JP3340282B2 - Electrostatic sorting device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for separating recyclable plastics or combustibles from materials having a somewhat large particle size, such as pulverized waste in which an insulator and a conductive material are mixed. The present invention relates to an electrostatic sorting device.

[0002]

2. Description of the Related Art Conventionally, an electrostatic sorting device for separating insulating particles and conductive particles is composed of a fixed-vibration feeder, which is rotated around a horizontal axis in a predetermined direction and is placed on the upper surface of a negatively grounded conductive rotor from a hopper. The mixed particles are cut out through the electrode, a corona discharge field is formed between the needle-shaped electrode applied by the power supply and the rotor, and when the mixed particles enter the discharge field, the mixed particles are polarized and the electrons are discharged. Upon receiving the radiation, the insulative particles are attracted to the rotor by the electric field provided by the electron radiation because there is no charge supply from the ground electrode, and are strongly attracted together with the polarization attraction. Also, for conductive particles,
The charge due to the corona discharge neutralizes the opposite charge from the rotor, and furthermore, the charge is always given from the rotor, so that the charge is repelled to the rotor and separated.

[0003] In this way, the conductive particles are separated and fall on the front tray arranged on the upstream side in the rotation direction of the rotor, and the semiconductive particles are dropped and separated on the intermediate tray, and the downstream tray. On the tray on the side, the insulating particles scraped off from the surface of the rotor by the scraper are separated.

[0004]

However, the above-mentioned electrostatic sorting apparatus is widely used for sorting minerals, plastic particles and the like. Fibers such as wood and paper are entangled with the crushed material such as plastic in the garbage, and the fibers entangled with the plastic and the like have a problem that the recovery rate of the plastic and the like is low and the purity is low.

An object of the present invention is to solve the above-mentioned problems and to provide an electrostatic separation apparatus capable of recovering plastics and the like with a high purity and a high recovery rate.

[0006]

In order to solve the above-mentioned problems, a first means of the present invention is to provide a conductive rotor rotatable about a horizontal axis, and feeds a sorting object onto the conductive rotor. An electrode forming a corona discharge field between the hopper, the conductive rotor at the inlet side of the conductive rotor, and a plurality of sorting units arranged below the conductive rotor along the rotational direction of the conductive rotor. A tray, and a shooter is provided between the hopper and the conductive rotor, and a loosening device is provided above the shooter, and the loosening device extends in a transverse direction of the shooter.
A movable member of a plurality of rows of comb teeth is projecting Rutotomoni shooter side Re is obtained by including a comb-tooth drive means for relatively reciprocating the movable member along a transverse adjacent these to each other.

The second means includes a conductive rotor rotatable about a horizontal axis, a hopper for feeding a material to be sorted onto the conductive rotor, and a conductive rotor at the inlet side of the material to be sorted of the conductive rotor. An electrode forming a corona discharge field therebetween, and a plurality of sorting trays arranged below the conductive rotor along the rotation direction of the conductive rotor, wherein the hopper and the conductive A vibrating plate for a fixed-rate supply vibratory feeder is provided between the rotors, and a loosening device is provided above the vibrating plate. The loosening device extends in the transverse direction of the vibrating plate and has a large number of rods on its periphery. It comprises a rotating shaft protruding, and a loosening driving device for rotating the rotating shaft . Further, the third means is:
In the second means, loosening member, a plurality of rotary shaft is provided, at predetermined intervals rotary shaft rods rotating shaft body disentangling adjacent these mutually to engage each other in the feeding direction of the sorted matter It is arranged.

Further, a fourth means comprises a conductive rotor rotatable about a horizontal axis, a hopper for feeding a material to be sorted onto the conductive rotor, and a conductive rotor at an inlet side of the material to be sorted of the conductive rotor. An electrode forming a corona discharge field between
In an electrostatic separation device including a plurality of sorting trays disposed below the conductive rotor along the rotation direction of the conductive rotor, a shooter is provided between the hopper and the conductive rotor, and a shooter is provided above the shooter. A loosening device is provided. The loosening device includes a sieve plate provided in a plurality of stages in a vertical direction, and a loosening drive device for relatively reciprocating the sieve plates adjacent to each other in the horizontal direction. Still further, the fifth means includes a conductive rotor rotatable about a horizontal axis, a hopper for feeding a material to be sorted onto the conductive rotor, and a conductive rotor at a material to be sorted inlet side of the conductive rotor. An electrostatic sorting apparatus comprising: an electrode forming a corona discharge field between the electrodes; and a plurality of sorting trays disposed below the conductive rotor along a rotation direction of the conductive rotor, wherein the hopper and the conductive rotor And a loosening device is provided above the shooter, and the loosening device includes a plurality of stages in the vertical direction.
A sieve plate is arranged, is a sieve plate adjacent these together those and a loosening driving device to vibrate.
Further, a sixth means, in the fifth means, loosening drive apparatus is configured so as to phase <br/> vs. frequency along the sieve plate adjacent to each other in the horizontal direction.

