This invention relates in general to an improved foam blank for a surfcraft and in particular, to an improved reinforced foam blank and a method of manufacturing the same. The foam blank has a top blank face, an opposed bottom blank face, a pair of shaped rails extending between the opposed top and bottom blank faces at blank face edges, an enclosed core space and a midline axis extending between a nose region and a tail region and which divides the foam blank into two substantially equal regions. At least one longitudinally extending slotted aperture is formed in any one or more of the top, the bottom or the rails, such that the slotted aperture extends into the enclosed core space. At least one flexible spine is bonded to be fixed within the at least one longitudinally extending slotted aperture.

An inflatable standup paddleboard having a split deck pad. The split deck pad may allow for easier storage and greater customization options for the inflatable standup paddleboard. The split deck pad may also be removable from the body of the standup paddleboard through integral grooves within the body of the inflatable standup paddleboard. The structural integrity and buoyancy may be further improved with a crisscrossed structure of strings within the interior of the inflatable standup paddleboard.

An inflatable standup paddleboard having a split deck pad. The split deck pad may allow for easier storage and greater customization options for the inflatable standup paddleboard. The split deck pad may also be removable from the body of the standup paddleboard through integral grooves within the body of the inflatable standup paddleboard. The structural integrity and buoyancy may be further improved with a crisscrossed structure of strings within the interior of the inflatable standup paddleboard.

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.

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 surfboard having a body including a top panel and a slip-resistant pad affixed to or integrated into the top panel construction. The slip-resistant pad or top panel includes a textured rubber-plastic layer covering a woven mesh layer. The exterior surface of the slip-resistant mat or top panel is textured, rough and uneven.

In one example, a structure is provided that includes a plastic body having a unitary, single-piece construction. The plastic body further includes a substantially hollow interior, and a parting line that extends around a portion of the perimeter of the structure. The structure also includes a solid compression molded element that is integral with the plastic body. The solid compression molded element is configured and arranged such that the parting line is not connected to the solid compression molded element.

In one example, a structure is provided that includes a plastic body having a unitary, single-piece construction. The plastic body further includes a substantially hollow interior, and a parting line that extends around a portion of the perimeter of the structure. The structure also includes a solid compression molded element that is integral with the plastic body. The solid compression molded element is configured and arranged such that the parting line is not connected to the solid compression molded element.

There is provided an assembleable aquaboard made of fiber-reinforced plastic (FRP), including: a first plate having a first T-shaped slot on the top surface and a second T-shaped slot on the right side surface, a second plate having a third T-shaped slot on the top surface and a fourth T-shaped slot on the right side surface; a third plate having a fifth T-shaped slot on the top surface, a sixth T-shaped slot on the right side surface; a fourth plate having a seventh T-shaped slot on the top surface and an eighth T-shaped slot on the left side surface; a first T-shaped connector to connect the first and the third plates; a second T-shaped to connect the second and the fourth plates; and a first I-beam connector to connect the first plate, the second, the third plate and the fourth plate to form the assembleable aquaboard.

A hydrofoiling watercraft is disclosed that includes a board having a top surface for supporting a user and a bottom surface. Extending from the top surface of the board is a handlebar. Extending from the bottom surface of the board is a hydrofoil including a strut and a hydrofoil wing. A propulsion system is attached to the hydrofoil.