Method of manufacturing bulked continuous filament
First Claim
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1. A method of manufacturing bulked continuous carpet filament, said method comprising:
- (A) providing a PET crystallizer;
(B) passing a plurality of flakes of recycled PET through said PET crystallizer to at least partially dry said plurality of flakes of recycled PET;
(C) at least partially melting said plurality of flakes into a polymer melt;
(D) providing a multi-screw extruder that comprises;
(i) a first satellite screw extruder, said first satellite screw extruder comprising a first satellite screw that is mounted to rotate about a central axis of said first satellite screw;
(ii) a second satellite screw extruder, said second satellite screw extruder comprising a second satellite screw that is mounted to rotate about a central axis of said second satellite screw; and
(iii) a satellite screw extruder support system that is adapted to rotate said first and second satellite screws about a main axis while said first and second satellite screws are rotating about their respective central axes, said main axis being substantially parallel to;
(a) said central axis of said first satellite screw; and
(b) said central axis of said second satellite screw, wherein said first satellite screw and second satellite screw are disposed within respective extruder barrels;
(iv) a pressure regulation system that is adapted to maintain a pressure within said first and second satellite screw extruders below about 18 millibars;
(E) using said pressure regulation system to reduce a pressure within said first and second satellite screw extruders to below about 18 millibars;
(F) after said step of passing said plurality of flakes through said PET crystallizer, melting said plurality of flakes of recycled PET to form a polymer melt and, while maintaining said pressure within said first and second satellite screw extruders below about 18 millibars, passing said polymer melt through said multi-screw extruder so that;
(1) a first portion of said polymer melt passes through said first satellite screw extruder, and (2) a second portion of said polymer melt passes through said second satellite screw extruder; and
(G) after said step of passing said polymer melt through said multi-screw extruder, forming said polymer melt into bulked continuous carpet filament.
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Abstract
A method of manufacturing bulked continuous carpet filament which, in various embodiments, comprises: (A) grinding recycled PET bottles into a group of flakes; (B) washing the flakes; (C) identifying and removing impurities, including impure flakes, from the group of flakes; (D) passing the flakes through a PET crystallizer; (E) passing the group of flakes through an MRS extruder while maintaining the pressure within the MRS portion of the MRS extruder below about 18 millibars; (F) passing the resulting polymer melt through at least one filter having a micron rating of less than about 50 microns; and (G) forming the recycled polymer into bulked continuous carpet filament that consists essentially of recycled PET.
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Citations
20 Claims
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1. A method of manufacturing bulked continuous carpet filament, said method comprising:
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(A) providing a PET crystallizer; (B) passing a plurality of flakes of recycled PET through said PET crystallizer to at least partially dry said plurality of flakes of recycled PET; (C) at least partially melting said plurality of flakes into a polymer melt; (D) providing a multi-screw extruder that comprises; (i) a first satellite screw extruder, said first satellite screw extruder comprising a first satellite screw that is mounted to rotate about a central axis of said first satellite screw; (ii) a second satellite screw extruder, said second satellite screw extruder comprising a second satellite screw that is mounted to rotate about a central axis of said second satellite screw; and (iii) a satellite screw extruder support system that is adapted to rotate said first and second satellite screws about a main axis while said first and second satellite screws are rotating about their respective central axes, said main axis being substantially parallel to;
(a) said central axis of said first satellite screw; and
(b) said central axis of said second satellite screw, wherein said first satellite screw and second satellite screw are disposed within respective extruder barrels;(iv) a pressure regulation system that is adapted to maintain a pressure within said first and second satellite screw extruders below about 18 millibars; (E) using said pressure regulation system to reduce a pressure within said first and second satellite screw extruders to below about 18 millibars; (F) after said step of passing said plurality of flakes through said PET crystallizer, melting said plurality of flakes of recycled PET to form a polymer melt and, while maintaining said pressure within said first and second satellite screw extruders below about 18 millibars, passing said polymer melt through said multi-screw extruder so that;
(1) a first portion of said polymer melt passes through said first satellite screw extruder, and (2) a second portion of said polymer melt passes through said second satellite screw extruder; and(G) after said step of passing said polymer melt through said multi-screw extruder, forming said polymer melt into bulked continuous carpet filament. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of manufacturing carpet filament comprising the steps of:
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(A) grinding a plurality of recycled PET bottles into a group of polymer flakes; (B) washing said group of polymer flakes to remove at least a portion of one or more contaminants from a surface of said flakes, said group of flakes comprising a first plurality of flakes that consist essentially of PET and a second plurality of flakes that do not consist essentially of PET; (C) after said step of washing said first plurality of flakes; (i) scanning said washed group of flakes to identify said second plurality of flakes, (ii) separating said second plurality of flakes from said first plurality of flakes; (D) providing a PET crystallizer; (E) passing said first plurality of flakes through said PET crystallizer to at least partially dry said first plurality of flakes; (F) melting said second plurality of flakes to produce a polymer melt; (G) providing an extruder that extrudes material in a plurality of different extrusion streams and comprises; at least two satellite screws wherein each respective satellite screw of the at least two satellite screws is mounted to rotate about its respective central axis; and a single screw drum mounted to rotate about its central axis, wherein; said central axis of said single screw drum is parallel to each respective central axis of said at least two satellite screws; said at least two satellite screws are arranged within said single screw drum and at least partially housed within respective extruder barrels; and each of said at least two satellite screws is configured to rotate about its said respective axis while said single screw drum rotates about said central axis of said single screw drum; (H) reducing a pressure within said extruder to between about 0 millibars and about 12 millibars; (I) while maintaining said pressure within said extruder between about 0 millibars and about 12 millibars, passing said polymer melt through said extruder so that said polymer melt is divided into a plurality of extrusion streams and at least a portion of said polymer melt passes through each of said at least two satellite screws, each having a pressure between about 0 millibars and about 12 millibars; (J) after passing said polymer melt through said extruder, filtering said polymer melt through at least one filter; and (K) after passing said polymer melt through said filter, forming said polymer melt into bulked continuous carpet filament. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16)
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17. A method of manufacturing bulked continuous carpet filament, said method comprising:
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(A) providing a PET crystallizer that comprises; (i) a hopper screw configured to feed a plurality of flakes into said crystallizer; and (ii) at least one heating element configured to increase a temperature within said PET crystallizer; (B) passing a plurality of flakes consisting essentially of PET flakes through said PET crystallizer to at least partially dry said first plurality of flakes; (C) after passing said plurality of flakes though said PET crystallizer, melting said plurality of flakes to form a polymer melt; (D) providing a multi-screw extruder that comprises; (i) a first satellite screw extruder, said first satellite screw extruder comprising a first satellite screw that is mounted to rotate about a central axis of said first satellite screw; (ii) a second satellite screw extruder, said second satellite screw extruder comprising a second satellite screw that is mounted to rotate about a central axis of said second satellite screw; (iii) a third satellite screw extruder, said third satellite screw extruder comprising a third satellite screw that is mounted to rotate about a central axis of said third satellite screw; (iv) a fourth satellite screw extruder, said fourth satellite screw extruder comprising a fourth satellite screw that is mounted to rotate about a central axis of said fourth satellite screw, wherein said first satellite screw, said second satellite screw, said third satellite screw, and said fourth satellite screw are disposed at least partially within respective extruder barrels; (v) a satellite screw extruder support system that is adapted to rotate said first, second, third, and fourth satellite screws about a main axis while said first, second, third and fourth satellite screws are rotating about their respective central axes, said main axis being substantially parallel to;
(a) said central axis of said first satellite screw;
(b) said central axis of said second satellite screw;
(c) said central axis of said third satellite screw; and
(d) said central axis of said fourth satellite screw; and(vi) a pressure regulation system that is adapted to maintain a pressure within said first, second, third, and fourth satellite screw extruders between about 0 millibars and about 18 millibars; (E) using said pressure regulation system to reduce a pressure within said first, second, third, and fourth satellite screw extruders to between about 0 millibars and about 18 millibars; (F) while maintaining said pressure within said first, second, third, and fourth satellite screw extruders between about 0 millibars and about 18 millibars, passing said polymer melt through said multi-screw extruder so that;
(1) a first portion of said melt passes through said first satellite screw extruder, (2) a second portion of said melt passes through said second satellite screw extruder, (3) a third portion of said melt passes through said third satellite screw extruder, and (4) a fourth portion of said melt passes through said fourth satellite screw extruder; and(G) after said step of passing said polymer melt through said multi-screw extruder, forming said polymer melt into bulked continuous carpet filament. - View Dependent Claims (18, 19, 20)
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Specification
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Current AssigneeAladdin Manufacturing Corporation (Mohawk Industries Incorporated)
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Original AssigneeMohawk Industries Incorporated
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InventorsClark, Thomas R.
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Primary Examiner(s)Tentoni, Leo B
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Application NumberUS14/546,796Publication NumberTime in Patent Office896 DaysField of Search264 401, 264101, 264102, 264140, 264169, 2641761, 26421121, 26421122, 26421123US Class CurrentCPC Class CodesB29B 13/06 by drying B29B13/08 takes p...B29B 17/0026 by agglomeration or compactingB29B 17/02 Separating plastics from ot...B29B 17/0412 to large particles, e.g. be...B29B 2013/005 Degassing undesirable resid...B29B 2017/0015 Washing, rinsingB29B 2017/0279 Optical identification, e.g...B29B 2017/0289 Washing the materials in li...B29B 7/485 with three or more shafts p...B29B 7/86 for working at sub- or supe...B29C 2791/003 Making articles of indefini...B29C 2791/006 Using vacuumB29C 2948/922 Viscosity; Melt flow index ...B29C 2948/92514 PressureB29C 2948/92838 Raw material pre-treatment,...B29C 37/006 Degassing moulding material...B29C 48/0022 combined with cuttingB29C 48/02 Small extruding apparatus, ...B29C 48/022 characterised by the choice...B29C 48/05 Filamentary, e.g. strandsView All
