A system may include an inflatable assembly having a plurality of members. The system may also include a plurality of sensors disposed at a plurality of positions inside or around the inflatable assembly, such that the plurality of sensors may acquire data related to a shape of the inflatable assembly. The system also includes one or more valves, each configured to direct a fluid into a corresponding member of the plurality of members of the inflatable assembly. The system also includes a processor that adjusts positions of the one or more valves to cause the fluid to be directed into the corresponding member of the plurality of members of the inflatable assembly based on the data and a desired shape of the inflatable assembly.

A system for transporting passengers has a drive unit and a vehicle that is pulled by the drive unit. The drive unit includes a stationary guiding device like a rail which is arranged laterally at a distance and above at a height relative to the vehicle. The drive unit also includes a bogie which is movably attached to the guiding device. A connection unit couples the bogie to the vehicle by a joint, so that drifting of the vehicle is possible.

A system for transporting passengers has a drive unit and a vehicle that is pulled by the drive unit. The drive unit includes a stationary guiding device like a rail which is arranged laterally at a distance and above at a height relative to the vehicle. The drive unit also includes a bogie which is movably attached to the guiding device. A connection unit couples the bogie to the vehicle by a joint, so that drifting of the vehicle is possible.

A backbone rail for a roller coaster, comprising two rail pipes designed for vehicles to travel upon, and at least one, particularly main load-bearing backbone pipe not designed for vehicles to travel on, whose second moment of area is greater than the second moment of area of the rail pipes, wherein rail pipes and backbone pipe are connected to each other section-by-section by stiffening bulkheads, whereby at least one bulkhead has the following features: A transverse cross member, which extends in the orthogonal direction and connects the rail pipes with each other, and bulkhead plates, connecting at least one rail pipe with the backbone pipe, wherein at least one bulkhead plate is designed as a longitudinal bulkhead plate, whose main plane of extension extends perpendicular to the bulkhead plane, and which is attached to the backbone pipe in such a way that it runs tangentially into the backbone pipe. In addition, the invention relates to a roller coaster arrangement with such a backbone rail.

A backbone rail for a roller coaster, comprising two rail pipes designed for vehicles to travel upon, and at least one, particularly main load-bearing backbone pipe not designed for vehicles to travel on, whose second moment of area is greater than the second moment of area of the rail pipes, wherein rail pipes and backbone pipe are connected to each other section-by-section by stiffening bulkheads, whereby at least one bulkhead has the following features: A transverse cross member, which extends in the orthogonal direction and connects the rail pipes with each other, and bulkhead plates, connecting at least one rail pipe with the backbone pipe, wherein at least one bulkhead plate is designed as a longitudinal bulkhead plate, whose main plane of extension extends perpendicular to the bulkhead plane, and which is attached to the backbone pipe in such a way that it runs tangentially into the backbone pipe. In addition, the invention relates to a roller coaster arrangement with such a backbone rail.

A system may include a housing that may hold a body of water, an inflatable assembly disposed within the body of water, and a processor. The processor may receive an indication related to a speed of a flow of the body of water and send a signal to at least one valve coupled between the inflatable assembly and a fluid source in response to the indication. The signal may cause the at least one valve to fluidly couple the inflatable assembly to the fluid source to cause the inflatable assembly to expand to an inflated configuration.

A system may include a housing that may hold a body of water, an inflatable assembly disposed within the body of water, and a processor. The processor may receive an indication related to a speed of a flow of the body of water and send a signal to at least one valve coupled between the inflatable assembly and a fluid source in response to the indication. The signal may cause the at least one valve to fluidly couple the inflatable assembly to the fluid source to cause the inflatable assembly to expand to an inflated configuration.

In accordance with one embodiment, a system includes a dual-track loop including a first track loop and a second track loop, a single-track loop spaced apart from the dual-track loop, and a cross-track extending between the dual-track loop and the single-track loop. The system also includes a platform disposed on the cross-track. The platform is configured to translate between a position aligned with the first track loop and the second track loop of the dual-track loop and a position aligned with a first portion and a second portion of the single-track loop. The system further includes a turntable coupled to the platform and configured to rotate a ride vehicle positioned on the turntable and to change an orientation of the ride vehicle relative to a fixed portion of the platform.

In accordance with one embodiment, a system includes a dual-track loop including a first track loop and a second track loop, a single-track loop spaced apart from the dual-track loop, and a cross-track extending between the dual-track loop and the single-track loop. The system also includes a platform disposed on the cross-track. The platform is configured to translate between a position aligned with the first track loop and the second track loop of the dual-track loop and a position aligned with a first portion and a second portion of the single-track loop. The system further includes a turntable coupled to the platform and configured to rotate a ride vehicle positioned on the turntable and to change an orientation of the ride vehicle relative to a fixed portion of the platform.

A ride system includes a vehicle configured to travel along a first ride path. The ride system also includes a coaster that travels along a second ride path that overlaps with the first ride path at an overlapping portion of the ride system. The vehicle disengages from a first portion of the first ride path and engages with the coaster when the coaster is positioned at the overlapping portion, such that the coaster transports the vehicle along the second ride path to a second portion of the first ride path after engaging with the vehicle.