part 44 in the middle, and a first expansion part 45 on the other side 42. The expansion portions 43 and 45 are expanded portions, expanded portions, expanded portions, expanded portions of the inner hollow, expanded portions of the inner hollow, expanded portions of the inner hollow, gradually expanded portions, gradually enlarged portions, expanded portions with an expanded cross-section, and cross-sections. These include an expanded portion, a widened portion whose cross-section gradually expands, a portion whose cross-section gradually expands, a portion whose cross-section gradually increases, and a portion whose cross-section or ventilation area is larger than the reduced portion. The reduced portion 44 includes a shaft portion, a narrowing portion, a point shaft portion, an inner hollow shaft portion, a narrowing portion of the inner hollow, a point shaft portion of the inner hollow, a gradually shrinking portion, a tapered portion, a shaft portion with a reduced cross section, and a narrowing cross section. A narrowing part, a point axis part whose cross-section is gradually reduced, a part where the cross-section is gradually reduced, a part where the cross-section is gradually getting smaller, a part whose cross-section or ventilation area is smaller than the expanded part, etc. The expanded portion and the reduced portion have structures such as internal hollows, holes, and passages.

A first vane 46 is provided in the internal hollow portion of the first extension 43 on one side 41 and the first extension 45 on the other side 42. The expansion portions 43 and 45, the first expansion portions 43 and 45, the first expansion portion 43 on one side, and the first expansion portion 45 on the other side; One of these is internal, inner, medial, central, middle, passage, foramen, hollow; The back is provided with a projection (47), a rod, a base, a plate, an uneven surface, a groove, a convex part, a blade, a wing, a fan, a vane (46), a vane, and two or more of the above projections or vanes provided on a support or stand. . A first protrusion 47 is formed inside the first reduced portion 44. The reduction portion 44; its interior, inner surface, medial side, center, middle, passage, foramen, hollow part; A projection 47, a rod, a base, a plate, an uneven surface, a groove, a convex part, a vortex plate, a rotating plate, a vane 46, a vane, and two or more of the above projections or vanes provided on a support or holder are formed on the back. The vanes or protrusions may include the protrusions or vanes; The protrusions or vanes having a certain width, thickness, length, diameter, width, length, area, volume, etc.; etc. are applicable. The vane is a vane, blade, wing, plate, stand, turbine, piece, plate piece, piece plate, piece, piece piece, the vane or piece piece installed on an axis or support, or the vane installed in two or more pieces on an axis or support. Small wings attached to rotate the axis of the air introduced from the compressor in a certain direction, feathers that allow air to flow flexibly like a wind chime, flat or curved so that they can rotate about an axis in contact with the flow of fluid. Wings, etc.

The second wind 12 flowing into the first extension 43 on one side 41 of the first venturi 40 is connected to the first reduction part 44 in the middle and the first expansion part 45 on the other side. passes through The second wind 12 passing through the first extension 43 on one side is vortexed by the first vane 46. The second wind 12 passing through the first reduction portion 44 is vortexed by the first protrusion 47. The second wind 12 passing through the first extension 45 on the other side is vortexed by the first vane 46. The second wind 12 passing through the expansion parts 43, 45, reduction parts 44, etc. is hit by or is hit by the first vane 46, the first protrusion 47, etc., causing the vortex or cavitation, etc. Or, the vortex or cavitation, etc. is generated in the second wind, or the phenomenon such as vortex or cavitation is generated in the second wind or constriction part. The vortex refers to the vortex or cavitation.

The second extension 53 on one side 51 of the second venturi 50 is connected to the first extension 45 on the other side 42 of the first venturi 40. Between the first extension 45 of the other side 42 of the first venturi 40 and the second extension 53 of one side 51 of the second venturi 50, there is a tank, a barrel, a box, and a single pipe. , single cylinder, single barrel, etc. may be provided. The first venturi (40); The other side, the rear end, the rear, the rear, the first extension, and the first extension on the other side (45); The second venturi 50, one side of the second venturi, the inlet of the second venturi, the inlet of the second venturi, and the second extension 53 on one side of the second venturi are connected to the back. The second wind passing through the first extension 45 on the other side of the first venturi flows into the second extension 53 on one side of the second venturi. The second venturi 50 is composed of a second expansion part 53 on one side and a second reduction part 54 on the other side. A second vane 46 is provided in the inner hollow portion of the second extension 53 on one side of the second venturi. Protrusions, rods, bars, plates, irregularities, recesses, convex parts, blades, etc. on the inside, inner surface, inside, center, middle, passage, hole, hollow part, etc. of the expansion part, the second expansion part, the second expansion part on one side, etc., Wings, fans, vanes, etc. are formed.

A second protrusion 47 is formed inside the second reduced portion 54. The second wind flowing into the second expansion part 53 on one side of the second venturi passes through the second reduction part 54 on the other side. The second wind passing through the second extension 53 on one side of the second venturi is vortexed by the second vane 46. The second wind passing through the second reduction portion 54 of the second venturi is vortexed by the second protrusion 47. The second wind passing through the second expansion part 53, the second reduction part 54, etc. on one side becomes the vortex or cavitation, etc. by the second vane 46, the second protrusion 47, etc., Alternatively, the vortex or cavitation, etc. is generated in the second wind, or the phenomenon such as vortex or cavitation is generated in the second wind or constriction part. The vortex refers to the vortex or cavitation. The vanes 46 or protrusions 47 may be 1, 2, 3, 2 or more, multiple, free, arbitrary, free, arbitrary, free, arbitrary, circular, concentric, assembled, piece. It can be placed in the form, array type, 5, 15, 25, 35, Dao, 10, 1 row, 2 rows, multi-row, 5-row, 15 1-row, 2 5-row, 5-row, zigzag, etc. there is.

The second venturi (50); Its other side (53), rear end, rear, rear (53), second reduced portion (54), second reduced portion (54) on the other side; A cyclone 60, one side of the cyclone 61, an inlet 62 of the cyclone, an inlet 62 of the cyclone, and an inlet 62 of the cyclone are connected to the back. The general cyclone 60 is a device that separates and collects the fluid from the liquid by turning the fluid into a swirling flow and applying centrifugal force to the abnormal particles contained in the fluid. It is composed of a cylindrical portion 66, a conical body 63 continuing below the inlet pipe 64 mounted tangentially on the top of the cylindrical portion, and an outlet pipe 65 mounted on the ceiling of the cylindrical portion. . In a general cyclone, external fluid enters the cylindrical part in a tangential direction from the inlet pipe, and the fluid becomes a swirling flow inside the cylindrical part and descends the cylindrical part and the cone in a spiral shape. During this time, the particles in the fluid receive centrifugal force and hit the wall of the cone. It settles, goes down the wall by gravity and downward air and deposits in the dust collection box, and the fluid from which the particles have been removed is discharged to the outlet pipe (65). The cyclone 60 of the present invention is a cyclone, cyclone, reverse cyclone, reverse cyclone, etc. This includes an internal hollow point-shaped tube 63 or cone 63 whose cross-section gradually expands from the bottom to the top, a cylindrical part 66 mounted on the upper part, an inlet 64 mounted on the lower part, and a conical part 63 mounted on the upper part. It is composed of an outlet 65, or a point expansion pipe 63, an inlet 64 mounted at the bottom thereof, and an outlet 65 mounted at the top.

The second wind passing through the second reduction portion 54 on the other side of the second venturi flows into the inlet 64 formed on one side 61 of the cyclone 60. The cyclone 60 includes an internal hollow point-opening tube 63 whose cross-section gradually expands from the bottom to the top, an inlet 64 formed on one side 61 of the point-opening tube, and the other side 62 of the point-opening tube. It consists of an outlet 65 formed in . The inlet 64 of the point confirmation tube 63 is formed in the lower part of one side 61 of the point confirmation tube 63, and is eccentric or tangential in the right direction 68 from the vertical center 67 of the point confirmation tube. formed in a direction. The outlet 64 of the point-opening tube 63 is formed on the top of the other side 62 of the point-opening tube 63 or on the other side 62 of the cylindrical part 66, and the outlet 64 of the point-opening tube 63 or the cylindrical part It is formed eccentrically or tangentially in the left direction (69) from the vertical center (67) of (66). The second wind passing through the second reduction portion 54 on the other side of the second venturi is directed to the inlet 64 formed in the lower part of one side 61 of the point expansion pipe 63 of the cyclone or to the point expansion pipe 63. It flows in in the tangential direction at the bottom.

After the second wind flowing into the inlet 64 formed in the lower part of one side 61 of the cyclone's check pipe 63 or flowing in in a tangential direction rises while rotating inside the check pipe, the check pipe of the cyclone or It passes through the outlet 65 formed in the upper part of the other side 62 of the cylindrical part. The second wind flows into the inlet 64 formed eccentrically or tangentially at the bottom in the right direction 68 from the vertical center 67 of the point expansion pipe 63, and the vertical center of the point expansion pipe 63 The point expansion pipe (63) rises from (67) to the outlet (65) formed eccentrically or tangentially at the top in the left direction (69) or in the left direction (69) from the vertical center (67) of the cylindrical portion (66). ), rotates inside the cylindrical part 66, etc. The second wind 12 is vortexed by the rotation. Due to the rotation of the second wind, the second wind becomes the vortex or cavitation, or the vortex or cavitation, etc. is generated in the second wind, or the vortex or cavitation is generated in the second wind, cyclone, or point-opening tube. Phenomena such as cavitation occur.

A second cylinder nozzle 80 or a second nozzle 80 is provided at the outlet 65 of the point-opening cylinder 63 of the cyclone. The cyclone, Jeomhwaktong; the other side of one of these, the posterior end, the posterior, the outlet; Second barrel nozzle on the back; Its entrance, one side, front end, inlet; etc. are provided. In the present invention, the nozzle, barrel nozzle, first nozzle 70, second nozzle 80, first barrel nozzle 70, second barrel nozzle 80, etc. are a) barrel, cylinder, plate, pipe, pipe, etc. , duct, pipe, long tube, long tube, square tube, polygonal tube, hollow tube, passage tube, nozzle tube, hollow body, hollow plate, hollow tube, hollow plate, hollow tube, hollow body, tube nozzle, plate nozzle, pipe Nozzle, cylindrical nozzle; b) the container or nozzle container having a certain diameter, hole, or length; c) a cylindrical nozzle with a passage, a hole, or a hollow portion formed therein; d) or a nozzle equipped with a barrel, inlet, slot, outlet, vane, protrusion, etc.; e) a nozzle provided with an inlet, slot, outlet, vane, protrusion, etc. in the container or nozzle container; f) a second cylindrical nozzle with a diameter or inner diameter of 5 cm; A second square nozzle with a width, height, and length of 5 cm, 5 cm, and 130 cm, respectively; g) A second cylindrical nozzle with a diameter or inner diameter of 10 cm or less; A second cylinder nozzle of a square cylinder with a width, height, and length of 10 cm or less, 10 cm or less, and 130 cm or more, respectively; etc. are applicable. In the present invention, a nozzle, a barrel nozzle, a first nozzle 70, a second nozzle 80, a first barrel nozzle 70, and a second barrel nozzle 80; One of them is upper, lower, left, right, anterior, middle, posterior, anterior, posterior, anterior, posterior, lateral, lateral, lateral, anterior, posterior, free, arbitrary, capsule; The back may be provided with or installed with holes, holes, slots, inlets, outlets, outlets, inlets, the holes or inlets through which wind flows in or out, or the holes or inlets through which wind flows in or out.