[0009]

According to each of the above constructions, the objects to be sorted can be effectively loosened before passing through the corona discharge field, and the fibers entangled with the plastic or the like can be separated. And the like can be recovered with high purity and high recovery rate.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment of the present invention will be described with reference to FIG.

A conductive rotor 1, which is rotated about a horizontal axis in the direction of arrow A by a rotary driving device (not shown), is installed. The conductive rotor 1 is connected to a negative ground (earth) via a lead wire 2. ) Has been. The conductive rotor 1
A hopper 3 for supplying crushed refuse E, which is an example of an object to be sorted, is disposed above the hopper 3. It is configured to supply. Above the transport plate 4a of the vibration feeder 4, a loosening device 5 according to the present invention for loosening crushed refuse is provided.

A plurality of needle-like electrodes (or comb-like electrodes) 6, which are an example of pointed electrodes, are provided at a predetermined interval in the width direction from a top of the conductive rotor 1 at a slightly downstream side in the rotation direction A. Are arranged, and the positive electrode of the discharge field forming power source 7 is connected to the needle electrode 6 to form a corona discharge field (region) D between the needle electrode 6 and the conductive rotor 1. . Further, a conductive waste receiving tray 8, a semiconductive waste receiving tray 9, and an insulating waste receiving tray 10 are arranged below the conductive rotor 1 from the upstream side to the downstream side in the rotation direction A, and the insulating waste receiving tray is provided. Above 10, there is provided a scraping brush 11 which is an example of a scraping means for forcibly separating the insulative dust adsorbed by sliding contact with the conductive rotor 1.

As shown in FIGS. 2 and 3, the loosening device 5 is provided with a case 21 above the conveying plate 4a of the vibrating feeder 4.
A plurality of rows of slide bodies (movable members) 23 which are reciprocally movable in the transverse direction via a linear bearing 22 having transverse guide rails 22a are arranged inside the movable body. Each of the slide bodies 23 has a plurality of comb teeth 24 suspended therefrom, and reaches near the upper portion of the transport plate 4a. Case 2
1 has a crankshaft 25 and a crankshaft 2
5 which comprises a loosening motor 26 for driving the motor 5 and a connecting rod 27 for connecting the crankshaft 25 and the slide body 23 to each other. The adjacent comb teeth 24 are relatively reciprocated in the transverse direction via the slide body 23. A device 28 is provided.

In the above configuration, the crushed dust E supplied from the hopper 3 to the vibrating feeder 4 is sent along the inclination of the transport plate 4a, and the loosening motor 26 of the loosening device 5 is driven to drive through the crank shaft 25. Since the comb teeth 24 are relatively reciprocated in the transverse direction, the conductive crushed dust Ea, semi-conductive crushed dust Eb, and insulating crushed dust Ec that are entangled with each other are separated and loosened. Then, the corona discharge field (area) is thrown onto the conductive rotor 1 and transported along the rotation direction A and formed by the needle-shaped electrode 6.
When the dust reaches D, the crushed dust E passes through the ion shower or the electron shower and receives the electron radiation, and the insulating crushed dust Ec such as plastics is given by the electron radiation because there is no charge replenishment from the conductive rotor 1. An attraction force acts on the conductive rotor 1 by the electric field, and further, the attraction force of the polarization is combined and strongly attracted. In the case of conductive pulverized waste Ea such as metals, the charge due to corona discharge is neutralized with the opposite charge from the conductive rotor 1, and the conductive rotor 1
Are always supplied with the opposite charge from the conductive rotor 1
It is separated as repulsive force to. Also, even if the drying is performed by a dryer, intermediate semiconductive pulverized waste Eb, such as wood or paper, containing a few% of water is adsorbed on the conductive rotor 1 with a certain adsorbing force. Then, the conductive refuse Ea repelled by the conductive rotor 1 is dropped and discharged to the first conductive refuse receiving tray 8, and the semi-conductive refuse Eb is further discharged to the conductive rotor 1.
, Which shows some adsorption force to the lower portion of the conductive rotor 1, and drops by its own weight to the next semiconductive trash receiving tray 9, and furthermore, the insulating crushed dust Ec strongly absorbed by the conductive rotor 1.
Is dropped and discharged to the insulating dust receiving tray 10 by its own weight and the scraping brush 11. At this time, since the crushed waste E is loosened and separated by the unraveling device 5, the recovery rate of the plastics as the insulating crushed waste Ec is improved from 40% in the past to 65% or more and separated. The purity of the conductive pulverized waste Ea, the semiconductive pulverized waste Eb, and the insulative pulverized waste Ec was also improved to 80% or more from 60 to 65% of the conventional level.

