KR960006806Y1 - Waste separation apparatus - Google Patents

Abstract

No summary

Description

3 kinds of waste separator

1 is a partial cutaway perspective view of the separation device according to the present invention

Figure 2 is a side cross-sectional view of the eddy current generator of the separation device according to the present invention

3 is a view for explaining the separation of the three kinds of waste in the separation device according to the present invention.

* Explanation of symbols for main parts of the drawings

2: hopper 6: driving drum

8: driven drum 10: conveyor belt

12: first drive motor 14: rotor

16: second drive motor

[Industrial use]

The present invention relates to a waste separation device, and more particularly, to a waste separation device that can separate the waste into metals, non-ferrous metals and non-metals.

[Prior art]

In recent years, waste recycling methods are being studied. In order to recycle these wastes, it is necessary to first separate the wastes by type.

Most of the waste is mixed with metals and nonmetals, and because it is mixed with flammable and non-flammable materials, it is not easy to separate them.

Currently used separation device is composed of using centrifugal force or using specific gravity difference, but this method is affected by the size of the waste, so there is a problem that a grinder must be used in parallel in order to keep the waste size constant. .

On the other hand, a waste separation apparatus for separating metals and nonmetals using magnets has been proposed, but this method is evaluated as being undesirable because metal and nonferrous metals are not separated.

Summary of the proposal

The present invention is devised to solve the above problems of the prior art, the purpose of the present invention is to separate the waste into metals, non-ferrous metals, non-metals, etc. three kinds of wastes that can improve the recycling efficiency of the waste To provide a separation device.

The object of the present invention is a waste conveying means, a rotor in which a plurality of magnets are arranged in a cylindrical shape, a magnet driving means for rotating the rotor at high speed, and rotatably inserted into the outer circumference of the rotor. It comprises a drum that rotates by one conveying means.

EXAMPLE

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

1 is a partial cutaway perspective view of a separation device according to the present invention, and includes a hopper 2 in which waste is collected in one place, and a waste conveying means 4 provided at an outlet side of the hopper 2.

The waste conveying means (4) comprises a drive side drum (6) and a driven side drum (8) rotatably spaced at appropriate intervals, and a conveyor belt (10) installed on these drums (6) and (8); The first drive motor 12 is configured to rotate the drive side drum 6 to enable belt transmission.

The rotor 14 is installed inside the driven side drum 8 so as to be rotatable by the second driving motor 16. A plurality of magnets 15 are provided on the outer circumference of the rotor 14; Attached and arranged at equal intervals so that they can rotate with the rotor.

The rotor 14 is installed in a state in which the magnet 15 is rotatably fitted inside the driven drum 8, and by this structure, the driven drum 8 is formed of the first driving motor 12. It is rotated around the rotor 14 by the conveyor belt 10 transmitting the driving force, and the rotor 14 is rotated separately from the driven drum 8 by the second driving motor 16. .

The driving side drum 6 and the driven side drum 8 are provided in the longitudinal direction inside the housing 18 in which the hopper 2 is installed, and below the driven side drum 8, the first outlet ( 20), the second outlet 22 and the third outlet 24 are formed.

2 is a side cross-sectional view of the rotor 14 according to the present invention, the rotor 26 is rotated by receiving the driving force from the second drive motor 16, and the outer peripheral part of the rotor 26 And a plurality of magnets 15 embedded therein and a driven side drum 8 which is provided in contact with the outer surface of the magnets 15.

The driven drum 8 is preferably made of a light and hard curable resin, and for example, FRP may be used.

The magnets 15 are embedded in the rotating body 26 at equal intervals in the circumferential direction, and these magnets are formed such that a magnetic field is formed between them by alternately arranging the N pole and the S pole.

In the separation device according to the present invention, the wastes are dropped onto the conveyor belt 10 when the wastes are put into the hopper 2. In this case, the first drive motor 12 drives the conveyor belts 10. Garbage placed on the side is moved to the exit side.

In this operation, the conveyor belt 10 is returned and the wound side drum 8 is rotated together. At this time, when the second driving motor 16 is driven, the rotor (10) inside the driven side drum 8 is rotated. 14) rotates independently.

The rotational speed of the rotor 14 is preferably rotated at a considerably faster speed than the driven drum 8. For example, if the driven drum 8 rotates within a range of 15-60 rpm, the rotor ( 14) is to rotate in the range of 800-2800rpm.

This is to generate an eddy current, which is any local formation to prevent this change if the magnetic flux through the conductor changes or if the magnetic flux and the conductor move symmetrically and the magnetic flux in the conductor causes temporal displacement. Refers to the induction of current along a closed circuit.

In this embodiment, the eddy currents are induced to screen out aluminum, which is a nonmagnetic, nonmagnetic, and conductor, particularly from garbage. When the rotor 14 rotates at a high speed as described above, the driven drum 8 The surface of the strong magnetic field is generated, which is to move the waste containing aluminum along the conveyor belt 10 into the magnetic field.

Therefore, aluminum is placed in the moving magnetic field. At this time, an eddy current is generated in the aluminum, and a reaction force is generated in the rotational direction of the driven drum 8 due to interaction with the magnetic field, and the aluminum is thrown away by this reaction force.

That is, the eddy current generated in aluminum is a current induced along an arbitrary closed circuit in order to prevent the magnetic flux change of the moving magnetic field. When the current flows in the closed circuit, magnetic lines are formed concentrically around the closed circuit. Repulsive forces occur because they are formed in opposite directions to the lines of magnetic force.

In other words, non-ferrous metals, which are non-conductive materials in the garbage, jump out from the conveyor belt 10 and fall into the third outlet 24 as shown in FIG. 3, and the non-metals are transported on the conveyor belt 10. As it falls by its own weight it will fall to the second outlet (22).

The metals in the waste are absorbed by the magnet 15 of the rotor 14 and move in close contact with the conveyor belt 10, and then the magnetic force is dissipated when the conveyor belt 10 and the magnet 15 gradually move away. It is dropped and enters the first outlet 20.

In the above, the magnetic material and the metal, which is a conductor, move in close contact with the conveyor belt 10 because the adsorption force by the magnet 15 is larger than the repulsive force caused by the eddy current.

As described above, the three kinds of waste separation apparatuses according to the present invention rotate the rotor at a high speed to form a moving magnetic field on the drum surface, and pass aluminum through the magnetic field so that eddy currents are generated in the aluminum to mutually interact with the magnetic field. Aluminum can be blown away in the direction of conveyor rotation, nonmetals induce natural fall, and ferrous metals fall past the natural fall point by magnetism to separate waste into ferrous metals, nonferrous metals and nonmetals. have.

In particular, since aluminum can be separated from waste, it is possible to recycle aluminum, which can reduce the power consumption of producing aluminum by more than 97%, and can be separated by continuously inputting garbage. Separation efficiency can be increased, and the structure can be designed small in size, so there is an advantage of not being limited by space due to installation.

Claims (1)

A hopper 2 into which waste is introduced, a drive side drum 6 provided below the hopper 2 and driven by the first drive motor 12, and a constant distance from the drive side drum 6 A rotor on which the driven drum (8), which is mounted with a float, and a conveyor belt (10) electrically installed on these drums, and a plurality of magnets (15) arranged on the outer circumferential surface of the driven drum (8) in contact with each other 14, and the three kinds of waste separation apparatus comprising a second drive motor 16 for rotating the rotor