JPH11347441A - Sorting device for plastic - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable a device easily and continuously sort a plastic in which the specific gravity is larger than 1 and a plastic in which the specific gravity is smaller than 1. SOLUTION: This sorting device is provided with a vertical separation tank 1, a plastic slurry feeding means consisting of a slurry adjusting tank 5, a conduit 6 for connecting the adjusting tank 5 and a bottom wall 2b of a tank main body 2 and a slurry pump 7 and a lightweight plastic guide wall 8 provided in the upper part of the separation tank 1 coaxially at an interval from a peripheral wall 2a. In the upper end part of the separation tank 1, a heavyweight plastic discharge port 4 is formed. In the upper end part of the guide wall 8, a lightweight plastic discharge port 9 is formed. On the axis line in the separation tank 1, a vertical rotating shaft 10 is provided. In the vicinity of the inner peripheral surface of the peripheral wall 2b, plural first rotary blades 17 are provided at intervals in the peripheral direction and the rotary blades 17 are fixed to the rotating shaft 10. To the outer parts of the rotary blades 17, a heavyweight plastic scraping rake 21 is fixed. In the vicinity of the inner peripheral surface of the guide wall 8, plural second rotary blades 19 are provided at intervals in the peripheral direction and the rotary blades 19 are fixed to the rotating shaft 10.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plastic sorting apparatus used, for example, for recovering only plastics suitable for pyrolysis oil from waste plastics.

[0002] Throughout this specification, the term "plastic slurry" is intended to mean a slurry prepared by mixing a pulverized plastic in water.
Also, the term "crushing" shall include crushing and cutting.

[0003]

2. Description of the Related Art For example, in the case of reusing waste plastic for separating municipal waste as a raw material for thermal decomposition oiling, vinyl chloride or polyethylene terephthalate (PET) which is not suitable for oiling is used.
It is necessary to separate and remove only the plastics suitable for thermal cracking oil. Vinyl chloride has a problem that when it is thermally decomposed, it generates toxic gases such as chlorine gas and hydrogen chloride gas, and when these gases combine with moisture, it generates hydrochloric acid and corrodes the apparatus. PET
Generates terephthalic acid, benzoic acid, etc. upon thermal decomposition,
There is a danger that it will adhere to the inside of the equipment piping and cause blockage. Therefore, it is necessary to remove these unsuitable oily substances from the viewpoint of improving safety, improving the life of the apparatus, and the like.

Incidentally, the density of vinyl chloride is from 1.23 to
1.45 g / cm ³ , and the density of PET is 1.4 to
1.6 g / cm ³ , all of which have a specific gravity greater than 1 and settle in water. On the other hand, the specific gravity of polypropylene, polyethylene, and the like suitable for thermal decomposition oil conversion is smaller than 1 and floats on water.

[0005] As a plastic sorting apparatus utilizing such a difference in specific gravity, conventionally, a separation tank containing water, and
A slurry adjusting tank for adjusting the plastic pulverized material into a slurry state, a charging path connecting the slurry adjusting tank and the bottom of the separation tank, and a pump for feeding the plastic slurry from the slurry adjusting tank to the bottom of the separating tank through the charging path. There is known a sorting device which is provided with a separator, in which vinyl chloride and PET are settled in a separation tank and polypropylene and polyethylene are floated.
-135646).

[0006]

However, in the above-mentioned conventional sorting apparatus, it is necessary to collect the sediment separately after collecting the floating material, and there is a problem that the operation is troublesome. In particular, the collection of floating materials must be performed manually, which is cumbersome. In the conventional device,
There is a problem that plastic sorting cannot be performed continuously. Therefore, the efficiency of the plastic sorting operation deteriorates.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problem, and it is possible to easily and continuously sort a plastic having a specific gravity larger than 1 and a plastic having a specific gravity smaller than 1, thereby improving the efficiency of plastic sorting work. It is an object of the present invention to provide a plastic sorting device which can be operated.