The second barrel nozzle 80 includes a second barrel 81, an inlet 82 formed on one side of the second barrel, a second hollow portion 84 formed inside the second barrel, and a second barrel nozzle 80. It consists of an outlet 83 formed on the other side. Alternatively, the second cylinder nozzle 80 includes a second cylinder 81, an inlet 82 formed on one side of the second cylinder, a second hollow portion 84 formed inside the second cylinder, and the second cylinder. It consists of two or more slots 83 or outlets 83 formed in or on the film of the second barrel. Two or more tunnels 85 are formed inside the second barrel nozzle 80, the second barrel 81, and the second hollow portion 84. The second barrel nozzle (80); Its barrel (81), interior, cavity, passage, and hollow portion (84); Two or more tunnels, wind tunnels, wind tunnels, wind tunnels, tunnels through which the wind passes, culverts, holes, passages, pores, burrows, caves, mines, coal mines, grids, grid tunnels, roads, wind paths, etc. (85) is formed Here, in order to form a tunnel, walls, partitions, grids, nets are formed inside the second barrel nozzle or the first barrel nozzle, through holes, passages, hollow parts, second barrels 81, and second hollow parts 84. , net, plate, mesh, rod, stand, rod, frame, mold, pillar, column, protrusion, vane, vane, hole, groove, home, groove, concavo-convex, groove, iron part, cave, cave, cave, hole , culvert, tunnel, tunnel, passage, through hole, waterway, airway, air passage, channel, hose, conduit, pipe, house, honeycomb, comb, feather, comb teeth, comb, honeycomb, Honeycomb, the tunnel Inland wind path; Two or more of the above walls or honeycombs; 100 of the above walls or honeycombs; 1000 such walls or honeycombs; The wall or honeycomb forming a cluster; The above wall or honeycomb in 3 rows of 10 each; The above wall or honeycomb in 4 rows of 100 each; A combination of two or more of these; etc. may be provided.

The second barrel nozzle, the second barrel nozzle; The interior of one of these, a cavity, a passage, a hollow part; Two or more tunnels, wind tunnels, wind tunnels, wind tunnels, grid tunnels, tunnels through which the wind passes, culverts, through holes, passages, pores, burrows, caves, mines, coal mines, roads, wind paths, etc. can be formed on the back. The walls, complexes, tunnels, wind paths, etc. may be provided inside, through holes, passages, hollow parts, etc. of the barrel nozzle. The wind passing through the barrel nozzle, interior, hole, passage, hollow part, etc. due to the tunnel, wall or complex, tunnel or windway, etc., may be vortex, whirl, typhoon, whirlpool, vortex, votex, cyclone, whirlpool, cavitation, or cavation. etc., or the above vortices or cavations are formed in the wind.

The second wind (12) passing through the outlet (65) of the cyclone's point-opening pipe (63) flows into the inlet (82) of the second pipe nozzle (80). The second wind 12 flowing into the inlet 82 of the second cylinder nozzle passes through the second hollow part 84 formed inside the second cylinder 81 to the outlet 83 of the second cylinder. is discharged. Or, the second wind 12 flowing into the inlet 82 of the second barrel nozzle passes through the second hollow part 84 formed inside the second barrel 81 to the second barrel or the second barrel. It is discharged through two or more slots (83) formed in the film of the barrel. When the second wind passes through the second hollow part 84 formed inside the second cylinder, it is vortexed by or through two or more tunnels 85 formed inside the second hollow part or while passing through the tunnel 85. . When the second wind passes through the second hollow part formed inside the second cylinder, by two or more tunnels formed inside the second hollow part or while passing through the tunnel or by the interference phenomenon of two or more tunnels 85 Or, while passing through the narrowed part of the tunnel 85 or due to friction or collision with the tunnel 85, the second wind becomes the vortex or cavitation, or the vortex or cavitation, etc. is generated in the second wind. , or the phenomenon such as vortex or cavitation occurs in the second wind, the second barrel nozzle, or the second hollow part inside the second barrel. The vortex body or coanda, venturi, cyclone, nozzle; the inner, inner surface, surface, hollow part of one of these; The back may be provided with the above projections or vanes.

A first barrel nozzle 70 or a first nozzle 70 is provided on the side of the second barrel nozzle 80. The first barrel nozzle (70) is applied to the side, side, upper, middle, lower, front, front, one side, other side, rear, rear, outer, inner, spaced apart, spaced apart, and separated points of the second barrel nozzle (80). is provided, or a second nozzle is provided at the side, side, upper, middle, lower, front, front, one side, other side, rear, rear, outside, inside, spaced apart, spaced apart point, etc. of the first barrel nozzle 70. A barrel nozzle 80 may be provided. The barrel nozzle, first barrel nozzle, first barrel nozzle, first barrel, second barrel, etc. of the present invention are a) barrel, cylinder, square tube, polygonal tube, hollow tube, passage tube, nozzle tube, and cylindrical nozzle. ; b) the barrel or nozzle barrel having a certain through hole and length; c) a cylindrical nozzle with a passage, a hole, or a hollow portion formed therein; d) Or a nozzle equipped with a barrel, inlet, slot, outlet, protrusion, etc.; e) a nozzle provided with an inlet, slot, outlet, protrusion, etc. in the container or nozzle container; f) a second cylindrical nozzle with a diameter or inner diameter of 20 cm; The first cylinder nozzle is a square cylinder whose width, height, and length are 20 cm, 20 cm, and 130 cm, respectively; g) A second cylindrical nozzle with a diameter or inner diameter of 20 cm or more; A first square nozzle with a width, height, and length of 20 cm or more, 20 cm or more, and 130 cm or more, respectively; etc. are applicable.

The first cylinder nozzle 70 includes a first cylinder 71, an inlet 72 formed on one side of the first cylinder, a first hollow portion formed inside the first cylinder, and a first cylinder formed on the other side of the first cylinder. It consists of an exit (73). Alternatively, the first barrel nozzle 70 includes a first barrel 71, an inlet 72 formed on one side of the first barrel, and two or more slots 73 formed in the first barrel or in the film of the first barrel. ) or an outlet 73, a first hollow portion formed inside the first cylinder, etc. Wind 11 supplied from the first discharge port 11 flows into the inlet 72 of the first barrel nozzle. The wind flowing into the inlet 72 of the first cylinder nozzle is discharged to the outlet 73 of the first cylinder through the first hollow part 71 formed inside the first cylinder 71. Or, the wind flowing into the inlet 72 of the first cylinder nozzle passes through the first hollow part 71 formed inside the first cylinder 71 and is formed in the first cylinder or on the film of the first cylinder. It is discharged through two or more slots (73) or outlets (73). Two or more tunnels may be formed inside the first hollow portion. When the wind passes through the first hollow part formed inside the first cylinder, it may be vortexed by two or more tunnels formed inside the first hollow part. When the wind passes through the first hollow part formed inside the first cylinder, the wind is generated as the vortex by two or more tunnels formed inside the first hollow part or while passing through the tunnel or due to interference between two or more tunnels. or cavitation, etc., or the vortex, cavitation, etc. are generated in the wind, or the vortex, cavitation, etc. are generated in the wind, the second barrel nozzle, or the second hollow part inside the second barrel. .

Fans 1 and 6 are provided at the front end of the vortex body 20 or the Coanda body. a) the vortex body, first body, second body, third body, fourth body, inlet of the third body, venturi, cyclone, first cylinder nozzle, second cylinder nozzle; b) Among them, one front end, front end, rear end, rear end, one side, other side, surrounding, surrounding, site, location, installation location; Fan (6), fan, wings (6), rotary blades (6), impella (1), impella, blower (1), compressor (1), air compressor (1), air compressor, wind supply source , the fan or compressor to which wind is supplied, a motor (2), a belt (4) that transmits the rotational force of the motor, and a fan (6) rotated by the motor are provided. In the present invention, belts or conveyors include belts, conveyors, belt belts, conveyor belts, etc. a) the vortex body to the second barrel nozzle; b) Among them, one front end, front end, rear end, rear end, one side, other side, surrounding, surrounding, site, location, connection, installation location; On the back, there are pipes (7, 8), pipes (7, 8), pipes (7, 8), hoses (7, 8), pipes (7, 8), pipes (7, 8), and pipes (7, 8). 8), belt (4), conveyor (4), etc. can be provided. The vortex body, conveyor, etc. can be spaced apart, in contact, connected, connected, etc. to each other.

The fan includes a fan (6), fan, fan, wing, blade, blower (1), wind turbine (1), rotating fan, ventilation fan, ventilation fan, inflow fan, outflow fan, inflow and outflow fan, power generation fan, and motor fan. , wind power fan, forward rotating fan, reverse rotating fan, normal and reverse rotating fan, non-powered rotating fan, powered rotating fan, non-powered rotating fan, fan (6) rotating by motor (2), fan rotating by power, A fan that supplies wind or wind power, a fan that discharges wind while rotating, a fan that discharges wind while rotating, a fan that generates wind by rotating by a motor, the motor (2), belt (4), and fan (6) A blower (1) consisting of a combination (1), a motor (2), a belt (4) that transmits the rotational force, and a fan (6) that rotates by the transmitted rotational force to generate wind.

In the present invention, a) the fan or compressor (1, 6); b) one of the axes (3), the central axis (3), and the rotation axis (3); c) a motor (2), a rotation motor (2), a belt (4), and a rotation belt (4) provided in one of the above; d) a belt (4) and a rotating belt (4) mounted on one side on the central axis (3) or rotation axis (3) of the motor (2); e) a belt (4), a rotating belt (4) on which the shaft (5), central axis (5), rotating shaft (5), etc. of the fan or compressor (6) are mounted on the other side; It is possible to use or provide, etc. In the present invention, the central axis (2) or rotation axis (3) of the motor (2) is mounted on one side, and the axis (5), central axis (5), rotation axis (5), etc. of the fan or compressor (6) are mounted on the other side. It is mounted and its rotational force is transmitted to the belt, rotational belt, etc. (4) by rotation of the central axis or rotational shaft (3) of the motor (2), and the rotational force sheared by this is transmitted to the fan or compressor, etc. (6). It is transmitted to the axis, central axis, rotation axis, etc. (5), and the fan or compressor, etc. (6) rotates, and due to its rotation, wind (11, 12), wind, air, compressed air, etc. (11) , 12) can be supplied.

The fans 1 and 6 are provided with a first outlet 7. the fans (1, 6); Its front end, front, rear end, back, side, one side, other side, top, middle, bottom, part, one point, and certain area; etc. passages (7, 8)), hoses, pipes, pipes, conduits, pipes, outlets, discharge ports (7, 8), supply pipes, exhaust ports (7, 8); double entrance, one side, anterior, anterior; etc. are provided. In the fans 1 and 6, wind, air, pressure, compressed air, etc. are supplied, generated, generated, composed, discharged, discharged, provided, blown, etc. The passage for supply or transfer of wind (11, 12) between the fan (1, 6) and the vortex body (20) or the Koanda group, the third body, the inlet of the third body, the second discharge port, etc. to exhaust ports, etc. (7, 8) may be provided. The discharge ports 7 and 8 correspond to the passage or exhaust port. Wind, air, pressure, etc. (11, 12) generated from the fans (1, 6) are supplied, generated, generated, formed, composed, discharged, discharged, provided, and blown through the discharge port, passage, exhaust port, etc. etc. The wind or first wind (11) generated by the fans (1, 6) is supplied to the first discharge port (7) or its inlet (13). Additionally, wind or second wind 12 generated by the fans 1 and 6 may be supplied to the second discharge port 8 or its inlet 15.

Between the inlet 13 and the outlet 14 of the first outlet 7, the second outlet 8 or its inlet 15 is mounted, provided, positioned, installed, introduced, inserted, etc. The first discharge port (7); Its entrance (13), outlet (14), anterior end (13), anterior, posterior end (14), posterior, side, one side (13), other side (14), early (13), late (14), upper, middle. , lower part, part, one point, certain point, certain area, between the inlet 13 and the outlet 14, the inlet 13 through which the wind 11 of the fan flows in and the outlet through which the wind 11 is discharged ( 14) Between; The back may be provided with a second discharge port (8), its inlet (15), etc.

A guide plate 17 for guiding some of the second wind 12 from among the first wind 11 passing through the inside of the first outlet 7 to flow into the inlet 15 of the second outlet is provided. 1It is installed inside the discharge port. A guide, a guide, guides to allow some of the wind 12 from among the wind 11 passing through the inside of the first outlet 7 to flow into the second outlet 8 or its inlet 15. Boards, stands, membranes, ledges, fences, dams, steps, hills, sheets, fences, fences, protrusions, protrusions, windbreaks, screens, resistance plates, guide plates, guide plates, etc. that provide assistance or guidance. A helper plate, a guide plate, etc. (17) are installed inside, at a location, at a point, in a hollow part, etc. of the first discharge port (7) where the inlet (15) of the second discharge port is mounted. The plate, guide plate, etc. 17 includes an inlet 15 of the second outlet within the first outlet 7; its part, part, point, opposite side, opposite side; or the opposite side against the wind flow, the opposite side against the wind flow, the reverse direction opposite to the wind flow, the direction in which the wind hits, the direction in which the wind that hits the wind flows into the inlet of the second outlet; It can be installed on the back.

