An adjustable rebound device may include a support platform and a warping assembly to adjust a rebound resistance of the support platform. The warping assembly may include a plurality of mounting assemblies coupled to the support platform and a rebound adjustment assembly coupled to at least one of
An adjustable rebound device may include a support platform and a warping assembly to adjust a rebound resistance of the support platform. The warping assembly may include a plurality of mounting assemblies coupled to the support platform and a rebound adjustment assembly coupled to at least one of the mounting assemblies. The rebound adjustment assembly may be configured to actuate a mounting assembly such that the support platform is warped and a rebound resistance is adjusted. A method for adjusting a rebound resistance of a platform assembly is also described. An exercise machine may include a machine base assembly, a support platform, and a warping assembly. The warping assembly may include a plurality of mounting assemblies and a rebound adjustment assembly, such that the rebound adjustment assembly is configured to actuate a mounting assembly such that the support platform is warped and a rebound resistance is adjusted.
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1. An adjustable rebound device comprising: a support platform; anda warping assembly configured to adjust a rebound resistance of the support platform, the warping assembly comprising: a plurality of mounting assemblies coupled to the support platform, anda rebound adjustment assembly coupled to at
1. An adjustable rebound device comprising: a support platform; anda warping assembly configured to adjust a rebound resistance of the support platform, the warping assembly comprising: a plurality of mounting assemblies coupled to the support platform, anda rebound adjustment assembly coupled to at least one of the mounting assemblies,wherein the rebound adjustment assembly is configured to actuate the at least one mounting assembly such that the support platform is warped and the rebound resistance of the support platform is adjusted, andwherein the rebound adjustment assembly comprises a shaft coupled to the at least one mounting assembly such that movement of the shaft causes warping of the support platform. 2. The device of claim 1, wherein the at least one mounting assembly further comprises a receiver coupled to the support platform, and a retainer coupled to the shaft and the receiver, such that movement of the shaft results in movement of the receiver, thereby causing warping of the support platform. 3. The device of claim 2, wherein the shaft comprises a threaded portion, and the retainer comprises a threaded portion threadedly engaged with the threaded portion of the shaft, such that rotation of the shaft causes movement of the receiver. 4. The device of claim 3, wherein the retainer comprises a rod portion, and the receiver comprises a recess receiving the rod portion, such that the rod portion is configured to rotate relative to the recess upon rotation of the shaft. 5. The device of claim 1, wherein the support platform comprises an elastically deformable material. 6. The device of claim 5, wherein the elastically deformable material comprises polycarbonate. 7. The device of claim 1, wherein warping of the support platform comprises crowning the support platform. 8. The device of claim 7, wherein the crowning of the support platform increases the rebound resistance of the support platform. 9. The device of claim 1, further comprising a motor coupled to the warping assembly, wherein operation of the motor is configured to cause actuation of the at least one mounting assembly by the rebound adjustment assembly, such that the support platform is warped. 10. The device of claim 1, wherein the warping assembly further comprises at least one basal mount and a linkage arm pivotally coupled to the at least one basal mount and the at least one mounting assembly, wherein upon actuation of the at least one mounting assembly by the rebound adjustment assembly, the linkage arm pivots relative to the at least one basal mount and the at least one mounting assembly, such that the support platform is warped. 11. A method of adjusting rebound resistance of a support platform, the method comprising: coupling the support platform to a warping assembly, wherein the warping assembly is configured to adjust the rebound resistance of the support platform, the warping assembly comprising a plurality of mounting assemblies coupled to the support platform, and a rebound adjustment assembly coupled to at least one of the mounting assemblies; andactuating the at least one mounting assembly via the rebound adjustment assembly thereby warping the support platform, such that the rebound resistance of the support platform is adjusted,wherein actuating the at least one mounting assembly comprises moving a shaft coupled to the at least one mounting assembly, such that movement of the shaft causes warping of the support platform. 12. The method of claim 11, wherein the at least one mounting assembly comprises a receiver coupled to the support platform and a retainer coupled to the shaft, and wherein moving the shaft results in movement of the receiver, thereby warping the support platform. 13. The method of claim 12, wherein moving the shaft comprises rotating the shaft such that a threaded portion of the shaft engages with a threaded portion of the retainer thereby causing the movement of the receiver. 14. The method of claim 13, wherein rotating the shaft results in rotation of a rod portion of the retainer relative to a recess portion of the receiver in which the rod portion is received. 15. The method of claim 11, wherein warping the support platform comprises crowning the support platform. 16. The method of claim 15, wherein the crowning the support platform increases the rebound resistance of the support platform. 17. The method of claim 11, wherein actuating the at least one mounting assembly comprises operating a motor coupled to the warping assembly. 18. The method of claim 11, wherein actuating the at least one mounting assembly comprises rotating a linkage arm pivotally coupled to at least one basal mount and the at least one mounting assembly. 19. An exercise machine comprising: a machine base assembly comprising a first frame portion and a second frame portion;a support platform associated with the first frame portion and the second frame portion; anda warping assembly configured to adjust a rebound resistance of the support platform, the warping assembly comprising: a plurality of mounting assemblies coupled to the support platform, anda rebound adjustment assembly coupled to at least one of the mounting assemblies,wherein the rebound adjustment assembly is configured to actuate the at least one mounting assembly such that the support platform is warped and the rebound resistance of the support platform is adjusted, andwherein the rebound adjustment assembly comprises a shaft coupled to the at least one mounting assembly such that movement of the shaft causes warping of the support platform. 20. The machine of claim 19 wherein the at least one mounting assembly further comprises a receiver coupled to the support platform, and a retainer coupled to the shaft and the receiver, such that movement of the shaft results in movement of the receiver, thereby causing warping of the support platform. 21. The machine of claim 20, wherein the shaft comprises a threaded portion, and the retainer comprises a threaded portion threadedly engaged with the threaded portion of the shaft, such that rotation of the shaft causes movement of the receiver. 22. The machine of claim 21, wherein the retainer comprises a rod portion, and the receiver comprises a recess receiving the rod portion, such that the rod portion is configured to rotate relative to the recess upon rotation of the shaft. 23. The machine of claim 19, wherein the support platform comprises an elastically deformable material. 24. The machine of claim 23, wherein the elastically deformable material comprises polycarbonate. 25. The machine of claim 19, wherein warping of the support platform comprises crowning the support platform. 26. The machine of claim 25, wherein the crowning of the support platform increases the rebound resistance of the support platform. 27. The machine of claim 20, further comprising: a user interface coupled to the machine, the user interface being configured to facilitate control of the machine and feedback to the user. 28. The machine of claim 27, wherein the user interface comprises a control unit, wherein the control unit is configured to facilitate actuation of the warping assembly. 29. The machine of claim 28, wherein the control unit is configured to provide the user with an aural or visual cue for jumping. 30. The machine of claim 29, further comprising: a first light source associated with the machine base assembly;a second light source associated with the machine base assembly;a third light source associated with the machine base assembly; anda controller for controlling the illumination of the first light source, the second light source, and the third light source, such that the first light source, the second light source, and the third light source provide a visual cue for jumping. 31. The machine of claim 30, wherein the first, second, and third light sources are aligned with one another, and the controller is configured to sequentially illuminate the first, second, and third light sources. 32. The machine of claim 28, further comprising a sensor configured to provide signals indicative of mechanical strain associated with the support platform. 33. The machine of claim 32, wherein the sensor is coupled to the control unit, and the control unit is configured to determine a compression cycle rate associated with the support platform, based on the signals from the sensor. 34. The machine of claim 33, wherein the user interface further comprises a display unit, and the control unit is configured to output an indication of the compression cycle rate on the display unit. 35. The machine of claim 33, wherein the control unit is configured to compare the compression cycle rate with a predetermined rate, and if the compression cycle rate differs from the predetermined rate by more than a predetermined amount, output a fault signal. 36. The machine of claim 35, wherein the control unit is configured to output at least one of a visual indicator on the display unit or an aural indicator, based on the fault signal. 37. The machine of claim 33, wherein the control unit is configured to compare a timing period of the number of compression cycles with a timer and, if the timing period of the number of compression cycles differs from the timer by more than a predetermined amount, output a fault signal. 38. The machine of claim 37, wherein the control unit is configured to output at least one of a visual indicator on the display unit or an aural indicator, based on the fault signal. 39. The machine of claim 19, further comprising a motor coupled to the warping assembly, wherein operation of the motor is configured to cause actuation of the at least one mounting assembly such that the support platform is warped. 40. The machine of claim 19, wherein the warping assembly further comprises at least one basal mount and a linkage arm pivotally coupled to the at least one basal mount and the at least one mounting assembly, wherein upon actuation of the at least one mounting assembly by the rebound adjustment assembly, the linkage arm pivots relative to the at least one basal mount and the at least one mounting assembly, such that the support platform is warped.
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