EP1676645A1 - Method and apparatus for sorting plastic and paper waste - Google Patents

Method and apparatus for sorting plastic and paper waste Download PDF

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Publication number
EP1676645A1
EP1676645A1 EP04078545A EP04078545A EP1676645A1 EP 1676645 A1 EP1676645 A1 EP 1676645A1 EP 04078545 A EP04078545 A EP 04078545A EP 04078545 A EP04078545 A EP 04078545A EP 1676645 A1 EP1676645 A1 EP 1676645A1
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EP
European Patent Office
Prior art keywords
items
hitting
area
hit
blades
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP04078545A
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German (de)
French (fr)
Inventor
Hermannus Johannes Maria Legtenberg
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Machinefabriek Bollegraaf Appingedam BV
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Machinefabriek Bollegraaf Appingedam BV
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Application filed by Machinefabriek Bollegraaf Appingedam BV filed Critical Machinefabriek Bollegraaf Appingedam BV
Priority to EP04078545A priority Critical patent/EP1676645A1/en
Priority to CA002491202A priority patent/CA2491202A1/en
Publication of EP1676645A1 publication Critical patent/EP1676645A1/en
Withdrawn legal-status Critical Current

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B07SEPARATING SOLIDS FROM SOLIDS; SORTING
    • B07BSEPARATING SOLIDS FROM SOLIDS BY SIEVING, SCREENING, SIFTING OR BY USING GAS CURRENTS; SEPARATING BY OTHER DRY METHODS APPLICABLE TO BULK MATERIAL, e.g. LOOSE ARTICLES FIT TO BE HANDLED LIKE BULK MATERIAL
    • B07B13/00Grading or sorting solid materials by dry methods, not otherwise provided for; Sorting articles otherwise than by indirectly controlled devices
    • B07B13/10Grading or sorting solid materials by dry methods, not otherwise provided for; Sorting articles otherwise than by indirectly controlled devices using momentum effects
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B07SEPARATING SOLIDS FROM SOLIDS; SORTING
    • B07BSEPARATING SOLIDS FROM SOLIDS BY SIEVING, SCREENING, SIFTING OR BY USING GAS CURRENTS; SEPARATING BY OTHER DRY METHODS APPLICABLE TO BULK MATERIAL, e.g. LOOSE ARTICLES FIT TO BE HANDLED LIKE BULK MATERIAL
    • B07B15/00Combinations of apparatus for separating solids from solids by dry methods applicable to bulk material, e.g. loose articles fit to be handled like bulk material
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B07SEPARATING SOLIDS FROM SOLIDS; SORTING
    • B07BSEPARATING SOLIDS FROM SOLIDS BY SIEVING, SCREENING, SIFTING OR BY USING GAS CURRENTS; SEPARATING BY OTHER DRY METHODS APPLICABLE TO BULK MATERIAL, e.g. LOOSE ARTICLES FIT TO BE HANDLED LIKE BULK MATERIAL
    • B07B4/00Separating solids from solids by subjecting their mixture to gas currents
    • B07B4/02Separating solids from solids by subjecting their mixture to gas currents while the mixtures fall