The first wind 11 supplied from the fans 1 and 6 is supplied to the first barrel nozzle 70 through the first discharge port 7 or its outlet 14. The first wind (11) supplied from the fan through the first discharge port (7) or the outlet (14) of the first discharge port is directed to the first barrel nozzle (70) and the inlet (72) of the first barrel nozzle. etc. can be supplied. The second wind 12 supplied from the fans 1, 6, the first outlet 7, etc. through the second outlet 8 or its outlet 16 is supplied to the vortex body 20, the third body ( 23), it flows into the inlet 34 of the third body, the pipe 35 of the inlet 34 of the third body, etc.

When the total amount of wind supplied from the fans (1, 6) is set to 100%, the ratio is 90% for the first outlet or its outlet, 10% for the second outlet, 90% for the first wind, and 10% for the second wind. / 1st outlet or its outlet 80%, 2nd outlet 20%, 1st wind 80%, 2nd wind 20% / 1st outlet or its outlet 70%, 2nd outlet 30%, 1st wind 70%, 1st outlet 2nd wind 30% / 1st outlet or its outlet 60%, 2nd outlet 40%, 1st wind 60%, 2nd wind 40% / 1st outlet or its outlet 50-90%, 2nd outlet 10-50% , 50-90% of the first wind, 10-50% of the second wind, etc. are possible.

The second wind 12 flowing into the inlet 34 or pipe 35 of the third body 23 is blown through the first venturi 40, the second venturi 50, the cyclone 60, and the second cylinder. It is sequentially supplied to the nozzle 80. The second wind 12 flowing into the inlet 34 or pipe 35 of the third body is generated through the vortex body 20, the hollow portion 29 formed between the second body and the third body, and the A hollow portion 29 or a closed portion 29 formed by the second body 22, the third body 23, and the curved body 25, and a hollow portion 28 or a straight portion formed inside the second body ( 22), the other side 32 of the second body, the curved portion 25 of the curved body provided between the other side of the second body and the other side of the third body, the other side 32 of the third body, the third body The hollow portion inside the four bodies (30), the first venturi (40), one side extension of the first venturi, the reduced portion of the first venturi, the other side expansion portion of the first venturi, the second venturi (50), the second venturi One side expansion part of the venturi, the reduction part of the second venturi, the other side expansion part of the second venturi, cyclone (60), cyclone inlet (64), intensifier cylinder (63), cyclone outlet (65), second cylinder nozzle (80), supply, provision, blowing, inflow, outflow, discharge to the inlet 81 of the second barrel nozzle, the outlet 82 of the second barrel nozzle, the slot 82 of the second barrel nozzle, etc.; or sequentially supply, provide, blow, inflow, outflow, discharge; It can be etc.

The vortex body (20), the coanda machine, the venturi (40, 50), the cyclone (60), the first cylinder nozzle (70), the first cylinder nozzle (80), etc. include a fan, a first fan, a second fan, A third fan, one fan, two fans, three fans, one fan, each fan, etc. (1, 6) may be provided. The wind power separator 100 according to the present invention is a multi-stage wind power separator ( becomes 100)

A vibrating screen separator 140 is provided at the upper, upper, upper, upward, and upward direction of the first barrel nozzle 70 and the second barrel nozzle 80. The rear end 142 of the vibrating screen separator is located at the upper part where the first wind 11 and the second wind 12 are blown from the first barrel nozzle and the second barrel nozzle. The vibrating screen separator is a vibrating screen separator that is inclined at a certain angle, the tip 141 of the vibrating screen separator 140 is located at the upper part of the incline, and the lower end 142 of the vibrating screen separator is located at the lower part of the incline. ) is located. The tip 141 is where waste flows into the vibrating screen separator 130, and the lower end 142 is where waste flows out, discharges, or falls from the vibrating screen separator 130.

A hopper 130, a crusher 131, or a trommel separator is located at the front of the vibrating screen separator. The waste 110 input into the hopper 130, the waste 110 shredded in the shredder 131, or the waste 110 sorted in the trommel separator is input into the vibrating screen separator 140. The waste input into the hopper 130, the waste shredded in the shredder 131, or the waste sorted in the trommel separator is transferred to the vibrating screen sorter 140, the upper part of the vibrating screen sorter, the upper surface of the vibrating screen sorter, and the vibration. It is put into the front end (141) of the screen sorter.

The waste 110 introduced into the vibrating screen separator 140 is transferred from the front end 141 to the rear end 142 of the vibrating screen separator 140 and passes through or passes through the net or screen 143 of the vibrating screen separator 140. Thus, soil 150 is discharged to the lower part. Screen sorting is where soil 150 is separated from waste 110 by the net or screen 143. The waste 110 introduced into the vibrating screen separator 140 is transferred along the top or surface of the vibrating screen separator from the front end to the rear end of the vibrating screen separator by the inclination of the vibrating screen separator, the vibration of the vibrating screen separator, gravity, etc. As this happens, soil 150 is discharged, sorted, separated, etc. to the bottom of the screen or vibrating screen separator through the screen 143 formed in the vibrating screen separator. The screen 143 includes a screen, net, sieve, screen net, net screen, hole, hole net, grid net, selection net, separation net, screen, net, sieve, etc. As waste is transported from the front end of the vibrating screen separator to the rear end along the top or surface of the vibrating screen separator, soil, materials, foreign substances, etc. (150) pass through the screen 144 of the vibrating screen separator, its holes, holes, etc. ) is discharged, sorted, separated, etc. toward the bottom.

Waste 110 that has passed through the upper part of the vibrating screen separator is discharged to the rear end 142 of the vibrating screen separator. The particle size that passes through the upper part of the vibrating screen separator, remains at the upper part, passes through the upper part of the vibrating screen separator without passing through the screen, and remains at the upper part without passing through the net hole or lower part of the screen, is that of the screen. Waste 110 that passes through the upper part of the vibrating screen separator because it is larger than the mesh hole and does not pass through the screen, and whose particle size is larger than the mesh hole of the screen and does not pass through the mesh hole or lower part of the screen and remains at the top. It is discharged to the rear end (142) of the vibrating screen separator.

The first barrel nozzle 70 is located at the lower part of the rear end 142 of the vibrating screen separator. The second barrel nozzle (80) is positioned at the lower part of the rear end (142) of the vibrating screen separator and is spaced apart from the first barrel nozzle (70). The first barrel nozzle 70 and the second barrel nozzle 80 are located sequentially at the lower part of the rear end 142 of the vibrating screen separator. It is mounted on the lower part of the rear end 142 of the vibrating screen separator and is spaced apart from the second barrel nozzle 80 and is provided with a conveyor, belt, conveyor belt, belt conveyor, transport means, transport means, etc. 144. The first barrel nozzle 70, the second barrel nozzle 80, and the conveyor 144 are sequentially disposed at the lower part of the rear end 142 of the vibrating screen separator, spaced apart from each other. The first wind (11) by the first barrel nozzle (70) and the second wind (12) by the second barrel nozzle (80) are applied to the waste (110) falling to the lower part of the rear end (142) of the vibrating screen separator. ) is blown, and the lightweight material (120) scatters, is removed, sorted, overflows the partition (145), etc., and the waste (110) falling on the conveyor (144) is sent to the double jaw crusher (154) and the secondary vibrating screen separator ( 157), and is transferred to processes such as cone crusher (162).

The height of the outlet 73 of the first barrel nozzle is higher than the height of the outlet 83 of the second barrel nozzle. The size, scale, shape, height, size, etc. of the outlet 73 of the first barrel nozzle are higher or larger than the size, scale, shape, height, size, etc. of the outlet 73 of the second barrel nozzle. Due to the difference in height, the first wind 11 blowing from the outlet 73 of the first barrel nozzle is not blocked by the second barrel nozzle 80 and is blown through the second barrel nozzle 80. It is blown upward and blown to the waste 110 falling from the rear end 142 of the vibrating screen separator. Due to the difference or difference in size, scale, shape, height, size, etc., the first wind blowing from the outlet of the first cylinder nozzle is not blocked by the second cylinder nozzle and is blown into the second cylinder. It is blown to the top of the nozzle and blown to the waste falling from the rear end of the vibrating screen separator.

The first wind is blown from the outlet of the first barrel nozzle. The first wind 11 is blown, discharged, discharged, blown, etc. through the first barrel nozzle 70 or the outlet 73 or slot formed in the first barrel nozzle. The first wind 11 is blown through the outlet 73 of the first barrel nozzle to the waste 110 discharged to the rear end 142 of the vibrating screen separator. A first wind is blown through the first barrel nozzle, the outlet or slot of the first barrel nozzle, etc. to the waste discharged from or falling from the rear end of the vibrating screen separator. The first light material 120 is scattered from the waste 110 discharged to the rear end 142 of the vibrating screen separator by blowing the first wind 11 through the outlet 73 of the first barrel nozzle. Lightweight materials, combustibles, foreign substances, paper, vinyl, fiber, Wood, plastic, and wind-blown materials are scattered, blown, sorted, and separated. Here, the reason for scattering, blowing, sorting, and separating the lightweight materials or materials is to obtain high-quality soil, sand, gravel, aggregate, minerals, metals, etc. by removing the lightweight materials or materials from the waste. The first barrel nozzle and the second barrel nozzle are located on one side of the conveyor, and at the rear end of the vibrating screen separator, the first barrel nozzle, the second barrel nozzle, and the conveyor are spaced apart from each other.

The second barrel nozzle 80 is provided on one side 145 of the conveyor. A partition wall 147 is provided on the other side 146 of the conveyor. A second barrel nozzle 80, a first barrel nozzle 70, etc. are provided on one side 145 of the conveyor, and a wall, plate, fence, board, membrane, board, partition, etc. are provided on the other side 146 of the conveyor. Fences, walls, overflow walls, screens, windbreaks, fences, edging, vertical boards, vertical boards, etc. (147) are provided. The second barrel nozzle 80, conveyor 144, and partition wall 147 are spaced apart from each other. The width or length of the rear end 142 of the vibrating screen separator, the outlet 73 of the first barrel nozzle, the outlet 83 of the second barrel nozzle, the partition wall 147, etc. are the same, different, or different, Large, small, constant size, constant cm, certain cm, random cm, etc. are possible. Examples of this include the rear end length of the vibrating screen separator of 130 cm, the exit length of the first barrel nozzle of 130 cm, the outlet length of the second barrel nozzle of 130 cm, and the partition wall length of 130 cm. Other examples include the rear end length of the vibrating screen separator of 160 cm, the exit length of the first barrel nozzle of 130 cm, the outlet length of the second barrel nozzle of 140 cm, and the partition wall length of 170 cm. In the above, the outlet length of the first barrel nozzle, the exit length of the second barrel nozzle, and the partition wall length are long at 130cm to apply wind to the entire amount of waste falling at the rear end of the vibrating screen separator, which is 130cm long, to overflow the partition wall. . In the above, the partition wall prevents wastes other than lightweight materials from escaping to the outside of the conveyor due to wind generated by the first barrel nozzle and the second barrel nozzle, and serves to ensure that only lightweight materials among the wastes flow to the source.

The second barrel nozzle 80, the conveyor 144, and the partition wall 147 are sequentially disposed on the lower part of the rear end 142 of the vibrating screen separator and on the side of the first barrel nozzle 70, and are spaced apart from each other. Among the scattered first lightweight materials 120, some of the first lightweight materials 120 overflow the partition wall 147. Among the scattered first lightweight materials, some of the first lightweight materials overflow, overflow, overflow, overflow, etc., over the partition wall. Except for the part, the remaining first lightweight objects 120 fall in the direction of the conveyor 144. The second wind 12 is blown from the outlet 83 formed in the second barrel nozzle 80. The second wind blows, discharges, flows out, blows, etc. from the second barrel nozzle, the outlet of the second barrel nozzle, and the outlet in front of the second barrel nozzle.

A second wind 12 is blown through the outlet 83 of the second barrel nozzle to the waste 110 discharged from the rear end 142 of the vibrating screen separator and the remaining first lightweight material 120 that falls. do. A second wind is blown to the waste discharged from the rear end of the vibrating screen separator and the remaining first light materials through the second barrel nozzle, the outlet of the second barrel nozzle, and the outlet on the other side of the second barrel nozzle. By blowing the second wind through the outlet of the second barrel nozzle, a) lightweight materials contained in the waste falling from the rear end of the vibrating screen separator; b) the remaining first lightweight object falling; The second lightweight material included scatters.

