JP2018183734A - Facility for discriminating waste plastic including metals - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a facility which discriminates waste plastic quickly and finely into plural types by utilizing specific gravity difference of the waste plastic, flowing the water used for separation in a different mode, and by combining those operations.SOLUTION: An objective facility is equipped with: a cleaning pulverizer 1 pulverizing waste plastic; a vortex flow type cylindrical water tank 3 for separating the cleaned pulverization material into a floating plastic pulverized material FP including a metal pulverized material M, and the light and heavy plastic pulverized materials LP, HP by water vortex flow and gravity difference; and a flowing water type gravity sorter 5 for separating the separation-sorted light and heavy plastic pulverized materials LP, HP into LP and HP by the gravity difference. Those treatment machines are arranged on the same place.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a technology for recycling discarded plastics, and in particular, waste plastics containing metals are pulverized, and the pulverized materials are sorted into metals and plastics. The present invention relates to a sorting facility for waste plastics including metals that are finely sorted from light to heavy plastics and recovered, and a sorting method thereof.

  Waste plastics include various types such as PET bottles, waste tires, synthetic rubber scraps, synthetic fiber scraps, vinyl sheet scraps, solids and films. For example, after an automobile is scrapped, the automobile uses metals such as iron and aluminum, and many useful parts such as batteries are used. After removing dangerous materials and crushing them to recover iron scrap, residual plastics, conductors, and non-ferrous metals are recovered from waste car shredder dust as valuable resources. Specifically, it is separated and refined into valuable materials such as light plastics, heavy plastics, conductors, and other types of metals.

  In view of this, a technology has been proposed that separates valuable plastics into light plastics, heavy plastics, conductors, and other types of metals. For example, in Japanese Patent Application Laid-Open No. 2004-58032 “Method for recovering valuable materials from shredded automobile shredder dust”, plastics and metals are removed from shredder dust that is disposed of as waste after being scrapped. A method of separating and collecting by a specific gravity sorter using a wet method into a recycled product. A method of separating light specific gravity plastics and heavy specific gravity plastics from shredder dust of scrap cars with a wet specific gravity sorter to make recycled materials. Furthermore, the suspended matter separation tank for separating lighter and heavier substances than the water in the shredder dust of a scrap car is equipped with a pulsating bubbling tank and a sedimentation tank that discharge air and bubbles intermittently. Proposed.

  Further, in Japanese Patent Application Laid-Open No. 2003-19713 of Patent Document 2, “metal composite plastic waste processing method”, a metal composite plastic waste is heated to a temperature within a range of 200 ° C. to 280 ° C. There has been proposed a method for treating metal composite plastic waste comprising a separation step of separating a plastic component and an inorganic material component by an organic heat medium having a boiling point and a softening point in the range of 90 ° C to 140 ° C.

JP 2004-58032 A JP 2003-19713 A

  Patent Document 1 discloses a method for recovering valuable materials from waste vehicle shredder dust. The suspended matter separation tank uses a pulsating bubbling tank and a sedimentation tank that discharge air and bubbles intermittently. This is a method for separating light and heavy substances. However, the recovery method of Patent Document 1 has a problem that the processing speed is slow due to natural sedimentation. In addition, the recovery method of Patent Document 1 cannot use fine separation and selection of plastics having different specific gravities only by using air and bubbles.

  Patent Document 2 “Process for Disposing Metal Composite Plastic Waste” is a method of heating a metal composite plastic waste to a temperature in the range of 200 ° C. to 280 ° C. and a boiling point of 300 ° C. or higher and 90 ° C. to 140 ° C. In this method, the plastic component and the inorganic material component are separated by an organic heat medium having a softening point within the range. However, the processing method of Patent Document 2 has a problem that the plastics cannot be finely separated and sorted because the plastics are melted and removed from the metals by heating. In addition, since a heating step is necessary, there is a problem that the processing cost of waste disposal increases.

  The present invention has been developed to solve such problems. That is, the object of the present invention is to sort using waste plastics by using the difference in specific gravity, but the water used for the separation is made to flow in different forms, and by combining them, a plurality of types of waste plastics can be quickly collected. It is an object of the present invention to provide a sorting equipment for waste plastics containing metals that can be separated and sorted and finely sorted, and a sorting method therefor.

The sorting equipment of the present invention uses a processing machine to separate waste plastics containing metals into plastic pulverized products (FP, LP, HP) and metal pulverized products (M), and further plastic pulverized products (FP, LP). , HP) is a sorting facility for waste plastics containing metal that separates and sorts several types by specific gravity difference,
Washing and crushing machine (1) having an apparatus for injecting water for washing the rotating blade and the pulverized material to the apparatus body (9) in order to crush waste plastics containing metal into a predetermined shape and size while washing. When,
The washed pulverized product washed and pulverized by the washing and pulverizing machine (1) is divided between the metal pulverized product (M) and the floating plastic pulverized product (FP), and between the metal pulverized product (M) and the floating plastic pulverized product (FP). A propeller (13) that stirs water in a cylindrical water tank (12) and a ground metal smash ( M), a funnel-shaped discharge port (14) formed at the bottom of the cylindrical water tank (12), and a light and heavy plastic pulverized product attached to the periphery of the opening of the cylindrical water tank (12) ( LP, HP) and a vortex-type cylindrical separation water tank (3) each having a discharge device (4) for taking out,
Light and heavy plastic pulverized material (LP, HP) separated and selected in the vortex-type cylindrical separation water tank (3) is divided into light plastic pulverized material with a light specific gravity and heavy plastic pulverized material (HP) with a high specific gravity that sinks to the bottom of the water. A plurality of paddles (22) attached to the upper surface of the box-type sorting water tank (20), and a settled heavy plastic attached to the bottom of the box-type sorting water tank (20). A discharger (5) for discharging the pulverized product (HP), and a flowing water specific gravity sorter (5),
The heavy plastic pulverized product (HP) selected by the flowing water specific gravity sorter (5) is vibrated to separate the granular plastic pulverized product downward and the powdered plastic pulverized product upward. A vibration separator (7) having a casing (25) for storing an object and a vibrator for vibrating the casing (25),
The vortex-type cylindrical separation water tank (3) is disposed adjacent to the washing and pulverizing machine (1), the flow-type specific gravity separator (5) is disposed adjacent to the vortex-type cylindrical separation water tank (3), The vibration separator (7) is arranged in the same place adjacent to the flowing water specific gravity separator (5).

  A configuration in which a suction port (16) for collecting the separated floating plastic pulverized material (FP) is attached to the center of the opening of the vortex-type cylindrical separation water tank (3) is preferable.

The flowing water-type specific gravity sorter (5) has an input part (21) of light and heavy plastics (LP, HP) at one end in the longitudinal direction of a box-type sorting water tank (20) having a downwardly cylindrical bottom (19). )
In order to discharge the light plastic pulverized material (LP), a plurality of paddles (22) rotating from the charging portion (21) toward the other end are attached to the opening of the box-shaped sorting water tank (20) in the longitudinal direction. ,
A screw conveyor (23) is attached to the bottom (19) of the box-shaped sorting water tank (20) in the longitudinal direction thereof, and the heavy plastic pulverized material (HP) separated and separated is conveyed to the discharger (6). What was comprised in this is preferable.