Definitions

  • waste paper, cardboard and plastic are collected in mingled form. For the sake of recycling, however, it is preferred to have waste plastic separated from waste paper and cardboard to allow useful recycling of such material.
  • the invention relates to a method and an apparatus for sorting waste paper from waste plastic.
  • a problem of such sorting conveyors is that maintaining an air stream for classifying material all over the sorting space, requires a an arrangement of large capacity fans, that driving the fans entails a substantial energy consumption, that material may easily kling to supplemental distributor manifolds distributed in the sorting space and that separation of dust and the airborne items from the air stream requires large capacity cyclones.
  • this object is achieved by providing a method according to claim 1.
  • the invention may also be embodied in an apparatus according to claim 11, for carrying out such a method.
  • the drawing is schematic side view of an example of an apparatus according to the invention in operation.
  • Co-mingled waste is waste collected in a mixed form that is destined for recycling and generally has been presorted by collection in dustbins separate from other waste, such as compostable waste. Accordingly, the mixture of paper and plastic waste is generally quite dry and contains relatively little other waste.
  • a large portion of the plastic items is formed by plastic bottles of the type used for packaging water or other drinkable liquids. Some of the plastic items have been indicated by reference numerals 2. Paper items typically appear in a large variety and typically include for instance remainders of printed matter or packages. Some of the paper items have been indicated by reference numerals 3.
  • the co-mingled waste according to the present example also includes a substantial portion of glass items, of which some have been designated by reference numerals 4.
  • the apparatus includes a conveyor 5 for feeding the mingled paper and plastic items 2-4.
  • the conveyor 5 has a downstream end in a release area 6 spaced above a hitting area 7.
  • a number of hitting blades 8 are mounted to a rotor 9.
  • the hitting blades are distributed about the circumference of the rotor 9.
  • the rotor is drivable for rotation about a horizontal axis 10 in a sense of rotation indicated by an arrow 11.
  • the sense of rotation 11 is such that a section of the circumference of the rotor 9 facing the release area moves with a horizontal directional component in the direction of a sorting space 12 bounded by a wall 24.
  • the hitting blades 8 are driven for movement through the hitting area 7 in directions diverging from the falling directions (arrow 13) by a horizontal directional component in the direction of the sorting space 12.
  • a first receiving window 14 and a second receiving window 15 can be distinguished.
  • the first receiving window 14 is located horizontally more remote from the hitting area 7 than the second receiving window 15.
  • Receiving areas 16, 17 are located under the receiving windows 14, 15 for receiving items 2-4 that have dropped through the receiving windows 14, 15.
  • the receiving areas 16, 17 are mutually separated by a wall 18.
  • Bottoms of the receiving areas 16, 17 are formed by roller conveyors 18, 19 that are drivable for rotation in different senses (arrows 20, 21) for transport of material on the conveyor in different directions (arrows 22, 23).
  • the sorting space 12 is arranged such that, in operation, all paper waste 3 (disregarding insignificant amounts of waste that will in practice kling to surfaces of the apparatus) is allowed to drop out of the sorting space 12, i.e. there are no means for preventing a substantial portion of the paper waste from dropping out of the sorting space, such as means for generating an airflow in the sorting chamber 12 that causes an airborne fraction of the waste to float out of the sorting space or mechanical catchers that refrain paper items from dropping out of the sorting space 12.
  • the mingled paper, plastic and glass items 2-4 are fed to the release area 6 spaced above the hitting area 7. From the release area 6 the items 2-4 are caused to fall towards the hitting area 7 in the falling directions generally designated by the arrow 13.
  • the items are subjected to the operation causing the plastic items 2 to be, at least to a large extent, sorted from the paper items 3 by hitting the items 2-4 in the hitting area 7 in directions generally designated by arrows 25, 26 diverging from the falling directions 13 by a horizontal directional component in the direction of the sorting space 12.
  • the relatively hard plastic items 2 bounce efficiently away from the hitting blades and accordingly, a relatively high velocity is imparted upon the plastic items 2 when these are hit by the hitting blades 8.
  • paper items 3 that are hit exhibit no or virtually no bouncing behaviour and are therefore propelled into the sorting space 12 with a relatively low velocity.
  • this will in practice be approximately the circumferential velocity of the hitting blades 8.
  • This difference in bouncing behaviour causes a first fraction of the items 2-4 hit in the hitting area 7, which is at least relatively rich in plastic items 2 to drop to the first receiving window 14 and a second fraction of the items 2-4 hit in the hitting area 7, which is at least relatively rich in paper items 3 to drop to the second receiving window 15 which is located horizontally less remote from the hitting area 7 than the first receiving window 14.
  • the fraction at least relatively rich in plastic items 2 is received in the first receiving area 16, from which it may be transported away in the direction indicated by arrow 22 and the fraction at least relatively rich in paper items 3 is received in the second receiving area 17, from which it may be transported away in the direction indicated by arrow 23.