By blowing the second wind 12 through the outlet 83 of the second barrel nozzle, a) lightweight materials contained in the waste 110 that are discharged, discharged, or dropped at the rear end of the vibrating screen separator; b) Among the first lightweight materials 120 scattered by the blowing of the first wind 11 through the outlet 73 of the first barrel nozzle, a portion of the first lightweight materials 120 overflowed the partition wall 147 ), the remaining first lightweight objects (120) are; The second lightweight material included is scattering, blowing, sorting, separation, etc.

Among the scattered second lightweight materials, some of the second lightweight materials 120 overflow the partition wall 147. Except for the part, the remaining second lightweight objects fall in the direction of the conveyor 144. As described above, a) the first wind 11 is blown from the slot 73 or the outlet 73 of the first barrel nozzle 70, and the lightweight material 120 contained in the waste 110 is scattered and separated. etc., which corresponds to the primary wind separator 101, and b) the second wind 12 is blown from the slot 83 or outlet 83 of the second barrel nozzle 80 to produce waste 110. ) The lightweight material 120 contained in the air is scattered, sorted, etc., which corresponds to the secondary wind power sorter 102, and c) the wind power sorting 100 by the first and second barrel nozzles is multi-stage. It becomes a wind power sorting device (100), and d) the device including the first barrel nozzle (70) and the second barrel nozzle (80) becomes a multi-stage wind power separator (100).

Among the wastes 110 discharged from the rear end 142 of the vibrating screen separator, the wastes 110 excluding the first and second lightweight materials 120 that overflowed the partition are transported by the conveyor 144. do. The waste 110 transported by the conveyor 144 is crushed or divided into particles by additional processes such as the double jaw crusher 154, the two-inch vibrating screen 157, the cone crusher 162, the magnetic separator, and the manual separator. It can be separated and produced as soil, aggregate, recycled soil, recycled aggregate, recycled soil, recycled aggregate, etc., or recycled.

In the present invention, the wind 11 blown or sprayed from the first barrel nozzle (70) becomes a rectified, steady flow, steady state flow, etc., and the efficiency of sorting lightweight materials from waste becomes average. And the second barrel nozzle The wind (12) blown or sprayed from the nozzle (80) is vortex, turbulence, spiral, disturbance, typhoon, typhoon, aeration, aeration, whirlpool, whirlpool, cyclone, hurricane, hurricane, willy-willy, willy-willy, top. Flow, rotation, rotational flow, vortex rotation, whirlpool rotation, whirlpool rotation, vortex, votex, cavitation, cavitation, etc., which can be vortex, turbulent flow, spiral flow, disturbance flow, typhoon flow, aeration flow, whirlpool, whirlpool, cyclone, cyclone flow, hurricane flow, willy-willy flow, willy-willy flow, top flow, rotational flow, rotational flow, vortex-rotation current, tornado-rotation current, vortex-rotation current, Vortex flow, votex flow, cavitation flow, etc., and the efficiency of sorting lightweight materials from waste is improved.

In the present invention, a) fans (1, 6) that supply wind, a motor (2) that rotates the fan (6), a belt (4) connected to the motor (2), and a rotating shaft (3) of the motor (2) The belt (4) or rotating belt (4) connecting the rotating shaft (5) of the fan (6) is connected to the rotating shaft (3) of the motor and the rotating shaft (5) of the fan and transmits the rotation of the motor to the fan (6). ), the belt (4) that rotates the motor (2) that rotates the central axis (1), the belt (4) that transmits the rotational force, and the rotation of the fan (6) that transmits the rotational force to the central shaft (5). A blower (1) consisting of wind generated by, a fan (6) equipped with one or more of the above, a blower (1), a wind turbine (1), and a wind generator (1); b) Pipe, piping, conduit, hose, pipe, mounted or branched on one of the above, discharge port (7, 8), first discharge port (7), second discharge port (8), first discharge port (7) a second discharge port (8), a second discharge port (8) mounted or connected to the first discharge port, and a second discharge port (8) whose inlet (15) is mounted or connected to the first discharge port (7); c) the fan to the second outlet for supplying wind (11, 12); d) Botox body (20), first barrel nozzle (70) connected to one of the above or to which wind is supplied from one of the above; e) the first body (21), the second body (22), the third body (23), and the fourth body (24) included in the Botox body (20); f) a plate (26) closing one side (31) of the Botox body (20); g) hollow parts (27, 28, 29, 30) or slots formed in two or more of the first, second, third, and fourth bodies; h) A first venturi (40), a second venturi (50), a cyclone (60), and a second barrel nozzle sequentially connected to the Botox body (20) or through which wind (12) is sequentially supplied from the Botox body. (80); i) expanded portions (43, 45, 53) and reduced portions (44, 54) of the first and second venturis; j) vanes (26) and protrusions (27) provided on one or more of the above; k) a point check tube (63) included in the cyclone (60); ℓ) barrel (81), tunnel (85), wind tunnel (85), slot (83), outlet (83), nozzle, plate nozzle, barrel nozzle included in the first barrel nozzle, second barrel nozzle, etc.; m) waste 110 from which light materials 120 are removed or selected by wind blowing from the outlet 73 of the first barrel nozzle 70; n) waste 110 from which light materials 120 are removed or selected by wind blowing from the outlet 83 of the second barrel nozzle; o) Conveyors, sorters, screen sorters, vibrating screen sorters (140, 157), separators, crushers, crushers, jaw crushers (132), double jaw crushers (154), and cone crushers (162) using or equipped with one or more of the above. ); p) Combination of two or more of the above; q) the pan or composite into which the waste is input or composited, etc.; etc. are used, provided, or possible.

In the present invention a) fan, motor, blower, first outlet, second outlet, Botox body, first body, second body, third body, fourth body, plate, slot, first venturi, second venturi, Expansion part, reduction part, vane, protrusion, cyclone, point expansion tube, nozzle, plate nozzle, barrel nozzle, first barrel nozzle, second barrel nozzle, slot, barrel, tunnel, wind tunnel, hopper, conveyor, sorter, screen sorter. , vibrating screen sorter, separator, crusher, crusher, jaw crusher, double jaw crusher, cone crusher, wind turbine, single-stage wind turbine, two-stage wind turbine, combined wind turbine, multi-stage wind turbine; b) one of them: inlet, outlet, middle, hollow, inlet, outlet, inner, outer, inner, outer, side, front, rear, front, rear, connection; c) Cones, cones, nets, nets, rods, bars, frames, spirals, screws, screws, protrusions, vanes, vanes, fans, wings, compressors, compressors, compressors, provided in one or more of the above. Compressor, air compressor, air compressor, pressure compressor, wire, cable, electrode, electricity, power, plug, outlet, injector, ejector, inlet pipe, outlet pipe, vent, vent port, vent pipe, valve , open/close valve, check valve, solenoid valve, timer, thermometer, hygrometer, measuring instrument, wind meter, meter, electricity meter, watt hour meter, anemometer, wind volume meter, wind pressure meter, wind vane, wind direction, dust meter, fine dust meter, noise meter, Vibration measuring device, sprinkler, sprayer, magnetizer, vibrator, exciter, silencer, electrolyzer, electrolyzer, discharger, electric discharger, ozone device, negative ion device, purifier, purifier, vacuum cleaner, water purifier, cleaning device; d) the fan or connection portion equipped with the cone, cleaning machine, etc.; e) Combination of two or more of the above; This may include use, use, provision, installation, installation, supply, authorization, provision, etc.

The shape of the fan or composite, such as circle, barrel, oval, triangle, square, pentagon, hexagon, polygon, free, random, hollow, slot, non-porous, perforated, perforated, perforated, circular, cylindrical, oval, triangle, square, Pentagon, hexagon, polygon, free shape, random shape, hollow shape, slot type, non-porous type, perforated type, porous type, perforated type, cylinder, elliptical cylinder, triangular cylinder, square cylinder, pentagonal cylinder, hexagonal cylinder, polygonal cylinder, free cylinder , Random tube, hollow tube, slot tube, non-common tube, perforated tube, multi-cavity tube, perforated tube, etc. are possible. The above fans or composite fans can be used or provided in the form of one, two, two, three, multiple, two or more, multiple, etc. The fan or composite, etc. may include the fan or composite; One or more of them: upper, middle, lower, upper, middle, lower, inside, outside, inside, outside, inside, outside, side, side, back, front, rear, front, rear, arbitrary, free, surrounding, nearby, separated ; It is possible to use or equip one, two, three, multiple, two or more, multiple, etc. Example 1 of this is a first nozzle, a second nozzle on top of it, a third nozzle on top of it, a fourth nozzle on top of it, etc. Example 2 is a first nozzle, a second nozzle near it, a third nozzle on the side, a fourth nozzle on the back, etc. Example 3 includes a first nozzle from which wind is supplied from a fan, a second nozzle provided at the top of the nozzle from which wind is supplied from the discharge part of the fan, and a third nozzle provided at the top of the nozzle from which wind is supplied from a cyclone. Provided at the top is a fourth nozzle through which wind is supplied from the venturi. Example 4 includes a first nozzle from which wind is supplied from a blower, a second nozzle from which wind is supplied from a vortex body provided near the nozzle, a third nozzle from which wind is supplied from a vortex ring provided on the side of the nozzle, and a third nozzle from which wind is supplied from a vortex ring provided near the nozzle. It is equipped with a fourth nozzle from which wind is supplied from the reduced part of the venturi.

Examples of fans, blowers, etc. in the present invention include a) a body, a perforated body, an outlet, a lower perforated body and an upper non-perforated body, and a body with a narrow upper cross section; b) a motor (2) mounted inside its body; c) a rotary blade or a blade (6) rotated by the motor; d) Ring nozzles (21, 22, 23, 24), ring nozzles (21, 22, 23, 24), and ring-shaped nozzles through which the wind (12) provided by the rotation of the blade or the vacuum pump flows in or passes. (21, 22, 23, 24), hollow ring nozzle (21, 22, 23, 24), hollow ring nozzle (22) with gap (28) or slot (28) formed along the circumference, curved inside (25) or a round (25) or inclined (25) hollow ring nozzle or second body, a hollow ring nozzle with a flat outside, a hollow ring nozzle or second body with a curved inside (25) and a flat outside, a gap along the circumference (28) ) is formed, the inside is curved 25 and the outside is flat, a hollow ring nozzle or a second body, the nozzle 22 through which the wind 12 is discharged through the gap 28 or slot 28; e) the inner side (36), facing side (22), straight side (22), straight part (22), curved surface (25), rounded surface (25), and inclined surface (25) through which the discharged wind flows quickly; or the outer, flat surface that flows slowly; f) the inner, curved, rounded, or inclined surface having a lower air pressure than one of the outer, flat surfaces due to the fast and slow speeds; a ring nozzle or second body (22) in which the air pressure or pressure is lowered by the flow of wind in the inside (36), g) the inner side (36) into which surrounding air flows in due to one or more of the fast and low air pressure, A curved surface (25), a round surface (25), an inclined surface (25), a ring nozzle or a second body (22); h) a ring or second body 22 through which the introduced air flows or is blown through one of the inner side 36, curved surface 25, round surface 25, and inclined surface 25 like the wind; i) the blowing air flowing in a direction towards or towards the opening of the gap 28 or slot 28 or outward or away from the ring 22 or towards the venturi 40, 50; j) the ring (21, 22, 23, 24) through which the blowing air is blown; It is a blower (1) equipped with one or more of the following.

