The invention relates to a system (1) for binding a shoe (2) to a foot rest (3) of a rowing boat, said shoe (2) having a sole (21) and said foot rest (3) being likeable to a plate having an underside (9) and a top surface (8). The main feature of a binding system according to the invention is that it comprises at least one mobile stop (6) projecting from the top surface (8) and a rigid actuating lever (4) projecting from the underside (9), and in that said lever (4) is connected to said at least one stop (6) in such a way that movement of said lever (4) causes said at least one stop (6) to move between a deployed position in which it becomes lodged in a recess (22) in the sole (21), and a retracted position in which it leaves said recess (22) and allows the shoe (2) to be detached from the foot rest (3).

The invention relates to a system (1) for binding a shoe (2) to a foot rest (3) of a rowing boat, said shoe (2) having a sole (21) and said foot rest (3) being likeable to a plate having an underside (9) and a top surface (8). The main feature of a binding system according to the invention is that it comprises at least one mobile stop (6) projecting from the top surface (8) and a rigid actuating lever (4) projecting from the underside (9), and in that said lever (4) is connected to said at least one stop (6) in such a way that movement of said lever (4) causes said at least one stop (6) to move between a deployed position in which it becomes lodged in a recess (22) in the sole (21), and a retracted position in which it leaves said recess (22) and allows the shoe (2) to be detached from the foot rest (3).

Examples are disclosed that relate to watercraft with retractable drive mechanisms. One example provides a watercraft including a hull having a receiving compartment, and also having a deck. The watercraft also includes a drive unit extending through the deck and the hull of the watercraft and being configured to receive rotational input. The drive unit includes a driveshaft and propeller moveable between an extended position in which the propeller is positioned underneath the hull and a retracted position in which the propeller is positioned at least partially within the receiving compartment.

Examples are disclosed that relate to watercraft with retractable drive mechanisms. One example provides a watercraft including a hull having a receiving compartment, and also having a deck. The watercraft also includes a drive unit extending through the deck and the hull of the watercraft and being configured to receive rotational input. The drive unit includes a driveshaft and propeller moveable between an extended position in which the propeller is positioned underneath the hull and a retracted position in which the propeller is positioned at least partially within the receiving compartment.

A rowing shoe retaining system includes a plate mountable to a sole of a shoe and a receiver mountable to a footboard of a rowing boat. The receiver removably retains the plate, thereby removably retaining the shoe.

A rowing shoe retaining system includes a plate mountable to a sole of a shoe and a receiver mountable to a footboard of a rowing boat. The receiver removably retains the plate, thereby removably retaining the shoe.

The present invention is directed an adjustable foot rest system for a kayak comprising a bulkhead member adapted for cinchable non-slip support of the feet and on the fly user positioning. A mounting sleeve in the bow wall and/or runners are provided with the bulkhead resting inside the sleeve and/or runners by friction alone. Flexible straps equipped with strap adjusters are connected to the bulkhead, through guide anchors and secured to anchors affixed to the inside hull of the kayak near the seat. A bungee cord is threaded through an anchor disposed near the end of the bow and connected on each side to the bulkhead cross member, whereby the bulkhead position as selected by the user remains in place until the user selects a new position.

The present invention is directed an adjustable foot rest system for a kayak comprising a bulkhead member adapted for cinchable non-slip support of the feet and on the fly user positioning. A mounting sleeve in the bow wall and/or runners are provided with the bulkhead resting inside the sleeve and/or runners by friction alone. Flexible straps equipped with strap adjusters are connected to the bulkhead, through guide anchors and secured to anchors affixed to the inside hull of the kayak near the seat. A bungee cord is threaded through an anchor disposed near the end of the bow and connected on each side to the bulkhead cross member, whereby the bulkhead position as selected by the user remains in place until the user selects a new position.

A channel member is adapted for mounting on a watercraft with a foot component slidable along the channel. A latch component is mounted on the foot component by a tongue extending through a slot between a base part of the foot component and a footrest part. The latch also has a tooth to engage with openings in the channel for adjustment of the position of the footrest. A handle portion of the latch component can be flexed to free the tooth from a channel opening, whereupon the foot component can be slid to a desired position and the handle released to lock the foot component in the adjusted position. The footrest can have differently contoured sides for engagement by a foot of a user, and the three foot brace parts (the channel, foot component, and latch component) can be manually separated and reassembled with the either of the contoured sides facing the user.

A channel member is adapted for mounting on a watercraft with a foot component slidable along the channel. A latch component is mounted on the foot component by a tongue extending through a slot between a base part of the foot component and a footrest part. The latch also has a tooth to engage with openings in the channel for adjustment of the position of the footrest. A handle portion of the latch component can be flexed to free the tooth from a channel opening, whereupon the foot component can be slid to a desired position and the handle released to lock the foot component in the adjusted position. The footrest can have differently contoured sides for engagement by a foot of a user, and the three foot brace parts (the channel, foot component, and latch component) can be manually separated and reassembled with the either of the contoured sides facing the user.