| Patent application number | Description | Published |
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| 20100109215 | DYNAMIC DISPLACEMENT ENERGY MANAGEMENT DEVICE - A dynamic energy management restraint anchor device interfaces with a child seat in a vehicle, engaging common child seat attachment clip features. A device restraint anchor is operable to dynamically extract and permit distortion of load bearing deformable member(s) in order to manage the displacement of, and load transferred through, an anchor connected to a child seat. The device may be further operable to limit or prevent restraint anchor displacement and the distortion of said deformable member(s) under quasi-static load conditions in order to meet motor vehicle static load/displacement anchorage performance requirements applicable to certain anchors. Anchor retraction capability and various interlocking configurations for securing the position of an anchor, before or after having extracted, may be incorporated relative to the energy management device interfacing with both a vehicle and a child seat. An indicator may further be provided to identify the functional state of the restraint device. | 05-06-2010 |
| 20100109217 | DYNAMIC DISPLACEMENT ANCHORAGE ENERGY MANAGEMENT DEVICE - A dynamic energy management restraint anchor device interfaces with a child seat in a vehicle, engaging common child seat attachment clip features. A device restraint anchor is operable to dynamically extract and permit distortion of load bearing deformable member(s) in order to manage the displacement of, and load transferred through, an anchor connected to a child seat. The device may be further operable to limit or prevent restraint anchor displacement and the distortion of said deformable member(s) under quasi-static load conditions in order to meet motor vehicle static load/displacement anchorage performance requirements applicable to certain anchors. Anchor retraction capability and various interlocking configurations for securing the position of an anchor, before or after having extracted, may be incorporated relative to the energy management device interfacing with both a vehicle and a child seat. An indicator may further be provided to identify the functional state of the restraint device. | 05-06-2010 |
| 20100109395 | DYNAMIC DISPLACEMENT ENERGY MANAGEMENT DEVICE - A dynamic energy management restraint anchor device interfaces with a child seat in a vehicle, engaging common child seat attachment clip features. A device restraint anchor is operable to dynamically extract and permit distortion of load bearing deformable member(s) in order to manage the displacement of, and load transferred through, an anchor connected to a child seat. The device may be further operable to limit or prevent restraint anchor displacement and the distortion of said deformable member(s) under quasi-static load conditions in order to meet motor vehicle static load/displacement anchorage performance requirements applicable to certain anchors. Anchor retraction capability and various interlocking configurations for securing the position of an anchor, before or after having extracted, may be incorporated relative to the energy management device interfacing with both a vehicle and a child seat. An indicator may further be provided to identify the functional state of the restraint device. | 05-06-2010 |
| Patent application number | Description | Published |
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| 20090134659 | COLLAPSIBLE DOOR PANEL SUPPORT STRUCTURES AND METHODS OF ASSEMBLY - A collapsible door support structure includes a pre-defined bend or local stiffening feature. The collapsible structure is either be incorporated into the door handle or is incorporated into a bracket that is either attached to the door handle or to the door pull cup. If in the form of a bracket, at least one end of the bracket is attached to the door inner sheet metal. The other end of the bracket may be attached to the door handle or to the door trim panel. If used as a door pull cup support bracket a portion of the bracket is fixed to the bracket. In the event of an impact upon the vehicle door, the door inner sheet metal panel is pushed horizontally in a direction that is vehicle inward. The collapsible feature of the structure formed between the door inner sheet metal and the door trim panel causes the horizontal movement to be translated into vertical or upward movement and transmitting the energy away from the vehicle occupant, thus avoiding the door trim panel from being pushed inward into the passenger area of the vehicle. | 05-28-2009 |
| 20090134660 | SIDE IMPACT DOOR TRIM BUCKLE INITIATOR DESIGN IN ARMREST AND GRAB HANDLE REGION - A side impact door trim buckle initiator design is provided in a vehicle armrest and grab handle region. The disclosed support structure design induces buckling in the door handle supports while continuing to provide acceptable durability and strength. Two modifications to the door armrest and grab handle structures are made. First, an angled section is added to the material flow strap of the armrest supporting structure to promote buckling. This approach overcomes the difficulty of known material flow straps which tend to be horizontal, thus introducing a strong compressive load path. By adding an angle to the flow straps the vertical motion is forced upon a lateral impact. Second, vertical components of the door handle support structure are removed while a buckle initiator in the door handle support is added. | 05-28-2009 |
| 20090256391 | DOOR TRIM-INTEGRATED PELVIC IMPACT ENERGY-ABSORBING CONSTRUCTION FOR VEHICLE - An integrated door substrate and pelvic bolster is provided for use in a vehicle. The integrated component is formed from a polymerizable material by injection molding. The pelvic bolster is formed from thin lateral walls that buckle and tear under compressive loading. The pelvic bolster is designed to bend but not fracture under load, thus maintaining a continuous loading curve. | 10-15-2009 |
| 20090284041 | INTEGRAL PELVIC IMPACT ENERGY-ABSORBING PRE-CRUSH PROTECTIVE CONSTRUCTION FOR VEHICLE DOOR - A door trim substrate having a construction which includes, in combination, an energy-absorbing pre-crush protective portion and a pelvic bolster portion is provided for use in a vehicle. The pre-crush protective portion is configured so as to protect the pelvic bolster portion from pre-crush in a vehicle side-impact event. The pre-crush portion is defined by a rib cassette structure which is preferably integrally molded into the door trim substrate below the pelvic bolster portion. | 11-19-2009 |
| 20100109394 | DYNAMIC DISPLACEMENT ENERGY MANAGEMENT DEVICE - A dynamic energy management restraint anchor device interfaces with a child seat in a vehicle, engaging common child seat attachment clip features. A device restraint anchor is operable to dynamically extract and permit distortion of load bearing deformable member(s) in order to manage the displacement of, and load transferred through, an anchor connected to a child seat. The device may be further operable to limit or prevent restraint anchor displacement and the distortion of said deformable member(s) under quasi-static load conditions in order to meet motor vehicle static load/displacement anchorage performance requirements applicable to certain anchors. Anchor retraction capability and various interlocking configurations for securing the position of an anchor, before or after having extracted, may be incorporated relative to the energy management device interfacing with both a vehicle and a child seat. An indicator may further be provided to identify the functional state of the restraint device. | 05-06-2010 |