[0008]

Means for Solving the Problems and Effects of the Invention A plastic sorting apparatus according to the present invention comprises: a vertical separation tank having an inner peripheral surface formed into a cylindrical surface; a means for supplying a plastic slurry into the separation tank; A light plastic guide wall formed in a conical shape at the upper part of the tank, which is arranged concentrically with the inner circumferential surface of the separation tank at an interval and has a lower end opening and an inner circumferential surface extending upward. The plastic slurry placed in the separation tank has a liquid surface centered on the axis of the inner peripheral surface of the separation tank and having a concave central part, and the upper part of the liquid surface is higher than the inner peripheral surface of the lightweight plastic guide wall. Means for generating a vortex that comes inward in the radial direction, and means arranged inside the separation tank and for scraping heavy plastic along the inner peripheral surface of the separation tank are provided, and at the upper end of the separation tank,
A heavy plastic discharge port for discharging heavy plastic scraped up along the inner peripheral surface of the separation tank by the heavy plastic scraping means to the outside of the separation tank is formed, and a guide wall is provided at an upper end of the lightweight plastic guide wall. A lightweight plastic discharge port for discharging the lightweight plastic from the inside to the outside of the separation tank is formed.

According to the plastic sorting apparatus of the present invention, the plastic slurry is supplied into the vertical separation tank by the plastic slurry supply means, and the vortex is generated in the plastic slurry in the separation tank by the vortex generation means. At this time, the upper part of the concave liquid level at the center of the vortex is located inside the lightweight plastic guide wall. Then, the lightweight plastic having a specific gravity smaller than 1 floats on the concave liquid surface at the center of the vortex, rises along the inner peripheral surface of the guide wall, and is discharged from the lightweight plastic outlet. On the other hand, the heavy plastic having a specific gravity larger than 1 is moved to the inner peripheral surface side of the separation tank by centrifugal force while settling, and is lifted by the heavy plastic scraping means and discharged from the heavy plastic discharge port. In each case, water overflows from the lightweight and heavy plastic outlets. Therefore, the collection of the lightweight plastic and the collection of the heavy plastic can be performed simultaneously and automatically, and the sorting operation is simplified. In addition, by continuously performing the above-mentioned operation while continuously supplying the plastic slurry into the separation tank by the plastic slurry supply means, it is possible to continuously perform the separation between the lightweight plastic and the heavy plastic. As a result, it is possible to efficiently sort the lightweight plastic and the heavy plastic.

[0010] In the apparatus of the present invention, the plastic slurry supply means includes a slurry adjusting tank for adjusting the plastic pulverized material into a slurry, a conduit connecting the slurry adjusting tank and the bottom of the separating tank, and a conduit extending from the slurry adjusting tank through the conduit. A pump for feeding the plastic slurry into the separation tank.

Further, in the apparatus of the present invention, the plastic slurry supply means is rotatably disposed at the center in the separation tank and has a plurality of through holes at the lower end of the peripheral wall, and the upper end of the hollow rotary shaft. In some cases, the apparatus includes a plastic feeding device that feeds pulverized plastic into the interior through an opening, and a water supply device that feeds water into the hollow rotary shaft through an upper end opening. In this case, if the liquid level in the hollow rotary shaft is slightly increased, the plastic slurry sent from the through-hole in the peripheral wall of the hollow rotary shaft is subjected to centrifugal force, and the plastic slurry is placed in the separation tank. No special power is required to send in.

Further, in the apparatus according to the present invention, the vortex generating means is provided with a vertical rotation shaft rotatably disposed at a central portion in the separation tank, and is spaced apart in a circumferential direction near an inner peripheral surface of the separation tank. A first plurality of which are arranged and fixed to a rotating shaft via an arm
And a plurality of second impellers arranged in the vicinity of the inner peripheral surface of the lightweight plastic guide wall at intervals in the circumferential direction and fixed to the rotating shaft via an arm. . When the plastic slurry supply means has a hollow rotary shaft, the first and second rotary blades can be fixed to the hollow rotary shaft via an arm.