The sorting method of the present invention separates waste plastics containing metals into a plastic pulverized product (FP, LP, HP) and a metal pulverized product (M) by a specific gravity difference, and further separates the separated plastics into a specific gravity difference. In the sorting method of waste plastics containing metal to be sorted by a processing machine arranged in the same place for all the processes separated into several types in
Washing and pulverizing step (S1) for rotating waste, pulverizing into a predetermined shape and size while cleaning by jetting water,
Metal pulverized material (M) that settles on the bottom of the water against the water flow in the vortex-type cylindrical separation water tank (3), floating plastic pulverized material (FP) that floats with the rotating water flow, and metal A eddy current specific gravity separation process in which light and heavy plastic pulverized products (LP, HP) having a specific gravity intermediate between the pulverized product (M) and the floating plastic pulverized product (FP) are rotated with a water flow and sorted into three types according to their specific gravity differences. (S2),
While filtering the light and heavy plastic pulverized material (LP, HP) in the flowing water type specific gravity sorter (5), the light plastic pulverized material (LP) with a light specific gravity and the specific gravity that settles on the bottom of the water. A flowing water type specific gravity separation step (S3) that sorts the heavy heavy plastic pulverized product (HP) into two types by specific gravity difference;
The heavy plastic pulverized product (HP) is separated by vibration to separate into two types of granular plastic pulverized product and powdered plastic crushed product (S4). To do.

Next to the flowing water specific gravity separation step (S3), a configuration including a light plastic pulverized product dehydration step (S5) for removing moisture from the light plastic pulverized product (LP) before collecting the light plastic pulverized product (LP) is preferable.
Subsequent to the flowing water specific gravity separation step (S3), the heavy plastic pulverized product (HP) is removed from the heavy plastic pulverized product (HP) before entering the vibration separation step (S4). A configuration having (S6) is preferable.

In the vortex specific gravity separation step (S2), salt water can be used.
In the flowing water specific gravity separation step (S3), salt water can be used.

In the sorting equipment of the present invention, waste plastics containing metal can be easily separated and sorted by combining the swirl type cylindrical separation water tank (3) and the flowing water type specific gravity sorter (5). It can be quickly separated and sorted into three types, light plastics and heavy plastics.
In the sorting equipment according to the present invention, the processing machines are arranged in the same place and the processing machines are arranged adjacent to each other, so that they can be separated and sorted in a short time and collected. Since two types of water tanks (3, 5) are used and separated using the difference in specific gravity, the processing cost can be reduced.

  In the sorting processing method of the present invention, the vortex specific gravity separation step (S2) for sorting the pulverized product pulverized in the washing and pulverizing step (S1) into three types, and the light and heavy plastic pulverized product (LP, HP) in two types It consists of a flowing water specific gravity separation process (S3) to separate and a vibration separation process (S4) to sort heavy plastic pulverized products (HP) into two types, using two types of water tanks (3, 5), Since it sorts using, processing cost can be reduced. And since it is not a combustion process, it does not have a bad influence on an environment and processing cost does not rise.

It is an arrangement | positioning top view which shows the sorting equipment of the waste plastics containing the metal of Example 1. FIG. FIG. 2 is a layout front view showing a waste plastics sorting apparatus containing metal of Example 1, showing a washing and grinding machine, a vortex type cylindrical separation water tank and a flowing water type specific gravity sorter on the upper side, and a vibration separator on the lower side. It is the schematic explanatory drawing made into the partial cross section of the eddy current type cylindrical separation water tank of this invention. It is the schematic explanatory drawing made into the partial cross section of the flowing water type specific gravity sorter of this invention. It is a flowchart which shows the specific process process in the selection processing method of this invention. It is a schematic explanatory drawing which shows each process flow figure in the selection processing method of this invention, and the pulverized material isolate | separated and selected.

  The sorting equipment for waste plastics containing metal according to the present invention has a washing and grinding machine for washing and grinding waste plastics containing metal, a washing and grinding product, a metal grinding product and a floating plastic grinding product, and a specific gravity intermediate between them. In order to separate the light and heavy plastic pulverized material with a specific gravity difference by the vortex of water, the vortex-type cylindrical separation water tank, the light and heavy plastic pulverized material separated into the light plastic pulverized material with a low specific gravity and the specific gravity that settles to the bottom of the water. This is a facility in which all of the flowing water type specific gravity sorters that separate the heavy plastic pulverized material with a specific gravity difference are arranged at the same place.

<Arrangement of each processor>
FIG. 1 is an arrangement plan view showing a sorting facility for waste plastics containing metal according to the first embodiment. FIG. 2 shows a waste plastics sorting apparatus containing metal of Example 1, an arrangement front view showing a washing pulverizer, a vortex-type cylindrical separation water tank and a flowing-water specific gravity sorter on the upper side, and a vibration separator on the lower side. It is.
The sorting equipment for waste plastics containing metal of Example 1 is equipment in which the following processing machines are arranged. A vortex-type cylindrical separation water tank 3 is arranged adjacent to the discharge port 2 of the washing and grinding machine 1, and a flowing-water specific gravity sorter 5 is arranged adjacent to the discharge device 4 of this vortex type cylindrical separation water tank 3. Further, a vibration separator 7 is arranged adjacent to the discharger 6 of the flowing water specific gravity sorter 5.

  These processors are arranged at the same place. As shown in the figure, the collected metal pulverized product and plastic pulverized product are collected in the respective collection bags 8 installed in parallel, and the collected plastics and the like are collected. Or the collection bag 8 is arrange | positioned adjacent to each processing machine, respectively, and the waste plastics sorted into these collection bags 8 can be collect | recovered.

  The cleaning pulverizer 1 is a processing machine having a rotary blade and an injector for injecting water for cleaning the pulverized material in the apparatus main body 9. The washing and pulverizing machine 1 pulverizes the waste plastics introduced from the inlet 10 into a predetermined shape and size while washing. Before processing with this washing and pulverizing machine 1, large waste plastics such as a bumper of a scrap car are sized so that they can be introduced into the inlet 10 of the washing and pulverizing machine 1. Process with pulverizer.

  The washing and pulverized material processed by the washing and pulverizing machine 1 includes a metal pulverized material M, a floating plastic pulverized material FP having a specific gravity lighter than water, and a light pulverized material FP having an intermediate specific gravity between the metal pulverized material M and the floating plastic pulverized material FP. Heavy plastic pulverized products LP and HP are mixed. The present invention sorts various different plastics at one place by utilizing the difference in specific gravity.

<Specific gravity of plastics (density (g / cm ³ ))>
The floating plastics, light plastics and heavy plastics processed in the sorting equipment and sorting process of the present invention are classified by the following specific gravity difference. However, these values may differ from those of low density or high density, when glass fiber (GF) is filled, talc (talc) is blended, or other materials are filled.
As "floating plastics", the specific gravity (density (g / cm ³ ))
0.91-0.96 polyethylene (PE),
There are 0.90 to 0.91 polypropylene (PP) and the like.

As “light plastics”, the specific gravity (density (g / cm ³ ))
1.04-1.09 polystyrene (PS),
1.07-1.10 AS resin (acrylonitrile styrene),
There is an ABS resin (ABS) of 1.01 to 1.04.