  • the first receiving window may also be positioned for receiving the fraction more rich in plastic material than the fraction received via the second window, by positioning the first window in a position vertically higher than the second receiving window.
  • the receiving windows are preferably positioned such that one of the windows does not partially cover the other one of the receiving windows and its full surface size is available for receiving waste items.
  • the rotor 9 forms a suspension of the hitting blades 8 that guides the hitting blades 8 along a circulating path including the hitting trajectory through the hitting area 7. This allows the hitting blades 8 to bee guided by a simple and efficient suspension and, as such, the circulating movement of the hitting blades 8 is also advantageous for passing the hitting blades 8 through the hitting area 7 with enough velocity without requiring a complicated drive and without imparting substantial vibratory forces to the apparatus.
  • a fan 27 is arranged for driving an air flow (represented by arrow 28) transverse to the falling directions (arrow 13) with a directional component parallel to the direction of movability of the hitting blades 8 through the hitting area 7. Furthermore, the way the hitting blades 8 are suspended provides that the hitting blades 8 are movable along a trajectory that is curved away from the release area 6. The air flow tends to deflect the falling direction of relatively light items more than the falling direction of relatively heavy items.
  • the differences in the extent of deflection causes positions in the hitting area 7 where the items 2-4 are hit to vary in at least the direction of deflection. Since the trajectory of the hitting blades 8 in the hitting area 7 is curved away from the release area 6, the direction in which each of the items 2-4 is hit is lower, the more the falling direction 13 of the respective items 2-4 has been deflected before the respective item 2-4 has been hit.
  • the cross-wind 28 enhances the sorting action achieved in the hitting area 7 by causing the relatively heavy plastic items 2 to be generally hit in a direction pointing higher than the direction in which paper items 3 are generally hit. This enhances the extent to which plastic items 2 are hit higher and further into the sorting space 2 than paper items 2 and therefore the effectiveness of the sorting process.
  • the circulating motion of the blades 8 also contributes to the air flow across the path along which the items fall to the launching area, in particular if the blades have closed surfaces.
  • the airflow entrained by the circulating hitting blades 8 even causes a substantial portion of the paper items to fully or mainly entrained thereby, without being hit by one of the hitting blades 8.
  • the movement of the blades may be the only means for driving an airflow across the path along which the items fall to the launching area, it is preferred that, as in the present example, the fan 27 is separate from the hitting blades 8.
  • the transverse air flow 28 can be maintained effectively in areas remote from the rotor 9 as well. This allows to deflect the falling directions 13 of items 2-4 falling from the release area 6 over a large portion of the falling trajectory and accordingly have a large deflecting effect on the falling direction 13 and an accordingly large variation in the extent to which items 2-4 with different weights and aerodynamic characteristics are deflected and an accordingly large variation in the direction into which the items 2-4 are hit.
  • the hitting blades 8 are preferably drivable with a velocity of at least 7 m/s and more preferably of at least 10 m/s.
  • the apparatus is further equipped with a fan 29 arranged for driving an air flow represented by arrow 30 having a directional component opposite to the directions 25, 26 in which the items 2-4 are hit.
  • This fan 29 is positioned in an area spaced from the hitting area 7 in the directions 25, 26 in which the items 2-4 are hit.
  • the air flow 30 generated by the fan 29 urges items down from their ballistic trajectories and this effect is larger, the lighter the items are.
  • the release area 6 is located more than 1 m and preferably at least 1.5 m above the hitting area 7. Since the items 2-4 fall from the release area towards the hitting area over a height of at least 1 m and preferably at least 1.5 m, the items 2-4 falling from the release area 6 towards the hitting area 7 achieve a high velocity. This, in turn allows to obtain a high processing capacity while ensuring that the items 2-4 reach the hitting area 7 as a stream with an average thickness in the hitting direction 25, 26 smaller than or equal to a single layer of items 2-4.
  • That the items 2-4 reach the hitting area as a generally single layer of products 2-4 is advantageous to prevent that plastic items 2 are prevented from bouncing off the hitting blades 8 by paper items 3 forming a cushion between the plastic item 2 and the hitting blade 8 or by paper items 3 that are in the way of the plastic items 2 that are hit into the sorting space 12 along the higher trajectories such as trajectory 25.
  • the hitting blades 8 may in principle have a hitting surface that is soft and elastic, for the processing of co-mingled waste including substantial amounts of glass items, it is advantageous if the surfaces of the hitting blades 8 are hard and stiff enough to cause glass items 4 hit by the hitting blades to be crushed.
  • the glass can subsequently be separated from the other materials downstream of the receiving windows 14, 15 by sieving. According to the present example, the sieving may be carried out by the roller conveyors 18, 19. In the drawings, glass dropping through the roller conveyors 18, 19 is represented by arrows 31.