This loosening device 31 has, for example, two rotating members, in which a loosening rod (which may be a U-shaped rod) 32 as an example of a number of loosening members is protruded in the case 30 above the transport plate 4a. The shaft 33 is arranged in the transverse direction,
The rotating shafts 33 are positioned at predetermined intervals in the direction in which the crushed dust E is sent out so that the loosening rods 32 mesh with each other. The loosening driving device 34 for rotating the rotating shaft 33 includes the rotating shaft 3
3 and a loosening motor 34b connected to one of the rotating shafts 33 to rotate the two rotating shafts 33 in the same direction. It is rotated in the opposite arrow B direction.

According to the second embodiment, the conductive pulverizing dust Ea, the semiconductive pulverizing dust Eb and the insulating pulverizing dust Ec, which are entangled with each other, are separated by the loosening rod 32 rotated via the rotary shaft 33. Since it is loosened, the recovery rate is improved compared to the conventional method, and the separated conductive pulverized waste E
a, the purity of the semiconductive crushed waste Eb and the insulating crushed waste Ec can also be significantly improved.

FIG. 6 shows a third embodiment of the electrostatic sorting apparatus for pulverized waste. The same members as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted. In the loosening device 41, a sieve plate 43 having a predetermined coarseness is provided in a plurality of stages and oscillatable in a case 42 provided below the hopper 3, and these sieve plates 43 are moved in a relative direction. A connecting rod 44 that vibrates or moves, for example, a crankshaft 44a and a loosening motor 44b, and a connecting rod 44 that connects the crankshaft 44a and the sieve plate 43
c is provided with a loosening driving device 44 provided with a c.

According to the above configuration, by passing the crushed waste E through the plurality of sieve plates 43, the conductive crushed waste E
a, The semiconductive pulverized waste Eb and the insulative pulverized waste Ec can be effectively separated to greatly improve the recovery rate and purity.

[0019]

As described above, according to the present invention, each of the disintegrators can effectively disintegrate the crushed refuse and separate it into conductive crushed refuse, semiconductive crushed refuse, and insulating crushed refuse. As a result, the recovery rate can be improved, and the purity of the separated waste can be increased.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram showing a first embodiment of an electrostatic sorting apparatus for pulverized waste according to the present invention.

FIG. 2 is a bottom view of the loosening device.

FIG. 3 is a sectional view of the loosening device.

FIG. 4 is a schematic configuration diagram showing a second embodiment of the electrostatic sorting apparatus for pulverized waste according to the present invention.

FIG. 5 is a bottom view of the loosening device.

FIG. 6 is a schematic configuration diagram showing a third embodiment of the electrostatic sorting apparatus for pulverized waste according to the present invention.