a) In the present invention, b) or b1) the hopper to composite, pan to composite, input to composite; The following Coanda group to complex, Coanda group to complex; b2) Before, after, left, right, top, bottom, middle, middle, inside, outside, inside, inside, inside wall, inside, outside, ceiling, ceiling, floor, wall, nearby, around, manufacturing, making , production, loading, operation, driving, implementation, implementation, transportation, movement, unloading, yard, stacking, storage, installation, placement, placement, settling, construction, construction, operation, operation, operation, maintenance, management, repair, reinforcement , inspection, examination, test, observation, measurement, measurement, diagnosis, substance, object, raw material, material, material, material; A) magnetization, magnetic force, electric field, magnetic field, vibration, excitation, ozone, negative ion, purification, purification, antibacterial, sterilization, sterilization, sterilization, disinfection, detoxification, decontamination, quarantine, pest control, electrolysis, discharge, electrification , radiation, spraying, carbonization, oxidation, reduction, neutralization, acidification, basification, antioxidant, ionization, carbonation, vitrification, detoxification, catalysis, photocatalysis, reaction, photoreaction, catalytic reaction, photocatalytic reaction; b) Magnetizer, magnetic field device, magnetizer, electric device, magnetic device, vibrator, exciter, ozone device, negative ion device, purifier, purifier, antibacterial device, sterilizer, sterilizer, sterilizer, disinfector, detoxifier, decontamination device, quarantine device. , detoxifier, electrolyzer, discharger, electrifier, radiator, sprayer, carbonizer, oxidizer, reducer, neutralizer, acidifier, basicizer, ionizer, carbonator, vitrifier, detoxifier, catalyzer, photocatalyst, Reactor, photoreactor, catalytic reactor, photocatalytic reactor; c) Light, 燈, barrel, 筒, electric light, electric light, lamp, lamp, lighting, LED, LED light, irradiator, radiator, infrared ray, ultraviolet ray, sterilizing ray, disinfecting ray, far infrared ray, means, device, equipment, sensor, lantern, heater, heater, box, box, antibacterial device, sterilizer, sterilizer, purifier, purifier, magnetizer, discharger, illuminator, light, lighter, lighter, measuring instrument, indicator, communicator, case, case, dehumidifier, purifier, electrolyzer, electrolyzer, discharger, electric discharger, ozone device, negative ion device, cam, cam, camera, camera, CCTV, Closed-circuit Television, modem, modem, communicator, communication network, server, server, computer, monitor, monitor, screen, screen, terminal, phone, phone, cell phone, smartphone, display, display; d) Lights, lights, electric lights, electric lights, light bulbs, fluorescent lights, lighting lights, sterilizing lights, disinfection lights, antibacterial lights, ultraviolet lights, infrared lights, LEDs, LED lights, emergency lights, warning lights, flashing lights, gas lights, electric lights, electronic lights. , indicator light, gas concentration indicator light, indicator light indicating gas concentration, warning light, warning light warning of the presence of gas, blue light indicating gas concentration within the standard value, red light indicating gas concentration above the standard value, bell, emergency bell , sound bell, alarm, alarm bell, warning alarm, horn means, sounder, warning sound generator; e) Sensors, measuring instruments, meters, sensing devices, measuring sensors, hazardous substances measuring instruments, hazardous substances measuring sensors, measuring instruments that measure gas concentration in the valve room, cams, cameras, CCTV, readers, readers that read images or measured values, comparison. means, a comparison means for comparing the gas concentration with a reference value or an allowable value, a decision means, a decision means for determining whether the gas concentration is above or below the standard value by comparing, a light source, a light source that turns on a blue light when the gas concentration is below the standard value, A light that turns on a red light when the above condition occurs; f) Wires, cables, power lines, electric lines, wires, levers, switches, ON/OFF switches connected to one or more of the above, switches, regulators, manipulators, remote controllers, controllers, remote controllers, etc. connected to one or more of the above. Controller that controls one or more of the following: batteries, wires, cables, generators, electric devices, power devices, power generation batteries, solar cells, solar power generation solar cells, solar generators, batteries, waste batteries, dry cells, waste batteries, rechargeable batteries, waste A rechargeable battery, power bank, power supply, KEPCO power line, energy storage system (ESS), the battery or ESS that supplies electricity to one or more of the above; g) the magnetization or photocatalytic reaction provided by the magnetizer or ESS, etc.; h) the magnetizer or ESS that produces the magnetization or photocatalytic reaction, etc.; i) the magnetization or ESS in which the magnetization or ESS, etc. are combined or used; j) Combination of two or more of the above, composite group, composite material, complex, combined action; composite, complex, composite material, composite, composite action in which two or more of the above are used; A combination of two or more of the above, a combination, a composite, a composite, a composite action; It can be used, used, applied, provided, placed, equipped, created, enabled, visible, generated, composed, formed, manifested, combined, connected, linked, etc.

In the present invention, or the hopper to material, magnetization to composite, input to composite, Coanda machine to composite, Coanda machine to composite machine, etc. a) IT, IoT, ICT, information, smart, information, technology, communication, transmission , reception, objects, internet, internet of things, analog device, digital device, bio, microorganism, sensor, measuring device, cam, camera, CCTV, modem, communicator, transmitter, receiver, wireless device, wired device, server, computer, operator, operation Politics, readers, terminals, cell phones, smartphones, screens, indicators, monitors, screens, warning lights, sirens, displays; b) Antibacterial device, sterilizer, disinfector, purifier, purifier, antibacterial device, antibacterial device, antibacterial device, antibacterial means, antibacterial system, ozone device, negative ion device, ozone generator, negative ion generator, silver ion generator, silver nano generator, nano material generator. , ion material generator, silver ion radiator, silver nano radiator, nano material radiator, ion material radiator; c) Light source, lamp, light irradiator, light irradiator, line irradiator, light device, light source device, UV (ultra violet) device, LED (light emitting diode) device, light emitting diode device, ultraviolet device, infrared device, far infrared device, Ragi; d) Photocatalyst, photocatalyst coated on the inner surface or surface of the valve chamber, photocatalyst coated on the surface of an accessory, lamp irradiating light or ultraviolet rays to the photocatalyst, photocatalytic reaction by the light or ultraviolet rays and the photocatalyst, photocatalyst by the light or ultraviolet rays and the photocatalyst. Photocatalytic reaction by contact, photocatalytic reaction created by applying light or ultraviolet rays to the photocatalyst, the antibacterial reaction, sterilization reaction, disinfection reaction, purification reaction, which are the reactions thereof, antibacterial action, sterilization action, disinfection action, and purification action by the above reactions; e) or an electrode, an anode, a cathode, a separator mounted between the anode and the cathode, a wire connected to the antibacterial group or the separator, etc., and a power supply that supplies power to the antibacterial group or the wire, eluting metal ions by applying power thereby. an electrode, a case or electrolytic cell in which the electrode is embedded, an electrolyte solution introduced into the electrolytic cell, an electrolyzer containing them, H ₂ , O ₂ , Cl ₂ , OCl, NaOCl, generated by the application of the power or in the electrolytic cell, Fe ⁺ , ion water, electrolytic water, electrolyte solution, ion water, nano water, silver ion, gold ion, copper ion, metal ion, nano metal, OH radical; The H ₂ to OH radicals that function as bubbles or sterilizers; f) Magnetization, vibration, excitation, ozone, negative ion, rotation, decomposition, electrolysis, sterilization, discharge, magnetizer, vibrator, exciter, ozone device, infrared device, ultrasonic device, thermogram device, magnetron, negative ion device, rotating device, decomposer. , electrolyzer, sterilizer, discharger; Of these, two or more compounds, combinations, complexes; g) water, water, liquid, oil, heat, wave, light, line, wind, magnetic field ), sound wave, sonar, sonar, sonic, sonic, sound, pressure, gas, hydrogen, oxygen, nitrogen, methane, ammonia, air bubble, haze, pulse, sound, bubble, chlorine, shielding, radical, mist, light, LED light , sterilizing light, disinfecting light, ultraviolet rays, infrared rays, catalysts, photocatalysts, titanium, titanium, titanium oxide, microorganisms, decomposition products, electrolytes, discharge products, power generation products, cleaning agents, purifying agents, disinfectants, disinfectants, reactants, collectors, adsorbents, Phyton agent, titanium agent, detox agent, detox agent, titanium catalyst, detox catalyst, phyton catalyst, phytoncide, antibacterial agent, disinfectant, disinfectant, cleaning agent, purifying agent, ozone, anion, silver ion, silver nano, nanomaterial, ionic material; h) Equipment, device, part, part, part, vehicle, body, device, material, device, assembly. , barrel, box, ring, fan, element, band, tube, box, tank, object, article, part, supplies, merchandise, product, body, body, clothing, robot, drone, equipment, device, appliance, mechanism, machine , means, facilities, equipment, materials, materials, building, house, structure, spring, pipe, venturi, hollow body, system, semiconductor, AI semiconductor, AI semiconductor, avatar, influencer, cyclone, ozone negative ion rotator with magnetized vibration ,Mobility ,Network; i) Magnetization, vibration, excitation, ozone, negative ion, rotation, decomposition, electrolysis, sterilization, discharge, magnetizer, vibrator, exciter, ozone device, infrared device, ultrasonic device, thermogram device, magnetron, negative ion device, rotating device, decomposer , electrolyzer, sterilizer, discharger; j) Heat, wave, light, line, wind, magnetic field, sound wave, sonar, sonic, sound, pressure, gas, hydrogen, oxygen, nitrogen, Methane, ammonia, air bubbles, mist, pulse, sound, bubble, chlorine, blocking salt, radical, mist, light, LED light, sterilizing light, disinfecting light, ultraviolet ray, infrared light, catalyst, photocatalyst, titanium, titanium, titanium oxide, microorganism, Decomposition products, electrolytes, discharge products, power generation products, cleaning agents, purifying agents, sterilizers, disinfectants, reactants, collectors, adsorbents, phyton agents, titanium agents, detox agents, detox agents, titanium catalysts, detox catalysts, phyton catalysts, phytoncides; k) Equipment, device, part, part, part, vehicle, body, device, material, device, assembly. , barrel, box, ring, fan, element, band, tube, box, tank, object, article, part, supplies, merchandise, product, body, body, clothing, robot, drone, equipment, device, appliance, mechanism, machine , means, facilities, equipment, materials, materials, building, house, structure, spring, pipe, venturi, hollow body, system, semiconductor, AI semiconductor, AI semiconductor, avatar, influencer, cyclone, ozone negative ion rotator with magnetized vibration ,Mobility ,Network; g) the IT or network provided by the IT or network, etc.; h) the IT or network that does the IT or network, etc. or is created; i) the IT or network in which the IT or network is combined or used; j) Combination of two or more of the above, composite group, composite material, complex, combined action; composite, complex, composite material, composite, composite action in which two or more of the above are used; A combination of two or more of the above, a combination, a composite, a composite, a composite action; These may include use, use, application, provision, placement, installation, creation, possibility, visibility, occurrence, composition, formation, manifestation, combination, connection, linkage, etc.

In the present invention, or the hopper or material, magnetization or composite, IT or composite, input or composite, Coanda group or composite, Coanda or composite machine, etc., include a piezoelectric element, piezoelectric element, piezoelectricity, etc. Elements that exhibit phenomena, quartz, tourmaline, Rochelle salt, piezoelectric element, barium titanate, ammonium dihydrogen phosphate, ethylenediamine tartrate, artificial crystal, piezoelectricity, certain types of crystal plates in a certain direction Piezoelectricity is a phenomenon in which positive and negative charges proportional to the external force appear on both sides of a plate when pressure is applied. The piezoelectricity that appears in a single crystal plate is weak, and when several sheets are overlapped while inserting metal foil, the amount increases significantly. It is unique to a crystal plate. There is vibration, and when elastic vibration and electric vibration match, they combine with piezoelectricity to generate stronger vibration. Microphone, record player pickup, telephone or radio speaker, ultrasonic detector, oscillator of quartz clock, broadcasting equipment, long-distance communication circuit, A device with the piezoelectric effect (a phenomenon in which voltage is generated when mechanical pressure is applied, and mechanical deformation occurs when voltage is applied). When an external force is applied, electric polarization occurs, creating a potential difference, and conversely, when a voltage is applied, a device with the property of generating deformation or deformation force, Piezoelectric Transducer, Ultrasonic Testing, Ultrasonic Testing, General term for devices with piezoelectric effect, sintered ceramics, piezoelectric sensor, ultrasonic wave Sensor, automatic ignition device, a device that uses the phenomenon of generating high voltage and sparks when an impact force is applied, igniting a gas range or bathtub boiler with this spark, and causing electrical polarization when mechanical strain is applied from the outside. , used for mutual exchange between mechanical or electrical energy, Rochelle salt with a large piezoelectric effect, barium titanate, elements that integrate pressure or electrical conversion, materials with piezoelectric effects, piezo elements, crystals used in quartz watches, crystal pickups Rochelle salt used in, barium titanate used in ceramic cartridges, pickups, microphones, mechanical filters, Rochelle salt or barium titanate with a large piezoelectric effect, elements that directly perform pressure-electricity conversion, ignition of gas appliances, piezoelectric microphone, record playback. Pickups, handsets, speakers, ultrasonic generators, piezoelectric microphones, record player pickups, handsets, loudspeakers, elements using crystal or piezoelectric ceramics that generate voltage when mechanical stress is applied and, conversely, distortion occurs when voltage is applied. An element that changes voltage (piezoelectric effect) and, conversely, expands or contracts when voltage is applied, a piezoelectric ceramic made by sintering quartz or barium titanate, lead zirconate titanate (weakly called PZT), ignition device for lighters or gas appliances, and in automobiles. Knock sensor or various pressure sensors, one or more of the above, device, device, article, material, material, substance, object, work, business, work, bio, composite, composite, composite, composite, composite , complex means, complex, complex means, etc. can be used.

