A rope tender for a recreational watercraft is removably attached to the top of an outboard motor or a transom of the watercraft. The rope tender has a partial labyrinth slot which captively receive one or more anchor or mooring ropes to prevent entanglement of the ropes with the motor or propellers associated therewith. The rope tender may be conveniently removed and stowed when the watercraft is configured in an operational condition.

A winch rigging link has a body defining a cable retainer and a soft shackle retainer at opposite ends. The body has a length, a width less than the length, and a depth less than the width. Furthermore, the body defines opposing faces bounded by the length and width and spaced apart by the depth. The soft shackle retainer comprises a channel running widthwise across the soft shackle retainer an in between the faces. The channel defines a bearing surface having curvature in a lengthwise and widthwise plane. The cable retainer may be permanently attached to a winch cable and the soft shackle retainer attached to a soft shackle or the like when required for winch rigging. The configuration of the link maximises the bend radius of the soft shackle or the like retained by the soft shackle retainer, despite the relatively narrow profile of the body thereof.

A tensioning tool having a body and two hooks. One hook extends radially outward from the body and the second hook extends tangentially of the body. The body has a grip opening extending through the body and a throughhole extending through the body. A tensioning system comprising the tensioning tool and two cords. One cord passes through the throughhole in the body of the tensioning tool and the second cord is secured in the first hook of the tensioning tool.

A rope tender for a recreational watercraft is removably attached to the top of an outboard motor or a transom of the watercraft. The rope tender has a partial labyrinth slot which captively receive one or more anchor or mooring ropes to prevent entanglement of the ropes with the motor or propellers associated therewith. The rope tender may be conveniently removed and stowed when the watercraft is configured in an operational condition.

In one aspect of the present disclosure, a flexible cord management device is provided. The device includes a helical coil base, an s-loop, and a post. The base can be wrapped around at least a portion of a bundled cord. The s-loop includes a first loop and a second loop, where the first loop is coupled to a first end of the base. The first loop can be opened to receive a first end of the bundled cord, such that, the first end of the bundled cord is securely disposed through the first loop. The second loop is coupled to the first loop. The post extends from the first end of the base and can be inserted through the second loop to secure the first loop in a closed position and removed from the second loop to enable the first loop to achieve an open position.

A rope control device a main body defining a central opening and first and second side portions, projections extending from the main body, an end recess defined by the first and second projections, an end friction surface formed at a juncture of a projection and the main body, and a bar. With the bar in a first position, the first rope portion is extended through the central opening and at least partly around the bar. With the bar in a second position, the main body and the bar define first and second opening portions of the central opening and the first rope portion is extended through the first and second opening portions and at least partly around the bar. The second rope portion is arranged within the first end recess such that, when the rope is under tension, the second rope portion frictionally engages the first end friction surface.

A sleeve for terminating synthetic rope and coated wire rope has a body and a first channel, a second channel, and a third channel formed within the body. Each of the first, second, and third channels form a trilobular opening within the sleeve for receiving and crimping wire rope. The wire rope can have an eye splice formed at one end. A method of crimping the trilobular sleeve includes feeding the rope through the first channel of the trilobular sleeve, looping the rope through the second channel of the sleeve and then through the third channel of the trilobular sleeve, inserting the sleeve between upper and lower crimp dies, and pressing the sleeve between the dies, thereby crimping the sleeve to the rope.

A rope control device a main body defining a central opening and first and second side portions, projections extending from the main body, an end recess defined by the first and second projections, an end friction surface formed at a juncture of a projection and the main body, and a bar. With the bar in a first position, the first rope portion is extended through the central opening and at least partly around the bar. With the bar in a second position, the main body and the bar define first and second opening portions of the central opening and the first rope portion is extended through the first and second opening portions and at least partly around the bar. The second rope portion is arranged within the first end recess such that, when the rope is under tension, the second rope portion frictionally engages the first end friction surface.

A sleeve for terminating synthetic rope and coated wire rope has a body and a first channel, a second channel, and a third channel formed within the body. Each of the first, second, and third channels form a trilobular opening within the sleeve for receiving and crimping wire rope. The wire rope can have an eye splice formed at one end. A method of crimping the trilobular sleeve includes feeding the rope through the first channel of the trilobular sleeve, looping the rope through the second channel of the sleeve and then through the third channel of the trilobular sleeve, inserting the sleeve between upper and lower crimp dies, and pressing the sleeve between the dies, thereby crimping the sleeve to the rope.