A system for providing gamification of a destination such as a theme park where guests use a venue app with an optional electronic ticket that allows for both self-serve access into the destination and tracking of individual guests throughout various access points. An extended range ID such as an RFID is provided to the guest either in the electronic ticket or in a wearable. Using combinations of RFID readers, pressure sensors and cameras the system tracks guests down the ride seat and tracks the movements of guided, free-floating and free-ranging vehicles. Using the combination of guest and vehicle tracking information along with information provided by a destination gaming system, the destination guest experience is customized including various effects for rides and attractions. Spot cameras are placed at tracked locations such as rides seats, where images are captured in response to either external triggers generated by the system or guest indications.

Systems and methods presented herein include an evacuation deterrence system that includes a vehicle having a member configured to deter evacuation of passengers from the vehicle. The evacuation deterrence system also includes an evacuation deterrence device configured to latch onto the member of the vehicle. The evacuation deterrence device includes an elongated main body, a handle portion, a latch mechanism configured to latch onto the member of the vehicle, an actuation mechanism configured to actuate the latch mechanism, and a positioning mechanism configured to fix a first location of the elongated main body relative to the vehicle. The elongated main body is configured to be extended relative to the vehicle when the first location of the elongated main body is fixed relative to the vehicle via the positioning mechanism.

A gap covering system for an amusement park attraction includes a loading platform having a gap separating a first portion of the loading platform from a second portion of the loading platform. The gap covering system includes a ride vehicle coupled, through the gap, to a transport. The transport is configured to propel the ride vehicle along a loading path of the loading platform. The gap covering system includes a magnetic zipper positioned adjacent to the loading platform and configured to transition between a first configuration and a second configuration in at least a portion of the magnetic zipper. The magnetic zipper is configured to cover the gap in the first configuration and is configured to allow the ride vehicle to occupy a guest-accessible position on the loading platform in the second configuration.

A passenger restraint system of a vehicle includes a passenger restraint article with an interface, and a locking device that secures the interface. In some embodiments, the vehicle includes a vertical channel that enables the locking device to travel up and down. The locking device may include a camera that enables the locking device to align with the interface, and once aligned, the locking device secures the interface. In additional or alternative embodiments, the locking device includes two C-bars and a biasing element that urges the locking device into an open position. When the passenger sits or leans against the opened C-bars, the force caused by the interface on the C-bars overcomes the force applied by the biasing element, urging the C-bars into a closed position. The locking device is then secured by engaging a locking bar that pushes against a surface of the C-bars.

Present systems and methods are directed to an audio system integrated into a restraint system for an amusement park ride vehicle. Specifically, a system includes a restraining system for a ride vehicle of an amusement park. The system includes an audio system comprising a speaker and a microphone, wherein the audio system is positioned inside of the restraining system and configured to produce audio via the speaker in response to a received audio activation signal.

A passenger restraint device for amusement rides and a method for retaining at least one passenger by means of the restraint device. The device comprises at least one restraint element provided with at least one contact surface intended to be placed in contact with at least one part of the body of a passenger. The restraint element is movable between at least one open position, in which the restraint element is not in contact with the passenger and at least one closed position in which the restraint element is in contact with at least one part of the passenger's body. The restraint element comprises at least one sensor to detect a contact between the restraint element and at least one part of the body of the passenger, preferably a contact with a passenger's thighs.

The invention relates to a secondary bar securing device (3) of a safety bar (4) of an amusement ride, comprising: a primary securing device which keeps the safety bar (4) in an angular position that is adapted to the anatomy of the passenger during travel of the amusement ride, at least one first blocking element (21) and at least one second blocking element (22), wherein the at least one first blocking element (21) and the at least one second blocking element (22) are arranged at a distance (25) to each other, wherein, in the event of a malfunction of the primary securing device, the safety bar (4) can be moved in a tolerance opening angle, wherein the tolerance opening angle correlates to the distance (25) between the at least one first and the at least one second blocking element (21, 22), and, wherein, if the tolerance opening angle is exceeded, the at least one first blocking element (21) and the at least one second blocking element (22) block the safety bar (4).

A gap covering system for an amusement park attraction includes a loading platform having a gap separating a first portion of the loading platform from a second portion of the loading platform. The gap covering system includes a ride vehicle coupled, through the gap, to a transport. The transport is configured to propel the ride vehicle along a loading path of the loading platform. The gap covering system includes a magnetic zipper positioned adjacent to the loading platform and configured to transition between a first configuration and a second configuration in at least a portion of the magnetic zipper. The magnetic zipper is configured to cover the gap in the first configuration and is configured to allow the ride vehicle to occupy a guest-accessible position on the loading platform in the second configuration.

A gap blocking system includes a loading platform having a gap separating a first portion of the loading platform from a second portion of the loading platform. A ride vehicle is coupled to a transport extending through the gap. A guardrail assembly having a plurality of guardrail units is coupled to the first portion, where the guardrail units are configured to transition between a first position and a second position. The guardrail units are configured to block access to the gap when in the first position. The ride vehicle includes an engagement feature configured to interface with an individual guardrail unit of the guardrail units to selectively transition the individual guardrail unit from the first position to the second position. The individual guardrail unit is configured to permit the ride vehicle to occupy a guest-accessible position adjacent to or on the loading platform in the second position.

A gap blocking system includes a loading platform having a gap separating a first portion of the loading platform from a second portion of the loading platform. A ride vehicle is coupled to a transport extending through the gap. The gap blocking system also includes a panel assembly coupled to the loading platform and comprising a plurality of panels, wherein each panel of the plurality of panels is coupled to a respective biasing mechanism coupled to the first portion of the loading platform and configured to bias each panel towards a closed configuration in which each panel extends radially away from the first portion of the loading platform.