A seat (1) for amusement rides comprising a seat portion (2) and a backrest (3) to accommodate at least one passenger, and in particular a disabled passenger, is described, characterized by comprising at least one footboard (11) and/or at least one leg rest element (12) configured in use to provide support respectively for at least one foot and at least one leg of the passenger. Preferably the seat comprises restraining means (20) configured to secure the foot and/or leg of said passenger to said at least one footboard (11) and/or to at least one leg rest element (12).

A seat (1) for amusement rides comprising a seat portion (2) and a backrest (3) to accommodate at least one passenger, and in particular a disabled passenger, is described, characterized by comprising at least one footboard (11) and/or at least one leg rest element (12) configured in use to provide support respectively for at least one foot and at least one leg of the passenger. Preferably the seat comprises restraining means (20) configured to secure the foot and/or leg of said passenger to said at least one footboard (11) and/or to at least one leg rest element (12).

A system for a tilting amusement ride installed in a supporting structure and intended to bring a rider from a standing vertical position, to a tilted position while the rider remains prone, the ride comprising: a tilting platform comprising at least one cell to accommodate a rider; at least one actuator attached at its extending end to the platform by a pivoting attachment, wherein the actuator extends to tilt the platform and retracts to retract the platform; at least one back post attached to the at least one actuator at its fixed end by a pivoting attachment and securely attached to the structure; and a supporting frame attached to the platform by a rotational pivot, wherein the platform tilts about the pivot and wherein the frame is securely attached to the structure; wherein the platform has an angle of tilt between 15 and 45 degrees.

A system for a tilting amusement ride installed in a supporting structure and intended to bring a rider from a standing vertical position, to a tilted position while the rider remains prone, the ride comprising: a tilting platform comprising at least one cell to accommodate a rider; at least one actuator attached at its extending end to the platform by a pivoting attachment, wherein the actuator extends to tilt the platform and retracts to retract the platform; at least one back post attached to the at least one actuator at its fixed end by a pivoting attachment and securely attached to the structure; and a supporting frame attached to the platform by a rotational pivot, wherein the platform tilts about the pivot and wherein the frame is securely attached to the structure; wherein the platform has an angle of tilt between 15 and 45 degrees.

A system in accordance with present embodiments includes an amusement park system having one or more hardware components and a controller. The controller includes a memory device having a game layer and a software layer stored thereon. The game layer includes game logic, and the software layer includes a game API communicatively coupled to the game layer, a wrapper API communicatively coupled to the game API, and multiple wrappers communicatively coupled to the wrapper API. The controller further includes a processor configured to execute instructions to cause the processor to receive a signal indicative of a change in the hardware components, and, based on the signal indicative of the change in the hardware components, communicate with the hardware components via a wrapper to receive an input from the hardware components, or drive operation of the hardware components.

A system in accordance with present embodiments includes an amusement park system having one or more hardware components and a controller. The controller includes a memory device having a game layer and a software layer stored thereon. The game layer includes game logic, and the software layer includes a game API communicatively coupled to the game layer, a wrapper API communicatively coupled to the game API, and multiple wrappers communicatively coupled to the wrapper API. The controller further includes a processor configured to execute instructions to cause the processor to receive a signal indicative of a change in the hardware components, and, based on the signal indicative of the change in the hardware components, communicate with the hardware components via a wrapper to receive an input from the hardware components, or drive operation of the hardware components.

The invention relates to a motion generator comprising an end effector which moves relative to a surface, the end effector being moved by at least six actuation mechanisms, in which each actuation mechanism comprises an elongate tensioned member connected at one of its ends to the end effector, whereby the end effector is suspended above the surface by the tensioned members, and at the other of its ends to an associated rocker of the same actuation mechanism, whereby the rocker is mounted to be pivotable about an axis which is fixed relative to the surface, and in which, when a rocker is actuated, the associated tensioned member and the end effector are moved. The invention also relates to motion systems and simulators comprising such motion generators, as well as to methods of operation and production.

The invention relates to a motion generator comprising an end effector which moves relative to a surface, the end effector being moved by at least six actuation mechanisms, in which each actuation mechanism comprises an elongate tensioned member connected at one of its ends to the end effector, whereby the end effector is suspended above the surface by the tensioned members, and at the other of its ends to an associated rocker of the same actuation mechanism, whereby the rocker is mounted to be pivotable about an axis which is fixed relative to the surface, and in which, when a rocker is actuated, the associated tensioned member and the end effector are moved. The invention also relates to motion systems and simulators comprising such motion generators, as well as to methods of operation and production.

A system includes a plurality of ride vehicle modules, where each of the plurality of ride vehicle modules includes an interlock system configured to perform linking operations to join to other ride vehicle modules to form a cluster and delinking operations to separate from the other ride vehicle modules throughout a ride, control circuitry configured to control the interlock system and movement of the respective ride vehicle module independently or as a part of the cluster, and communication circuitry configured to wirelessly communicate with the other ride vehicle modules internal and/or external to the cluster. The cluster may change sizes throughout the ride by performing linking and delinking operations as desired. A method for changing the size of clusters of ride vehicle modules throughout a ride is also disclosed.

A system includes a plurality of ride vehicle modules, where each of the plurality of ride vehicle modules includes an interlock system configured to perform linking operations to join to other ride vehicle modules to form a cluster and delinking operations to separate from the other ride vehicle modules throughout a ride, control circuitry configured to control the interlock system and movement of the respective ride vehicle module independently or as a part of the cluster, and communication circuitry configured to wirelessly communicate with the other ride vehicle modules internal and/or external to the cluster. The cluster may change sizes throughout the ride by performing linking and delinking operations as desired. A method for changing the size of clusters of ride vehicle modules throughout a ride is also disclosed.