As "heavy plastics", the specific gravity (density (g / cm ³ ))
1.35 to 1.45 polyvinyl chloride, polyvinyl chloride resin (PVC),
1.17 to 1.20 acrylic resin, methacrylic resin (PMMA),
1.34 to 1.39 PET resin, polyethylene terephthalate (PET),
1.19 to 1.31 PVAL resin, polyvinyl alcohol (PVAL),
1.65 to 1.72 polyvinylidene chloride (PVDC),
1.75 to 1.78 polyvinylidene fluoride (PVDF),
1.13 to 1.15 nylon 66 (polyamide) (PA66),
1.42 polycarbonate (PC),
1.31 to 1.38 PBT resin, polybutylene terephthalate (PBT),
1.34 polyphenylene sulfite (PPS),
1.43 to 1.51 polyimide resin (PI),
1.27 polyetherimide (PEI),
1.24 polysulfone (PSF),
2.14 to 2.2 polytetrafluon ethylene, fluorine resin (PTFE) and the like.
The above relates to thermoplastic plastics. Thermoplastic plastics soften when heated and soften, solidify when cooled, and are repeated to form various shapes. Applications can be reused in a wide range of applications from containers and packaging (films, sheets, bottles), daily necessities and miscellaneous goods to household appliances and automobile parts.

  Thermosetting plastics that have been cured once do not flow again even when heated. Utilizing this property, it may be reused for tableware, electric equipment substrates, golf shafts, tennis rackets, FRP ships, and the like.

Thermosetting “heavy plastics” have a specific gravity (density (g / cm ³ )) of
1.21 to 1.30 phenolic resin (PF),
1.47 to 1.52 urea resin (UF),
1.48 melamine resin (MF),
1.10 to 1.46 unsaturated polyester (UP),
1.1 to 1.5 PU (polyurethane),
1.55 to 1.68 acrylic resin, diallyl phthalate (PDAP),
There are epoxy resins (EP) of 1.11 to 1.40.

Incidentally, the specific gravity (density (g / cm ³ )) of iron (Fe) of “metal” is 7.87, aluminum (Al) is 2.67, and copper (Cu) is 8.96.

<Configuration of vortex-type cylindrical water tank>
FIG. 3 is a schematic explanatory view showing a partial cross section of the vortex-type cylindrical separation water tank of the present invention.
As described above, the washed pulverized product processed by the cleaning pulverizer 1 includes a floating plastic pulverized product FP having a specific gravity lighter than water, and a light plastic pulverized product LP having a specific gravity intermediate between the metal pulverized product M and the floating plastic pulverized product FP. The heavy plastic pulverized product HP and the metal pulverized product M are mixed. Therefore, the washed pulverized product is sorted in the vortex-type cylindrical separation water tank 3. The washed and pulverized material processed by the washing and pulverizing machine 1 is conveyed and put into the vortex type cylindrical separation water tank 3 by a conveying machine 11 such as a screw conveyor.

  The vortex-type cylindrical separation water tank 3 includes a propeller 13 that stirs water in the cylindrical water tank 12, a funnel-shaped discharge port 14 that is formed at the bottom of the cylindrical water tank 12 that sinks the metal pulverized material M, and an opening periphery of the cylindrical water tank 12. It is the separation water tank which has each discharge device 4 which takes out light and heavy plastic pulverized material LP and HP separated by eddy current water attached. The discharge device 4 is attached to the opening peripheral edge of the cylindrical water tank 12 because the light and heavy plastic pulverized products LP and HP rotate on the inner wall surface of the cylindrical water tank 12 by swirling water.

  First, in the vortex-type cylindrical separation water tank 3, the metal pulverized material M in the washed pulverized material is heavy, and thus immediately settles against the vortex water. The settled metal pulverized material M is collected from the funnel-shaped discharge port 14 at the bottom of the cylindrical water tank 12.

  The light and heavy plastic pulverized products LP and HP in the washed pulverized product rotate together with the swirl water and collect on the inner wall surface of the cylindrical water tank 12 by centrifugal force. The light and heavy plastic pulverized products LP and HP are collected from the discharge device 4 attached to the opening periphery of the cylindrical water tank 12.

  The floating plastic pulverized material FP in the washed pulverized material floats on the surface of the water while rotating in the water together with the swirl water. Furthermore, it will be in the state which floated in the opening center part of the cylindrical water tank 12. FIG. The separated floating plastic pulverized product FP is sucked from the suction port 16 attached to the center of the opening of the vortex-type cylindrical separation water tank 3 and is collected in the collection bag 8 using the air damper 17. At this time, dehydration and drying may be performed.

  Thus, in the vortex-type cylindrical separation water tank 3, the light and heavy plastic pulverized products LP and HP having a specific gravity intermediate between the metal pulverized product M and the floating plastic pulverized product FP, which are not significantly affected by the vortex water, are separated by centrifugal force caused by the vortex flow. To do. In this vortex-type cylindrical separation water tank 3, not only separation and selection of the metal pulverized product M and the plastic pulverized product but also separation and selection of the floating plastic pulverized product FP and the light and heavy plastic pulverized products LP and HP can be performed simultaneously. . Incidentally, talc reinforced (blended talc) of polypropylene (PP) is changed from the floating plastic pulverized product FP to the light plastic pulverized product LP, and can be efficiently separated and sorted in the vortex type cylindrical separation water tank 3 of the present invention. It was.

<Configuration of running water specific gravity sorter>
FIG. 4 is a schematic explanatory view in partial section of the flowing water type specific gravity sorter of the present invention.
The light and heavy plastic pulverized products LP and HP sorted in the vortex-type cylindrical separation water tank 3 are transported and put into the flowing-water specific gravity sorter 5 by a transporter 11 such as a screw conveyor. The flowing water-type specific gravity sorter 5 has an input portion 21 for light and heavy plastic pulverized products LP and HP at one end in the longitudinal direction of a box-shaped sorting water tank 20 having a bottom portion 19 having a downward cylindrical shape. The flowing water type specific gravity sorter 5 is provided with a plurality of paddles 22 that rotate from the input part 21 of the box-type sorting water tank 20 toward the other end in order to discharge the light plastic pulverized product LP. These paddles 22 allow water in the box-type sorting water tank 20 to flow.

  A screw conveyor 23 is attached to the bottom portion 19 of the box-shaped sorting water tank 20 in the longitudinal direction thereof, and the separated heavy plastic pulverized product HP is conveyed to the discharge portion 24. The screw conveyor 23 is an example, and other conveying means can be used.

  In this way, the flowing water type specific gravity sorter 5 can separate and sort the heavy plastic pulverized product HP from the light plastic pulverized product LP in a shorter time than the natural sedimentation in the flowing water. The light plastic pulverized material LP that has been separated and sorted is collected in the collection bag 8 by using the air damper 17. At this time, dehydration and drying may be performed.

<Configuration of vibration separator>
The heavy plastic pulverized product HP selected by the flowing water specific gravity separator 5 is dehydrated by the dehydrator 24 and then vibrated by the vibration separator 7 so that the granular plastic pulverized product is downward and the powdered plastic pulverized product is Separate upward. The vibration separator 7 is a processing machine having a casing 25 for storing a plastic crushed material and a vibrator for vibrating the casing 25.

  The heavy plastic pulverized product HP has a good particle size, and the powdered heavy plastic pulverized product HP becomes complicated in handling and becomes a defective particle size product. Therefore, the vibration separator 7 sorts out good-quality products from defective-grade products. Thereafter, the good-quality product is collected in the collection bag 8 using the air damper 17.

  In the sorting equipment of the present invention, the processors are arranged in the same place as described above. A flowing water specific gravity sorter 5 was disposed adjacent to the discharge device 4 of the cylindrical separation water tank 12. Therefore, waste plastics containing metals are not only separated into metals (metal pulverized product M) and plastics (plastic pulverized product FP, LP, HP), but also plastics are floating plastics and heavy plastics. And heavy plastics can be separated. And since it can process in the same place, it can isolate | separate and collect | recover in a short time. Since two types of water tanks 3 and 5 are used and separated using the difference in specific gravity, the processing cost can be reduced. Eventually, four types of sorting can be performed.