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  • Combined Means For Separation Of Solids (AREA)

Abstract

Sorting a stream of mingled paper and plastic items (2, 3) fed to a release area (6) spaced above a hitting area (7). The items (2, 3) are released from the release area (6) causing the items to fall towards the hitting area (7) in at least one falling direction (13). In the hitting area, the items (2, 3) in the hitting area (7) are hit in at least one direction (25, 26) diverging from the at least one falling direction (13) by a horizontal directional component. A first fraction of the items (2, 3) hit in the hitting area (7), at least relatively rich in plastic items (2) drops to a first receiving window (14); and a second fraction of the items (2, 3) hit in the hitting area (7), at least relatively rich in paper items (3) drop to a second receiving window (15), the first receiving window (14) being located horizontally more remote from the hitting area (7) and/or vertically higher than the second receiving window (15). An apparatus for sorting a stream including mingled plastic and paper items (2, 3) is also described.

Description

    TECHNICAL FIELD AND BACKGROUND ART
  • In many municipalities, waste paper, cardboard and plastic are collected in mingled form. For the sake of recycling, however, it is preferred to have waste plastic separated from waste paper and cardboard to allow useful recycling of such material. The invention relates to a method and an apparatus for sorting waste paper from waste plastic.
  • In U.S. patent 3 738 483, methods and apparatus for separating paper and plastic from a stream of waste material are described, in which at least a portion of the paper is separated by air flushing in an air stream entraining airborne paper material projected into a sorting space to outlet ports spaced from the bottom of the sorting space. In one embodiment, rocking flapper blades provide a classification of the non-airborne material by hitting some of the material into the sorting space. The heavier materials are propelled farther from the flapper blades than the lighter materials. Thus, the sorting effect is based on the differences in free fall velocities between the types of materials and differences in ballistic properties of items of the different types of materials.
  • A problem of such sorting conveyors is that maintaining an air stream for classifying material all over the sorting space, requires a an arrangement of large capacity fans, that driving the fans entails a substantial energy consumption, that material may easily kling to supplemental distributor manifolds distributed in the sorting space and that separation of dust and the airborne items from the air stream requires large capacity cyclones.
  • SUMMARY OF THE INVENTION
  • It is an object of the invention to provide a solution for sorting at least waste paper from at least waste plastic in a mingled stream that avoids the disadvantages of air flushing.
  • According to the present invention, this object is achieved by providing a method according to claim 1. The invention may also be embodied in an apparatus according to claim 11, for carrying out such a method.
  • By hitting the paper and plastic items in a direction with a horizontal component and allowing the paper and plastic items to fall down, a sorting effect is achieved because plastic items are generally harder and exhibit less damping when hit and therefore bounce away with a larger velocity, and therefore further, when hit in a horizontal direction than paper items.
  • Particular embodiments of the invention are set forth in the dependent claims.
  • Further aspects, effects and details of the invention are set forth in the detailed description with reference to an example shown in the drawing.
  • BRIEF DESCRIPTION OF THE DRAWING
  • The drawing is schematic side view of an example of an apparatus according to the invention in operation.
  • MODES FOR CARRYING OUT THE INVENTION
  • In the drawing, an example of apparatus according to the invention for sorting a stream of co-mingled waste. Co-mingled waste is waste collected in a mixed form that is destined for recycling and generally has been presorted by collection in dustbins separate from other waste, such as compostable waste. Accordingly, the mixture of paper and plastic waste is generally quite dry and contains relatively little other waste. In practice, a large portion of the plastic items is formed by plastic bottles of the type used for packaging water or other drinkable liquids. Some of the plastic items have been indicated by reference numerals 2. Paper items typically appear in a large variety and typically include for instance remainders of printed matter or packages. Some of the paper items have been indicated by reference numerals 3. The co-mingled waste according to the present example also includes a substantial portion of glass items, of which some have been designated by reference numerals 4.
  • The apparatus includes a conveyor 5 for feeding the mingled paper and plastic items 2-4. The conveyor 5 has a downstream end in a release area 6 spaced above a hitting area 7.
  • A number of hitting blades 8 are mounted to a rotor 9. The hitting blades are distributed about the circumference of the rotor 9. The rotor is drivable for rotation about a horizontal axis 10 in a sense of rotation indicated by an arrow 11. The sense of rotation 11 is such that a section of the circumference of the rotor 9 facing the release area moves with a horizontal directional component in the direction of a sorting space 12 bounded by a wall 24.
