A surfboard includes a core covered with a laminate and having curved perforations in the deck area and the tail area of the surfboard, in order to prevent air blisters from forming between the core and laminate. The curved perforations are deformable under pressure to minimize the opening of the pe
A surfboard includes a core covered with a laminate and having curved perforations in the deck area and the tail area of the surfboard, in order to prevent air blisters from forming between the core and laminate. The curved perforations are deformable under pressure to minimize the opening of the perforations to inhibit liquid from entering and maximizing under zero pressure to allow the maximum amount of trapped liquid and gasses from escaping. The core is formed from an extruded closed-cell polystyrene foam block that has been shaped by restraining it against a shaped form using shaped restraining tools and straps, and heating it; and by cutting using a hot wire. The core is laminated with FIBERGLAS® and epoxy resin, and the perforations are formed using a perforating tool that has a planar or curved working surface and one or more heated needles extending perpendicularly from the working surface.
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1. A method for manufacturing a surfboard, comprising the steps of: providing a blank of closed-cell foam;shaping the blank into a foam core having a stringer along a centerline;covering the foam core with a laminate, the laminated foam core defining a surfboard having a deck;forming a first plurali
1. A method for manufacturing a surfboard, comprising the steps of: providing a blank of closed-cell foam;shaping the blank into a foam core having a stringer along a centerline;covering the foam core with a laminate, the laminated foam core defining a surfboard having a deck;forming a first plurality of curved perforations in the deck of the surfboard near a front end of the surfboard, located on a first side of the stringer in a straight line parallel to the stringer, and penetrating completely through the laminate;forming a second plurality of curved perforations in the deck of the surfboard near the front end of the surfboard, located on a second side of the stringer in a straight line parallel to the stringer, and penetrating completely through the laminate;forming a third plurality of curved perforations in the deck of the surfboard near a rear end of the surfboard, located on the first side of the stringer in a straight line oriented at an angle to the stringer; andforming a fourth plurality of curved perforations in the deck of the surfboard near the rear end of the surfboard, located on the second side of the stringer in a straight line oriented at an angle to the stringer. 2. The method of claim 1, wherein the third plurality of curved perforations is formed at a forty-five (45) degree angle from the stringer, and the forth plurality of curved perforations is formed at a forty-five (45) degree angle from the stringer and a ninety (90) degree angle from the third plurality of curved perforations. 3. The method of claim 2, wherein the third plurality of curved perforations is formed so that the perforations nearest the rear end of the surfboard are also nearest the stringer, and wherein the fourth plurality of curved perforations is formed so that the perforations nearest the rear end of the surfboard are also nearest the stringer. 4. The method of claim 1, wherein the first plurality of curved perforations, the second plurality of curved perforations, the third plurality of curved perforations, and the fourth plurality of curved perforations each consist of seven (7) perforations. 5. The method of claim 1, wherein the first plurality of curved perforations, the second plurality of curved perforations, the third plurality of curved perforations, and the fourth plurality of curved perforations each consist of seven (7) equidistant perforations. 6. A method of manufacturing a surfboard, comprising the steps of: providing a closed-cell foam core having a stringer along a centerline;providing a perforation tool comprising: a body having a top face, a back face, a bottom face, a curved face, a front face, and side faces, where the curved face extends between the bottom face and the front face and has a curve angle, anda plurality of curved perforation needles extending from the front face proximate the intersection of the front face and the curved face and having a curve similar to the curve of the curved face;covering the foam core with a laminate, the laminated foam core defining a surfboard having a deck;heating the plurality of curved perforation needles of the perforation tool to an operating temperature;forming, using the perforation tool, a first plurality of curved perforations in the deck of the surfboard near a front end of the surfboard, located on a first side of the stringer in a straight line parallel to the stringer, and penetrating completely through the laminate;forming, using the perforation tool, a second plurality of curved perforations in the deck of the surfboard near the front end of the surfboard, located on a second side of the stringer in a straight line parallel to the stringer, and penetrating completely through the laminate;forming, using the perforation tool, a third plurality of curved perforations in the deck of the surfboard near a rear end of the surfboard, located on the first side of the stringer in a straight line oriented at an angle to the stringer; andforming, using the perforation tool, a fourth plurality of curved perforations in the deck of the surfboard near the rear end of the surfboard, located on the second side of the stringer in a straight line oriented at an angle to the stringer. 