KR102116351B1 - Metal Removal Equipment for Waste Plastic Recycling Plant - Google Patents

Abstract

The present invention relates to a metal removal apparatus for a waste plastic recycling plant. More particularly, the present invention relates to a metal removal apparatus for a waste plastic recycling plant which may remove a metal mixed when a waste plastic passes through an upper portion of a magnet after discharging the waste plastic introduced during an introduction step by a discharge part in order to recycle the water plastic not to be in contact due to static electricity. To this end, the metal removal apparatus for a waste plastic recycling plant according to an embodiment of the present invention includes a dryer side hopper to receive a pulverized waste plastic; a feed pipe extending upward of a lower portion of the dryer side hopper to provide a feed path of the waste plastic received in the dryer side hopper; a feed screw installed inside the transfer pipe and continuously rotated to feed the waste plastic received in the dryer side hopper along the feed pipe; and an outlet formed at an upper of the feed screw, provided therein with a meal separation magnet at an exhaustion path of the fed waste plastic to separate a metal foreign material from the waste plastic.

Description

Metal Removal Equipment for Waste Plastic Recycling Plant

The present invention relates to a waste plastic recycling facility, and more specifically, after discharging the waste plastic input in the process of injecting it to regenerate the waste plastic by the discharge unit so as not to be contacted by static electricity, the waste plastic is a magnet. It relates to a metal removal device for a waste plastic recycling facility that can increase the purity of the recycled plastic by removing the mixed metal by passing through the upper portion.

In general, various petrochemical products using synthetic resin as a main raw material are widely used in large quantities in all fields of industry, and accordingly, a large amount of waste plastic products are discharged.

These plastic wastes have problems that cause environmental pollution during landfilling or incineration due to their decomposition or incorruptible nature.

In order to solve the above problems, a method of recycling waste plastic as a material or recycling as an energy resource has been proposed.

Waste plastics can be generated from defective products or debris that occurs when producing an injection product, and when used as a product, the plastic product that is damaged or has reached the end of its life is discarded.

In order to regenerate these waste plastics, the waste plastics are first crushed into small particles, washed to remove foreign substances, then melted to completely remove moisture through drying, and the melted plastics are molded into pellets to be reused. Will play.

At this time, the metal waste material mixed in the pulverization process remains in the waste plastic, which is difficult to remove because it is crushed together in the waste plastic crushing process.

Related to the prior art 1 (registration patent 10-1504433 foreign material removal apparatus for recycling of waste plastic bottles) discloses a configuration capable of removing foreign matter using a specific gravity difference.

However, there are limitations in separating waste plastics and metals having various specific gravity.

Prior Literature 1 (Registration Patent 10-1504433 Foreign Material Removal Device for Recycling of Waste Plastic Bottles)

The present invention has been devised to solve the above-mentioned problems, and removes metal foreign matter by passing the magnet in a state in which waste plastic and foreign matter are separated using discharge, and removes the residual metal foreign matter through a conveyor provided with a magnet therein. An object of the present invention is to provide a metal removal device for a waste plastic recycling facility that can maximize the efficiency of removing metal foreign substances as it can be removed and discharged once more.

Metal removal apparatus for waste plastic recycling equipment according to an embodiment of the present invention for solving the above problems, the dryer-side hopper 10 is accommodated pulverized waste plastic, the upper side from the bottom of the dryer-side hopper 10 It is provided to be extended to the transfer pipe 20 to provide a path through which the waste plastic accommodated in the dryer side hopper 10 is transferred, installed inside the transfer pipe 20 and continuously rotated to be accommodated in the dryer side hopper 10 A transport screw 30 for transporting the waste plastic along the transport pipe 20 and a metal separating magnet 110 are provided in the discharge path of the transported waste plastic provided on the upper part of the transport screw 30 to provide metal from the waste plastic. Characterized in that it comprises a discharge port 100 for separating foreign matter.

Here, the discharge port 100 is characterized in that the discharge portion 120 for removing static electricity from the waste plastic is further provided.

In addition, the discharge port 100 is further provided with a metal separating conveyor 130 capable of continuously removing metal foreign matters by separating metal foreign matters from waste plastics and immediately discharging and removing the separated foreign matters. Is done.

Metal removal apparatus for waste plastic recycling equipment according to an embodiment of the present invention has the following effects.

First, when crushing and transporting the waste plastic, there is an effect that can effectively remove metal foreign matter by a magnet.

Second, it is possible to remove foreign substances more effectively by removing static electricity through discharge.

Third, while the removed metal foreign matter is discharged through a conveyor, the waste plastic is continuously supplied while separating and removing the metal foreign matter smoothly.

