There is provided a resin film for bonding glass plate members with which, when bonded to a glass plate, breakage of the resulting glass plate-containing laminate due to impact can be suppressed. The resin film for bonding glass plate members according to the present invention is a resin film bonded to a glass plate to be used and includes a thermoplastic resin and a plasticizer, and the tensile elongation at 25° C. under a stress load of 50 N is 120 mm or more in a tensile test in accordance with JIS K7113.

A vehicle airbag system includes an airbag having a cushioning surface configured to be contacted by a user to cushion the user after inflation of the airbag. The airbag also includes at least one cushioning surface positioning vent coupled to the cushioning surface. The at least one cushioning surface positioning vent is actuatable to direct a flow of gas exiting an interior of the airbag so as to produce a reaction force which moves the cushioning surface in a predetermined direction.

A vehicle airbag system includes an airbag having a cushioning surface configured to be contacted by a user to cushion the user after inflation of the airbag. The airbag also includes at least one cushioning surface positioning vent coupled to the cushioning surface. The at least one cushioning surface positioning vent is actuatable to direct a flow of gas exiting an interior of the airbag so as to produce a reaction force which moves the cushioning surface in a predetermined direction.

An impact energy management system for a vehicle includes an impact energy absorbing structure to absorb energy from an impact with an external object, and an energy management structure to manage energy from an impact with an internal displaceable object (e.g., a motor or steering rack) with one or more protected objects (e.g., a passenger compartment or battery). The energy management structure may include one or more swingarms or other members configured to protect the protected object from impact by directing the displaceable object down and/or away from the protected object during a collision.

An impact energy management system for a vehicle includes an impact energy absorbing structure to absorb energy from an impact with an external object, and an energy management structure to manage energy from an impact with an internal displaceable object (e.g., a motor or steering rack) with one or more protected objects (e.g., a passenger compartment or battery). The energy management structure may include one or more swingarms or other members configured to protect the protected object from impact by directing the displaceable object down and/or away from the protected object during a collision.

An ignition lock for a motor vehicle includes a locking cylinder, which in the presence of a suitable key can be shifted along a path including a punctual directional change between a driving position and a stationary position. In the driving position the ignition lock allows operation of an engine of the motor vehicle. In the stationary position operation of the engine is blocked. An indicating device is controlled by a switch operable by the locking cylinder at the point of directional change.

An ignition lock for a motor vehicle includes a locking cylinder, which in the presence of a suitable key can be shifted along a path including a punctual directional change between a driving position and a stationary position. In the driving position the ignition lock allows operation of an engine of the motor vehicle. In the stationary position operation of the engine is blocked. An indicating device is controlled by a switch operable by the locking cylinder at the point of directional change.

A partition for a vehicle is described. The partition separates the cargo area of the vehicle from the cab area of the vehicle. The partition may extend from floor to roof and from one side of the vehicle to the other side of the vehicle. The partition has a window so that the driver can see into the cargo portion. The window is positioned to ensure the driver can see through it in a variety of conditions.

A motor vehicle includes a frame, a first pair of wheels connected to the frame, a second pair of wheels connected to the frame, a motor supported by the frame and operatively connected to at least one of the pair of wheels, a cockpit in the frame, a first seat disposed in the cockpit, a bed in the frame longitudinally rearward of the cockpit, the bed having at least one side wall, a second seat disposed in the bed, the second seat having a seat base and a seat back, the seat back being foldable between a storage position and a seating position, and a lateral retention member fixed to the at least one side wall of the bed, at least a portion of the lateral retention member being disposed higher than the seat base and forward of the seat back of the second seat when in the seating position.

A vehicle for use in an amusement park ride with upright passenger seating. The vehicle includes a vehicle body and a seat assembly including a seat pan provided in the vehicle body between a front end and a rear end of the vehicle body. The vehicle further includes a passenger restraint system with: (a) a lap bar assembly; (b) a lap bar mount pivotally supporting the lap bar assembly within the vehicle body to pivot about a lap bar rotation axis passing between the seat pan and the front end of the vehicle body; (c) a side leg shield; and (d) a shield articulating assembly concurrently pivoting the side leg shield about a shield rotation axis from an open to a closed position with a pivoting of the lap bar assembly about the lap bar rotation axis from a disengage to an engaged position.