FIG. 5 is a flowchart showing specific processing steps in the selection processing method of the present invention. FIG. 6 is a flowchart of each step in the sorting method of the present invention and a schematic explanatory diagram showing the pulverized material that has been separated and sorted.
The selection processing method of the second embodiment is a processing method mainly including a washing and grinding step S1, a vortex specific gravity separation step S2, a flowing water specific gravity separation step S3, and a vibration separation step S4. Waste plastics containing metals are separated into plastic pulverized products FP, LP, HP and metal pulverized products M by specific gravity difference, and further, all processes for separating plastics into several types by specific gravity difference are arranged in the same place. This is a sorting method for processing with a processor.

  The washing and pulverizing step S1 is a processing step in which waste plastics containing metal crushed to a predetermined size are rotated in the washing and pulverizing machine 1 and pulverized into a predetermined shape and size while being jetted and washed. is there.

The first sorting step is a vortex specific gravity separation step S2 that mainly separates the washed pulverized product into three types of floating plastic pulverized product FP, light / heavy plastic pulverized product LP, HP, and metal pulverized product M.
In the vortex specific gravity separation step S <b> 2, the washed pulverized product is sunk in the vortex-type cylindrical separation water tank 3 to settle the metal pulverized product M on the bottom of the center of the vortex-type cylindrical separation water tank 3 against the water flow. Along with the rotating water flow, the plastic pulverized material FP floating on the water surface and in the center of the vortex-type cylindrical separation water tank 3 is suspended and taken out. The light and heavy plastic pulverized products LP and HP having a specific gravity intermediate between the metal pulverized product M and the floating plastic pulverized product FP are taken out from the periphery of the vortex-type cylindrical separation water tank 3 by rotating in water together with the water flow. The vortex specific gravity separation step S2 is separated into three types by utilizing the specific gravity difference of each pulverized product by the vortex.

  In the second sorting step, the mixture of the light plastic pulverized product LP and the heavy plastic pulverized product HP separated in the vortex specific gravity separation step S2 of the first sorting step is separated into two types: a light plastic pulverized product LP and a heavy plastic pulverized product HP. This is the flowing water specific gravity separation step S3.

  In the flowing water specific gravity separation step S3, the light / heavy plastic pulverized product LP, HP is formed by flowing the surface water with the paddle 22 in the flowing water type specific gravity sorter 5, and the light plastic pulverized product LP having a low specific gravity, This is a processing step in which the heavy plastic pulverized product HP having a high specific gravity that settles on the bottom of the water is separated into two types by specific gravity difference. Although natural sedimentation requires a long time, the light plastic pulverized product LP can be separated and selected from the heavy plastic pulverized product HP in a short time by using flowing water.

<Separation method using salt water>
In the flowing water specific gravity separation step S3, separation and selection are generally performed using water. However, separation and selection using salt water is also possible. For example, the PET bottle is crushed and washed with the cap and label attached. The bottle body is PET, but the label wrapped around the bottle is PS and the cap is PP. If it remains as it is, it cannot be reused in a state where a plurality of types of plastic are mixed. As described above, the specific gravity of each plastic is 1.34 to 1.39, the body (PET) is the heaviest, the label (PS) is 1.04 to 1.09, and the cap (PP) is the lightest 0.90. ~ 0.91. The cap (PE) floats in water, and the main body PET and the label (PS) settle.

  First, the cap (PP) is separated by passing the crushed material through a water tank. Both the main body (PET) and the label (PS) settle in water, but the specific gravity of the label (PS) is only slightly heavier than water. Therefore, if salt is added to water and the specific gravity of the salt water is 1.04 to 1.07 or more of PS and 1.38 or less which is lighter than the specific gravity of PET of the main body, the PET of the main body settles and the PS of the label is It can float and separate and extract only the PET part of the body. This separation and separation using salt water can be used not only in the flowing water specific gravity separation step S3 but also in the vortex specific gravity separation step S2.

  Next to the flowing water specific gravity separation step S3, a light plastic pulverized product dewatering step S5 is provided to remove moisture from the light plastic pulverized product LP before collecting the light plastic pulverized product LP.

  Similarly, after the flowing water specific gravity separation step S3, a heavy plastic pulverized product dewatering step S6 is provided to remove the moisture of the heavy plastic pulverized product HP before the heavy plastic pulverized product enters the vibration separation step S4.

  The vibration separating step S4 is a processing step in which the heavy plastic pulverized product HP is separated into two types by separating the vibration into a granular plastic pulverized product and a powdered plastic pulverized product.

  In the sorting method of the present invention, the washing and grinding step S1, the vortex specific gravity separation step S2 for separating the pulverized product into three types, and the flowing water specific gravity separation step for separating the light and heavy plastic pulverized products LP and HP into two types. Since it consists of S3 and vibration separation process S4 which isolate | separates heavy plastic ground material HP into two types, it can isolate | separate using a specific gravity difference using two types of water tanks 2 and 3, and can reduce processing cost. . And since a combustion treatment process is not included, it does not have a bad influence on an environment and processing cost does not rise.

  In addition, although the present invention sorts using the specific gravity difference of the waste plastics, by separating the water used for separation in different forms and combining this, a plurality of types of waste plastics can be quickly separated, Of course, the invention can be variously modified without departing from the gist of the present invention as long as it can be selected and can be selected finely.

  INDUSTRIAL APPLICABILITY The present invention can be used when recycling waste plastics mainly containing metal such as bumpers and instrument panels (instrument panels) that have become scrap cars.

DESCRIPTION OF SYMBOLS 1 Washing and grinding machine 3 Eddy current type cylindrical separation water tank 4 Discharge device 5 Flowing water type specific gravity sorter 6 Discharger 7 Vibratory separator 9 Device body 12 Cylindrical water tank 13 Propeller 14 Funnel-shaped discharge port 16 Suction port 19 Bottom part 20 Input part 22 Paddle 25 Case S1 Washing and grinding step S2 Eddy current specific gravity separation step S3 Flowing water specific gravity separation step S4 Vibration separation step S5 Light plastic ground product dewatering step S6 Heavy plastic ground material dewatering step M Metal ground material FP Floating plastic ground material LP Light plastic ground HP Heavy plastic ground

  The present invention relates to a technology for recycling discarded plastics, and in particular, waste plastics containing metals are pulverized, and the pulverized materials are sorted into metals and plastics. The present invention relates to a sorting facility for waste plastics containing metals that are finely sorted from light to heavy plastics and collected.

  Waste plastics include various types such as PET bottles, waste tires, synthetic rubber scraps, synthetic fiber scraps, vinyl sheet scraps, solids and films. For example, after an automobile is scrapped, the automobile uses metals such as iron and aluminum, and many useful parts such as batteries are used. After removing dangerous materials and crushing them to recover iron scrap, residual plastics, conductors, and non-ferrous metals are recovered from waste car shredder dust as valuable resources. Specifically, it is separated and refined into valuable materials such as light plastics, heavy plastics, conductors, and other types of metals.

