Method and apparatus for extrusion of thermoplastic handrail
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B29C-047/06
B29C-047/02
B29C-047/88
B29C-047/00
B29C-047/28
B29C-047/90
B29K-075/00
B29K-305/12
B29K-105/10
B29L-031/46
B29L-029/00
B29L-031/30
B29L-031/00
B29C-047/10
B29C-047/14
B29C-047/34
B29C-070/16
B29C-047/08
B29K-105/20
출원번호
US-0744690
(2015-06-19)
등록번호
US-9981415
(2018-05-29)
발명자
/ 주소
Kenny, Andrew Oliver
Weatherall, Douglas James
Haider, Viqar
Ball, Ronald Harold
Caunce, Alexander Stuart
Butwell, Reginald Anthony
출원인 / 주소
EHC CANADA, INC.
대리인 / 주소
Bereskin & Parr LLP/S.E.N.C.R.L., s.r.l.
인용정보
피인용 횟수 :
0인용 특허 :
69
초록▼
A method and apparatus for extrusion of an article is provided. A die assembly can apply flows of thermoplastic material to an array of reinforcing cables to form a composite extrusion. A slider fabric can be bonded to one side of the composite extrusion. After exiting the die assembly, the slider f
A method and apparatus for extrusion of an article is provided. A die assembly can apply flows of thermoplastic material to an array of reinforcing cables to form a composite extrusion. A slider fabric can be bonded to one side of the composite extrusion. After exiting the die assembly, the slider fabric can act to support the extrudate as it passes along an elongate mandrel, which can cause the base of the slider fabric to change shape from a flat profile to the final internal profile of the article. The extruded article can then be cooled to solidify the material. The die can include cooling for the slider fabric and means for promoting penetration of the thermoplastic into reinforcing cables.
대표청구항▼
1. A method of extruding an article of constant cross-section and comprising a first thermoplastic material, a stretch inhibitor and an elongate flexible web of fabric on one side of the article, the method comprising the steps of: a) supplying the stretch inhibitor to a die assembly;b) supplying th
1. A method of extruding an article of constant cross-section and comprising a first thermoplastic material, a stretch inhibitor and an elongate flexible web of fabric on one side of the article, the method comprising the steps of: a) supplying the stretch inhibitor to a die assembly;b) supplying the first thermoplastic material to the die assembly in a molten state, an extrusion temperature of the first thermoplastic material being below a melting point of the stretch inhibitor;c) bringing the first thermoplastic material together with the stretch inhibitor, thereby to embed the stretch inhibitor within the first thermoplastic material;d) supplying the elongate flexible web of fabric of constant width, the extrusion temperature of the first thermoplastic material being below a melting point of the fabric;e) bringing the fabric up against the first thermoplastic material below the first thermoplastic material to support the first thermoplastic material, the stretch inhibitor and the fabric thereby forming a composite extrudate;f) extruding the composite extrudate from the die assembly at an intermediate cross-section and at a temperature above a crossover temperature of the first thermoplastic material such that the first thermoplastic material is molten but sufficiently viscous to be stable;g) passing the composite extrudate along a path, in which the fabric is supported to support the molten first thermoplastic material, and along which the composite extrudate is progressively shaped to a final, desired cross-section; andh) permitting the composite extrudate to cool and solidify. 2. The method of claim 1, wherein the passing step comprises supporting the fabric on a support surface of an elongate primary mandrel which determines the profile of the composite extrudate, wherein the support surface at one end has a profile corresponding to one side of the intermediate cross-section and the profile of the mandrel changes progressively along the length thereof with the other end of the support surface having a profile corresponding to one side of the final, desired cross-section. 3. The method of claim 2, comprising applying a vacuum to cause the composite extrudate and the fabric to be pressed against the support surface of the mandrel. 4. The method of claim 3, comprising, after formation of the final, desired cross-section, cooling the composite extrudate from the exterior thereof to remove sufficient heat to solidify a substantial external layer around the exterior of the composite extrudate. 5. The method of claim 4, comprising forming a handrail, wherein the fabric comprises an elongate slider fabric, wherein the stretch inhibitor comprises a plurality of reinforcing cables, wherein the first thermoplastic material comprises a thermoplastic elastomer, and wherein in the additional step the extrudate is formed to a generally C-shape cross-section. 6. The method of claim 5, wherein the intermediate cross-section has a planar base and side edges extending perpendicularly thereto, and wherein within the die assembly, the method comprises folding the fabric to extend along the elongate base and up the side edges of the intermediate cross-section. 7. The method of claim 6, wherein the mandrel is shaped so as to provide the C-shape cross-section with an internal T-shape within the handrail comprising a vertical stem and a horizontal portion, with rounded corners at the end of the horizontal section and angular corners between the stem and the horizontal portion. 8. The method of claim 7, comprising passing the handrail through a cooling unit, in which the exterior of the handrail is cooled by a liquid coolant, to effect cooling and solidification of the external layer, wherein the liquid coolant comprises water, and wherein during cooling the method comprises supporting the handrail on a secondary mandrel that is an extension of the primary mandrel and having the water contact the handrail, whereby water cools the exterior of the handrail only. 9. The method of claim 8, wherein, in step (c), the first thermoplastic material is supplied as two separate flows on generally opposing sides of the stretch inhibitor. 10. The method of claim 9, wherein the following additional step is carried out, after step (c): supplying a second thermoplastic material to the die assembly in a molten state as a separate flow, and bringing the flow of second thermoplastic material up against the first thermoplastic material on an opposing side relative to the fabric, the first and second thermoplastic materials defining separate layers in the extrudate. 11. The method of claim 10, wherein the first and second thermoplastic materials have different hardnesses. 12. The method of claim 4, wherein cooling of the extrudate is effected without direct contact with the extrudate. 13. The method of claim 4, wherein cooling is effected by spraying water on the composite extrudate. 14. A method of extruding an article of constant cross-section and comprising a first thermoplastic material, a stretch inhibitor and an elongate flexible web of fabric on one side of the article, the method comprising the steps of: supplying the stretch inhibitor;supplying the first thermoplastic material, an extrusion temperature of the first thermoplastic material being below a melting point of the stretch inhibitor;bringing the first thermoplastic material in a molten state together with the stretch inhibitor, thereby to embed the stretch inhibitor within the first thermoplastic material;supplying the web of fabric of constant width, the extrusion temperature of the first thermoplastic material being below a melting point of the fabric;bringing the fabric up against the first thermoplastic material to support the first thermoplastic material, the stretch inhibitor and the fabric thereby forming a composite extrudate;extruding the composite extrudate at an intermediate cross-section and at a temperature above a crossover temperature of the first thermoplastic material such that the first thermoplastic material is molten but sufficiently viscous to be stable; andpassing the composite extrudate along a path, in which the fabric is supported to support the molten first thermoplastic material, and along which the composite extrudate is progressively shaped to a final, desired cross-section. 15. The method of claim 14, comprising supporting the fabric on a support surface which determines the profile of the composite extrudate, wherein the support surface at one end has a profile corresponding to one side of the intermediate cross-section and the profile of changes progressively along a length thereof with the other end of the support surface having a profile corresponding to one side of the final, desired cross-section. 16. The method of claim 15, comprising applying a vacuum to cause the composite extrudate and the fabric to be pressed against the support surface. 17. The method of claim 15, comprising, after formation of the final, desired cross-section, cooling the composite extrudate from the exterior thereof to remove sufficient heat to solidify a substantial external layer around the exterior of the composite extrudate. 18. The method of claim 17, comprising cooling the composite extrudate by a liquid coolant to effect cooling and solidification of the external layer, wherein the liquid coolant comprises water. 19. The method of claim 14, wherein the first thermoplastic material is supplied as two separate flows on generally opposing sides of the stretch inhibitor. 20. The method of claim 14, comprising supplying a second thermoplastic material in a molten state as a separate flow, and bringing the flow of second thermoplastic material up against the first thermoplastic material on an opposing side relative to the fabric, the first and second thermoplastic materials defining separate layers in the composite extrudate. 21. The method of claim 20, wherein the first and second thermoplastic materials have different hardnesses. 22. A method, comprising: supplying a stretch inhibitor to a die assembly;supplying a thermoplastic material to the die assembly in a molten state, an extrusion temperature of the thermoplastic material being below a melting point of the stretch inhibitor;bringing the thermoplastic material together with the stretch inhibitor, thereby to embed the stretch inhibitor within the thermoplastic material;supplying an elongate flexible web of fabric, the extrusion temperature of the thermoplastic material being below a melting point of the fabric;bringing the fabric against the thermoplastic material to support the thermoplastic material, the stretch inhibitor and the fabric thereby forming a composite extrudate;extruding the composite extrudate from the die assembly at an intermediate cross-section and at a temperature above a crossover temperature of the thermoplastic material such that the thermoplastic material is molten but sufficiently viscous to be stable;passing the composite extrudate to an elongate primary mandrel, in which the fabric is supported on a support surface to support the molten thermoplastic material, the support surface at one end having a profile corresponding to one side of the intermediate cross-section; andprogressively shaping the composite extrudate along a length of the support surface to a final, desired cross-section.
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