[0013] In the apparatus of the present invention, the heavy plastic scraping means is disposed so that the outer peripheral edge is located on a cylindrical surface along the inner peripheral surface of the separation tank, and is spirally rotatable about a vertical axis. May be a rake.
The spiral rake is fixed, for example, to a first rotor of a rotating shaft of the vortex generating means.

Further, in the apparatus according to the present invention, the lightweight plastic, which is disposed inside the lightweight plastic guide wall and floats on the surface of the vortex of the plastic slurry, is lifted up along the inner peripheral surface of the guide wall, and the lightweight plastic is discharged. Means may be provided for discharging through the outlet to the outside of the separation tank. In this case, it is possible to reliably discharge the lightweight plastic to the outside of the separation tank.

[0015] The lightweight plastic scraping means is, for example, a spiral rake which is arranged so that its outer peripheral edge is located on a conical surface extending upward along the inner peripheral surface of the lightweight plastic guide wall, and which can rotate around a vertical axis. . The spiral rake is fixed to the second rotor of the vortex generator.

[0016]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described.
This will be described with reference to the drawings.

FIG. 1 is a vertical sectional view showing a first embodiment of the present invention.

In FIG. 1, a plastic sorting apparatus includes a vertical separation tank (1) having an inner peripheral surface formed in a cylindrical shape, and a plastic slurry supply means for supplying a plastic slurry to the bottom of the separation tank (1). And Separation tank
(1) consists of a bottomed cylindrical tank body (2) and a top lid (3) for closing the upper end opening of the tank body (2). Surrounding wall of tank body (2)
(2a) At the upper end, a heavy plastic discharge port (4) for discharging the heavy plastic pulverized material to the outside of the separation tank (1) is formed. The plastic slurry supply means includes a slurry adjusting tank (5) for mixing crushed waste plastic waste and water and adjusting the mixture into a slurry, and a slurry adjusting tank (5).
And a slurry pump (7) for feeding plastic slurry from the slurry adjusting tank (5) to the bottom of the separation tank (1) through the conduit (6). Consisting of It is preferable that the particle size of the waste plastic is about 10 mm or less.

On the upper part of the separation tank (1), the peripheral wall of the tank body (2)
(2a) and so as to be concentric with the peripheral wall (2a),
Light plastic guide walls (8) are provided. Guide wall
(8) is fixed to the top lid (3) so as to protrude downward. The lightweight plastic guide wall (8) has a conical cylindrical shape that expands radially outward and opens at the lower end. At the upper end of the lightweight plastic guide wall (8), a lightweight plastic discharge port (9) for discharging the lightweight plastic pulverized material from the inside of the guide wall (8) to the outside of the separation tank (1) is formed.

The vertical rotation axis (1) is set on the center axis line in the separation tank (1).
0) is arranged. The upper end of the rotating shaft (10) is on the top cover (3) of the separation tank (1), and the lower end is on the bottom wall (2b) of the tank body (2) via bearing devices (11) and (12). It is rotatably supported. The upper end of the rotating shaft (10) extends above the bearing device (11), and a driven pulley (13) is fixed here.The driven pulley (13) and the top lid (3) of the separation tank (1) are fixed. ) Drive pulley fixed to the output shaft of the motor (14) mounted on the upper surface
(15) and a belt (16) are stretched. A plurality of tanks (2) at equal intervals in the circumferential direction near the inner peripheral surface of the peripheral wall (2a),
Here, four first rotors (17) are arranged, and each rotor (1
7) is fixed to the rotating shaft (10) via two upper and lower arms (18). The first rotor (17) has a vertical shape, and the upper end thereof has a peripheral wall (2a) of the tank body (2) and a lightweight plastic guide wall.
(8) It is located so as to leave a space between them. A plurality of, here four, second rotors (19) are arranged at equal intervals in the circumferential direction near the inner peripheral surface of the lightweight plastic guide wall (8), and each rotor (19) is Two arms (2
0) is fixed to the rotating shaft (10). The second rotor (1
9) is upwardly inclined radially outward, and its outer edge is parallel to the guide wall (8). Then, the axis of the inner peripheral surface of the separation tank (1) is added to the plastic slurry put in the separation tank (1) by the rotation shaft (10) and the first and second rotors (17) and (19). A vortex is generated that has a liquid surface (L) that is centered and has a concave central part, and that the upper part of this liquid surface (L) is radially inward from the inner peripheral surface of the lightweight plastic guide wall (8). Means are configured.

