A holder device for a rear-view and/or display device of a motor vehicle having at least one holder plate fixed to a panel or plate-like object, and having at least one securing foot, which is or can be detachably arranged on the holder plate wherein by at least one retaining means fixed to the securing foot or at least partially surrounding the securing foot, which is or can be fixed to a vehicle component spaced apart from the holder plate, which limits a movement of the securing foot in a state in which it is at least partially detached from the holder plate in form fitting and/or force-locking manner.

A rear-facing occupant protection device is provided. The rear-facing occupant protection device is applied to a vehicle in which a seatback of a front seat is mounted in a rear-facing state in which a back surface of the seatback faces a vehicle-body-side vertical wall portion disposed at a front end of a vehicle cabin, or mounted such that the seat back is capable of taking the rear-facing state. The rear-facing occupant protection device includes: an energy absorbing portion disposed on at least one of a back surface of a seatback pad of the seatback and a rear surface of the vehicle-body-side vertical wall portion, the energy absorbing portion being configured to be deformed so as to absorb energy at a time of a frontal collision of the vehicle.

A rear-facing occupant protection device is provided. The rear-facing occupant protection device is applied to a vehicle in which a seatback of a front seat is mounted in a rear-facing state in which a back surface of the seatback faces a vehicle-body-side vertical wall portion disposed at a front end of a vehicle cabin, or mounted such that the seat back is capable of taking the rear-facing state. The rear-facing occupant protection device includes: an energy absorbing portion disposed on at least one of a back surface of a seatback pad of the seatback and a rear surface of the vehicle-body-side vertical wall portion, the energy absorbing portion being configured to be deformed so as to absorb energy at a time of a frontal collision of the vehicle.

A device for receiving a display/operating panel and positioning the display/operating panel in a vehicle structure. The device may include at least one guide, that can bear on a corresponding receiver in the vehicle structure, characterized in that the guide includes both guide elements as well as deformation elements.

The present invention relates to a transport system with a fleet of self-driving vehicles for transporting persons and/or parcels within a delimited area, a self-driving vehicle for use within such a transport system and a control method of a transport system with a fleet of self-driving vehicles. In order to create a transport system that facilitates low-cost and individual mobility for persons and/or parcels in city traffic in particular, a vehicle control system is proposed according to the invention with an onboard unit associated with the individual vehicle and a central computer, which is connected to all vehicles of the fleet, wherein the vehicle dynamics of an individual vehicle are regulated by the onboard unit and the navigation as well as the integration of an individual vehicle into the traffic is controlled both by the onboard unit and by the central computer.

The present invention relates to a transport system with a fleet of self-driving vehicles for transporting persons and/or parcels within a delimited area, a self-driving vehicle for use within such a transport system and a control method of a transport system with a fleet of self-driving vehicles. In order to create a transport system that facilitates low-cost and individual mobility for persons and/or parcels in city traffic in particular, a vehicle control system is proposed according to the invention with an onboard unit associated with the individual vehicle and a central computer, which is connected to all vehicles of the fleet, wherein the vehicle dynamics of an individual vehicle are regulated by the onboard unit and the navigation as well as the integration of an individual vehicle into the traffic is controlled both by the onboard unit and by the central computer.

A lateral shock absorber includes a protective fender and a locking mechanism. The protective fender is pivoted to a base of a child car safety seat and pivotally switchable between a folded state or an unfolded state relative to the child car safety seat. The locking mechanism is for selectively engaging with the protective fender to restrain the protective fender from switching to the unfolded state or disengaging from the protective fender to allow the protective fender to switch to the unfolded state when the protective fender is located in the folded state. The protective fender includes a driving block, a supporting block and a combining assembly. The driving block is pivoted to the base, and the supporting block is pivoted to the driving block and engages with the driving block by the combining assembly.

A lateral shock absorber includes a protective fender and a locking mechanism. The protective fender is pivoted to a base of a child car safety seat and pivotally switchable between a folded state or an unfolded state relative to the child car safety seat. The locking mechanism is for selectively engaging with the protective fender to restrain the protective fender from switching to the unfolded state or disengaging from the protective fender to allow the protective fender to switch to the unfolded state when the protective fender is located in the folded state. The protective fender includes a driving block, a supporting block and a combining assembly. The driving block is pivoted to the base, and the supporting block is pivoted to the driving block and engages with the driving block by the combining assembly.

A seat includes a seat bottom having an occupant support surface, a seatback connected to the seat bottom, the seatback having an occupant support side cooperating with the occupant support surface, and a rear side, and an energy absorbing feature including a rigid member connected to the rear side of the seatback. The rigid member is movable between a storage position adjacent the seatback, and a deployed position extending into a cargo space of a vehicle upon detection or occurrence of an impact event. In the deployed position, the rigid member is capable of interfacing with cargo, a cargo floor, or both, to reduce force imparted on and deflection of the seatback and deflect cargo from impacting the seatback.

A seat includes a seat bottom having an occupant support surface, a seatback connected to the seat bottom, the seatback having an occupant support side cooperating with the occupant support surface, and a rear side, and an energy absorbing feature including a rigid member connected to the rear side of the seatback. The rigid member is movable between a storage position adjacent the seatback, and a deployed position extending into a cargo space of a vehicle upon detection or occurrence of an impact event. In the deployed position, the rigid member is capable of interfacing with cargo, a cargo floor, or both, to reduce force imparted on and deflection of the seatback and deflect cargo from impacting the seatback.