  • When the rotor 9 is driven, the hitting blades 8 are driven for movement through the hitting area 7 in directions diverging from the falling directions (arrow 13) by a horizontal directional component in the direction of the sorting space 12.
  • In the sorting space 12, a first receiving window 14 and a second receiving window 15 can be distinguished. The first receiving window 14 is located horizontally more remote from the hitting area 7 than the second receiving window 15. Receiving areas 16, 17 are located under the receiving windows 14, 15 for receiving items 2-4 that have dropped through the receiving windows 14, 15. The receiving areas 16, 17 are mutually separated by a wall 18.
  • Bottoms of the receiving areas 16, 17 are formed by roller conveyors 18, 19 that are drivable for rotation in different senses (arrows 20, 21) for transport of material on the conveyor in different directions (arrows 22, 23).
  • The sorting space 12 is arranged such that, in operation, all paper waste 3 (disregarding insignificant amounts of waste that will in practice kling to surfaces of the apparatus) is allowed to drop out of the sorting space 12, i.e. there are no means for preventing a substantial portion of the paper waste from dropping out of the sorting space, such as means for generating an airflow in the sorting chamber 12 that causes an airborne fraction of the waste to float out of the sorting space or mechanical catchers that refrain paper items from dropping out of the sorting space 12.
  • In operation, the mingled paper, plastic and glass items 2-4 are fed to the release area 6 spaced above the hitting area 7. From the release area 6 the items 2-4 are caused to fall towards the hitting area 7 in the falling directions generally designated by the arrow 13.
  • Then the items are subjected to the operation causing the plastic items 2 to be, at least to a large extent, sorted from the paper items 3 by hitting the items 2-4 in the hitting area 7 in directions generally designated by arrows 25, 26 diverging from the falling directions 13 by a horizontal directional component in the direction of the sorting space 12. When hit by one of the hitting blades 8, the relatively hard plastic items 2 bounce efficiently away from the hitting blades and accordingly, a relatively high velocity is imparted upon the plastic items 2 when these are hit by the hitting blades 8. This in turn, causes the plastic items 2 to be propelled relatively far into the sorting space 12; generally more along a trajectory indicated by the arrow 25 than along a lower trajectory indicated by the arrow 26. Conversely, paper items 3 that are hit exhibit no or virtually no bouncing behaviour and are therefore propelled into the sorting space 12 with a relatively low velocity. In the apparatus according to the present example, this will in practice be approximately the circumferential velocity of the hitting blades 8. This difference in bouncing behaviour causes a first fraction of the items 2-4 hit in the hitting area 7, which is at least relatively rich in plastic items 2 to drop to the first receiving window 14 and a second fraction of the items 2-4 hit in the hitting area 7, which is at least relatively rich in paper items 3 to drop to the second receiving window 15 which is located horizontally less remote from the hitting area 7 than the first receiving window 14.
  • Accordingly, the fraction at least relatively rich in plastic items 2 is received in the first receiving area 16, from which it may be transported away in the direction indicated by arrow 22 and the fraction at least relatively rich in paper items 3 is received in the second receiving area 17, from which it may be transported away in the direction indicated by arrow 23.
  • It is observed that, instead of or in addition to being located horizontally more remote from the hitting area, the first receiving window may also be positioned for receiving the fraction more rich in plastic material than the fraction received via the second window, by positioning the first window in a position vertically higher than the second receiving window. Furthermore, the receiving windows are preferably positioned such that one of the windows does not partially cover the other one of the receiving windows and its full surface size is available for receiving waste items.
  • The rotor 9 forms a suspension of the hitting blades 8 that guides the hitting blades 8 along a circulating path including the hitting trajectory through the hitting area 7. This allows the hitting blades 8 to bee guided by a simple and efficient suspension and, as such, the circulating movement of the hitting blades 8 is also advantageous for passing the hitting blades 8 through the hitting area 7 with enough velocity without requiring a complicated drive and without imparting substantial vibratory forces to the apparatus.
  • A fan 27 is arranged for driving an air flow (represented by arrow 28) transverse to the falling directions (arrow 13) with a directional component parallel to the direction of movability of the hitting blades 8 through the hitting area 7. Furthermore, the way the hitting blades 8 are suspended provides that the hitting blades 8 are movable along a trajectory that is curved away from the release area 6. The air flow tends to deflect the falling direction of relatively light items more than the falling direction of relatively heavy items.