In the present invention, or the above hopper to material, magnetization to composite, IT to composite, input to composite, Coanda group to composite, Coanda machine to composite, etc. a) magnetization, magnetic field, vibration, excitation, ozone, ozone treatment, Ozone sterilization, ozone disinfection, negative ion, negative ion treatment, negative ion purification, rotation, self-rotation, object rotation, decomposition, material decomposition, microbial decomposition, electrolysis, electrolysis, bubble, aeration, sterilization, discharge, electric discharge, magnetizer, vibrator , exciter, ozone group, negative ion group, rotating device, decomposer, bubbler, aerator, electrolyzer, sterilizer, discharger, magnetized material, vibrating material, excited material, ozone, negative ion, ozone water, negative ion water, rotating material, decomposing material , bubble water, aeration water, electrolyte water, sterilization water, discharge water; b) combination, complex action, complex processing, complex group, complex of two or more of the above magnetized ~ discharged substances; c) materials, objects, equipment, devices into which the magnetized or composite materials, etc. are input, the hopper or material, magnetized or composite, IT or composite; etc. can be used.

In the present invention, or the above hopper to material, magnetized to composite, IT to composite, magnetized to composite, injection to composite, Coanda group to composite, Coanda group to composite machine, etc. a) magnetizer, magnetic field, vibrator, excitation machine, ozone machine, negative ion machine, purifier, purifier, water purifier, water softener, cleaner, washer, sterilizer, disinfector, quarantine machine, pest control machine, decomposer, electrolyzer (electrolyzer), discharge machine (electric discharge machine), piezoelectric machine, piezoelectric machine, thermoelectric machine, Peltier, incubator, fermenter, humidifier, dryer, heater, cooler, cooler, heater, optical machine, light emitter, heater, radiator, heat storage device, fogger, condenser, propagator, sonicator, ultrasonicator, inductor, induction, pulse machine, width Equipment, impulse machine, injector, vortexer, cavitation machine, reactor, flocculator, precipitator, strainer, filter, cutter, mixer, melter, extractor, injection machine, shrinker, expander, irradiator, emitter, launcher, accelerator, reducer , compressor, compressor, demister, eliminator, thermistor, mist machine, diode, wave machine, laser machine, solenoid, magnetron machine; b) Magnetization, magnetic field generation, vibration, excitation, ozone sterilization, anion sterilization, purification, purification, purification, purification, soft water, cleaning, washing, backwash, backwash, sterilization, disinfection, quarantine, pest control, decomposition, electrolysis (electrolysis) ), discharge (electric discharge), piezoelectricity, thermoelectricity, culture, fermentation, humidification, drying, heating, cooling, cold sensation, warm sensation, warm sensation, cold temperature, optical, luminescence, heat generation, heat radiation, heat storage, heat transfer, discharge, fume generation, condensation , radio wave generation, sound wave generation, ultrasonic vibration, electromagnetic induction, induction heating, pulse generation, aeration, impulse generation, injection, vortex, cavitation, reaction, coagulation, sedimentation, filtration, filtering, cutting, mixing, melting, extraction, injection, Contraction, expansion, irradiation, radiation, launch, acceleration, deceleration, compression, compressing, moisture removal, dust removal, thermal variable resistance generation, mist generation, light emission, wave generation, laser irradiation, magnetic field generation, microwave generation; c) Magnetized substances, magnetic fields, vibrating substances, excited substances, ozone, ozonated substances, negative ions, anionic substances, clean substances, purified substances, purified substances, softened substances, cleaning substances, cleaning substances, sterilizing substances, disinfection substances, quarantine substances, Control substances, decomposition substances, electrolytes (electrolytes), discharges (electric discharge substances), piezoelectric substances, thermoelectric substances, cultured substances, fermented substances, humidified substances, dried substances, heated substances, cooled substances, hot and cold substances, optical substances, luminescent substances. , heating material, heat dissipation material, thermal storage material, fume, condensate, radio wave, sound wave, ultrasonic wave, electromagnetism, induction heating material, pulse water, aeration material, impulse, jet, vortex material, cavitation material, reactant, condensate, precipitate, Filtrate, filter, cut, mixture, melt, extract, extruded material, contracted material, expanded material, irradiated material, irradiated material, projectile, accelerated material, decelerated material, compacted material, compressed material, moisture, water droplets, snow , snow, dust, dust, fallen leaves, rainwater, moisture, ice, ice, ice, thermal variable resistance, mist, luminescent material, wave, hexagonal material, laser, magnetic field, microwave; d) Treatment, magnetization treatment, magnetic field treatment, vibration treatment, excitation treatment, ozone treatment, negative ion treatment, cleaning treatment, purification treatment, water purification treatment, soft water treatment, cleaning treatment, cleaning treatment, sterilization treatment, disinfection treatment, quarantine treatment, pest control. Treatment, decomposition treatment, electrolytic treatment, discharge treatment, piezoelectric treatment, cold/temperature treatment, culture treatment, fermentation treatment, humidification treatment, drying treatment, heat treatment, cooling treatment, cold/temperature treatment, optical treatment, luminescence treatment, heat treatment, heat radiation treatment, Heat storage treatment, mist treatment, condensation treatment, radio wave treatment, sonic treatment, ultrasonic treatment, electromagnetic treatment, induction heating treatment, pulse treatment, aeration treatment, impulse treatment, spray treatment, vortex treatment, cavitation treatment, reaction treatment, flocculation treatment, precipitation. Treatment, filtration treatment, filter treatment, cutting treatment, mixing treatment, melt treatment, extraction treatment, injection treatment, shrink treatment, expansion treatment, irradiation treatment, spinning treatment, firing treatment, acceleration treatment, deceleration treatment, compression treatment, compressing treatment , demister treatment, eliminator treatment, thermal variable resistance treatment, mist treatment, light emission treatment, wave treatment, laser treatment, magnetic field treatment, microwave treatment; e) combination of two or more of the above, treatment, combination, combination action, complex, complex treatment; f) a function, functional group, functional material, or functional treatment of one of the magnetizer or complex processing; g) the means or complex means in which the magnetizer or functional processing, etc. are used; h) the magnetizer or functional processing used in the above means or complex means, etc.; i) the magnetizer or functional processing used for work, means, input or combination, etc.; j) the magnetizer or functional processing provided by the magnetizer or functional processing, etc.; k) the magnetizer or functional processing, or the like is generated; ℓ) the magnetizer or functional processing in which the magnetizer or functional processing, etc. are combined or used; m) Combination of two or more of the above, composite group, composite material, complex, combined action; composite, complex, composite material, composite, composite action in which two or more of the above are used; A combination of two or more of the above, a combination, a composite, a composite, a composite action; Etc. can be used, used, applied, provided, placed, equipped, created, enabled, visible, generated, composed, formed, expressed, combined, connected, linked, injected, invested, generated, created, supplied, provided, sprayed, etc. You can.

In the present invention, or the above hopper to material, magnetized to composite, IT to composite, magnetized to composite, injection to composite, magnetized to composite, Coanda group to composite, Coanda group to composite, etc. a) group (device) , machine, chip, pin, plate, fan, needle, cone, ring, net, file, line, thread, thread, bar, rod, stone, protrusion, brush, comb, cap, egg, rod, stand, Pole, frame, brush, ball, shovel, chisel, saw, knife, blade, cell, barrel, ram, rom, blade, bead, metal, element, pendulum, terminal, battery, electrode, anode, cathode, pole, needle, Coil, spiral, twine, zipper, jack, chuck, hook, head, tail, baffle, sensor, filter, board, kit, card, module, heater, cooler, circuit, server, hub, modem, unit, conductor, Motor, pump, drone, robot, tool, nozzle, alloy, shape memory alloy, diffuser, insulator, inverter, converter, MLCC, gas pump, gas station, charger, charging station, rectifier, regulator, static electricity, commutator, current transformer, generator, condenser, Transformers, relays, whistles, whistles, pagers, alarms, telephones, lighting, communicators, springs, avatars, semiconductors, systems, batteries, waste batteries, power banks, energy storage systems (ESS), the IT and 4th industrial technologies; b) composite, complex, or composite element that combines two or more of the above groups to fourth industrial technologies; c) the device or composite element using the magnetizer or composite, etc.; d) the hopper to material, magnetization to composite, IT to composite, magnetization to composite, input to composite, magnetizer to composite, in which one or more of the group or composite element is involved; e) the above groups or complex elements provided by the above groups or complex elements, etc.; f) the group or composite element that produces the group or composite element, etc.; g) the above groups or complex elements in which the above groups or complex elements are combined or used; h) Combination of two or more of the above, composite group, composite material, complex, combined action; composite, complex, composite material, composite, composite action in which two or more of the above are used; A combination of two or more of the above, a combination, a composite, a composite, a composite action; Etc. can be used, used, applied, provided, placed, installed, created, enabled, visible, generated, composed, formed, expressed, combined, connected, linked, injected, invested, generated, created, supplied, provided, sprayed, etc. You can.

In the present invention, a) the pan to composite, hopper to material, magnetized to composite, IT to composite, magnetized to composite, input to composite, magnetized to composite, Coanda group to composite, Coanda group to composite; b) or a combination of the above, such as 1, 2, 3, 4, multiple, 2 or more; c) or a combination of the above fans such as 1-stage, 2-stage, 3-stage, 4-stage, multiple stages, 2 or more stages; d) or the above pan to composite, vibrating screen separator; Nozzles provided on the upper, middle, lower, upper, lower, back, upper, lower, surface, etc., one nozzle, two nozzles, multiple nozzles, two or more nozzles, the fan or composite; e) 1, 2, 3, multiple, 2 or more on the top, middle, bottom, left, right, front, rear, upper, lower, front, rear, side, side, etc. of the above fan or complex, etc. The above fan or composite provided with this; f) Or, wind, wind, wind, pressure, air, etc. blows, sprays, discharges, or vortexes in the top, middle, bottom, left, right, front, rear, top, bottom, front, rear, side, side, etc. , vortexes; g) a combination of two or more of the above, a combination of two or more of the above; h) the above pan to composite using or equipped with one or more of the above; i) One or more of the above, provided at the top, middle, bottom, left, right, front, rear, top, bottom, front, rear, back, middle, front, rear, side, side, spaced, freely, etc. , 2, 3, multiple, 2 or more of the above fans or composites used or provided; j) the fan or composite in which the fan or composite is used or provided; It can be used, distributed, used, sprayed, provided, placed, etc. The above examples include a) first nozzles, second nozzles, and third nozzles on the bottom, top, and back of the vibrating screen separator, respectively; b) first, second, and third discharge ports for the first, second, and third nozzles, respectively; c) a fan, first fan, second fan, third fan connected to the first outlet, second outlet, third outlet, etc.; d) a first cyclone, a second cyclone, and a third cyclone, respectively, for the first nozzle, the second nozzle, and the third nozzle; e) a first venturi, a second venturi, and a second venturi, such as the first cyclone, the second cyclone, and the third cyclone, respectively; f) a first vortex body, a second vortex body, a third vortex body in the first venturi, the second venturi, the second venturi, etc.; etc. are used or provided.

