An amusement device seat assembly includes a seat to allow a passenger to sit. A leg space is provided under a seat base for holding a left and right leg of the passenger. The seat assembly includes a leg locking device for retaining an in the leg space introduced lower leg of the passenger. The leg locking device includes a central mount for preventing a laterally inwardly directed movement of a leg. A lateral mount prevents a forwardly directed movement of the lower leg. A bracket which may be operatable by the passenger himself is movable to provide an open or closed configuration of the leg locking device. In the closed configuration, an outer bracket extension prevents a laterally outwardly directed movement of a leg of a passenger. Advantageously, an intuitively working leg locking device is provided which contributes to a high level of operational reliability.

A rail coaster operates as a cross between a roller coaster and a zip line. A rail may be suspended under a frame by flexible cables or solid brackets. The rail may turn, incline, decline, or twist, but need not twist to still provide a “rolling” degree of freedom for a rider. An eddy current brake provides proportional braking as a function of speed. A cam-adjustment-axle (eccentric) carries certain wheels to provide finely divided, discrete, but incrementally small adjustments of idler wheel clearances to accommodate variations in the rail, wheel wear, and onsite adjustment of tolerances for curvature, unevenness, and friction. A “static universal” bracket provides adjustment in four degrees of freedom, three of translation and one of rotation in securing a rail to a supporting frame.

A rail coaster operates as a cross between a roller coaster and a zip line. A rail may be suspended under a frame by flexible cables or solid brackets. The rail may turn, incline, decline, or twist, but need not twist to still provide a “rolling” degree of freedom for a rider. An eddy current brake provides proportional braking as a function of speed. A cam-adjustment-axle (eccentric) carries certain wheels to provide finely divided, discrete, but incrementally small adjustments of idler wheel clearances to accommodate variations in the rail, wheel wear, and onsite adjustment of tolerances for curvature, unevenness, and friction. A “static universal” bracket provides adjustment in four degrees of freedom, three of translation and one of rotation in securing a rail to a supporting frame.

An inverted Stewart platform assembly includes a first platform having a first surface, a second platform having a second surface facing the first surface of the first platform, and six legs extending between and coupling the first platform and the second platform. The six legs are configured to be actuated between a first arrangement in which adjustable lengths of the six legs, measured from the first platform to the second platform, are substantially equal to one another, and a plurality of second arrangements in which the adjustable lengths of the six legs are not substantially equal to one another, wherein each leg of the six legs forms, in the first arrangement, an angle of less than or equal to 45 degrees with a plane defined by the first platform.

An inverted Stewart platform assembly includes a first platform having a first surface, a second platform having a second surface facing the first surface of the first platform, and six legs extending between and coupling the first platform and the second platform. The six legs are configured to be actuated between a first arrangement in which adjustable lengths of the six legs, measured from the first platform to the second platform, are substantially equal to one another, and a plurality of second arrangements in which the adjustable lengths of the six legs are not substantially equal to one another, wherein each leg of the six legs forms, in the first arrangement, an angle of less than or equal to 45 degrees with a plane defined by the first platform.

A bogie configured to move along a track of an amusement ride includes two first lateral wheels, on each side of a vertical center plane of the bogie, for rolling along a run of the track. A second lateral wheel is mounted on each side of the vertical center plane and is movable perpendicular to the vertical center plane between a first position proximate the vertical plane and a second position spaced-away from the vertical plane. The bogie also includes a mechanism that provides a force to normally bias the second wheel toward the first position. The mechanism is configured such that the magnitude of the provided force increases with increasing separation between the second lateral wheel on one side of the vertical center plane and the second lateral wheel on the other side of the vertical center plane.

A bogie configured to move along a track of an amusement ride includes two first lateral wheels, on each side of a vertical center plane of the bogie, for rolling along a run of the track. A second lateral wheel is mounted on each side of the vertical center plane and is movable perpendicular to the vertical center plane between a first position proximate the vertical plane and a second position spaced-away from the vertical plane. The bogie also includes a mechanism that provides a force to normally bias the second wheel toward the first position. The mechanism is configured such that the magnitude of the provided force increases with increasing separation between the second lateral wheel on one side of the vertical center plane and the second lateral wheel on the other side of the vertical center plane.

An amusement ride enabling at least one rider to change a position of said at least one rider around at least one cylindrical vehicle while said at least one cylindrical vehicle carries said at least one rider along a central axis of said at least one cylindrical vehicle during a riding.

For A zip line trolley brake system includes a cable suspended between upper and lower support platforms which, together, function with rider harnessing, loading, and take-off with a passive braking trolley allowing a controlled descent and barrel spring system providing addition braking near the end of a cable termination. The zip line trolley positioned atop a cable includes a frame assembled from a pair of parallel side plates, a four-sided rotational brake pad, and a parabolic groove wheel which is sandwiched between side plates, and a lever. A lever from which a rider is suspended, can be pinned anywhere within the trolley's circular toothed slot instilling a brake force for the cable slope. A trolley brake generally square sides are grooved for cables and fabricated from a durable polymeric material is rotatably within affixed side plates. A spring system includes a football-shape springs, spring spacers, bump spring spacer receiver, and a locking inserts designed to fasten the springs and allow the springs to collapse within themselves reducing the compression length. A bump spring spacer receiver makes contact with the zipline trolley further decelerating the suspended rider as contact is made with the springs.

For A zip line trolley brake system includes a cable suspended between upper and lower support platforms which, together, function with rider harnessing, loading, and take-off with a passive braking trolley allowing a controlled descent and barrel spring system providing addition braking near the end of a cable termination. The zip line trolley positioned atop a cable includes a frame assembled from a pair of parallel side plates, a four-sided rotational brake pad, and a parabolic groove wheel which is sandwiched between side plates, and a lever. A lever from which a rider is suspended, can be pinned anywhere within the trolley's circular toothed slot instilling a brake force for the cable slope. A trolley brake generally square sides are grooved for cables and fabricated from a durable polymeric material is rotatably within affixed side plates. A spring system includes a football-shape springs, spring spacers, bump spring spacer receiver, and a locking inserts designed to fasten the springs and allow the springs to collapse within themselves reducing the compression length. A bump spring spacer receiver makes contact with the zipline trolley further decelerating the suspended rider as contact is made with the springs.