A spiral rake (21) (weight plastic scraping means) for scraping heavy plastic is fixed to an outer portion of the first rotor (17). The outer peripheral edge of the rake (21) is located on a cylindrical surface along the inner peripheral surface of the separation tank (1). The distance between the outer peripheral edge of the rake (21) and the inner peripheral surface of the peripheral wall (2a) of the tank body (2) is set so that the heavy plastic crushed material scraped up by the rake (21) does not fall from between them. I have.

The separation of municipal waste sorting waste plastics using the apparatus having the above configuration is performed as follows.

First, a predetermined amount of plastic slurry is supplied from the slurry adjusting tank (5) to the bottom in the separation tank (1) by the slurry pump (7). When the liquid level of the plastic slurry in the separation tank (1) reaches a predetermined height such that the lower part of the second rotor (19) is immersed in the plastic slurry,
The rotating shaft (10) is rotated by the motor (14). Then, the plastic slurry in the separation tank (1) is added to the plastic slurry in the separation tank (1) by the action of the first and second rotors (17, 19), and the liquid surface (L ) Is generated. At this time, the upper part of the concave liquid level (L) at the center of the vortex is
Located radially inside the lightweight plastic guide wall (8).
The crushed lightweight plastic material having a specific gravity of less than 1 floats on the concave liquid surface (L) at the center of the vortex, and the second rotor (19)
As a result, while being flipped radially outward, it rises along the inner peripheral surface of the guide wall (8) and is discharged from the lightweight plastic discharge port (9) to the outside of the separation tank (1). On the other hand, the heavy plastic crushed material having a specific gravity greater than 1 is settled and moved to the peripheral wall (2a) side of the tank body (2) by centrifugal force, and the peripheral plastic wall (2a) is moved by the heavy plastic scraping rake (21). It is scraped up along the inner peripheral surface and discharged from the heavy plastic discharge port (4) to the outside of the separation tank (1). In each case, water overflows from the lightweight plastic outlet (9) and the heavy plastic outlet (4). Therefore, the collection of the lightweight plastic and the collection of the heavy plastic can be performed simultaneously and automatically, and the sorting operation is simplified. In addition, by continuously performing the above operation while continuously supplying the plastic slurry into the separation tank (1), it is possible to continuously perform the separation between the lightweight plastic and the heavy plastic. As a result, it is possible to efficiently sort the lightweight plastic and the heavy plastic.

In the first embodiment, the second rotor
A spiral rake (lightweight plastic scraping means) for scraping a lightweight plastic may be fixed to the outer portion of (19). The outer peripheral edge of this rake is located on a conical surface along the inner peripheral surface of the lightweight plastic guide wall (8), and the outer peripheral edge of the rake and the inner peripheral surface of the lightweight plastic guide wall (8) are The interval is set so that the lightweight plastic pulverized material scraped up by the rake does not fall from between them. Instead of the spiral rake, a plurality of rakes having a predetermined length in the circumferential direction are intermittently fixed to the outer portion of the second rotor (19) so as to be positioned on the virtual spiral. May be.

FIG. 2 is a vertical sectional view showing a second embodiment of the present invention. In FIG. 2, parts corresponding to those in FIG. 1 are denoted by the same reference numerals.

In this embodiment, the vertical rotation shaft (30) is hollow, and its upper end is open and its lower end is closed. A plurality of through holes (31) are formed at the lower end of the peripheral wall (2a) of the rotating shaft (30). A charging hopper (32) is arranged on the upper end opening of the rotating shaft (30). On the hopper (32),
Container containing crushed waste plastic waste
The end of the transport path of the plastic loading device (34) for transporting the waste plastic pulverized material from (33) to the hopper (32) faces. The tip of a water supply pipe (35) (water supply device) that feeds water into the rotary shaft (30) faces the hopper (32). And the rotating shaft (30), plastic injection device
(34) and the water supply pipe (35) constitute a plastic slurry supply means.

