A system and method for lighting a surface, for example a deck of a boat, spa, swim spa, pool, watercraft or vehicle, using backlighting such that decorative or other desired patterns of light may be created by forming cuts, outlines, thin sections, or voids in an overlay that is applied to the lighted surface, allowing light to pass through or around portions of the overlay material. In an exemplary use of the system and method of the invention, the surface may be the surface of a boat or spa. The surface may comprise transparent or translucent materials, allowing light from a first side of the decking, or light that is generated within the decking, to pass through the decking and to emanate from a second decking side, where the light may be blocked, partially blocked, or allowed to pass through the overlay material in any desired pattern or shape.

The invention relates to a fiber reinforced structural component, which may be used in a surfboard for stand-up paddling, wave riding, wind surfing and the like, comprising a body made of plastic, wherein the body is delimited by a surface, to which a laminate layer made of a fiber mat and a matrix is undetachably connected. The surface has at least one circumferential groove-shaped recess, by means of which a predetermined partial area of the surface is delimited.

A method of assembling a watercraft of a family of watercraft includes, when assembling a first watercraft, attaching a front hull panel to a rear hull panel such that the front hull panel extends forwardly of the rear hull panel. The front hull panel and the rear hull panel form a hull of the first watercraft. The method also includes, when assembling the second watercraft: attaching a hull extension panel to the rear hull panel such that the hull extension panel extends forwardly of the rear hull panel; and attaching the front hull panel to the hull extension panel such that the front hull panel extends forwardly of the hull extension panel. The front hull panel, the hull extension panel and the rear hull panel form a hull of the second watercraft. The second watercraft has a second hull length greater than a first hull length of the first watercraft.

A method for manufacturing an integrated hull by using 3D structure type fiber clothes and 3D vacuum infusion process includes: sequentially stacking at least one first fiber cloth, at least one core material and at least one second fiber cloth on a mold; deploying structural materials on the second fiber cloth; stacking the third fiber clothes to cover the structure materials and a part of the second fiber cloth, whereby the first fiber cloth, the core material, the second fiber cloth and the third fiber clothes are formed to a lamination; determining a pipe arrangement of vacuum pipes and first and second resin pipes; deploying a vacuum bag on the lamination and covering the first and second resin pipes and the vacuum pipe; executing the 3D vacuum infusion process; curing the resin; and executing a mold release process to complete an integrated hull.

A foam product includes a foam core, a soft skin covering the foam core, and a base structure on which the foam core is disposed. The foam core of expanded beads has an outer surface on which some outermost beads of the expanded beads are exposed and bulging outward with different heights to form a bubbly texture. The foam skin has an inner surface attached to the outer surface of the foam core, and has at its inner surface a plurality of concave cavities each matedly surrounding a respective one of the bulging, outermost beads on the outer surface of the foam core.

A body board or boogie board has an elongated flotation body with raised side features or a raised skirt that wraps around the front portion and portions of both sides of the elongated flotation body and protrudes upward to cradle or support a user in a recumbent position while riding waves. The body board or boogie board also has a grab-bar for manipulating the body board or boogie board while riding waves and can include one or more attachment features for securing one or more accessories to the body board or boogie board.

The present invention relates to a hull for a water craft. More particularly it relates to an inflatable hull with flexible tension members acting in tension, and extending between the gunnels to aid in maintaining the hull shape in operation.

In general, the present invention is directed to floating solar photovoltaic platforms, which may include one or more high-density polyethylene resin encapsulating expanded polystyrene foam floats, one or more lift bars, and one or more module frames, wherein: the frames may support one or more solar photovoltaic modules, the platforms may be anchored by any number of means, and the position of the floats may be adjusted. In some embodiments, the floats may utilize a non-roto-rolled high-density polyethylene resin.

There is provided an assembleable boat made of fiber-reinforced plastic (FRP) including a bottom wall assembly; a left side wall assembly; a right side wall assembly; and a front wall assembly. the bottom wall assembly, the back wall assembly, the left side wall assembly, the right wall assembly, and the front wall assembly are mechanically connected to form the assembleable boat; and each of the bottom wall assembly, the left side wall assembly, the right wall assembly, and the front wall assembly is made of FRP.

Surfboards may have at least one structural layer disposed between a foam core and fiberglass layers. The at least one structural layer may strengthen the surfboard as compared against surfboard without such a structural layer. The at least one structural layer may minimize and/or prevent overheating of the surfboard from sunlight exposure and/or from excessive heat. Surfboards may have at least one heat-release-valve installed within the given surfboard. The at least one heat-release-valve may minimize and/or prevent overheating of the surfboard from sunlight exposure and/or from excessive heat. Surfboards may have at least one structural layer disposed between a foam core and fiberglass layers and surfboards may have at least one heat-release-valve installed within the given surfboard.