1 is an overall perspective view of a metal removal device for a waste plastic recycling facility according to an embodiment of the present invention
Figure 2 is a cross-sectional view taken along line I-I of the metal removal apparatus for waste plastic recycling equipment according to an embodiment of the present invention
Figure 3 is a cross-sectional view taken along line II-II showing the detailed structure of the metal separation conveyor of the metal removal device for the waste plastic recycling facility according to an embodiment of the present invention
Figure 4 is an embodiment showing a state in which the vibration unit is further provided in the metal removal device for waste plastic recycling equipment according to an embodiment of the present invention
Figure 5 is a perspective view showing a main portion showing a state in which the metal removal and induction is further provided in the metal removal device for the waste plastic recycling facility according to an embodiment of the present invention
6 is an operation state diagram of a metal removal and induction unit in a metal removal device for a waste plastic recycling facility according to an embodiment of the present invention

The present invention is to remove the metal foreign matter mixed while transporting the waste plastic in the waste plastic recycling facility, in particular, by discharging the waste plastic to remove the metal foreign matter by using a magnet in a state that is not attached to each other by static electricity, thereafter remaining The metal foreign matter to be removed is continuously removed by a circulating metal separating conveyor to increase metal removal efficiency.

Hereinafter, a metal removal apparatus for a waste plastic recycling facility according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is an overall perspective view of a metal removal device for a waste plastic recycling facility according to an embodiment of the present invention, and FIG. 2 is a sectional view taken along line I-I of a metal removal device for a waste plastic recycling facility according to an embodiment of the present invention. .

1 and 2, the present invention extends from the bottom of the dryer-side hopper 10 and the dryer-side hopper 10, where the largely crushed waste plastic is washed and dried and accommodated, and the waste plastic is transported. The transfer pipe 20 and the transfer screw 30 and the transfer screw 30 for continuously transporting the waste plastic along the transfer pipe 20 while being continuously rotated are provided inside the transfer pipe 20. It is configured to include a discharge port 100 for discharging the waste plastic to the hopper 40 of the melting furnace while removing metal foreign matter from the waste plastic transferred through.

Here, the discharge port 100 is provided at the front of the metal separating magnet 110 and the metal separating magnet 110 for separating metal foreign substances from the waste plastic by magnetic force in the lower portion where the waste plastic is discharged. Discharge part 120 for removing static electricity by discharging X-ray to the side and metal separating conveyor 130 provided at the back of the metal separating magnet 110 and rotating in the form of a conveyor to separate and discharge metal foreign matter from waste plastic ).

Due to this, it is possible to increase the purity of the recycled plastic by efficiently separating the metal foreign matter mixed in the waste plastic.

3 is a cross-sectional view taken along line II-II of a detailed structure of a metal separation conveyor of a metal removal device for a waste plastic recycling facility according to an embodiment of the present invention.

Referring to FIG. 3, the metal separation conveyor 130 includes a magnet belt 131 continuously rotated by a structure, and a conveyor magnet provided under the magnet belt 131 to separate metal foreign substances from waste plastic ( 132, and a metal discharge hole 133 and the metal discharge hole (133) provided on one side where the magnet belt 131 is circulated to discharge metal foreign substances separated by the conveyor magnet 132 toward the magnet belt 131 side. 133) is provided on the outside, is configured to include a metal removing member 134 to scrape and remove the metal foreign matter that is separated and discharged through the magnet belt 131.

Here, the magnetic belt 131 is made of a soft magnet, such as a magnetic rubber, when metal foreign matter is separated by a conveyor magnet 132 provided at a position where the waste plastic is discharged, metal until discharged By leading to the metal discharge hole 133 side with the foreign matter attached, it is possible to more effectively separate and discharge the metal foreign matter so as not to be mixed therein.

At this time, the magnetic belt 131 is rotated by a drive motor 131a provided inside, and the drive pulley 131b connected to the rotation shaft of the drive motor 131a and the other side provided with the drive pulley 131b are provided. The magnetic belt 131 is continuously rotated by a driven pulley 131c that is rotated while supporting it elastically.

Meanwhile, the metal foreign matter separated through the metal removal member 134 flows into the metal foreign matter recovery unit 135 provided under the metal removal member 134 so that the metal foreign matter is not leaked to the outside and recovered during the operation. It becomes possible.

In addition, the metal foreign matter recovery unit 135 is provided with a vacuum suction unit 135a capable of vacuum suctioning the separated metal foreign matter, so that the metal foreign matter can be sucked and recovered to prevent leakage.

Due to this, even in the process of recovering the metal foreign matter, a small size metal foreign matter such as iron powder is effectively removed while being sucked so as not to leak, thereby maintaining a cleaner working environment.

4 is an exemplary view showing a state in which a vibration part is further provided in a metal removal device for a waste plastic recycling facility according to an embodiment of the present invention.

Referring to FIG. 4, a vibration unit 140 is further provided under the outlet 100.

The vibrating unit 140 is installed at the lower portion where the metal separating magnet 110 and the conveyor magnet 132 are installed, and the metal separating magnet 110 and the conveyor magnet are mixed with the foreign metal mixed with the vibration to the waste plastic. (132) is directed to be attached to the side.

Here, the vibration unit 140 may be applied in various forms, such as an eccentric motor, a vibrator, and ultrasonic waves.

Due to this, it is possible to effectively remove the metal foreign matter mixed in the waste plastic by inducing and separating the metal foreign matter to the magnet side.