In this embodiment, the second rotor (1
A spiral rake (36) (lightweight plastic scraping means) for scraping a lightweight plastic is fixed to the outer portion of 9). The outer peripheral edge of the rake (36) is located on a conical surface along the inner peripheral surface of the lightweight plastic guide wall (8). The distance between the outer peripheral edge of the rake (36) and the inner peripheral surface of the lightweight plastic guide wall (8) is set such that the lightweight plastic crushed material scraped up by the rake (36) does not fall from between them.

The separation of municipal solid waste plastics using the apparatus having the above configuration is performed as follows.

First, the waste plastic pulverized material is charged into the rotary shaft (30) through the hopper (32) by the charging device (34), and the rotary shaft (30) is transferred from the water supply pipe (35) through the hopper (32). Send water into). Then, the rotating shaft (30) is driven by the motor (14).
Is rotated to mix the crushed waste plastic with water in the rotating shaft (30) to adjust the crushed waste plastic into a slurry. The plastic slurry in the rotating shaft (30) flows into the separation tank (1) through the through hole (31) due to the centrifugal force generated by the rotation of the rotating shaft (30). Separation tank (1)
When the liquid level of the plastic slurry in the inside reaches a predetermined height such that the lower part of the second rotor (19) is immersed in the plastic slurry, the functions of the first and second rotors (17) and (19) work. To the plastic slurry in the separation tank (1)
A vortex having a liquid surface (L) centered on the axis of (1) and concave at the center is generated. At this time, the upper part of the concave liquid level (L) at the center of the vortex is located inside the lightweight plastic guide wall (8). Then, the crushed lightweight plastic having a specific gravity of less than 1 floats on the concave liquid surface (L) at the center of the vortex,
A guide wall is provided by a rake (36) for scraping lightweight plastic crushed material while being flipped radially outward by the rotor (19).
It is scraped up along the inner peripheral surface of (8) and discharged from the lightweight plastic discharge port (9) to the outside of the separation tank (1). Water overflows from outlet (9). On the other hand, the heavy plastic crushed material having a specific gravity larger than 1 is discharged to the outside of the separation tank (1) in the same manner as in the first embodiment. Therefore, the collection of the lightweight plastic and the collection of the heavy plastic can be performed simultaneously and automatically, and the sorting operation is simplified. In addition, by continuously performing the above-mentioned operation while continuously supplying the pulverized waste plastic and the water into the rotating shaft (30), it is possible to continuously perform the separation between the lightweight plastic and the heavy plastic. as a result,
It is possible to efficiently sort light plastics and heavy plastics.

In the second embodiment, since the rake (36) is arranged inside the lightweight plastic guide wall (8), the separation tank for the lightweight plastic crushed material from the lightweight plastic discharge port (9) is provided. 1) Emissions to the outside can be ensured. Further, in the second embodiment, the plastic slurry in the rotating shaft (30) is slightly increased in liquid level in the rotating shaft (30), and the through hole (3
Since the plastic slurry sent out from 1) flows into the separation tank (1) in combination with the centrifugal force acting on the plastic slurry, a dedicated power for driving the slurry pump of the first embodiment is required. And not.

In the second embodiment, the lightweight plastic scraping rake (36) has a spiral shape.
The present invention is not limited to this, and a plurality of rakes having a predetermined length in the circumferential direction are intermittently fixed to the outer portion of each second rotor (19) so as to be positioned on the virtual spiral. Is also good.

In the first and second embodiments,
The heavy plastic scraping rake (21) has a spiral shape, but is not limited thereto.
A plurality of rakes each having a predetermined length in the circumferential direction may be intermittently fixed to the outer portion of the so as to be positioned on the virtual spiral.

