The present invention relates to a crash pad for vehicles and a method for preparing the same, and more specifically, a crash pad for vehicles comprising a skin layer forming the outer surface of the crash pad provided with an air-bag module for vehicles; a foaming layer in intimate contact with the lower surface of the skin layer; and a core layer in intimate contact with the lower surface of the foaming layer to form an inner surface, wherein the skin layer has a tensile strength of about 10 to about 100 kgf/cm.sup.2 and an elongation at break of about 50 to about 600% according to JIS K6301 method when it has a layer thickness of about 0.2 mm to about 1.0 mm.

The present invention relates to a crash pad for vehicles and a method for preparing the same, and more specifically, a crash pad for vehicles comprising a skin layer forming the outer surface of the crash pad provided with an air-bag module for vehicles; a foaming layer in intimate contact with the lower surface of the skin layer; and a core layer in intimate contact with the lower surface of the foaming layer to form an inner surface, wherein the skin layer has a tensile strength of about 10 to about 100 kgf/cm.sup.2 and an elongation at break of about 50 to about 600% according to JIS K6301 method when it has a layer thickness of about 0.2 mm to about 1.0 mm.

A multi-tiered recoiling energy absorbing system has an upper impact surface that is exposed to percussive impact. At least one energy absorbing layer is positioned below or inside the upper impact surface. The energy absorbing layer includes one or more energy absorbing modules. At least some of the modules are provided with one or more energy absorbing units that extend from an upper platform. Several of the energy absorbing units are provided with a flexible wall that extends from the upper platform. A lateral reinforcement member secures the energy absorbing units to prevent them from splaying. The energy absorbing units at least partially absorb energy generated by an impacting object due to the flexible wall bending inwardly or outwardly and recoiling nondestructively after single or multiple impacts to its un-deflected configuration.

A multi-tiered recoiling energy absorbing system has an upper impact surface that is exposed to percussive impact. At least one energy absorbing layer is positioned below or inside the upper impact surface. The energy absorbing layer includes one or more energy absorbing modules. At least some of the modules are provided with one or more energy absorbing units that extend from an upper platform. Several of the energy absorbing units are provided with a flexible wall that extends from the upper platform. A lateral reinforcement member secures the energy absorbing units to prevent them from splaying. The energy absorbing units at least partially absorb energy generated by an impacting object due to the flexible wall bending inwardly or outwardly and recoiling nondestructively after single or multiple impacts to its un-deflected configuration.

A motor vehicle armrest includes an armrest body that is disposed on at least one side in a vehicle-width direction of a seat cushion so as to support of an arm of an occupant. The armrest body has an inflation portion that is inflated toward the occupant in the vehicle-width direction so as to support the occupant in the vehicle-width direction.

A motor vehicle armrest includes an armrest body that is disposed on at least one side in a vehicle-width direction of a seat cushion so as to support of an arm of an occupant. The armrest body has an inflation portion that is inflated toward the occupant in the vehicle-width direction so as to support the occupant in the vehicle-width direction.

An active bolster for a vehicle is provided, wherein the bolster comprises an expansible hollow interior that is inflatable and is self-supporting in both an inflated and in an uninflated position. The bolster has an inflator module for inflating the expansible hollow interior. The bolster has an inner wall for projecting inwardly into the vehicle and away from the side of the vehicle on inflation of the expansible hollow interior. The bolster may have a relatively non-expansible component located between a first expansible chamber and a second expansible chamber. The bolster may comprise an outer wall having an attachment portion for attaching the outer wall to a portion of the side of the vehicle.

A top for a convertible vehicle, the top having a top linkage displaceable between a cover and storage position, and which may have a front bow forming a front edge of the top when the top is in the cover position and accommodating a front lock by which the front bow can be fastened to a front header of the vehicle when the top is in the cover position, and the top having a headliner, the front bow having an upper bow shell to which a drive of the front lock is attached and whose upper side is covered by a top cover. The front bow may have a lower bow shell extending at least largely across the width of the front bow in the transverse direction of the top and whose underside is fully covered by the headliner and defines the shape of the headliner with its entire surface.

A top for a convertible vehicle, the top having a top linkage displaceable between a cover and storage position, and which may have a front bow forming a front edge of the top when the top is in the cover position and accommodating a front lock by which the front bow can be fastened to a front header of the vehicle when the top is in the cover position, and the top having a headliner, the front bow having an upper bow shell to which a drive of the front lock is attached and whose upper side is covered by a top cover. The front bow may have a lower bow shell extending at least largely across the width of the front bow in the transverse direction of the top and whose underside is fully covered by the headliner and defines the shape of the headliner with its entire surface.

The disclosure of the present invention relates to a safety automobile having a releasable passenger pod connected to the vehicle chassis with a counter-impact retention system that is configured to reduce perceived impact and to move the passenger pod away from the impact zone of a crash.