  • The cross-wind 28 generated by the fan 27, to which the items 2-4 are non-selectively subjected, causes the falling directions 13 of the items 2-4 to be deflected to different extents. The differences in the extent of deflection causes positions in the hitting area 7 where the items 2-4 are hit to vary in at least the direction of deflection. Since the trajectory of the hitting blades 8 in the hitting area 7 is curved away from the release area 6, the direction in which each of the items 2-4 is hit is lower, the more the falling direction 13 of the respective items 2-4 has been deflected before the respective item 2-4 has been hit. Thus, the cross-wind 28 enhances the sorting action achieved in the hitting area 7 by causing the relatively heavy plastic items 2 to be generally hit in a direction pointing higher than the direction in which paper items 3 are generally hit. This enhances the extent to which plastic items 2 are hit higher and further into the sorting space 2 than paper items 2 and therefore the effectiveness of the sorting process.
  • The circulating motion of the blades 8 also contributes to the air flow across the path along which the items fall to the launching area, in particular if the blades have closed surfaces. The airflow entrained by the circulating hitting blades 8 even causes a substantial portion of the paper items to fully or mainly entrained thereby, without being hit by one of the hitting blades 8.
  • Although the movement of the blades may be the only means for driving an airflow across the path along which the items fall to the launching area, it is preferred that, as in the present example, the fan 27 is separate from the hitting blades 8.
  • By providing that the transverse air flow 28 is generated by a fan 27 separate from the hitting blades 8, the transverse air flow 28 can be maintained effectively in areas remote from the rotor 9 as well. This allows to deflect the falling directions 13 of items 2-4 falling from the release area 6 over a large portion of the falling trajectory and accordingly have a large deflecting effect on the falling direction 13 and an accordingly large variation in the extent to which items 2-4 with different weights and aerodynamic characteristics are deflected and an accordingly large variation in the direction into which the items 2-4 are hit.
  • For an effective separation based on differences in bouncing properties, the hitting blades 8 are preferably drivable with a velocity of at least 7 m/s and more preferably of at least 10 m/s.
  • The apparatus is further equipped with a fan 29 arranged for driving an air flow represented by arrow 30 having a directional component opposite to the directions 25, 26 in which the items 2-4 are hit. This fan 29 is positioned in an area spaced from the hitting area 7 in the directions 25, 26 in which the items 2-4 are hit.
  • The air flow 30 generated by the fan 29 urges items down from their ballistic trajectories and this effect is larger, the lighter the items are. Paper items 3 which already tend to fly less far than plastic items, because paper items exhibit comparatively little tendency to bounce off the hitting blades 8, are relatively light and therefore deflected downwardly more from their, generally already lower ballistic trajectories than plastic items 2, which are relatively heavy. Accordingly, the air flow enhances separation of paper from plastic.
  • The release area 6 is located more than 1 m and preferably at least 1.5 m above the hitting area 7. Since the items 2-4 fall from the release area towards the hitting area over a height of at least 1 m and preferably at least 1.5 m, the items 2-4 falling from the release area 6 towards the hitting area 7 achieve a high velocity. This, in turn allows to obtain a high processing capacity while ensuring that the items 2-4 reach the hitting area 7 as a stream with an average thickness in the hitting direction 25, 26 smaller than or equal to a single layer of items 2-4. That the items 2-4 reach the hitting area as a generally single layer of products 2-4 is advantageous to prevent that plastic items 2 are prevented from bouncing off the hitting blades 8 by paper items 3 forming a cushion between the plastic item 2 and the hitting blade 8 or by paper items 3 that are in the way of the plastic items 2 that are hit into the sorting space 12 along the higher trajectories such as trajectory 25.
  • Although the hitting blades 8 may in principle have a hitting surface that is soft and elastic, for the processing of co-mingled waste including substantial amounts of glass items, it is advantageous if the surfaces of the hitting blades 8 are hard and stiff enough to cause glass items 4 hit by the hitting blades to be crushed. The glass can subsequently be separated from the other materials downstream of the receiving windows 14, 15 by sieving. According to the present example, the sieving may be carried out by the roller conveyors 18, 19. In the drawings, glass dropping through the roller conveyors 18, 19 is represented by arrows 31.
  • From the foregoing, it will be clear to the skilled person, that within the framework of invention as set forth in the claims also many variations other than the examples described above are conceivable.