The present invention will be further described below using the drawings. Figure 1 is a schematic diagram showing a combined wind turbine according to the present invention. Figure 2 is a schematic diagram showing that foreign substances are selected from waste by the combined wind turbine according to the present invention. Figure 3 is a schematic diagram showing a composite wind turbine that sorts foreign substances from waste falling from a vibrating screen separator according to the present invention using wind power. Figure 4 is a schematic diagram showing a composite wind turbine including a composite nozzle according to the present invention. Figure 5 is a schematic diagram showing a composite wind turbine that separates foreign substances from waste falling from the vibrating screen separator according to the present invention with a composite nozzle. Figure 6 is a schematic diagram showing the nozzle body of the combined wind turbine according to the present invention. Figure 7 is a schematic diagram showing the connection structure of a composite nozzle and a composite device according to the present invention. Figure 8 is a schematic diagram showing a composite nozzle, composite device, and vibrating screen separator according to the present invention. Figures 9 and 10 are schematic diagrams showing a combined wind turbine and a vibrating screen separator according to the present invention.

In the present invention, a) Coanda machine (500), vortex machine (400), pulse machine (300), first hollow tube (200), blower (1, 6), hollow body (501), inlet (502), Outlet 503, step 504, hollow part 505, curved part 506, straight part 507, passage 508, venturi 410, reverse cyclone 420, expansion part 411, Reduction part 413, vane 412, rotator 421, spring 433, second pipe 301, tube 302, valve 303, solenoid 304, timer 305, first 1 pipe (202); b) Devices, equipment, sorters, crushers, combined machines, wind machines, combined wind machines and systems containing one or more of these; c) Two or more of them are combined, combined; A combination of two or more of these, a combination device; d) the Coanda group to the complex group; e) the Koanda machine to the complex machine equipped with or connected to one or more of the above; The Coanda machine to the complex machine provided or connected to one or more of the above; f) One or more of the above, upper, middle, lower, front, rear, left, right, upper, center, lower, front, rear, left, right, upper, middle, lower, front, rear, left, right, side, The above-mentioned Coanda or multi-function devices provided or connected to one side, the other side, entrance, exit, spaced apart, inside, outside, near, around, between, in the middle, etc.; g) the Coanda group or complex machine equipped with or connected to one or more of the above Coanda machine or complex machine; etc. can be used.

In the present invention, a) Coanda machine (500), vortex machine (400), pulse machine (300), hollow tube, first hollow tube (200), blower (1, 6), set, waste (110), aggregate , system, wind (10), blowing, foreign matter (10), blower or impeller, Coanda machine, inlet formed in the hollow body of Coanda machine, fourth pipe, vortex machine, venturi, pulse machine, second pipe, tube , first hollow body, first pipe, port to wind distribution means, hollow body, inlet to first pipe, hollow body 501, inlet 502 formed on the outer surface of the hollow body, formed on the inner surface of the hollow body An outlet 503, a step 504 formed on the inner surface spaced apart from the outlet, a hollow portion 505 formed between the inlet and the outlet or between the outer surface and the inner surface, and a curved surface formed on the inner surface in connection with the outlet. A portion 506, a straight portion 507 connected to the curved portion and formed on the inner surface, a passage 508 formed on the inner surface and the inner side of the curved portion and the straight portion and passing through the center of the hollow body, and a hollow body 501. One side, the other side of the hollow body 501, Coanda or Coanda system, passage 608, the inside and one side of the passage (510) and the other side (511), ring slot, step 504, jaw or guide plate, static pressure (positive pressure), wind, blowing wind, external wind, one side of the passage (511), the other side of the passage (511), pipe, fourth pipe (520), one side of the fourth pipe (521) , branch port 230, other side of the fourth pipe 522, fourth hollow common 530, curved portion, straight portion, fourth curved portion 531, fourth straight portion 532, fourth hollow common. Exit 540 of (530), fourth nozzle 540, venturi 410, reverse cyclone 420, vortex or votex system, venturi or venturi tube, expansion part, expansion part, reduction part, microtubule, expansion Part 411, reduced part 413, vane 412, vane or plank, rotating body 421, one side of venturi 416, inside of venturi, inside expanded part of venturi, inside reduced part of venturi, venturi sequentially through the other side 417, one side 422 or the lower part 422 of the reverse cyclone, the inside of the reverse cyclone, the other side 423 or the upper part 423 of the reverse cyclone, the other side 423 of the reverse cyclone, the first Triple common 430, inlet 431 of the third common 430, interior of the third common 430, spring 433, spring or wind tunnel, outlet 440 of the third common, Third nozzle 440, nozzle or slot nozzle, other side of reverse cyclone (423), second pipe 301, tube 302, valve 303, solenoid 304, timer 305, pulse or pulse system, solenoid (304), tube, coil, winding, wire, electricity, magnetic field, time, interval, adjustment, repetition, one side of the second pipe (311), inside of the second pipe, other side of the second pipe (312) , compressor, air, fan or compressor, vortex, vortex or cavitation, other side of the second pipe (312), inlet (321) of the second hollow pipe (320), outlet (330) of the second hollow pipe (320), Second nozzle 330, first pipe 202, barrel or cylindrical duct, one side of the first pipe 201, branch port 230, one side of the first pipe 201, interior of the first pipe, first The other side of the first pipe (203), one side of the first hollow common (204), the inside of the first hollow common, the outlet of the first hollow common (206), the outlet of the first hollow common (207), the first nozzle (207) ), Coanda machine (500), vortex machine (400), pulse machine (300), first hollow common (200), blower (1, 6), sorter, crusher, wind machine or wind power separator, Coanda wind (Coanda wind), votex wind, pulse wind, steady wind, comples wind, nozzle, 4 nozzles, complex device, complex system, sorter or recycled aggregate ( 130), a device for producing a first wind turbine (101), a fan (6) to a composite wind turbine, a selector to a device, a vortex body to a whirlpool, a first body (21), a second body (22), a third sieve (23), quaternary body (24); b) Devices, equipment, sorters, crushers, combined machines, wind machines, combined wind machines and systems containing one or more of these; c) Two or more of them are combined, combined; A combination of two or more of these, a combination device; d) the Coanda group to the complex group; e) the Koanda machine to the complex machine equipped with or connected to one or more of the above; The Coanda machine to the complex machine provided or connected to one or more of the above; f) One or more of the above, upper, middle, lower, front, rear, left, right, upper, center, lower, front, rear, left, right, upper, middle, lower, front, rear, left, right, side, The above-mentioned Coanda or multi-function devices provided or connected to one side, the other side, entrance, exit, spaced apart, inside, outside, near, around, between, in the middle, etc.; g) the Coanda group or complex machine provided or connected to one or more of the Coanda machine or complex machine; etc. can be used.

In the present invention a) Coanda, Coanda, vortex, Coanda, vortex body, effect, Coanda effect, Coanda effect, a phenomenon in which an object sticks to the flow surface due to the electrical viscosity of a high-velocity fluid. Principle, Bernoulli's principle, as the speed of the fluid increases, the pressure decreases, the pressure of the upper air with high speed decreases, lift, airfoil, airfoil, shape of a vertical cross section of an airplane wing, Navier-Stokes equations, Navier- Stokes Equations, speed, external force per unit volume, density, pressure, viscosity, viscoelasticity, wind tunnel experiment, air flow around an airfoil, the Coanda effect (the phenomenon of air flowing along the wing surface) Coanda effect), in the flow of a narrow and fast jet, the Coanda effect in which the jet flows along a hard and curved solid surface, laminar flow, the Coanda effect, also commonly heard of a rippling water stream along the surface of a spoon, the flow of water Water molecules stick to the surface of the spoon due to adhesion caused by surface tension, the Coanda effect where the faster the speed of the fluid, the stronger the adhesion, and as the water stream becomes stronger, the adhesion decreases and the surface tension appears to fall off the surface of the spoon. , Coanda effect, jet, As a result of the Coanda effect, water moves in a circular motion counterclockwise along the surface of the ball. As a reaction, a force is generated to pull the object to the left. This force is also a kind of lift force, Coanda effect. The result is that the flow of fluid is compressed more strongly on the surface of the object, and the fluid flows by sticking to the surface of the wing with a stronger centripetal force, obtaining a stronger lift force as a reaction, and additional lift obtained through the Coanda effect. is quite powerful, the Coanda effect of a stuck jet flowing along the surface of paper, the lift force generated by this reaction, and the Coanda effect, which is a phenomenon in which a jet flow sprayed tangentially to a curved object flows in close contact with the surface along the curved surface of the object. anda effect; b) Devices, equipment, sorters, crushers, combined machines, wind machines, combined wind machines and systems containing one or more of these; c) Two or more of them are combined, combined; A combination of two or more of these, a combination device; d) the Coanda group to the complex group; e) the Koanda machine to the complex machine equipped with or connected to one or more of the above; The Coanda machine to the complex machine provided or connected to one or more of the above; f) One or more of the above, top, middle, bottom, front, back, left, right, top, center, bottom, front, rear, left, right, top, middle, bottom, front, rear, left side, right side, side, The above-mentioned Coanda machine or multi-function device provided or connected to one side, the other side, entrance, exit, spaced apart, inside, outside, near, around, between, in the middle, etc.; g) the Coanda group or complex machine provided or connected to one or more of the Coanda machine or complex machine; etc. can be used.

Figure 11 is a schematic diagram showing the side of the combined wind turbine according to the present invention. Here, the combined wind turbine 100 blows the wind 11 and 12 and is installed at the bottom of the vibrating screen separator 140 to remove lightweight materials, foreign substances, etc. contained in the waste 110 that falls from the bottom of the vibrating screen separator. (120) is dispersed, removed, sorted, separated, etc. by two-stage wind power using the first barrel nozzle (70) and the second barrel nozzle (80). The waste 110 introduced into the front end 141 of the vibrating screen separator moves downward due to the vibration and inclination of the vibrating screen separator, and the soil 150 passes through the screen 143 formed in the vibrating screen separator to the lower part of the vibrating screen separator. The waste is separated and sorted, and the remaining waste moves downward along the top of the vibrating screen separator and falls from the rear end (142) of the vibrating screen separator. At this time, the lightweight material 120 contained in the falling waste 110 is scattered by the wind 11 blown from the first barrel nozzle 70 and is subjected to primary selection 101, and is then discharged from the second barrel nozzle 80. The lightweight material 120 contained in the falling waste 110 is scattered by the blowing wind 12 and is subjected to secondary sorting 102. Here, the first wind power selection (101) by the wind blowing from the first barrel nozzle and the second wind power selection (102) by the wind blowing from the second barrel nozzle make the wind machine of this technology a two-stage composite wind turbine ( 100).

Figures 12, 13, and 14 are schematic diagrams showing the front of the combined wind turbine according to the present invention. Here, the first barrel nozzle 70, the second barrel nozzle 80, the conveyor 144, and the partition wall 147 are sequentially installed below the rear end 142 of the vibrating screen separator 140. Among the wastes 110 that fall from the rear end 142 of the vibrating screen separator 140, lightweight materials 120 are blown by the first barrel nozzle 70 (11) and blown by the second barrel nozzle (80) (12). The waste 110, which is scattered and overflows the partition wall 147 and is selected, is placed on the conveyor 144 and transferred to the next process according to the rotation and movement of the conveyor 144. . 12 and 13 show the outlet port 63 of the first barrel nozzle 70 and the cyclone 60, which has the same size, area, cross-sectional area, ventilation area, etc. as the outlet through which wind is discharged from the fan 6 or blower 1. It shows an example of the second barrel nozzle 80 having the same size, area, cross-sectional area, and ventilation area. 14 is the same as the outlet port 63 of the first barrel nozzle 70 and the cyclone 60, which has a larger size, area, cross-sectional area, and ventilation area than the outlet through which wind is discharged from the fan 6 or blower 1. An example of the second barrel nozzle 80 with size, area, cross-sectional area, ventilation area, etc. is shown. The outlet 73 of the first barrel nozzle 70 and the outlet 33 of the second barrel nozzle 80 are circular, triangular, square, polygonal, perforated, perforated, rectangular, square, long square, slot, long slot, forming walls, forming partitions, forming partitions, forming columns; Forming two or more walls, partitions, partitions, columns; etc. is possible. Among these, a long rectangle with two or more partitions may be given priority.

Figures 15, 16, and 17 are schematic diagrams showing details of the combined wind turbine according to the present invention. Here, the vortex body, first venturi, second venturi, cyclone, first barrel nozzle, second barrel nozzle, etc. are shown in detail. Figure 18 is a schematic diagram showing the vortex font, Koandagi, etc. according to the present invention. Here, the first body, second body, third body, fourth body, plate, etc. included in the vortex body are shown in detail.

