A personal riding board for aquatic sporting activities. The board includes multiple layers. At least two of the layers include a reinforcement member. The reinforcement members function together similar to a leaf spring to provide the board enhanced flexibility where needed while minimising the risk of breakage.

The present invention includes a surfboard comprising a laminated frame extending along the side rails of the surfboard, the laminated frame comprising three or more layers of laminates, and wherein the laminated frame has been formed to the shape of the rocker of the surfboard. In various exemplary embodiments, the laminated frame may have one or more lateral members extending between opposing sides of the laminated frame, wherein such lateral members may be circular in cross-section, and may include one or more supports connecting the lateral members to the top surface of the surfboard. In various exemplary embodiments, two or more layers of laminates may form an internal structure extending laterally across the laminated frame from one side to the other.

An apparatus for viewing marine life is disclosed. The apparatus includes a board configured to float on water and a window positioned in an opening in the board. The opening in a front end of the board and the window includes a transparent top portion, a transparent bottom pane and sides forming a center void. The window is sealed to prevent water from entering the void and the window includes a bottom lip planar with the transparent bottom pane. The apparatus includes a seal positioned in a gap between the window and the opening in the board and above the lip. The seal is inserted from a top surface of the board and provides a friction fit between the window and the opening. The seal includes a flexible resilient material and sized for a friction fit between the opening and the window to prevent movement of the window.

In one example, a watercraft includes a hull in the form of a unitary, single-piece structure that is substantially hollow, and made of plastic. A grip is provided that is integral with the hull and includes a recess that is formed in a skin of the hull and is integral with the hull, and the grip also includes an undercut that is formed in the skin of the hull proximate an edge of the recess. The undercut is integral with the hull and communicates with the recess.

In one example, a watercraft includes a hull in the form of a unitary, single-piece structure that is substantially hollow, and made of plastic. A grip is provided that is integral with the hull and includes a recess that is formed in a skin of the hull and is integral with the hull, and the grip also includes an undercut that is formed in the skin of the hull proximate an edge of the recess. The undercut is integral with the hull and communicates with the recess.

A stand-up paddleboard (SUP) may be configured with a non-retentive binding system to secure a user's foot positioning. In one example, the binding system may include pockets formed from panels extending continuously along edges of the paddleboard, and straps to provide tension on the pockets, to reduce a likelihood of undesired sliding of the user's feet. The pockets of the binding system may allow the user to reposition the user's feet to multiple secured footholds within the binding system, thereby allowing the user's stance and balance to be maintained.

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.

Watersport boards and methods for forming the same. A watersport board includes an elongate shell and at least one infusion member within a shell internal volume of the elongate shell. The shell internal volume includes a shell void volume that contains a shell fill material and an infusion member volume. The infusion member weighs less than an equal volume of the shell fill material. The at least one infusion member may be or include an infusion sleeve, which defines an infusion sleeve volume that contains an infusion fill material that is less dense than the shell fill material. A method of forming a watersport board includes forming an elongate shell that defines a shell internal volume, positioning at least one infusion member within the shell internal volume, and filling the shell void volume with a shell fill material.

A deck coupled to a paddle board having a base having a longitudinal axis, an axial axis substantially perpendicular to the longitudinal axis. A base length that is substantially in line with longitudinal axis, a paddle board width that is substantially in line with the axial axis. A bow side having a hull for displacing the water, a stern side, a port side, and a starboard side. A first rung integrally coupled to the port side, the first rung having a first rung bow side, a first rung stern side, and a first rung base positioned between the first rung bow side and the first rung stern side. A second rung integrally coupled to the starboard side, the second rung having a second rung bow side, a second rung stern side, and a second rung base positioned between the second rung bow side and the second rung stern side.

A deck coupled to a paddle board having a base having a longitudinal axis, an axial axis substantially perpendicular to the longitudinal axis. A base length that is substantially in line with longitudinal axis, a paddle board width that is substantially in line with the axial axis. A bow side having a hull for displacing the water, a stern side, a port side, and a starboard side. A first rung integrally coupled to the port side, the first rung having a first rung bow side, a first rung stern side, and a first rung base positioned between the first rung bow side and the first rung stern side. A second rung integrally coupled to the starboard side, the second rung having a second rung bow side, a second rung stern side, and a second rung base positioned between the second rung bow side and the second rung stern side.