7. The method of claim 6, wherein the operating temperature of the heating step comprises a temperature at which clean perforations can be quickly made in the laminate. 8. The method of claim 6, wherein the steps of forming curved perforations in the deck of the surfboard each comprise: placing the perforation tool on the laminate with the perforation needles located at a desired location for perforations; androtating the perforation tool such that the curved face of the perforation tool makes contact with the laminate and the perforation needles penetrate the laminate until the perforation needles penetrate completely through the laminate. 9. The method of claim 8, wherein the heating step is repeated such that it is performed before each step of forming curved perforations in the deck of the surfboard. 10. The method of claim 6, wherein the third plurality of curved perforations is formed at a forty-five (45) degree angle from the stringer, and the forth plurality of curved perforations is formed at a forty-five (45) degree angle from the stringer and a ninety (90) degree angle from the third plurality of curved perforations. 11. The method of claim 10, wherein the third plurality of curved perforations is formed so that the perforations nearest the rear end of the surfboard are also nearest the stringer, and wherein the fourth plurality of curved perforations is formed so that the perforations nearest the rear end of the surfboard are also nearest the stringer. 12. The method of claim 6, wherein the first plurality of curved perforations, the second plurality of curved perforations, the third plurality of curved perforations, and the fourth plurality of curved perforations each consist of seven (7) perforations. 13. The method of claim 6, wherein the first plurality of curved perforations, the second plurality of curved perforations, the third plurality of curved perforations, and the fourth plurality of curved perforations each consist of seven (7) equidistant perforations. 14. A method of manufacturing a surfboard, comprising the steps of: providing a closed-cell foam core having a stringer along a centerline;providing a perforation tool comprising: a perforator having a base with handle mounts, a heat conductor, andperforation needles attached to the heat conductor, anda power source,wherein the perforator is connected to the power source by a wire, andwherein the heat conductor is configured to heat the perforation needles by converting electrical energy from the power source to thermal energy;covering the foam core with a laminate, the laminated foam core defining a surfboard having a deck;forming, using the perforation tool, a first plurality of perforations in the deck of the surfboard near a front end of the surfboard, located on a first side of the stringer in a straight line parallel to the stringer, and penetrating completely through the laminate;forming, using the perforation tool, a second plurality of perforations in the deck of the surfboard near the front end of the surfboard, located on a second side of the stringer in a straight line parallel to the stringer, and penetrating completely through the laminate;forming, using the perforation tool, a third plurality of perforations in the deck of the surfboard near a rear end of the surfboard, located on the first side of the stringer in a straight line oriented at an angle to the stringer; andforming, using the perforation tool, a fourth plurality of perforations in the deck of the surfboard near the rear end of the surfboard, located on the second side of the stringer in a straight line oriented at an angle to the stringer. 15. The method of claim 14, wherein the heat conductor of the perforation tool heats the perforation needles to a temperature of approximately one-hundred eighty (180) degrees Fahrenheit. 16. The method of claim 14, wherein the perforation needles are curved such that the perforation tool forms curved perforations. 17. The method of claim 14, wherein the third plurality of perforations is formed at a forty-five (45) degree angle from the stringer, and the forth plurality of perforations is formed at a forty-five (45) degree angle from the stringer and a ninety (90) degree angle from the third plurality of perforations. 18. The method of claim 17, wherein the third plurality of perforations is formed so that the perforations nearest the rear end of the surfboard are also nearest the stringer, and wherein the fourth plurality of perforations is formed so that the perforations nearest the rear end of the surfboard are also nearest the stringer. 19. The method of claim 14, wherein the first plurality of perforations, the second plurality of perforations, the third plurality of perforations, and the fourth plurality of perforations each consist of seven (7) perforations. 20. The method of claim 14, wherein the first plurality of perforations, the second plurality of perforations, the third plurality of perforations, and the fourth plurality of perforations each consist of seven (7) equidistant perforations.
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이 특허에 인용된 특허 (2)
Paccoret Claudio S. (2830 Instone Ct. Westlake Village CA 91361) Crawford ; III Howard E. (6450 Webster #395 Ventura CA 93003), Composite aquatic board and manufacturing method.
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