Claims (18)

  1. A method for sorting a stream including mingled plastic and paper items (2, 3), comprising:
    feeding the mingled paper and plastic items (2, 3) to a release area (6) spaced above a hitting area (7);
    releasing the items (2, 3) from said release area (6) causing the items to fall towards the hitting area (7) in at least one falling direction (13); and
    hitting the items (2, 3) in the hitting area (7) in at least one direction (25, 26) diverging from the at least one falling direction (13) by a horizontal directional component;
    wherein a first fraction of the items (2, 3) hit in the hitting area (7), at least relatively rich in plastic items (2) drops to a first receiving window (14); and
    wherein a second fraction of the items (2, 3) hit in the hitting area (7), at least relatively rich in paper items (3) drops to a second receiving window (15), the first receiving window (14) being located horizontally more remote from the hitting area (7) and/or vertically higher than the second receiving window (15).
  2. A method according to claim 1, wherein the items (2, 3) are hit by hitting blades (8) circulating along a path including said trajectory.
  3. A method according to claim 1 or 2, wherein items (2, 3) falling to the hitting area (7) are non-selectively subjected to an air flow (28) transverse to the at least one falling direction (13), said air flow (28) causing the falling directions (13) of the items (2, 3) to be deflected to different extents, said differences in the extent of deflection causing positions in the hitting area (7) where the items (2, 3) are hit to vary in at least the direction of deflection, and the direction (25, 26) in which each of the items is hit being lower, the more the falling direction (13) of the respective items (2, 3) has been deflected before the respective item (2, 3) has been hit.
  4. A method according to claim 3, wherein the items are hit by hitting blades (8) moving along a trajectory curved away from the release area (6) and wherein the transverse air flow (28) has a directional component parallel to the direction of movement of the hitting blades (8) along the trajectory through the hitting area (7).
  5. A method according to claim 3 or 4, wherein the transverse air flow (28) is generated by a fan (27) separate from the hitting blades (8).
  6. A method according to any of the preceding claims, wherein the items (2, 3) are hit with a velocity of at least 7 m/s and preferably at least 10 m/s.
  7. A method according to any of the preceding claims, wherein an air flow (30) having a directional component opposite to the at least one direction (25, 26) in which the items (2, 3) are hit is maintained in an area spaced from the hitting area (7) in the at least one direction (25, 26) in which the items (2, 3) are hit.
  8. A method according to any of the preceding claims, wherein the items falling from the release area (6) towards the hitting area (7) form a stream with an average thickness in the hitting direction (25, 26) smaller or equal to a single layer of items.
  9. A method according to claim 8, wherein the items (2, 3) fall from the release area (6) towards the hitting area (7) over a height of at least 1 m.
  10. A method according to any of the preceding claims, wherein the items include items of glass (4), said glass items (4) being crushed when hit in the hitting area (7) and sieved out downstream of said receiving windows.
  11. An apparatus for sorting a stream including mingled plastic and paper items (2, 3), comprising:
    a conveyor (5) for feeding the mingled paper and plastic items (2, 3), the conveyor having a downstream end in a release area (6) spaced above a hitting area (7) such that items (2-4) released in said release area (6) fall towards the hitting area (7) in at least one falling direction (13);
    at least one hitting blade (8) drivable for movement through the hitting area (7) in at least one direction diverging from the at least one falling direction (13) by a horizontal directional component for hitting the items (2, 3) in the hitting area (7) into a sorting space (12) in at least one hitting direction (25, 26) diverging from the at least one falling direction (13) by a horizontal directional component;
    a first receiving window (14); and
    a second receiving window (15);
    wherein the first receiving window (14) is located horizontally more remote from the hitting area (7) and/or vertically higher than the second receiving window (15),
    wherein separate receiving areas (16, 17) are located downstream of said windows (14, 15), and
    wherein the sorting space (12) is arranged such that, in operating condition, all paper waste (3) is allowed to drop out of said sorting space (12).
  12. An apparatus according to claim 11, further comprising a suspension (9) for guiding of the hitting blades (8) along a circulating path including said trajectory.
  13. An apparatus according to claim 11 or 12, further comprising a fan (27) arranged for driving an air flow (28) transverse to the at least one falling direction (13) with a directional component parallel to the direction of movability of the hitting blades (8) through the hitting area (7); the hitting blades (8) being movable along a trajectory curved away from the release area (6).
  14. An apparatus according to claim 13, wherein the fan (27) is separate from the hitting blades (8).
  15. An apparatus according to any of the claims 11-14, wherein the hitting blades (8) are drivable with a velocity of at least 7 m/s and preferably at least 10 m/s.
  16. An apparatus according to any of the claims 11-15, further comprising a fan (29) arranged for driving an air flow (30) having a directional component opposite to the at least one direction in which the items are hit, in an area spaced from the hitting area (7) in the at least one direction (25, 26) in which the items (2, 3) are hit.
  17. An apparatus according to any of the claims 11-16, wherein the release area (6) is located at least 1 m above the hitting area (7).
  18. An apparatus according to any of the preceding claims, wherein the hitting blades (8) have a hitting surface hard en rigid enough for breaking glass items (4) hit thereby, further comprising a sieve (18, 19) for sieving glass downstream of said receiving windows (14, 15).
EP04078545A 2004-12-28 2004-12-28 Method and apparatus for sorting plastic and paper waste Withdrawn EP1676645A1 (en)