[Explanation of symbols]

 D Corona discharge field E Pulverized waste Ea Conductive pulverized waste Eb Semi-conductive pulverized waste Ec Insulated pulverized waste 1 Conductive rotor 2 Lead wire 4 Vibration feeder 4a Carrier plate (shooter) 5 Release device 6 Needle electrode 8 Conductive waste Receiving tray 9 Semi-conductive refuse receiving tray 10 Insulating refuse receiving tray 11 Scrubbing brush 23 Slide body (movable member) 24 Comb teeth 28 Comb driving device 31 Loosening device 32 Loosening rod 33 Rotating shaft body 34 Loosening device 41 Loosening Device 43 Sieve plate 44 Loosening drive

──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Hiroyuki Carpenter 5-28 Nishikujo, Konohana-ku, Osaka-shi, Osaka Inside Hitachi Zosen Corporation (72) Inventor Hidehiko Maebata 5-chome, Nishikujo, Konohana-ku, Osaka-shi, Osaka No. 28, Hitachi Zosen Corporation (72) Inventor Chiaki Tojo 5-28, Nishikujo, Konohana-ku, Osaka-shi, Osaka Prefecture, Hitachi Zosen Corporation (56) References JP-A-4-209764 (JP, A JP-A-52-116660 (JP, A) JP-A-61-220749 (JP, A) Fully open 48-49663 (JP, U) Fully open 48-53667 (JP, U) (58) Field (Int.Cl. ⁷ , DB name) B03C ^7/ 00-7/12

Claims (6)

(57) [Claims] A conductive rotor rotatable about a horizontal axis; a hopper for feeding an object to be sorted onto the conductive rotor; and a corona between the conductive rotor at an inlet side of the object to be sorted of the conductive rotor. An electrostatic sorting apparatus comprising: an electrode forming a discharge field; and a plurality of sorting trays disposed below the conductive rotor along a rotation direction of the conductive rotor, wherein a shooter is provided between the hopper and the conductive rotor. provided with a, a loosening device provided above the shooter, the loosening device comprises a moveable member of a plurality of rows of the extended comb teeth in Rutotomoni shooter side projecting transversely of the shooter, adjacent these to each other And a comb driving means for relatively reciprocating the movable member along the transverse direction. 2. A corona between a conductive rotor rotatable about a horizontal axis, a hopper for feeding an object to be sorted onto the conductive rotor, and a conductive rotor at an inlet side of the object to be sorted of the conductive rotor. An electrostatic sorting apparatus comprising: an electrode forming a discharge field; and a plurality of sorting trays disposed below the conductive rotor along a rotation direction of the conductive rotor, wherein a fixed amount is provided between the hopper and the conductive rotor. A vibrating plate for the supply vibratory feeder is provided, and a loosening device is provided above the vibrating plate. The loosening device extends in the transverse direction of the vibrating plate and has a plurality of rods protrudingly provided on a peripheral portion thereof. a shaft body, wherein
An electrostatic separation device comprising: a loosening drive device for rotating a rotating shaft . Wherein loosening member, a plurality of rotary shaft is provided, the rotation shaft is loosened rod rotary shaft body to engage each other adjacent these mutually at predetermined intervals in the feeding direction of the sorted matter The electrostatic sorter according to claim 2, wherein the electrostatic sorter is arranged. 4. A corona between a conductive rotor rotatable about a horizontal axis, a hopper for feeding an object to be sorted onto the conductive rotor, and a conductive rotor at an inlet side of the object to be sorted of the conductive rotor. An electrostatic sorting apparatus comprising: an electrode forming a discharge field; and a plurality of sorting trays disposed below the conductive rotor along a rotation direction of the conductive rotor, wherein a shooter is provided between the hopper and the conductive rotor. And a loosening device is provided above the shooter, and the loosening device is a loosening driving device that relatively reciprocates the sieve plates arranged in a plurality of stages in the vertical direction and the sieve plates adjacent to each other in the horizontal direction. And an electrostatic separation device. 5. A corona between a conductive rotor rotatable about a horizontal axis, a hopper for feeding an object to be sorted onto the conductive rotor, and a conductive rotor at an inlet side of the object to be sorted of the conductive rotor. An electrostatic sorting apparatus comprising: an electrode forming a discharge field; and a plurality of sorting trays disposed below the conductive rotor along a rotation direction of the conductive rotor, wherein a shooter is provided between the hopper and the conductive rotor. provided with a, a loosening device provided above the shooter, the loosening device comprises a sieve plate having a plurality Danhai set in the vertical direction, that the sieve plate adjacent these together to and a loosening driving device to vibrate Characteristic electrostatic sorting equipment. 6. The loosening drive, electrostatic sorting device according to claim 5, characterized by being configured so as to relative vibration along the sieve plate adjacent to each other in the horizontal direction.