  In view of this, a technology has been proposed that separates valuable plastics into light plastics, heavy plastics, conductors, and other types of metals. For example, in Japanese Patent Application Laid-Open No. 2004-58032 “Method for recovering valuable materials from shredded automobile shredder dust”, plastics and metals are removed from shredder dust that is disposed of as waste after being scrapped. A method of separating and collecting by a specific gravity sorter using a wet method into a recycled product. A method of separating light specific gravity plastics and heavy specific gravity plastics from shredder dust of scrap cars with a wet specific gravity sorter to make recycled materials. Furthermore, the suspended matter separation tank for separating lighter and heavier substances than the water in the shredder dust of a scrap car is equipped with a pulsating bubbling tank and a sedimentation tank that discharge air and bubbles intermittently. Proposed.

  Further, in Japanese Patent Application Laid-Open No. 2003-19713 of Patent Document 2, “metal composite plastic waste processing method”, a metal composite plastic waste is heated to a temperature within a range of 200 ° C. to 280 ° C. There has been proposed a method for treating metal composite plastic waste comprising a separation step of separating a plastic component and an inorganic material component by an organic heat medium having a boiling point and a softening point in the range of 90 ° C to 140 ° C.

JP 2004-58032 A JP 2003-19713 A

  Patent Document 1 discloses a method for recovering valuable materials from waste vehicle shredder dust. The suspended matter separation tank uses a pulsating bubbling tank and a sedimentation tank that discharge air and bubbles intermittently. This is a method for separating light and heavy substances. However, the recovery method of Patent Document 1 has a problem that the processing speed is slow due to natural sedimentation. In addition, the recovery method of Patent Document 1 cannot use fine separation and selection of plastics having different specific gravities only by using air and bubbles.

  Patent Document 2 “Process for Disposing Metal Composite Plastic Waste” is a method of heating a metal composite plastic waste to a temperature in the range of 200 ° C. to 280 ° C. and a boiling point of 300 ° C. or higher and 90 ° C. to 140 ° C. In this method, the plastic component and the inorganic material component are separated by an organic heat medium having a softening point within the range. However, the processing method of Patent Document 2 has a problem that the plastics cannot be finely separated and sorted because the plastics are melted and removed from the metals by heating. In addition, since a heating step is necessary, there is a problem that the processing cost of waste disposal increases.

  The present invention has been developed to solve such problems. That is, the object of the present invention is to sort using waste plastics by using the difference in specific gravity, but the water used for the separation is made to flow in different forms, and by combining them, a plurality of types of waste plastics can be quickly collected. It is an object of the present invention to provide a sorting facility for waste plastics containing metals that can be separated and sorted and that can be finely sorted.

The sorting equipment of the present invention uses a processing machine to separate waste plastics containing metals into plastic pulverized products (FP, LP, HP) and metal pulverized products (M), and further plastic pulverized products (FP, LP). , HP) is a sorting facility for waste plastics containing metal that separates and sorts several types by specific gravity difference,
Washing and crushing machine (1) having an apparatus for injecting water for washing the rotating blade and the pulverized material to the apparatus body (9) in order to crush waste plastics containing metal into a predetermined shape and size while washing. When,
The washed pulverized product washed and pulverized by the washing and pulverizing machine (1) is divided between the metal pulverized product (M) and the floating plastic pulverized product (FP), and between the metal pulverized product (M) and the floating plastic pulverized product (FP). A propeller (13) that stirs water in a cylindrical water tank (12) and a ground metal smash ( M), a funnel-shaped discharge port (14) formed at the bottom of the cylindrical water tank (12), and a light and heavy plastic pulverized product attached to the periphery of the opening of the cylindrical water tank (12) ( LP, HP) and a vortex-type cylindrical separation water tank (3) each having a discharge device (4) for taking out,
Light and heavy plastic pulverized material (LP, HP) separated and selected in the vortex-type cylindrical separation water tank (3) is divided into light plastic pulverized material with a light specific gravity and heavy plastic pulverized material (HP) with a high specific gravity that sinks to the bottom of the water. A plurality of paddles (22) attached to the upper surface of the box-type sorting water tank (20), and a settled heavy plastic attached to the bottom of the box-type sorting water tank (20). A discharger ( 6 ) for discharging the pulverized product (HP), and a flowing water specific gravity sorter (5),
The heavy plastic pulverized product (HP) selected by the flowing water specific gravity sorter (5) is vibrated to separate the granular plastic pulverized product downward and the powdered plastic pulverized product upward. A vibration separator (7) having a casing (25) for storing an object and a vibrator for vibrating the casing (25),
The vortex-type cylindrical separation water tank (3) is disposed adjacent to the washing and pulverizing machine (1), the flow-type specific gravity separator (5) is disposed adjacent to the vortex-type cylindrical separation water tank (3), The vibration separator (7) is arranged in the same place adjacent to the flowing water specific gravity separator (5).

  A configuration in which a suction port (16) for collecting the separated floating plastic pulverized material (FP) is attached to the center of the opening of the vortex-type cylindrical separation water tank (3) is preferable.

The flowing water-type specific gravity sorter (5) has an input part (21) of light and heavy plastics (LP, HP) at one end in the longitudinal direction of a box-type sorting water tank (20) having a downwardly cylindrical bottom (19). )
In order to discharge the light plastic pulverized material (LP), a plurality of paddles (22) rotating from the charging portion (21) toward the other end are attached to the opening of the box-shaped sorting water tank (20) in the longitudinal direction. ,
A screw conveyor (23) is attached to the bottom (19) of the box-shaped sorting water tank (20) in the longitudinal direction thereof, and the heavy plastic pulverized material (HP) separated and separated is conveyed to the discharger (6). What was comprised in this is preferable.

In the sorting equipment of the present invention, waste plastics containing metal can be easily separated and sorted by combining the swirl type cylindrical separation water tank (3) and the flowing water type specific gravity sorter (5). It can be quickly separated and sorted into three types, light plastics and heavy plastics.
In the sorting equipment according to the present invention, the processing machines are arranged in the same place and the processing machines are arranged adjacent to each other, so that they can be separated and sorted in a short time and collected. Since two types of water tanks (3, 5) are used and separated using the difference in specific gravity, the processing cost can be reduced.

It is an arrangement | positioning top view which shows the sorting equipment of the waste plastics containing the metal of Example 1. FIG. FIG. 2 is a layout front view showing a waste plastics sorting apparatus containing metal of Example 1, showing a washing and grinding machine, a vortex type cylindrical separation water tank and a flowing water type specific gravity sorter on the upper side, and a vibration separator on the lower side. It is the schematic explanatory drawing made into the partial cross section of the eddy current type cylindrical separation water tank of this invention. It is the schematic explanatory drawing made into the partial cross section of the flowing water type specific gravity sorter of this invention. It is a flowchart which shows the specific process process in the selection processing method of this invention. It is a schematic explanatory drawing which shows each process flow figure in the selection processing method of this invention, and the pulverized material isolate | separated and selected.

  The sorting equipment for waste plastics containing metal according to the present invention has a washing and grinding machine for washing and grinding waste plastics containing metal, a washing and grinding product, a metal grinding product and a floating plastic grinding product, and a specific gravity intermediate between them. In order to separate the light and heavy plastic pulverized material with a specific gravity difference by the vortex of water, the vortex-type cylindrical separation water tank, the light and heavy plastic pulverized material separated into the light plastic pulverized material with a low specific gravity and the specific gravity that settles to the bottom of the water. This is a facility in which all of the flowing water type specific gravity sorters that separate the heavy plastic pulverized material with a specific gravity difference are arranged at the same place.