Figures 19 and 20 are schematic diagrams showing the direction, pressure, and speed of the wind generated from the vortex body, Koandagi, etc. according to the present invention. Figure 19 shows a case where the plate 26 is installed on one side 31 of the vortex body 20 or the Koandagi, and the space or hollow portions 27, 28, 29, and 30 inside the vortex body 20 are closed. Indicates the direction, pressure, and speed of the wind (12). Figure 20 shows that holes, holes, slots, etc. are formed in the plate 26 installed on one side 31 of the vortex body 20, through which external air enters the inner space or hollow part 27 of the vortex body 20. 28, 29, 30), or external air, pressure, wind, etc. may be artificially introduced into the inner space or hollow portion (27, 28) of the vortex body (20) through the formed holes, holes, slots, etc. , 29, 30) indicates the direction, pressure, and speed of the wind in case of inflow.

In the present invention, the plate 26 installed on one side 31 of the vortex body 20 or the Koanda machine may be non-porous, perforated, porous, perforated, etc. Here, when the plate 26 installed on one side 31 of the vortex body 20 is non-porous, the internal space or hollow parts 27, 28, 29, and 30 of the vortex body 20 are closed to form the vortex body 20. External air, wind, pressure, etc. do not flow into the internal space or hollow parts 27, 28, 29, 30 of the vortex body 20 from the plate 26 installed on one side 31. However, if the plate 26 installed on one side 31 of the vortex body 20 is perforated, perforated, perforated, etc., the space or hollow portions 27, 28, 29, and 30 inside the vortex body 20 are opened and the vortex is formed. External air, wind, pressure, etc. flows into the inner space or hollow parts 27, 28, 29, 30 of the vortex sieve 20 from the plate 26 installed on one side 31 of the sieve 20. It becomes possible. In this case, the wind inside the vortex body 20 or the wind supplied from inside the vortex body 20 toward the venturi becomes the sum of the existing second wind 12 and air, wind, pressure, etc. introduced from the outside. The vortex body includes a vortex body, a vortex frame, a vortex machine, a vortex ring, a vortex object, a coanda machine, a coanda frame, a coanda body, a coanda ring, and a coanda object.

Figures 21, 22, 23, and 24 are schematic diagrams showing a wind turbine according to the present invention. Here, a wind turbine (100) equipped with a vortex body (20), a first venturi (40), a second venturi (50), and a plate nozzle (80) is shown. 11 to 20, etc., a cylindrical vortex body 20, a first venturi 40, a second venturi 50, and a cylindrical nozzle are shown. Here, a square vortex body 20 and a first venturi are shown. (40), the second venturi (50), and a plate-shaped nozzle are shown. In this way, the vortex body 20, the first venturi 40, the second venturi 50, and the nozzles 70 and 80 may have various shapes.

Figure 25 is a schematic diagram showing the waste treatment process according to the present invention. Figure 25 shows the hopper (130), sprinkler (131), jaw crusher (132), sprinkler (133), manpower sorter (134), magnetic sorter (135), primary vibrating screen sorter (140), soil (150), Blower (151, 100), manpower sorting (152), sprinkler (153), double jaw crusher (154), sprinkler (155), magnetic separator (156), secondary vibrating screen sorter (157), blower (158, 100) ), magnetic separation (159), human separation (160), sprinkler (161), cone crusher (162), stone dust of 13 mm or less (171), aggregate of 13 to 25 mm (172), aggregate of 25 to 49 mm. (173) This is a schematic diagram showing the waste treatment process. The waste treatment process described above proceeds sequentially from the hopper to the cone crusher, and through this, soil, stone dust, aggregate, etc. are extracted, produced, and recycled from the waste. Here, the standards for recycling are particle diameter of 100 mm or less and foreign matter content of 1% or less. The content of claim 1 of the present invention can be applied to one or more of the hopper or aggregate, but among them, the primary vibrating screen sorter (140), the blower (151, 100, 1, 6), and the secondary vibrating screen sorter (157) ), it is effective in applying to blowers (158, 100, 1, 6), etc.

The above use, provision, installation, etc. refers to use, use, application, utilization, provision, radiation, change, installation, injection, installation, installation, anchorage, attachment, retention, location, manifestation, occurrence, launch, installation, irradiation, 照射, Irradiation, illumination, supply, provision, creation, composition, formation, implementation, carrying out, progress, injection, input, input, inflow, injection, spray, eruption, discharge, inclusion, inclusion, immersion, precipitation, fumigation, immersion, deposition, Applies to authorization, permission, etc. Examples of application include magnetization, vibration generation, excitation composition, ozone emission, negative ion formation, magnetizer installation, vibrator mounting, exciter installation, ozone attachment, negative ion presence, magnetization injection, vibrating material inclusion, excited material inflow, This includes application of ozone water, spraying of negative ion water, composite application, use of a multi-function device, and composite launch. In the present invention, etc. refers to one, two or more, one or more of, two or more of, etc. Examples of this include a, b, c, and d, a and b, a and c, a and d, b and c, b and d, c and d, a and b and c, This includes a and b and d, b and c and d, a and b and c and d, etc.

The above relates to some of the contents, examples, etc. that can be implemented by the present invention, and as is well known, the scope of the present invention should not be construed as limited to the above contents, embodiments, etc., and the scope of the present invention should not be construed as limited to the above contents, embodiments, etc. Both the technical details of the invention and the technical details underlying it will be said to be included in the scope of the present invention. The above content, phrases, terms, words, sentences, paragraphs, techniques, devices, etc. may be included in the content, claims, and claim content of the present invention.

1: blower 6: fan 11: first wind 12: second wind
20: Vortex body 40: First venturi 50: Second venturi 60: Cyclone
70: 1st nozzle 80: 2nd nozzle 100: wind machine 110: waste

Claims (1)

A system for producing aggregate by processing waste,
The system includes a coanda machine, a vortex machine, a pulse machine, a first hollow chamber, and a blower,
The coanda machine, vortex machine, pulse machine, and first common are each connected to the blower or to the outlet of the blower,
The blower blows wind,
The wind supplied from the blower is supplied to the Coanda machine, the vortex machine, the pulse machine, and the first hollow pipe, respectively,
The supplied wind is blown to the waste falling to the front of the Coanda machine, vortex machine, pulse machine, and first hollow pipe respectively through the Coanda machine, vortex machine, pulse machine, and first hollow barrel, and blows to the waste. Contained foreign substances are scattered and selected,
The Coanda is a hollow body, an inlet formed on the outer surface of the hollow body, an outlet formed on the inner surface of the hollow body, a step formed on the inner surface spaced apart from the outlet, between the inlet and the outlet, or between the outer surface and the inner surface. a formed hollow portion, a curved portion formed on the inner surface in connection with the outlet, a straight portion formed on the inner surface while associated with the curved portion, and a passage formed on the inner surface, the curved portion, and the inside of the straight portion and passing through the center of the hollow body. composed,
The blowing wind supplied from the blower is discharged to the other side of the passage through the inlet, hollow part, outlet, curved part, and straight part sequentially,
At the moment the blowing wind passes through the curved portion or when the blowing wind is discharged to the other side of the passage, external wind flows into one side of the passage,
The external wind introduced into one side of the passage passes through the passage and heads to the other side of the passage,
A fourth pipe is provided spaced apart from the hollow body,
The blower is connected to one side of the fourth pipe,
The wind from the blower introduced into one side of the fourth pipe passes through the fourth pipe and heads to the other side of the fourth pipe,
A fourth common is connected to the other side of the passage and the other side of the fourth pipe,
A fourth curved portion and a fourth straight portion are sequentially provided inside the fourth hollow common,
A fourth nozzle is provided at the outlet of the fourth common,
The blowing wind and external wind supplied from the other side of the passage pass through the fourth hollow pipe and are discharged through the fourth nozzle,
The wind from the blower supplied from the other side of the fourth pipe passes through the fourth hollow pipe and is discharged through the fourth nozzle,
The wind discharged from the fourth nozzle is blown to the waste falling in front of the fourth nozzle, so that foreign substances are scattered from the waste, and foreign substances are selected from the waste,
The vortex group consists of a venturi and a reverse cyclone in that order,
The venturi is composed of an expansion part and a contraction part adjacent to each other,
A vane is built into the interior or extension of the venturi.
A rotating body is built into the reverse cyclone,
The wind supplied from the blower sequentially passes through one side of the venturi, the interior of the venturi, the other side of the venturi, one side of the reverse cyclone, and the interior of the reverse cyclone, and is discharged to the other side of the reverse cyclone,
When the wind passes through the interior of the venturi, the wind hits the vane and the wind becomes a vortex,
When the wind passes through the interior of the reverse cyclone, the rotating body provided inside the reverse cyclone rotates,
The wind passing through the inside of the reverse cyclone rotates or centrifugally rotates due to the rotation of the rotating body,
The rotation causes the wind to vortex,
The inlet of the third common is connected to the other side of the reverse cyclone,
A spring is built into the third common,
A third nozzle is provided at the outlet of the third common,
The wind supplied from the other side of the reverse cyclone passes through the third hollow pipe and is discharged through the third nozzle,
When the wind passes through the interior of the third common, the wind hits the spring and the wind becomes a vortex,
The wind discharged from the third nozzle is sequentially passed through the inlet and the inside of the third hollow common and is blown to the waste falling to the front of the third nozzle, so that foreign matter is scattered from the waste and foreign matter is selected from the waste,
The pulse machine consists of a second pipe, a tube, a valve, a solenoid, and a timer,
The tube is installed in the second pipe,
The valve is installed in the tube,
The solenoid is connected to the valve,
The timer is linked to the solenoid,
The solenoid is a coil wound in a hollow container,
A wire is connected to the coil,
Electricity is supplied to the coil through the wire,
When electricity is supplied to the coil, a magnetic field is generated in the hollow passing coil,
When electricity is not supplied to the coil, a magnetic field is not generated in the hollow passing coil,
When the magnetic field is generated, the valve is lifted by the magnetic force of the magnetic field and the valve is opened, thereby opening the point of the tube where the valve is installed,
If the magnetic field is not generated, magnetic force is not generated, the valve is lowered by its own weight, and the valve is closed, thereby closing the point of the tube where the valve is installed,
The timer adjusts the time interval between the supply and non-supply of electricity so that the supply and non-supply of electricity is repeated two or more times,
By adjusting the time interval of the electricity supply, the generation or non-generation of the magnetic field is repeated two or more times, causing the valve to open and close repeatedly two or more times,
The wind supplied from the blower is discharged to one side of the second pipe, the inside of the second pipe, and the other side of the second pipe,
Air supplied from the compressor flows into the tube,
The compressor is spaced apart from the coanda machine, vortex machine, pulse machine, first hollow chamber, and blower,
Air supplied from the compressor is introduced into the second pipe through the tube,
By the timer, the opening and closing of the valve installed in the tube is repeated two or more times, and the injection and stopping of air introduced into the second pipe through the tube is repeated two or more times,
As it passes through the second pipe, the injection and stopping of the air is repeated two or more times,
A second common inlet is connected to the other side of the second pipe,
A second nozzle is provided at the outlet of the second common,
The wind discharged from the second nozzle is sequentially passed through the inlet and the inside of the second hollow common and is blown to the waste falling to the front of the second nozzle, so that foreign matter is scattered from the waste and foreign matter is selected from the waste,
A first pipe is provided on one side of the first hollow common,
The blower is connected to one side of the first pipe,
The wind supplied from the blower sequentially passes through one side of the first pipe, the inside of the first pipe, the other side of the first pipe, one side of the first hollow pipe, the inside of the first hollow pipe, and the outlet of the first hollow pipe. do,
A first nozzle is provided at the outlet of the first hollow common,
The wind discharged from the first nozzle is sequentially passed through the inlet and the inside of the first hollow common and is blown to the waste falling to the front of the first nozzle, so that foreign matter is scattered from the waste and foreign matter is selected from the waste,
A shredder is provided in the system, spaced apart from the sorter consisting of the Coanda machine, vortex machine, pulse machine, first hollow chamber, and blower,
The processing includes shredding of waste and sorting of waste,
After crushing the waste, the waste is selected,
The shredding is breaking up the waste,
By the crushing, the waste is converted into pulverized aggregate,
The selection is to select foreign substances from the waste or aggregate,
The crushing is performed by the crusher,
The selection is performed by the selector,
The above processing; A system characterized in that aggregate is produced with foreign substances selected by crushing and screening.