5 is a perspective view of a main portion showing a state in which a metal removal and induction unit is further provided in a metal removal device for a waste plastic recycling facility according to an embodiment of the present invention, and FIG. 6 is a waste plastic recycling facility according to an embodiment of the present invention It is a state diagram of the metal removal and induction of the metal removal device.

Referring to Figures 5 and 6, the lower portion of the outlet 100 is provided symmetrically to both sides from the center of the outlet 100, to remove the metal mixed in the waste plastic by eccentric rotation to collect the waste plastic to the center Induction metal removal and induction 150 are further provided.

The metal removal and induction unit 150 is provided on both sides of the path through which the waste plastic is discharged from the inner bottom of the discharge port 100 and is provided symmetrically on both sides, and the eccentric rotating magnet 151 rotates eccentrically in the outward direction at the same time, and the eccentric rotating magnet It is connected to rotate with any one of the eccentric rotating magnet 151, the eccentric rotating magnet 151 and the driving motor 152 for providing power to rotate, and generated from the driving motor 152 The first power transmission unit 153 and the eccentric rotation magnets 151 transmit rotational power transmitted through the first power transmission unit 153 to a position spaced apart at a predetermined distance so as to rotate the rotational power in the same rotational direction. It is configured to include a second power transmission unit 154 for transmitting power while changing the rotation direction to rotate in the opposite direction.

Here, the first power transmission unit 153 is connected to the driving motor 152, a driving pulley 153a for initially transmitting rotational power, and a driven pulley 153b provided at a predetermined distance from the driving pulley 153a. ) And the driving pulley 153a and the driven pulley 153b are provided to be continuously circulated along the outside, including a timing belt 153c that transmits the power of the driving pulley 153a to the driven pulley 153b side. do.

In addition, the second power transmission unit 154 is provided under the driven pulley 153b, and a driving gear 154a rotated with the driven pulley 153b by rotational power transmitted from the driving motor 152 and Eccentric rotation provided in engagement with the drive gear 154a, connected to another eccentric rotation magnet 151 to which the drive motor 152 is connected, and provided symmetrically to each other while rotating in the opposite direction to the drive gear 154a The magnet 151 is configured to include a driven gear 154b that transmits power so as to rotate eccentrically in opposite directions.

At this time, an upper portion of the eccentric rotating magnet 151 is formed with a convex portion 151a convex to the upper portion.

Due to this, while the convex portion 151a is attached to and removed from the path inside the waste plastic to the metal inside the waste plastic, it is rotated outwardly to each other to induce the metal to be gathered in the center while extending the residence time of the discharged plastic. As the separating magnet 110 passes to the direction in which the separation magnet 110 is provided, it is possible to increase the metal removal efficiency.

The present invention made as described above is to be able to separate the metal foreign matter mixed during the collection and crushing of the waste plastic in the recycling of the waste plastic by using a magnet, to remove static electricity by the discharge portion to separate the metal mixed with the waste plastic In the separated state, it is possible to increase the purity of the recycled plastic raw material by separating only the metal foreign matter using a magnet in the separated state.

10: dryer side hopper 20: transfer pipe
30: transfer screw 100: outlet
110: metal separation magnet 120: discharge unit
130: metal separation conveyor 131: magnetic belt
131a: drive motor 131b: drive pulley
131c: driven pulley 132: conveyor magnet
133: metal discharge hole 134: metal removal member
135: metal foreign matter recovery unit 135a: vacuum suction unit
140: vibration unit 150: metal removal and induction
151: eccentric rotating magnet 151a: convex portion
152: drive motor 153: first power transmission unit
153a: drive pulley 153b: driven pulley
153c: Timing belt 154: Second power transmission unit
154a: drive gear 154b: driven gear
40: fusion furnace side hopper

Claims (3)

Dryer side hopper 10 is received pulverized waste plastic;
A transfer pipe 20 provided to extend upward from a lower portion of the dryer side hopper 10 to provide a path through which waste plastic accommodated in the dryer side hopper 10 is transferred;
A transfer screw 30 installed inside the transfer pipe 20 and continuously rotating to transfer the waste plastic accommodated in the dryer side hopper 10 along the transfer pipe 20; And
Including the; the discharge hole 100 for separating the metal foreign matter from the waste plastic is provided; provided with a metal separator magnet 110 in the discharge path of the waste plastic is provided on the upper portion of the transfer screw 30,
The discharge port 100 is further provided with a discharge unit 120 for removing static electricity from the waste plastic,
The discharge port 100 is further provided with a metal separating conveyor 130 capable of continuously removing metal foreign matter as it is continuously rotated to separate metal foreign matter from the waste plastic and immediately discharge and remove the separated foreign matter.
The discharge port 100 is provided symmetrically to both sides from the center of the discharge port 100, and removes the metal mixed in the waste plastic by eccentric rotation while inducing the metal removal and induction unit 150 to induce the waste plastic to be collected in the center. Metal removal device for waste plastic recycling equipment, characterized in that further provided.
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