An underwater mobile observatory system comprising an aquarium able to hold water and large enough to support fish, coral, and to display artificial objects such as shipwrecks and ruins, a vehicle track extending through the aquarium the track generally being adjacent the bottom of the aquarium, the track having a portion which rises to a loading/unloading position, and a passenger vehicle coupled to the track for movement therealong and unable to leave the track such that changes in inclination of the track causes the vehicle to move up and down through water in the aquarium, the passenger vehicle having a main body portion to seat passengers and which is capable of being submerged, and a top portion which is open to the air, the spacing between the hack and the water level being controlled such that water does not pass over the top portion.

Method for controlling a slide direction in a branch point and a slide, in particular a water slide, in which a slide surface of the branch point is wetted with water, and the branch point is formed: with a first slide connector for a slide entrance, with a second slide connector for a slide exit, with a third slide connector for a further slide exit, wherein the first and second slide connector are provided adjacently to each other, and the third slide connector is provided removed from or opposite the first and second slide connector, and a mouth region is formed between the first and second slide connector and the third slide connector.

The invention relates to an apparatus (1) for at least one user (2) for experiencing a virtual reality simulation in an underwater world, comprising: at least one water resource (10) with at least one flow generator (20), at least one data processing system, and at least one VR display device (40), wherein the data processing system generates a virtual reality simulation, wherein the at least one flow generator (20) is controlled by the data processing system as a function of the virtual reality simulation, and wherein the virtual reality simulation is reproduced on the VR display device (40).

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 play structure having one or more monolith structures for the connection of other surfaces (e.g., deckings, water-based elements, interactive elements, etc.). Each of the monolith structures may be adjustably connected with a ground surface such that a variety of possible angles may be obtained by the monolith with respect to the ground surface. After the desired orientation of the monolith is obtained to the ground surface via the adjustable connection, the monolith may be secured in such position. Water or other fluid may be provided to the monolith structures via piping that interfaces with the monolith structures by a fluid connection that is in communication with piping disposed within the monolith structures. A fluid dumping or delivery system (e.g., based upon a tipping element that provides water to a fluid flowing surface and/or other water dispersion element) may be provided as part of the play structure.

An attraction capable of incorporating user interactivity. The attraction utilizes a slide for supporting a rider, with a ride vehicle or without. The ride vehicle may be a mat or slideboard with handles that allows the user to manipulate its position or other associated elements while on the attraction. Upon manipulating an element, a signal may be transmitted. This signal may aid in determining whether a rider has successfully manipulated the element, for example, at an appropriate time. Sensors along the attraction may also be configured to track the user and/or ride vehicle via determining vicinity of the user and/or ride vehicle at a known location. Various rewards and/or features may be enabled based upon successful manipulation and/or user position. The attraction may include one or more illuminating features. Statistics or other information may be determined, stored, and/or provided (e.g., using mobile applications and/or scoreboards) relating to user performance.

The present invention relates to a method for operating a ride (1) on a terrain (10) having at least one vehicle (20), the at least one vehicle (20) having a drive device (22), at least one passenger receptacle (21) for at least one passenger (5), and a store (24) that can be filled with projectiles (15), the method being characterized in that the at least one vehicle (20) is moved on the terrain by means of the relevant drive device (22) and in that at least one projectile (15) can be removed from the store (24) can be fired at the instigation of the at least one passenger (5). In addition, the present invention relates to a ride (1).

The present invention relates to a locking device (1) for a safety bar (8), comprising a fluid channel (10) having a magneto-rheological fluid (11), a movable locking element (40) and a magnet device (30), wherein the locking element (40) is coupled to the safety bar (8) and forces the fluid (11) through the fluid channel (10) when the safety bar (8) moves, wherein the fluid channel (10) has at least one channel portion (20), and wherein the magnet device (30) is arranged at least on opposing side walls (21) of the channel portion (20) in such a manner that the field lines (31) of the magnetic field of the magnet device (30) can pass through the channel portion (20). The present invention further relates to a passenger accommodation having a safety bar (8) and a locking device (1) and an amusement ride having a locking device (1) according to the invention.

A wave generating apparatus mobile application controller and method are provided in which a mobile controller actuates a plurality of wave generating chambers in sequence using a delay between the actuation of each chamber to produce a rideable wave in a pool. The mobile application controller allows the user to select the exact type of wave to be produced by the wave generator apparatus by selecting the size, shape, and pattern of the wave. The application also allows the user to use a camera to photograph or record herself or someone else, even while riding a wave.

A ride system includes a flume providing a flow path of a water ride and configured to accommodate a buoyant ride vehicle. The ride system also includes a support element extending into the flow path and at least partially submerged within the flow path. Moreover, the ride system includes a driving mechanism configured to actuate the support element such that the support element moves relative to the flow path in response to a control signal. The support element is configured to contact the buoyant ride vehicle to control movement of the buoyant ride vehicle along the flow path while the support element is being actuated. Further, the ride system includes a controller configured to generate the control signal based at least in part on a location of the buoyant ride vehicle in the flow path and a timer controlling activation of a show element.