A swimming enhancement device has a frame and a push bar pivotably coupled to the rear portion of the frame. A left end is rotatably coupled to the left portion of the push bar and a left foot pad is pivotably coupled to the left end. A right end is rotatably coupled to the right portion of the push bar and a right foot pad is pivotably coupled to the right end. A propulsion fin is attached to the push bar or to a tail bar distal end of the push bar. A receiver is movably coupled to the front portion of the frame. A body coupling device is attached to or formed as part of the receiver. The body coupling device is configured to removably attach to a portion of a user's body or be held by the user.

A swimming enhancement device has a frame and a push bar pivotably coupled to the rear portion of the frame. A left end is rotatably coupled to the left portion of the push bar and a left foot pad is pivotably coupled to the left end. A right end is rotatably coupled to the right portion of the push bar and a right foot pad is pivotably coupled to the right end. A propulsion fin is attached to the push bar or to a tail bar distal end of the push bar. A receiver is movably coupled to the front portion of the frame. A body coupling device is attached to or formed as part of the receiver. The body coupling device is configured to removably attach to a portion of a user's body or be held by the user.

A method for providing a swim fin includes providing a foot attachment member and a blade member having a predetermined blade length. The blade member has a soft portion made with a relatively soft thermoplastic material. The method includes providing a relatively harder portion and the relatively soft thermoplastic portion that is molded to the relatively harder thermoplastic portion. The method includes providing an orthogonally spaced portion of the relatively harder portion that is arranged a predetermined orthogonal direction while said swim fin is in state of rest. The method includes providing the blade member with a predetermined biasing force portion that is arranged to urge the orthogonally spaced portion while the swim fin is in a state of rest. The method includes arranging a significant portion of the blade length to experience pivotal motion a lengthwise angle of attack during use.

A method for providing a swim fin includes providing a foot attachment member and a blade member having a predetermined blade length. The blade member has a soft portion made with a relatively soft thermoplastic material. The method includes providing a relatively harder portion and the relatively soft thermoplastic portion that is molded to the relatively harder thermoplastic portion. The method includes providing an orthogonally spaced portion of the relatively harder portion that is arranged a predetermined orthogonal direction while said swim fin is in state of rest. The method includes providing the blade member with a predetermined biasing force portion that is arranged to urge the orthogonally spaced portion while the swim fin is in a state of rest. The method includes arranging a significant portion of the blade length to experience pivotal motion a lengthwise angle of attack during use.

In the sports of bodysurfing and swimming, hand fins are worn for increased speed, stability, and maneuverability. Each hand fin has an internal compartment for the hand fin to be reliably held and controlled by the user. An upwardly angled, rounded peripheral lip provides lift and prevents pearling when water is flowing at the hand fin from any direction. A concave bottom and rocker creates lift and maneuverability.

In the sports of bodysurfing and swimming, hand fins are worn for increased speed, stability, and maneuverability. Each hand fin has an internal compartment for the hand fin to be reliably held and controlled by the user. An upwardly angled, rounded peripheral lip provides lift and prevents pearling when water is flowing at the hand fin from any direction. A concave bottom and rocker creates lift and maneuverability.

A swim fin includes a blade and a foot pocket separate from the blade that can be coupled and released. The blade extends in a rearward direction Y2 at both side portions of a rear end of the blade, and has both coupling arms spaced apart in a lateral direction X and both first transverse engaging portions positioned on mutually faced inner surfaces of both coupling arms. A first intermediate engaging portion is positioned between both transverse engaging portions. The foot pocket has both second transverse engaging portions positioned on both side portions of a front end of the foot pocket and detachably engaged with both first transverse engaging portions. A second intermediate engaging portion is detachably engaged with the first intermediate engaging portion.

In the sports of bodysurfing and swimming, hand fins are worn for increased speed, stability, and maneuverability. Each hand fin has an internal compartment for the hand fin to be reliably held and controlled by the user. An upwardly angled, rounded peripheral lip provides lift and prevents pearling when water is flowing at the hand fin from any direction. A concave bottom and rocker creates lift and maneuverability.

A composite dive fin assembly for a user swimming in a body of water having primary, secondary, and lateral portions which each define corresponding oppositely disposed propulsion surfaces. The primary, secondary, and lateral portions also each having a corresponding propulsion edge. The primary, secondary, and lateral propulsion surfaces cooperatively oriented to displace an amount of water over a corresponding one of the primary, secondary, and lateral propulsion edges when the composite dive fin assembly is moved in the body of water in which the user is swimming. The primary, secondary, and lateral propulsion surfaces are cooperatively configured to displace a greater amount of water over corresponding propulsion edges relative to previously known dive fins while reducing the resistive forces while displacing water, allowing a user to swim further and/or faster with the less effort.

A composite dive fin assembly for a user swimming in a body of water having primary, secondary, and lateral portions which each define corresponding oppositely disposed propulsion surfaces. The primary, secondary, and lateral portions also each having a corresponding propulsion edge. The primary, secondary, and lateral propulsion surfaces cooperatively oriented to displace an amount of water over a corresponding one of the primary, secondary, and lateral propulsion edges when the composite dive fin assembly is moved in the body of water in which the user is swimming. The primary, secondary, and lateral propulsion surfaces are cooperatively configured to displace a greater amount of water over corresponding propulsion edges relative to previously known dive fins while reducing the resistive forces while displacing water, allowing a user to swim further and/or faster with the less effort.