<Arrangement of each processor>
FIG. 1 is an arrangement plan view showing a sorting facility for waste plastics containing metal according to the first embodiment. FIG. 2 shows a waste plastics sorting apparatus containing metal of Example 1, an arrangement front view showing a washing pulverizer, a vortex-type cylindrical separation water tank and a flowing-water specific gravity sorter on the upper side, and a vibration separator on the lower side. It is.
The sorting equipment for waste plastics containing metal of Example 1 is equipment in which the following processing machines are arranged. A vortex-type cylindrical separation water tank 3 is arranged adjacent to the discharge port 2 of the washing and grinding machine 1, and a flowing-water specific gravity sorter 5 is arranged adjacent to the discharge device 4 of this vortex type cylindrical separation water tank 3. Further, a vibration separator 7 is arranged adjacent to the discharger 6 of the flowing water specific gravity sorter 5.

  These processors are arranged at the same place. As shown in the figure, the collected metal pulverized product and plastic pulverized product are collected in the respective collection bags 8 installed in parallel, and the collected plastics and the like are collected. Or the collection bag 8 is arrange | positioned adjacent to each processing machine, respectively, and the waste plastics sorted into these collection bags 8 can be collect | recovered.

  The cleaning pulverizer 1 is a processing machine having a rotary blade and an injector for injecting water for cleaning the pulverized material in the apparatus main body 9. The washing and pulverizing machine 1 pulverizes the waste plastics introduced from the inlet 10 into a predetermined shape and size while washing. Before processing with this washing and pulverizing machine 1, large waste plastics such as a bumper of a scrap car are sized so that they can be introduced into the inlet 10 of the washing and pulverizing machine 1. Process with pulverizer.

  The washing and pulverized material processed by the washing and pulverizing machine 1 includes a metal pulverized material M, a floating plastic pulverized material FP having a specific gravity lighter than water, and a light pulverized material FP having an intermediate specific gravity between the metal pulverized material M and the floating plastic pulverized material FP. Heavy plastic pulverized products LP and HP are mixed. The present invention sorts various different plastics at one place by utilizing the difference in specific gravity.

<Specific gravity of plastics (density (g / cm ³ ))>
The floating plastics, light plastics and heavy plastics processed in the sorting equipment and sorting process of the present invention are classified by the following specific gravity difference. However, these values may differ from those of low density or high density, when glass fiber (GF) is filled, talc (talc) is blended, or other materials are filled.
As "floating plastics", the specific gravity (density (g / cm ³ ))
0.91-0.96 polyethylene (PE),
There are 0.90 to 0.91 polypropylene (PP) and the like.

As “light plastics”, the specific gravity (density (g / cm ³ ))
1.04-1.09 polystyrene (PS),
1.07-1.10 AS resin (acrylonitrile styrene),
There is an ABS resin (ABS) of 1.01 to 1.04.

As "heavy plastics", the specific gravity (density (g / cm ³ ))
1.35 to 1.45 polyvinyl chloride, polyvinyl chloride resin (PVC),
1.17 to 1.20 acrylic resin, methacrylic resin (PMMA),
1.34 to 1.39 PET resin, polyethylene terephthalate (PET),
1.19 to 1.31 PVAL resin, polyvinyl alcohol (PVAL),
1.65 to 1.72 polyvinylidene chloride (PVDC),
1.75 to 1.78 polyvinylidene fluoride (PVDF),
1.13 to 1.15 nylon 66 (polyamide) (PA66),
1.42 polycarbonate (PC),
1.31 to 1.38 PBT resin, polybutylene terephthalate (PBT),
1.34 polyphenylene sulfite (PPS),
1.43 to 1.51 polyimide resin (PI),
1.27 polyetherimide (PEI),
1.24 polysulfone (PSF),
2.14 to 2.2 polytetrafluon ethylene, fluorine resin (PTFE) and the like.
The above relates to thermoplastic plastics. Thermoplastic plastics soften when heated and soften, solidify when cooled, and are repeated to form various shapes. Applications can be reused in a wide range of applications from containers and packaging (films, sheets, bottles), daily necessities and miscellaneous goods to household appliances and automobile parts.

  Thermosetting plastics that have been cured once do not flow again even when heated. Utilizing this property, it may be reused for tableware, electric equipment substrates, golf shafts, tennis rackets, FRP ships, and the like.

Thermosetting “heavy plastics” have a specific gravity (density (g / cm ³ )) of
1.21 to 1.30 phenolic resin (PF),
1.47 to 1.52 urea resin (UF),
1.48 melamine resin (MF),
1.10 to 1.46 unsaturated polyester (UP),
1.1 to 1.5 PU (polyurethane),
1.55 to 1.68 acrylic resin, diallyl phthalate (PDAP),
There are epoxy resins (EP) of 1.11 to 1.40.

Incidentally, the specific gravity (density (g / cm ³ )) of iron (Fe) of “metal” is 7.87, aluminum (Al) is 2.67, and copper (Cu) is 8.96.

<Configuration of vortex-type cylindrical water tank>
FIG. 3 is a schematic explanatory view showing a partial cross section of the vortex-type cylindrical separation water tank of the present invention.
As described above, the washed pulverized product processed by the cleaning pulverizer 1 includes a floating plastic pulverized product FP having a specific gravity lighter than water, and a light plastic pulverized product LP having a specific gravity intermediate between the metal pulverized product M and the floating plastic pulverized product FP. The heavy plastic pulverized product HP and the metal pulverized product M are mixed. Therefore, the washed pulverized product is sorted in the vortex-type cylindrical separation water tank 3. The washed and pulverized material processed by the washing and pulverizing machine 1 is conveyed and put into the vortex type cylindrical separation water tank 3 by a conveying machine 11 such as a screw conveyor.

  The vortex-type cylindrical separation water tank 3 includes a propeller 13 that stirs water in the cylindrical water tank 12, a funnel-shaped discharge port 14 that is formed at the bottom of the cylindrical water tank 12 that sinks the metal pulverized material M, and an opening periphery of the cylindrical water tank 12. It is the separation water tank which has each discharge device 4 which takes out light and heavy plastic pulverized material LP and HP separated by eddy current water attached. The discharge device 4 is attached to the opening peripheral edge of the cylindrical water tank 12 because the light and heavy plastic pulverized products LP and HP rotate on the inner wall surface of the cylindrical water tank 12 by swirling water.

  First, in the vortex-type cylindrical separation water tank 3, the metal pulverized material M in the washed pulverized material is heavy, and thus immediately settles against the vortex water. The settled metal pulverized material M is collected from the funnel-shaped discharge port 14 at the bottom of the cylindrical water tank 12.

  The light and heavy plastic pulverized products LP and HP in the washed pulverized product rotate together with the swirl water and collect on the inner wall surface of the cylindrical water tank 12 by centrifugal force. The light and heavy plastic pulverized products LP and HP are collected from the discharge device 4 attached to the opening periphery of the cylindrical water tank 12.

  The floating plastic pulverized material FP in the washed pulverized material floats on the surface of the water while rotating in the water together with the swirl water. Furthermore, it will be in the state which floated in the opening center part of the cylindrical water tank 12. FIG. The separated floating plastic pulverized product FP is sucked from the suction port 16 attached to the center of the opening of the vortex-type cylindrical separation water tank 3 and is collected in the collection bag 8 using the air damper 17. At this time, dehydration and drying may be performed.

  Thus, in the vortex-type cylindrical separation water tank 3, the light and heavy plastic pulverized products LP and HP having a specific gravity intermediate between the metal pulverized product M and the floating plastic pulverized product FP, which are not significantly affected by the vortex water, are separated by centrifugal force caused by the vortex flow. To do. In this vortex-type cylindrical separation water tank 3, not only separation and selection of the metal pulverized product M and the plastic pulverized product but also separation and selection of the floating plastic pulverized product FP and the light and heavy plastic pulverized products LP and HP can be performed simultaneously. . Incidentally, talc reinforced (blended talc) of polypropylene (PP) is changed from the floating plastic pulverized product FP to the light plastic pulverized product LP, and can be efficiently separated and sorted in the vortex type cylindrical separation water tank 3 of the present invention. It was.

<Configuration of running water specific gravity sorter>
FIG. 4 is a schematic explanatory view in partial section of the flowing water type specific gravity sorter of the present invention.
The light and heavy plastic pulverized products LP and HP sorted in the vortex-type cylindrical separation water tank 3 are transported and put into the flowing-water specific gravity sorter 5 by a transporter 11 such as a screw conveyor. The flowing water-type specific gravity sorter 5 has an input portion 21 for light and heavy plastic pulverized products LP and HP at one end in the longitudinal direction of a box-shaped sorting water tank 20 having a bottom portion 19 having a downward cylindrical shape. The flowing water type specific gravity sorter 5 is provided with a plurality of paddles 22 that rotate from the input part 21 of the box-type sorting water tank 20 toward the other end in order to discharge the light plastic pulverized product LP. These paddles 22 allow water in the box-type sorting water tank 20 to flow.

  A screw conveyor 23 is attached to the bottom portion 19 of the box-shaped sorting water tank 20 in the longitudinal direction thereof, and the separated heavy plastic pulverized product HP is conveyed to the discharge portion 24. The screw conveyor 23 is an example, and other conveying means can be used.

  In this way, the flowing water type specific gravity sorter 5 can separate and sort the heavy plastic pulverized product HP from the light plastic pulverized product LP in a shorter time than the natural sedimentation in the flowing water. The light plastic pulverized material LP that has been separated and sorted is collected in the collection bag 8 by using the air damper 17. At this time, dehydration and drying may be performed.

<Configuration of vibration separator>
The heavy plastic pulverized product HP selected by the flowing water specific gravity separator 5 is dehydrated by the dehydrator 24 and then vibrated by the vibration separator 7 so that the granular plastic pulverized product is downward and the powdered plastic pulverized product is Separate upward. The vibration separator 7 is a processing machine having a casing 25 for storing a plastic crushed material and a vibrator for vibrating the casing 25.

  The heavy plastic pulverized product HP has a good particle size, and the powdered heavy plastic pulverized product HP becomes complicated in handling and becomes a defective particle size product. Therefore, the vibration separator 7 sorts out good-quality products from defective-grade products. Thereafter, the good-quality product is collected in the collection bag 8 using the air damper 17.

  In the sorting equipment of the present invention, the processors are arranged in the same place as described above. A flowing water specific gravity sorter 5 was disposed adjacent to the discharge device 4 of the cylindrical separation water tank 12. Therefore, waste plastics containing metals are not only separated into metals (metal pulverized product M) and plastics (plastic pulverized product FP, LP, HP), but also plastics are floating plastics and heavy plastics. And heavy plastics can be separated. And since it can process in the same place, it can isolate | separate and collect | recover in a short time. Since two types of water tanks 3 and 5 are used and separated using the difference in specific gravity, the processing cost can be reduced. Eventually, four types of sorting can be performed.

FIG. 5 is a flowchart showing specific processing steps in the selection processing method of the present invention. FIG. 6 is a flowchart of each step in the sorting method of the present invention and a schematic explanatory diagram showing the pulverized material that has been separated and sorted.
The selection processing method of the second embodiment is a processing method mainly including a washing and grinding step S1, a vortex specific gravity separation step S2, a flowing water specific gravity separation step S3, and a vibration separation step S4. Waste plastics containing metals are separated into plastic pulverized products FP, LP, HP and metal pulverized products M by specific gravity difference, and further, all processes for separating plastics into several types by specific gravity difference are arranged in the same place. This is a sorting method for processing with a processor.

  The washing and pulverizing step S1 is a processing step in which waste plastics containing metal crushed to a predetermined size are rotated in the washing and pulverizing machine 1 and pulverized into a predetermined shape and size while being jetted and washed. is there.

The first sorting step is a vortex specific gravity separation step S2 that mainly separates the washed pulverized product into three types of floating plastic pulverized product FP, light / heavy plastic pulverized product LP, HP, and metal pulverized product M.
In the vortex specific gravity separation step S <b> 2, the washed pulverized product is sunk in the vortex-type cylindrical separation water tank 3 to settle the metal pulverized product M on the bottom of the center of the vortex-type cylindrical separation water tank 3 against the water flow. Along with the rotating water flow, the plastic pulverized material FP floating on the water surface and in the center of the vortex-type cylindrical separation water tank 3 is suspended and taken out. The light and heavy plastic pulverized products LP and HP having a specific gravity intermediate between the metal pulverized product M and the floating plastic pulverized product FP are taken out from the periphery of the vortex-type cylindrical separation water tank 3 by rotating in water together with the water flow. The vortex specific gravity separation step S2 is separated into three types by utilizing the specific gravity difference of each pulverized product by the vortex.

  In the second sorting step, the mixture of the light plastic pulverized product LP and the heavy plastic pulverized product HP separated in the vortex specific gravity separation step S2 of the first sorting step is separated into two types: a light plastic pulverized product LP and a heavy plastic pulverized product HP. This is the flowing water specific gravity separation step S3.

  In the flowing water specific gravity separation step S3, the light / heavy plastic pulverized product LP, HP is formed by flowing the surface water with the paddle 22 in the flowing water type specific gravity sorter 5, and the light plastic pulverized product LP having a low specific gravity, This is a processing step in which the heavy plastic pulverized product HP having a high specific gravity that settles on the bottom of the water is separated into two types by specific gravity difference. Although natural sedimentation requires a long time, the light plastic pulverized product LP can be separated and selected from the heavy plastic pulverized product HP in a short time by using flowing water.

<Separation method using salt water>
In the flowing water specific gravity separation step S3, separation and selection are generally performed using water. However, separation and selection using salt water is also possible. For example, the PET bottle is crushed and washed with the cap and label attached. The bottle body is PET, but the label wrapped around the bottle is PS and the cap is PP. If it remains as it is, it cannot be reused in a state where a plurality of types of plastic are mixed. As described above, the specific gravity of each plastic is 1.34 to 1.39, the body (PET) is the heaviest, the label (PS) is 1.04 to 1.09, and the cap (PP) is the lightest 0.90. ~ 0.91. The cap (PE) floats in water, and the main body PET and the label (PS) settle.

  First, the cap (PP) is separated by passing the crushed material through a water tank. Both the main body (PET) and the label (PS) settle in water, but the specific gravity of the label (PS) is only slightly heavier than water. Therefore, if salt is added to water and the specific gravity of the salt water is 1.04 to 1.07 or more of PS and 1.38 or less which is lighter than the specific gravity of PET of the main body, the PET of the main body settles and the PS of the label is It can float and separate and extract only the PET part of the body. This separation and separation using salt water can be used not only in the flowing water specific gravity separation step S3 but also in the vortex specific gravity separation step S2.

  Next to the flowing water specific gravity separation step S3, a light plastic pulverized product dewatering step S5 is provided to remove moisture from the light plastic pulverized product LP before collecting the light plastic pulverized product LP.