[Brief description of the drawings]

FIG. 1 is a vertical longitudinal sectional view showing an embodiment of a plastic sorting device according to the present invention.

FIG. 2 is a vertical longitudinal sectional view showing another embodiment of the plastic sorting apparatus according to the present invention.

[Explanation of symbols]

(1): Separation tank (4): Heavy plastic outlet (5): Slurry adjusting tank (6): Conduit (7): Slurry pump (8): Light plastic guide wall (9): Light plastic outlet (10 (30): Rotary shaft (17): First rotor (19): Second rotor (21): Rake for scraping heavy plastic (heavy plastic scraping means) (31): Through hole (34): Plastic injection device (35): Water supply pipe (water supply device) (36): Light plastic scraping rake (Light plastic scraping means)

Claims (7)

[Claims] 1. A vertical separation tank having an inner peripheral surface formed into a cylindrical surface, a means for supplying a plastic slurry into the separation tank, and an upper part of the separation tank spaced apart from the inner peripheral surface of the separation tank. A conical light-weight plastic guide wall, which is concentrically arranged and whose lower end is open and whose inner peripheral surface is widened upward, and a plastic slurry placed in the separation tank, Means for generating a vortex centered on the axis of the surface and having a concave liquid surface at the center and having an upper portion of the liquid surface radially inward from the inner peripheral surface of the lightweight plastic guide wall; Means for scraping heavy plastic along the inner peripheral surface of the separation tank, and scraping the upper end of the separation tank along the inner peripheral surface of the separation tank by the heavy plastic scraping means. Raised weight plastic A heavy plastic discharge port for discharging tics to the outside of the separation tank is formed, and a lightweight plastic discharge port for discharging light plastic from inside the guide wall to the outside of the separation tank is formed at the upper end of the light plastic guide wall. Plastic sorting equipment. 2. A plastic slurry supply means comprising: a slurry adjusting tank for adjusting a plastic pulverized material into a slurry; a conduit connecting the slurry adjusting tank and a bottom of the separating tank; and a conduit from the slurry adjusting tank into the separating tank. The plastic sorting apparatus according to claim 1, further comprising a pump for feeding the plastic slurry. 3. A plastic slurry supply means is rotatably disposed at a central portion in the separation tank and has a plurality of through holes at a lower end portion of a peripheral wall, and a plastic slurry is supplied from an upper end opening of the hollow rotary shaft to the inside thereof. 2. The plastic sorting device according to claim 1, further comprising a plastic feeding device for feeding the pulverized material, and a water supply device for feeding water into the hollow rotary shaft from an upper end opening thereof. 4. A vortex generating means, wherein a plurality of vortex generating means are arranged at a center in the separation tank so as to be rotatable, and a plurality of arms are arranged in the vicinity of an inner peripheral surface of the separation tank at intervals in a circumferential direction. A first rotor fixed to the rotating shaft via a first shaft; and a second rotor fixed to the rotating shaft via an arm in the vicinity of the inner peripheral surface of the lightweight plastic guide wall at intervals in the circumferential direction. The plastic sorting device according to any one of claims 1 to 3, further comprising a rotor. 5. The heavy-weight plastic scraping means is a spiral rake which is arranged such that an outer peripheral edge thereof is located on a cylindrical surface along an inner peripheral surface of the separation tank and is rotatable around a vertical axis. 5. The plastic sorting device according to any one of items 4 to 4. 6. A light-weight plastic, which is disposed inside the light-weight plastic guide wall and floats on the surface of the vortex of the plastic slurry, is lifted up along the inner peripheral surface of the guide wall, and is separated through the light-weight plastic discharge port. The plastic sorting apparatus according to any one of claims 1 to 5, further comprising means for discharging the plastic to the outside. 7. The lightweight plastic scraping means is a spiral rake which is arranged such that its outer peripheral edge is located on an upwardly expanding conical surface along the inner peripheral surface of the lightweight plastic guide wall and is rotatable about a vertical axis. 7. The plastic sorting device according to claim 6, wherein: