Recyclable plastic structural articles and method of manufacture
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B32B-001/08
B32B-005/18
E01B-003/44
E01B-009/36
E01F-009/06
E01F-009/087
B29C-049/42
B29C-044/18
B29C-044/44
B29C-049/28
B32B-027/06
B32B-027/08
B32B-027/32
B32B-003/04
B29C-049/04
B29K-105/04
B29C-049/78
B29C-049/60
B29L-031/06
B29K-023/00
B29K-025/00
B29C-044/34
B29K-101/00
B29K-501/00
B32B-038/00
출원번호
US-0840827
(2013-03-15)
등록번호
US-9346237
(2016-05-24)
발명자
/ 주소
Roberts, Jr., Richard W.
출원인 / 주소
Roberts, Richard W.
대리인 / 주소
Brooks Kushman P.C.
인용정보
피인용 횟수 :
0인용 특허 :
55
초록▼
The plastic structural article includes an elongated tubular shell having opposed end sections, a middle section there between and an interior cavity. The interior cavity has a foam core situated therein. The foam core comprises steam expandable polymer beads which when expanded substantially fill t
The plastic structural article includes an elongated tubular shell having opposed end sections, a middle section there between and an interior cavity. The interior cavity has a foam core situated therein. The foam core comprises steam expandable polymer beads which when expanded substantially fill the interior cavity. The bead and shell are of a similar plastic composition enabling the articles to be reground and recycled. An apparatus for forming the articles and an associated method of manufacture are also disclosed.
대표청구항▼
1. A method of manufacturing a plastic structural article comprising: blow-molding a plastic preform in a mold cavity in a mold, into a shape of a vertically oriented axially elongated member using compressed gas to at least partially form an elongated tubular plastic shell wall having opposed end s
1. A method of manufacturing a plastic structural article comprising: blow-molding a plastic preform in a mold cavity in a mold, into a shape of a vertically oriented axially elongated member using compressed gas to at least partially form an elongated tubular plastic shell wall having opposed end sections, and a middle section there between forming a hollow interior cavity;extending a plurality of hollow pins in the mold transversely through the shell wall to project into the hollow interior cavity at axially spaced apart locations, the plurality of hollow pins forming at least a first and a second group of two or more hollow pins;introducing a pressurized gas into the hollow interior cavity through at least one of a first and a second pressurized gas manifold, each respectively connected to a first and a second group of two or more the hollow pins;after the tubular plastic shell is fully conforming the elongated tubular plastic shell wall to the mold cavity, venting the mold to control cavity pressure;forming at least one fill port in an uppermost end section of the shell wall after the cavity pressure reaches a predetermined pressure which is significantly above atmospheric pressure;filling the shell interior cavity with expandable polymer beads maintained in a bead reservoir in a pressurized state by opening a bead fill valve coupling the mold cavity to the bead reservoir while controlling the cavity pressure by regulating the flow of gas exiting the cavity through the hollow pins;injecting a hot, at least partially vaporized heating medium, into the first group of two or more hollow pins while removing the heating medium from the second group of the two or more hollow pins for a period of time, then injecting the hot, at least partially vaporized heating medium, into a second group of the hollow pins while removing the heating medium from a first group of the hollow pins for a period of time to partially melt and expand the expandable polymer beads to form a bead core which substantially filling the interior cavity of the shell with the beads bonding to one another and the shell wall;injecting air into one of the groups of the hollow pins while evacuating the air and condensate formed by the heating medium from the other group of the hollow pins for a period of time, then injecting air into the other group of the hollow pins while evacuating the air and condensate from the one of the groups of the hollow pins for a period of time, and continuing to alternate between injecting air and evacuating air from the first and second groups of hollow pins until the assembly is cooled sufficiently to limit substantial further expansion of the bead; andreleasing the plastic structural article from the mold cavity. 2. The method of claim 1, wherein there are at least three groups of hollow pins with each group connected one of the pressurized gas manifolds which are alternatively connected to a pressurized gas, a at least partially vaporized heating medium and a vent enabling the shell cavity to be blown, vented, heated, and cooled. 3. The method of claim 1, wherein the step of injecting a heating medium further comprises injecting hot steam into the hollow pins. 4. The method of claim 1, further comprising retracting the plurality of hollow pins back into the mold, and opening the mold prior to releasing the plastic structural article from the mold cavity. 5. The method of claim 1, further comprising extruding the plastic preform, the preform extending vertically downward between transversely spaced apart mold sections, and inwardly moving the sections together closing the mold to define the mold cavity. 