Methods and systems for producing thermoformed articles from pre-cut thermoformable billets are provided. The system may include a heating apparatus for heating the billets, a billet thermoformer for thermoforming the billet into an article, a discharge system for evacuated the formed articles from
Methods and systems for producing thermoformed articles from pre-cut thermoformable billets are provided. The system may include a heating apparatus for heating the billets, a billet thermoformer for thermoforming the billet into an article, a discharge system for evacuated the formed articles from the thermoformer, and an inspection system for inspecting each of the formed articles for the presence of a defect. Conveyors and billet carriers are provided for transporting the billets between the various components of the system, and loaders are provided for loading the billets onto the conveyor and/or billet carriers.
대표청구항▼
1. A billet carrier assembly for transporting billets on a conveyor comprising: an outer carrier portion; anda billet-contacting inner portion attached to and situated within the outer carrier portion, the billet contacting inner portion adapted to contain a thermoformable billet having a major surf
1. A billet carrier assembly for transporting billets on a conveyor comprising: an outer carrier portion; anda billet-contacting inner portion attached to and situated within the outer carrier portion, the billet contacting inner portion adapted to contain a thermoformable billet having a major surface, the billet-contacting inner portion comprising a top, a bottom, an inner wall extending from the top to the bottom, and a billet-retaining groove in the inner wall;wherein the billet contacting inner portion is moveable relative to the outer carrier portion, the inner wall defines a billet-receiving cavity. 2. The billet carrier assembly of claim 1, further comprising a spring provided between the outer carrier portion and the billet-contacting inner portion to allow resisted movement of the inner portion within the outer carrier portion. 3. The billet carrier assembly of claim 1, wherein the outer carrier portion is configured to attach to the conveyor. 4. The billet carrier assembly of claim 3, wherein the conveyor comprises a continuous chain conveyor. 5. The billet carrier assembly of claim 1, wherein at least a portion of the inner wall comprises a tapered surface between the billet-retaining groove and the top of the billet carrier for guiding a form mold of a thermoformer into alignment over the thermoformable billet. 6. The billet carrier assembly of claim 1, further comprising a billet situated in the billet-contacting inner portion, and the billet-receiving cavity has a cross-cavity width measured from opposite sides of the inner wall between the billet-retaining groove and the top of the billet carrier adjacent to the billet-retaining groove that is less than the width of the major surface of the thermoformable billet. 7. The billet carrier assembly of claim 6, wherein the billet receiving cavity has a width measured across the inner wall from within the billet-retaining groove that is less than the width of the major surface of the thermoformable billet. 8. The billet carrier assembly of claim 1, further comprising an arm adapted to attach to the conveyor, the arm being configured to extend the billet-contacting inner portion away from the conveyor when attached to the conveyor. 9. The billet carrier assembly of claim 1, wherein the billet carrier comprises an external flange. 10. The billet carrier assembly of claim 1, wherein the inner wall of the billet carrier comprises a ledge proximal to the bottom. 11. The billet carrier assembly of claim 1, wherein the cross-cavity width of the billet-receiving cavity measured from opposite sides of the inner wall between the billet-retaining groove and the top of the billet carrier adjacent to the billet-retaining groove is substantially the same as the cross-cavity width of the billet-receiving cavity measured from opposite sides of the inner wall between the billet-retaining groove and the bottom of the billet carrier adjacent to the billet-retaining groove. 12. The billet carrier assembly of claim 1, wherein the major surface of the thermoformable billet is a bottom major surface, the thermoformable billet further has a top major surface, and no more than about 20% of each of the bottom and top major surfaces are covered by the billet carrier assembly. 13. The billet carrier assembly of claim 6, wherein the major surface of the thermoformable billet is a bottom major surface, the thermoformable billet further has a top major surface, and no more than about 5% of each of the bottom and top major surfaces are covered by the billet carrier assembly. 14. The billet carrier assembly of claim 6, wherein the major surface of the thermoformable billet is a bottom major surface, the thermoformable billet further has a top major surface, and no more than about 1% of each of the bottom and top major surfaces are covered by the billet carrier assembly. 15. The billet carrier assembly of claim 6, wherein the major surface of the thermoformable billet is a bottom major surface, the thermoformable billet further has a top major surface, a perimeter, and a center, and no more than about 5 mm of each of the bottom and top major billet surfaces, measured from the perimeter of the thermoformable billet to the center of the thermoformable billet, is covered by the billet carrier assembly. 16. The billet carrier assembly of claim 6, wherein the major surface of the thermoformable billet is a bottom major surface, the thermoformable billet further has a top major surface, a perimeter, and a center, and no more than about 1 mm of each of the bottom and top major billet surfaces, measured from the perimeter of the thermoformable billet to the center of the thermoformable billet, is covered by the billet carrier assembly. 17. The billet carrier assembly of claim 1, wherein the inner wall is flangeless. 18. The billet carrier assembly of claim 1, wherein the billet-contacting inner portion further comprises a heat resistant coating. 19. The billet carrier assembly of claim 1, wherein the outer carrier portion further comprises a heat resistant coating. 20. A billet carrier assembly comprising: a billet carrier adapted to contain a thermoformable billet having a major surface, the billet carrier comprising a top, a bottom, and an inner wall extending between the top and the bottom around a billet-receiving cavity, the inner wall having at least one portion defining a billet-receiving cavity having a cross-cavity width measured from opposite sides of the inner wall across the cavity that is less than the width of the major surface of the thermoformable billet, the at least one portion of the inner wall having a billet-retaining groove situated therein, wherein the cross-cavity width of the billet-receiving cavity measured from opposite sides of the inner wall between the billet-retaining groove and the top of the billet carrier adjacent to the billet-retaining groove is substantially the same as the cross-cavity width of the billet-receiving cavity measured from opposite sides of the inner wall between the billet-retaining groove and the bottom of the billet carrier adjacent to the billet-retaining groove. 21. A billet carrier assembly for transporting billets on a conveyor comprising: an outer carrier portion;a billet-contacting inner portion attached to and situated within the outer carrier portion, the billet contacting inner portion having a top, a bottom, an inner wall extending from the top to the bottom; anda spring provided between the outer carrier portion and the billet-contacting inner portion to allow resisted movement of the inner portion within the outer carrier portion,wherein the billet contacting inner portion is moveable relative to the outer carrier portion. 22. The billet carrier assembly of claim 21, wherein the spring is a wave spring.
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