  Similarly, after the flowing water specific gravity separation step S3, a heavy plastic pulverized product dewatering step S6 is provided to remove the moisture of the heavy plastic pulverized product HP before the heavy plastic pulverized product enters the vibration separation step S4.

  The vibration separating step S4 is a processing step in which the heavy plastic pulverized product HP is separated into two types by separating the vibration into a granular plastic pulverized product and a powdered plastic pulverized product.

  In the sorting method of the present invention, the washing and grinding step S1, the vortex specific gravity separation step S2 for separating the pulverized product into three types, and the flowing water specific gravity separation step for separating the light and heavy plastic pulverized products LP and HP into two types. Since it consists of S3 and vibration separation process S4 which isolate | separates heavy plastic ground material HP into two types, it can isolate | separate using a specific gravity difference using two types of water tanks 2 and 3, and can reduce processing cost. . And since a combustion treatment process is not included, it does not have a bad influence on an environment and processing cost does not rise.

  In addition, although the present invention sorts using the specific gravity difference of the waste plastics, by separating the water used for separation in different forms and combining this, a plurality of types of waste plastics can be quickly separated, Of course, the invention can be variously modified without departing from the gist of the present invention as long as it can be selected and can be selected finely.

  INDUSTRIAL APPLICABILITY The present invention can be used when recycling waste plastics mainly containing metal such as bumpers and instrument panels (instrument panels) that have become scrap cars.

DESCRIPTION OF SYMBOLS 1 Washing and grinding machine 3 Eddy current type cylindrical separation water tank 4 Discharge device 5 Flowing water type specific gravity sorter 6 Discharger 7 Vibratory separator 9 Device body 12 Cylindrical water tank 13 Propeller 14 Funnel-shaped discharge port 16 Suction port 19 Bottom part 20 Input part 22 Paddle 25 Case S1 Washing and grinding step S2 Eddy current specific gravity separation step S3 Flowing water specific gravity separation step S4 Vibration separation step S5 Light plastic ground product dewatering step S6 Heavy plastic ground material dewatering step M Metal ground material FP Floating plastic ground material LP Light plastic ground HP Heavy plastic ground

Claims (8)

Waste plastics containing metal are separated into plastic pulverized products (FP, LP, HP) and metal pulverized products (M) using a processing machine, and plastic pulverized products (FP, LP, HP) are further separated by specific gravity. A waste plastic sorting facility containing metals that are separated and sorted into several types,
Washing and crushing machine (1) having an apparatus for injecting water for washing the rotating blade and the pulverized material to the apparatus body (9) in order to crush waste plastics containing metal into a predetermined shape and size while washing. When,
The washed pulverized product washed and pulverized by the washing and pulverizing machine (1) is divided between the metal pulverized product (M) and the floating plastic pulverized product (FP), and between the metal pulverized product (M) and the floating plastic pulverized product (FP). A propeller (13) that stirs water in a cylindrical water tank (12) and a ground metal smash ( M), a funnel-shaped discharge port (14) formed at the bottom of the cylindrical water tank (12), and a light and heavy plastic pulverized product attached to the periphery of the opening of the cylindrical water tank (12) ( LP, HP) and a vortex-type cylindrical separation water tank (3) each having a discharge device (4) for taking out,
Light and heavy plastic pulverized material (LP, HP) separated and selected in the vortex-type cylindrical separation water tank (3) is divided into light plastic pulverized material with a light specific gravity and heavy plastic pulverized material (HP) with a high specific gravity that sinks to the bottom of the water. A plurality of paddles (22) attached to the upper surface of the box-type sorting water tank (20), and a settled heavy plastic attached to the bottom of the box-type sorting water tank (20). A discharger (5) for discharging the pulverized product (HP), and a flowing water specific gravity sorter (5),
The heavy plastic pulverized product (HP) selected by the flowing water specific gravity sorter (5) is vibrated to separate the granular plastic pulverized product downward and the powdered plastic pulverized product upward. A vibration separator (7) having a casing (25) for storing an object and a vibrator for vibrating the casing (25),
The vortex-type cylindrical separation water tank (3) is disposed adjacent to the washing and pulverizing machine (1), the flow-type specific gravity separator (5) is disposed adjacent to the vortex-type cylindrical separation water tank (3), A sorting facility for waste plastics containing metal, wherein the vibration separator (7) is arranged in the same place adjacent to the flowing water specific gravity sorter (5).   The metal according to claim 1, wherein a suction port (16) for collecting the separated floating plastic pulverized material (FP) is attached to the center of the opening of the vortex-type cylindrical separation water tank (3). Including waste plastic sorting equipment. The flowing water-type specific gravity sorter (5) has an input part (21) of light and heavy plastics (LP, HP) at one end in the longitudinal direction of a box-type sorting water tank (20) having a downwardly cylindrical bottom (19). )
In order to discharge the light plastic pulverized material (LP), a plurality of paddles (22) rotating from the charging portion (21) toward the other end are attached to the opening of the box-shaped sorting water tank (20) in the longitudinal direction. ,
A screw conveyor (23) is attached to the bottom (19) of the box-shaped sorting water tank (20) in the longitudinal direction thereof, and the heavy plastic pulverized material (HP) separated and separated is conveyed to the discharger (6). The sorting equipment for waste plastics containing metal according to claim 1 or 2, wherein For waste plastics containing metals, all the steps to separate the plastic pulverized product (FP, LP, HP) and metal pulverized product (M) by the specific gravity difference, and further separate the separated plastics into several types by the specific gravity difference Is a sorting method for waste plastics containing metal that is sorted by a processing machine placed in the same place,
Washing and pulverizing step (S1) for rotating waste, pulverizing into a predetermined shape and size while cleaning by jetting water,
Metal pulverized material (M) that settles on the bottom of the water against the water flow in the vortex-type cylindrical separation water tank (3), floating plastic pulverized material (FP) that floats with the rotating water flow, and metal A eddy current specific gravity separation process in which light and heavy plastic pulverized products (LP, HP) having a specific gravity intermediate between the pulverized product (M) and the floating plastic pulverized product (FP) are rotated with a water flow and sorted into three types according to their specific gravity differences. (S2),
While filtering the light and heavy plastic pulverized material (LP, HP) in the flowing water type specific gravity sorter (5), the light plastic pulverized material (LP) with a light specific gravity and the specific gravity that settles on the bottom of the water. A flowing water type specific gravity separation step (S3) that sorts the heavy heavy plastic pulverized product (HP) into two types by specific gravity difference;
The heavy plastic pulverized product (HP) is separated by vibration to separate into two types of granular plastic pulverized product and powdered plastic crushed product (S4). To sort waste plastics containing metal   Next to the flowing water specific gravity separation step (S3), there is a light plastic pulverized product dewatering step (S5) for removing water from the light plastic pulverized product (LP) before collecting the light plastic pulverized product (LP). A method for sorting waste plastics containing metal according to claim 4.   Subsequent to the flowing water specific gravity separation step (S3), the heavy plastic pulverized product (HP) is removed from the heavy plastic pulverized product (HP) before entering the vibration separation step (S4). The method for sorting waste plastics containing metal according to claim 4 or 5, characterized by comprising (S6).   7. The method for sorting waste plastics containing metal according to claim 4, wherein salt water is used in the vortex specific gravity separation step (S2). The method for sorting waste plastics containing metal according to claim 4, 5, 6 or 7, wherein salt water is used in the flowing water specific gravity separation step (S3).