6. The method of claim 1, wherein the elongated tubular plastic shell wall has an axially extending generally flat side wall through which the hollow pins and the at least one fill port, thereby rendering the other portion of the plastic shell wall article free of unwanted holes caused by the hollow pins and the at least one fill port extend. 7. The method of claim 1, wherein: the step of injecting a hot, at least partially vaporized heating medium, into a first group of two or more hollow pins comprises of injecting a hot, at least partially vaporized heating medium into a first manifold which is connected to the first group of two or more hollow pins; andthe step of removing the heating medium from a second group of the two or more hollow pins for a period of time comprises removing the at least partially vaporized heating medium from a second manifold which is connected to the second group of two or more hollow pins. 8. The method of claim 1, wherein there are at least three groups of hollow pins with each group connected one of the pressurized gas manifolds which are alternatively connected to a pressurized gas, a at least partially vaporized heating medium and a vent enabling the shell cavity to be blown, vented, heated, and cooled. 9. The method of claim 1, further comprising opening at least one controllable drain valve associated with one of the first and a second pressurized gas manifolds, and supplying pressurized gas to the manifold to remove any accumulated condensate. 10. A method of manufacturing a plastic structural article comprising: blow-molding a plastic preform in a mold cavity in a mold, into a shape of a vertically oriented axially elongated member using compressed gas to at least partially form an elongated tubular plastic shell wall having opposed end sections, and a middle section there between forming a hollow interior cavity;extending a plurality of hollow pins in the mold transversely through the shell wall to project into the hollow interior cavity at axially spaced apart locations, the a plurality of hollow pins forming at least a first and a second group of two or more hollow pins;introducing a pressurized gas into the hollow interior cavity through at least one of a first and a second pressurized gas manifold, each respectively connected to a first and a second group of two or more the hollow pins;after the tubular plastic shell is fully conforming the elongated tubular plastic shell wall to the mold cavity, venting the mold to control cavity pressure;forming at least one fill port in an uppermost end section of the shell wall after the cavity pressure reaches a predetermined pressure which is significantly above atmospheric pressure;filling the shell interior cavity with expandable polymer beads maintained in a bead reservoir in a pressurized state by opening a bead fill valve coupling the mold cavity to the bead reservoir while controlling the cavity pressure by regulating the flow of gas exiting the cavity through the hollow pins;providing a controllable drain valve connected to at least one the first and second manifolds, and prior to the start of the step of initially injecting a hot, at least partially vaporized heating medium, opening the controllable drain valve and suppling pressurized air is supplied to the connected manifold to remove condensate which may have accumulated in the connected manifold;injecting a hot, at least partially vaporized heating medium, into the first group of two or more hollow pins while removing the heating medium from the second group of the two or more hollow pins for a period of time, then injecting the hot, at least partially vaporized heating medium, into a second group of the hollow pins while removing the heating medium from a first group of the hollow pins for a period of time to partially melt and expand the expandable polymer beads to form a bead core which substantially filling the interior cavity of the shell with the beads bonding to one another and the shell wall;injecting air into one of the groups of the hollow pins while evacuating the air and condensate formed by the heating medium from the other group of the hollow pins for a period of time, then injecting air into the other group of the hollow pins while evacuating the air and condensate from the one of the groups of the hollow pins for a period of time, and continuing to alternate between injecting air and evacuating air from the first and second groups of hollow pins until the plastic structural article is cooled sufficiently to limit substantial further expansion of the bead; andreleasing the plastic structural article from the mold cavity. 11. The method of claim 10, wherein the step of injecting a heating medium further comprises injecting hot steam into the hollow pins. 12. The method of claim 10, further comprising retracting the plurality of hollow pins back into the mold, and opening the mold prior to releasing the plastic structural article from the mold cavity. 13. The method of claim 10, further comprising extruding the plastic preform, the preform extending vertically downward between transversely spaced apart mold sections, and inwardly moving the sections together closing the mold to define the mold cavity. 14. The method of claim 10, wherein the elongated tubular plastic shell wall has an axially extending generally flat side wall through which the hollow pins and the at least one fill port, thereby rendering the other portion of the plastic shell wall article free of unwanted holes caused by the hollow pins and the at least one fill port extend.
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