The invention relates to a passenger receptacle for an amusement ride (50), comprising a receiving portion (12) for receiving a passenger, a retaining device (20), which is adjustable between an open position, in which the access to the receiving portion (12) is possible for the passenger, and a closed position, in which the received passenger is held in the receiving portion (12), and a securing device (26), which interacts with the retaining device (20) in such a way that whenever the retaining device moves away, or wants to move away, from the closed position by a selectable degree, a further movement of the retaining device away from the closed position is blocked. The invention further relates to a method for operating such a passenger receptacle (10) and to an amusement ride (50) having such a passenger receptacle (10).

The invention relates to a passenger receptacle for an amusement ride (50), comprising a receiving portion (12) for receiving a passenger, a retaining device (20), which is adjustable between an open position, in which the access to the receiving portion (12) is possible for the passenger, and a closed position, in which the received passenger is held in the receiving portion (12), and a securing device (26), which interacts with the retaining device (20) in such a way that whenever the retaining device moves away, or wants to move away, from the closed position by a selectable degree, a further movement of the retaining device away from the closed position is blocked. The invention further relates to a method for operating such a passenger receptacle (10) and to an amusement ride (50) having such a passenger receptacle (10).

A motor vehicle (1) has a driver’s seat (8) which is assigned a safety belt (20) for a driver. The safety belt (20) here is held on a pivotable bracket (13). This bracket (13) is pivotable between a releasing position, which permits entry, and a restraining position, which protects the driver. The bracket (13) here is disposed in such a manner that said bracket (13) in the releasing position holds the safety belt (20) in a position in which the latter impedes the driver. In order to avoid any impediment of the driver in the restraining position of the bracket (13), the bracket (13) above the driver’s seat is elbowed away from the latter. (FIG. 3)

Quick Release Buckle (QRB) is an automated seatbelt system. QRB utilizes a power source and control unit software incorporated into pre-existing components within the vehicle's transmission or by micro-switch. QRB automatically disengages the seatbelt upon placing the vehicle in “park”, regardless of the ignition setting for law enforcement/military vehicles. While in “park”, an electrical signal energizes a solenoid releasing the buckle. The control unit contains proprietary software that records every engage/disengage of the seatbelt. Electronic records can be downloaded at any time, using an integrated micro-scan disk (SD) module/card. During a collision, the system ceases to record activity, showing electronic proof the seatbelt was engaged/disengaged. Civilian application includes accident investigations, insurance inquiries, and private company regulation compliance. Civilian QRB differs slightly as the transmission must be placed in “park” and the ignition must be in “off” for system operation.

Quick Release Buckle (QRB) is an automated seatbelt system. QRB utilizes a power source and control unit software incorporated into pre-existing components within the vehicle's transmission or by micro-switch. QRB automatically disengages the seatbelt upon placing the vehicle in “park”, regardless of the ignition setting for law enforcement/military vehicles. While in “park”, an electrical signal energizes a solenoid releasing the buckle. The control unit contains proprietary software that records every engage/disengage of the seatbelt. Electronic records can be downloaded at any time, using an integrated micro-scan disk (SD) module/card. During a collision, the system ceases to record activity, showing electronic proof the seatbelt was engaged/disengaged. Civilian application includes accident investigations, insurance inquiries, and private company regulation compliance. Civilian QRB differs slightly as the transmission must be placed in “park” and the ignition must be in “off” for system operation.

A vehicle safety system for helping to protect a vehicle occupant in the event of a frontal collision includes a controller, one or more crash sensors for sensing a frontal collision, and an active sensor for detecting objects in the path of the vehicle. The controller is configured to implement crash discrimination metrics that detect the occurrence of a frontal collision in response to signals received from the crash sensors. The crash discrimination metrics implement thresholds for determining whether the signals received from the crash sensors indicate the occurrence of a frontal collision. The controller is configured to implement an algorithm that uses information obtained from the active sensor to detect an object in the path of the vehicle and to select the thresholds implemented in the crash discrimination metrics in response to detecting the object.

A vehicle safety system for helping to protect a vehicle occupant in the event of a frontal collision includes a controller, one or more crash sensors for sensing a frontal collision, and an active sensor for detecting objects in the path of the vehicle. The controller is configured to implement crash discrimination metrics that detect the occurrence of a frontal collision in response to signals received from the crash sensors. The crash discrimination metrics implement thresholds for determining whether the signals received from the crash sensors indicate the occurrence of a frontal collision. The controller is configured to implement an algorithm that uses information obtained from the active sensor to detect an object in the path of the vehicle and to select the thresholds implemented in the crash discrimination metrics in response to detecting the object.

A passenger state modulation system for passenger vehicles is presented. The passenger state modulation system operates to predict events that will impact the passengers state (e.g., motion sickness) before they happen and use the prediction to implement preemptive interventions with active vehicle sub-systems.

A passenger state modulation system for passenger vehicles is presented. The passenger state modulation system operates to predict events that will impact the passengers state (e.g., motion sickness) before they happen and use the prediction to implement preemptive interventions with active vehicle sub-systems.

Quick Release Buckle (QRB) is an automated seatbelt system. QRB utilizes a power source and control unit software incorporated into pre-existing components within the vehicle's transmission or by micro-switch. QRB automatically disengages the seatbelt upon placing the vehicle in park, regardless of the ignition setting for law enforcement/military vehicles. While in park, an electrical signal energizes a solenoid releasing the buckle. The control unit contains proprietary software that records every engage/disengage of the seatbelt. Electronic records can be downloaded at any time, using an integrated micro-scan disk (SD) module/card. During a collision, the system ceases to record activity, showing electronic proof the seatbelt was engaged/disengaged. Civilian application includes accident investigations, insurance inquiries, and private company regulation compliance. Civilian QRB differs slightly as the transmission must be placed in park and the ignition must be in off for system operation.