A hotel or motel room incorporates special effects in accordance with a particular theme (e.g., haunted room). A control room provides a concealed area for personnel and/or automated systems to trigger the special effects which may include, but are limited to shaking, rattling, rumbling, pepper ghosts, water fixtures being activated, thunder and lightning, swapping tiles with digital graphics, turning on a TV, clock or light, etc. Heat sensors, weight sensors, floor mats and/or other sensors determine positions of guests in the hotel and hotel rooms thereby allowing the automatic or manual triggering of the special effects.

An artificial cave has various features that resemble speleothems (e.g., stalactites, stalagmites, etc.) found in real subterranean caves. Human users may pass through the artificial cave, with each user wearing a wearable transceiver that broadcasts a signal code unique to that user. Fixed transceivers throughout the cave can detect and identify any user who is sufficiently close to that fixed transceiver. Other components of the system collect user identification information from the fixed transceivers for any of several possible purposes (e.g., identifying which user was probably responsible for inappropriate interaction with a speleothem that is adjacent to a given fixed transceiver, where all of the various user of the cave are currently located in the cave, etc.). A count of users currently in the artificial cave passageway may be maintained and used for a number of purposes. Similarly, human detectors may be employed near the system and/or in the artificial cave passage for any of several different purposes.

An artificial cave has various features that resemble speleothems (e.g., stalactites, stalagmites, etc.) found in real subterranean caves. Human users may pass through the artificial cave, with each user wearing a wearable transceiver that broadcasts a signal code unique to that user. Fixed transceivers throughout the cave can detect and identify any user who is sufficiently close to that fixed transceiver. Other components of the system collect user identification information from the fixed transceivers for any of several possible purposes (e.g., identifying which user was probably responsible for inappropriate interaction with a speleothem that is adjacent to a given fixed transceiver, where all of the various user of the cave are currently located in the cave, etc.). A count of users currently in the artificial cave passageway may be maintained and used for a number of purposes. Similarly, human detectors may be employed near the system and/or in the artificial cave passage for any of several different purposes.

The present invention relates to amusement ride blocks that can be played with indoors and outdoors. The amusement ride blocks 100 are each formed to be penetrated in a length direction, provided with an entrance/exit, and assembled with one another or arranged in various shapes to make three-dimensional structures to make various amusement rides. The amusement ride blocks 100 are arranged vertically in combination with one another or arranged horizontally on a floor surface to provide various games. The amusement ride blocks 100 are combined and arranged in various shapes so that the amusement ride may be constructed by reflecting creative ideas of amusement ride installers and children who are main subjects of the game.

The present invention relates to amusement ride blocks that can be played with indoors and outdoors. The amusement ride blocks 100 are each formed to be penetrated in a length direction, provided with an entrance/exit, and assembled with one another or arranged in various shapes to make three-dimensional structures to make various amusement rides. The amusement ride blocks 100 are arranged vertically in combination with one another or arranged horizontally on a floor surface to provide various games. The amusement ride blocks 100 are combined and arranged in various shapes so that the amusement ride may be constructed by reflecting creative ideas of amusement ride installers and children who are main subjects of the game.

The present invention is directed to an apparatus for producing a water maze from walls of falling water that can be reconfigured to change the maze. In one embodiment, the apparatus is comprised of a plurality of spray bars that are each capable of producing a separate wall of falling water droplets and a plurality of water valves that are each associated with only one spray bar. The water valves can be used to define at least two different paths between the entrance and exit of the maze. The apparatus is also capable of being used to create interesting visual effects by projecting light/images on to multiple screens created by walls of falling water droplets.

The present invention is directed to an apparatus for producing a water maze from walls of falling water that can be reconfigured to change the maze. In one embodiment, the apparatus is comprised of a plurality of spray bars that are each capable of producing a separate wall of falling water droplets and a plurality of water valves that are each associated with only one spray bar. The water valves can be used to define at least two different paths between the entrance and exit of the maze. The apparatus is also capable of being used to create interesting visual effects by projecting light/images on to multiple screens created by walls of falling water droplets.

An immersive device may include a floor having a floor reflective surface. A first sidewall, having a first wall reflective surface, may be coupled to the floor. A second sidewall, having a second wall reflective surface, may be coupled to the floor and coupled to the first sidewall. A third sidewall, having a third wall reflective surface, may be coupled to the floor opposite the first sidewall and coupled to the second sidewall. A fourth sidewall, having a fourth wall reflective surface, may be coupled to the floor opposite the second sidewall and coupled to both the first sidewall and third sidewall. A ceiling, having a ceiling reflective surface, may be coupled to the first, second, third, and fourth sidewalls, and the ceiling may be positioned opposite to the floor. The floor reflective surface, wall reflective surfaces, and ceiling reflective surface may form the perimeter of and bound an internal reflective chamber.

A combination structure for a labyrinth includes a plurality of labyrinth units. Each of the labyrinth unit is composed of four frame supports and four connectors. Each frame support is in the form of a cylindrical pipe. Each of the connectors defines a plurality of mounting holes. Each of the frame supports can be fitted into one mounting hole of one connector, so that the frame supports can be releasably joined together by the connectors. As such, a labyrinth structure can be constructed or dismantled easily and quickly, the manufacturing cost of the components can be reduced significantly, and the components can be transported easily and quickly.

A combination structure for a labyrinth includes a plurality of labyrinth units. Each of the labyrinth unit is composed of four frame supports and four connectors. Each frame support is in the form of a cylindrical pipe. Each of the connectors defines a plurality of mounting holes. Each of the frame supports can be fitted into one mounting hole of one connector, so that the frame supports can be releasably joined together by the connectors. As such, a labyrinth structure can be constructed or dismantled easily and quickly, the manufacturing cost of the components can be reduced significantly, and the components can be transported easily and quickly.