Musculoskeletal vibration system for jointed limbs

What we claim is: 1. A system for applying a vibratory force through a leg of a user of the system generally along a superior-inferior axis from a foot of the user to a hip of the user, the system comprising: a seat assembly arranged at a first end of the system, the seat assembly configured to support the hip of the user and including a back rest configured to secure an upper leg segment of the leg of the user against movement toward the first end of the system; a foot support arranged at a second end of the system, the foot support configured to support the foot of the user and secure a lower leg segment of the leg of the user against movement toward the second end of the system so that the upper and lower leg segments are angled with respect to each other at a bent knee joint of the user; an actuator configured to move at least one of the seat assembly and the foot support toward the other one of the seat assembly and the foot support providing a static loading force through the upper and lower segments of the leg of the user; and a vibration unit configured to generate the vibratory force of the system and deliver the vibration to the foot support; a joint brace arranged between the seat assembly and the foot support, the joint brace configured to move toward and engage the leg of the user near the knee and be fixed in a position to support and secure the knee in a constant position so that movement of the at least one of the seat assembly and the foot support by the actuator compresses the upper and lower leg segments through the bent knee to apply the static loading force, whereby the vibratory force is transmitted from the foot of the user to the hip of the user; and a sensor configured to determine a preload value corresponding to the static loading force applied to the leg of the user and a control unit operably connected to the actuator and configured to control the static loading force based on the determined preload value. 2. The system of claim 1 further including a position drive configured to move the foot support toward the seat assembly for establishing the static loading force through the leg of the user. 3. The system of claim 1 wherein the joint brace moves along a path that is generally perpendicular with respect to the lower leg segment of the leg of the user. 4. A system for applying a vibratory force through lower and upper segments of a leg of a user of the system, the system comprising: a foot support and a seat assembly that are spaced from each other and are configured to engage opposing ends of and apply a compressive loading force through the leg of the user by adjusting of a spacing between the foot support and the seat assembly while the lower and upper segments of the leg of the user are angled with respect to each other at a bent knee joint of the user; a joint brace arranged between the foot support and the seat assembly with the joint brace configured to be fixed in a position and engage the leg of the user to support and secure the knee in a constant position during the adjusting of the spacing between the foot support and the seat assembly and prevent further flexing or extending of the knee during the adjusting of the spacing between the foot support and the seat assembly; a vibration unit that transmits vibrations to the foot support as a dynamic force; a position drive arranged to adjust the spacing between the foot support with respect to the seat assembly for applying the compressive loading force applied to the leg of the user, wherein the compressive loading force is different from the dynamic force; and a sensor configured to determine a preload value corresponding to the compressive loading force applied to the leg of the user and a control unit operably connected to the position drive and configured to control the compressive loading force based on the determined preload value. 5. The system of claim 4 wherein the joint brace includes first and second portions configured to engage the leg of the user above and below the knee, respectively. 6. A system for applying an axial vibratory force to a limb, the system comprising: a pair of supports that are spaced from each other and are configured to engage opposing ends of a limb with a joint; an actuator configured to move at least one support of the pair of supports in a direction of compression to reduce a distance between the supports to compress the limb and hold the limb in a state of compression as a static compression force; a joint brace arranged between the pair of supports and configured to support and secure the joint, the joint brace engaging the limb at a contact point defined by an interface between the joint brace and the limb at a location that is arranged between the opposing ends of the limb to prevent flexing and extending of the joint and to restrict movement of the limb in a direction of restricted joint movement that is generally perpendicular with respect to the direction of compression; a vibration unit that transmits vibrations as a dynamic vibration force in a vibration direction that is generally parallel to the direction of compression and generally perpendicular to the direction of restricted joint movement; and further including, a seat assembly defining one of the pair of supports that is configured to support a seated user of the system and wherein the joint brace is moveable in a direction that is generally perpendicular to a straight line projecting between the seat assembly and the vibration unit; and a sensor configured to determine a preload value corresponding to the static loading force applied to the leg of the user and a control unit operably connected to the actuator and configured to control the static loading force based on the determined preload value. 7. The system of claim 6 wherein the seat assembly is movable toward and away from the foot support and the actuator comprises a position drive arranged to move the foot support with respect to the seat assembly and wherein the control unit controls the position drive to establish the static compression force.