Priority Applications (2)

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EP04078545A EP1676645A1 (en) 2004-12-28 2004-12-28 Method and apparatus for sorting plastic and paper waste
CA002491202A CA2491202A1 (en) 2004-12-28 2004-12-29 Method and apparatus for sorting plastic and paper waste

Applications Claiming Priority (2)

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EP04078545A EP1676645A1 (en) 2004-12-28 2004-12-28 Method and apparatus for sorting plastic and paper waste
CA002491202A CA2491202A1 (en) 2004-12-28 2004-12-29 Method and apparatus for sorting plastic and paper waste

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EP1676645A1 true EP1676645A1 (en) 2006-07-05

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CN102962204A (en) * 2012-10-29 2013-03-13 新疆农业大学 Small seed cleaner
JP2014079742A (en) * 2012-09-26 2014-05-08 Plant System:Kk Sorter of solid matters
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US8016119B2 (en) 2007-03-15 2011-09-13 Machinefabriek Bollegraaf Appingedam B.V. Apparatus and method for separating plastic film from waste
NL2001431C2 (en) * 2008-04-02 2009-10-05 Univ Delft Tech Method for separating a waste stream.
WO2009123452A1 (en) * 2008-04-02 2009-10-08 Technische Universiteit Delft Separation-apparatus
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EP3263231B1 (en) 2008-04-02 2018-08-29 ADR Technology B.V. Method of separating particles
US10052660B2 (en) 2008-04-02 2018-08-21 Adr Technology B.V. Separation-apparatus
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KR101579633B1 (en) * 2008-04-02 2015-12-22 에이디알 테크놀로지 비.브이. Separation-apparatus
EA021329B1 (en) * 2008-04-02 2015-05-29 Инасхко Р Энд Д Б.В. Separation-apparatus
US9033157B2 (en) 2010-07-28 2015-05-19 Inashco R&D B.V. Separation apparatus
AU2011283264B2 (en) * 2010-07-28 2016-02-11 Adr Technology B.V. Separation apparatus
KR20140016229A (en) * 2010-07-28 2014-02-07 아이나쉬코 알 앤드 디 비. 브이. Separation apparatus
EP2412452A1 (en) 2010-07-28 2012-02-01 Inashco R&D B.V. Separation apparatus
US20130233776A1 (en) * 2010-07-28 2013-09-12 Inashco R&D B. V. Separation Apparatus
WO2012015299A1 (en) 2010-07-28 2012-02-02 Inashco R&D B.V. Separation apparatus
RU2574238C2 (en) * 2010-07-28 2016-02-10 Адр Текнолоджи Б.В. Separator
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US9339848B2 (en) 2010-07-28 2016-05-17 Adr Technology B.V. Separation apparatus
CN103118808B (en) * 2010-07-28 2016-08-03 Adr技术有限公司 Separation equipment
US9221061B2 (en) 2011-02-28 2015-12-29 Inashco R&D B.V. Eddy current separation apparatus, separation module, separation method and method for adjusting an eddy current separation apparatus
JP2014079742A (en) * 2012-09-26 2014-05-08 Plant System:Kk Sorter of solid matters
CN102962204A (en) * 2012-10-29 2013-03-13 新疆农业大学 Small seed cleaner
WO2015128753A1 (en) 2014-02-28 2015-09-03 Sgm Gantry S.P.A. Ballistic separator drum for moist materials
CN105710040A (en) * 2016-03-12 2016-06-29 无为县荣华鬃刷制品有限公司 Multi-stage bristle sorting machine
CN105710040B (en) * 2016-03-12 2019-07-05 无为县荣华鬃刷制品有限公司 A kind of multistage wool ranking machine of mane

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