The present application relates to a device for moving back and forth a guide track section of a guide track system for vehicles of a fun fair ride from a first guide track connection part to a second guide track connection part which is arranged at a distance from the first guide track connection part, wherein the first and the second guide track connection parts are part of the guide track system, comprising a guide track section onto which at least one of the vehicles can travel, a carrier structure for carrying the guide track section, a guide structure which has an active connection with the carrier construction and with which the carrier structure can be guided in such a manner that the guide track section can be moved back and forth from the first guide track connection part to the second guide track connection part along the guide structure, and a drive device for moving the carrier structure along the guide structure, wherein the carrier structure comprises means for making another movement of the guide track section in addition to the movement along the guide structure.

An inspection system for inspecting the track of an amusement ride with at least one rail. A vehicle is provided that is designed to ride along the track. The vehicle supports cameras. The cameras are positioned in unobstructed areas. The cameras image the rail from different angles as the vehicle rides along the track. The images recorded by the cameras are reviewed to identify any defect or issue with the rail or its supporting framework that may impact from the safety of the ride.

An inspection system for inspecting the track of an amusement ride with at least one rail. A vehicle is provided that is designed to ride along the track. The vehicle supports cameras. The cameras are positioned in unobstructed areas. The cameras image the rail from different angles as the vehicle rides along the track. The images recorded by the cameras are reviewed to identify any defect or issue with the rail or its supporting framework that may impact from the safety of the ride.

An amusement park ride vehicle includes a chassis, a cabin, a slider, and a rotator. The chassis is configured to direct the ride vehicle along a ride path in a direction of travel. The cabin is configured to hold one or more passengers. The slider is configured to translate between a neutral position and a cantilevered position relative to the chassis in a direction substantially transverse to the direction of travel and to carry the rotator and the cabin along the direction substantially transverse to the direction of travel. The rotator is coupled between the slider and the cabin, and is configured to rotate the cabin relative to the slider.

A ride system includes a ride vehicle made of a buoyant material configured to float in a liquid. A bogie of the ride system includes a vehicle support positioned under the ride vehicle, and the bogie is configured to travel along a track. An extender is coupled to the vehicle support and coupled to the ride vehicle. The extender is configured to transition between a retracted configuration and an extended configuration to allow the ride vehicle to float in the liquid within a range of motion relative to the vehicle support.

A ride system includes a ride vehicle made of a buoyant material configured to float in a liquid. A bogie of the ride system includes a vehicle support positioned under the ride vehicle, and the bogie is configured to travel along a track. An extender is coupled to the vehicle support and coupled to the ride vehicle. The extender is configured to transition between a retracted configuration and an extended configuration to allow the ride vehicle to float in the liquid within a range of motion relative to the vehicle support.

Embodiments of the present disclosure relate to an amusement park attraction installation including a camera disposed on a side of a window, where the camera includes a lens and is configured to capture image data indicative of movement of a guest on an opposite side of the window. The amusement park attraction installation also includes a light source positioned on the side of the window and a camera housing disposed at least partially about the camera, where the camera housing has an inner volume and an opening surrounded by an edge of the camera housing, the lens is disposed within the inner volume, and the edge of the camera housing is in abutment with a surface of the window.

A rail-switching unit, functioning singly or combined with other same units as part of a track-switching unit of a track-switching system of a vehicle-guiding system is provided. The rail-switching unit includes a rotatable ensemble including a rotatable-hub with attached switch-rails and auxiliary components and stationary elements including a main fixed-rail, branch fixed-rails and a supporting structure, wherein the branch fixed-rails are attached to common rails and the rotatable-hub selectively rotates to allow an engagement of each switch-rail simultaneously with the main fixed-rail and with a corresponding branch fixed-rail with a purpose of creating alternative continuous rail paths for vehicles to move through the rail-switching unit. A mechanism is applicable to mono/multi-railed tracks, to supporting/suspended vehicles, to traditional/rail-wrapping wheels-assemblies, to diverge/merge/cross-points, and to a wide variety of track-switching configurations.

A ride system includes a tunnel, a vehicle ride path, a ride vehicle, and a projection system. The tunnel includes a first end and a second end and is curved between the first and second ends. The vehicle ride path extends within the tunnel from an entrance at the first end of the tunnel to an intermediate position within the tunnel. The second end of the tunnel is not visible from the intermediate position. The ride vehicle travels along the vehicle ride path and decelerates as the ride vehicle approaches the intermediate position. The projection system projects images onto one or more walls of the tunnel, such that the images are synchronized with the deceleration of the ride vehicle and a perceived speed of the ride vehicle, as perceived by a guest in the ride vehicle, exceeds an actual speed of the ride vehicle.

A ride system includes a tunnel, a vehicle ride path, a ride vehicle, and a projection system. The tunnel includes a first end and a second end and is curved between the first and second ends. The vehicle ride path extends within the tunnel from an entrance at the first end of the tunnel to an intermediate position within the tunnel. The second end of the tunnel is not visible from the intermediate position. The ride vehicle travels along the vehicle ride path and decelerates as the ride vehicle approaches the intermediate position. The projection system projects images onto one or more walls of the tunnel, such that the images are synchronized with the deceleration of the ride vehicle and a perceived speed of the ride vehicle, as perceived by a guest in the ride vehicle, exceeds an actual speed of the ride vehicle.