Abstract: A weight training machine includes a main frame, a lever carriage mechanism, an adjustment linkage and a stop mechanism. A lever carriage mechanism is pivotally connected to the main frame. The lever carriage mechanism includes a weight carrying portion adapted to carry at least one weight. An input mechanism is connected to the lever carriage mechanism. The adjustment linkage is connected between the lever carriage mechanism and the main frame and is configured to selectively adjust an arc of rotation of the weight carrying portion of the lever carriage mechanism about the main frame such that the weight carrying portion may selectively traverse each of a plurality of predefined strength curves in response to movement of the input mechanism by a user.

Abstract: A weight training machine includes a main frame, a lever carriage mechanism, an adjustment linkage and a stop mechanism. A lever carriage mechanism is pivotally connected to the main frame. The lever carriage mechanism includes a weight carrying portion adapted to carry at least one weight. An input mechanism is connected to the lever carriage mechanism. The adjustment linkage is connected between the lever carriage mechanism and the main frame and is configured to selectively adjust an arc of rotation of the weight carrying portion of the lever carriage mechanism about the main frame such that the weight carrying portion may selectively traverse each of a plurality of predefined strength curves in response to movement of the input mechanism by a user.

Abstract: The exercise device includes a support frame upon which a first shaft is rotatably supported. A user interface member is connected to the first shaft such that when the user interface member is displaced by a user, the first shaft is caused to rotate. A second shaft is also rotatably supported on the support frame. A torque arm assembly having a plurality of torque arms is connected to the second shaft. Each of the plurality of torque arms is adapted to support a weight member thereon. A conversion mechanism connects the first and second shafts to control the relative rates of rotation of the first and second shafts such that the resistance force generated by the torque arm assembly remains positive over an entire range of motion of the user interface member.