Abstract: There is provided a condenser state predicting device capable of recognizing operating condition-based state prediction information regarding the performance of a condenser and the thickness reduction of its tubes. A condenser state predicting device of an embodiment includes a display information generator configured to generate at least one of: first screen display information to display performance information indicating performance of a condenser, the performance of the condenser being predicted based on measurement information that is measured or input information that is input; and second screen display information to display residual thickness information indicating a residual ratio of the thickness of tubes of the condenser, the residual ratio being predicted based on the input information.

Abstract: The present disclosure is directed a thermoplastic energy absorbing headlamp mounting bracket comprising a frame having a proximal end and a distal end, and an energy absorbing member having a proximal end affixed to the proximal end of the frame, a distal end extending at least partially over the distal end of the frame, and an arcuate central portion extending between the distal end and the proximal end of the energy absorbing member. The proximal end of the energy absorbing member is configured to operably couple to a portion of the headlamp, and the frame is frictionally slidable in relation to the distal end of the energy absorbing member. Headlamps and vehicles comprising the energy absorbing headlamp mounting bracket are also disclosed.

Abstract: The present disclosure is directed a thermoplastic energy absorbing headlamp mounting bracket comprising a frame having a proximal end and a distal end, and an energy absorbing member having a proximal end affixed to the proximal end of the frame, a distal end extending at least partially over the distal end of the frame, and an arcuate central portion extending between the distal end and the proximal end of the energy absorbing member. The proximal end of the energy absorbing member is configured to operably couple to a portion of the headlamp, and the frame is frictionally slidable in relation to the distal end of the energy absorbing member. Headlamps and vehicles comprising the energy absorbing headlamp mounting bracket are also disclosed.

Abstract: In an embodiment, an impact device comprises: a metal component comprising greater than or equal to three walls forming a metal component channel; and a plastic component having a honeycomb structure with a plurality of walls defining comb channels therein. The combs channels are oriented perpendicular to at least one of the three walls, and the plastic component is inseparable from the metal component without damage to at least one of the metal component and the plastic component. A wall of the metal component can comprise an aperture, and wherein plastic material from the plastic component is located in the aperture.

Abstract: In an embodiment, an impact device comprises: a metal component comprising greater than or equal to three walls forming a metal component channel; and a plastic component having a honeycomb structure with a plurality of walls defining comb channels therein. The combs channels are oriented perpendicular to at least one of the three walls, and the plastic component is inseparable from the metal component without damage to at least one of the metal component and the plastic component. A wall of the metal component can comprise an aperture, and wherein plastic material from the plastic component is located in the aperture.

Abstract: In an embodiment, an energy absorbing device comprises: a metal component comprising greater than or equal to three walls forming a metal component channel; and a plastic component having a honeycomb structure with a plurality of walls defining comb channels therein. The plastic component is located in the metal component channel forming a crash can. The plastic component is inseparable from the metal component without damage to the metal component and/or the plastic component. In one embodiment, a method of making an energy absorbing device can comprise: co-molding the metal component and the plastic component to form a crash can. The energy absorbing device can be used on a vehicle, adjacent to a vehicle component.

Abstract: In an embodiment, an energy absorbing device comprises: a metal component comprising greater than or equal to three walls forming a metal component channel; and a plastic component having a honeycomb structure with a plurality of walls defining comb channels therein. The plastic component is located in the metal component channel forming a crash can. The plastic component is inseparable from the metal component without damage to the metal component and/or the plastic component. In one embodiment, a method of making an energy absorbing device can comprise: co-molding the metal component and the plastic component to form a crash can. The energy absorbing device can be used on a vehicle, adjacent to a vehicle component.

Abstract: The present invention provides for various embodiments of a tray energy absorber comprising a base, a first transverse wall that is arcuate and extends from the base, a second transverse wall spaced apart from the first transverse wall and which extends from the base. The tray energy absorber further comprises a plurality of ribs that extend from the base joining the first transverse wall to the second transverse wall. In one embodiment the density of the ribs varies along the transverse width of the tray energy absorber. In another embodiment at least one of the plurality of ribs is greater than 50% of the height of the first transverse wall or the second transverse wall where the rib joins the first and second transverse walls. The present invention also provides for a bumper system used in a vehicle that includes a tray energy absorber attached to a bumper beam. The bumper system optionally includes a fascia that substantially envelops the bumper beam and the tray energy absorber.

Abstract: Various embodiments of an energy absorber are included. In one embodiment, the energy observer includes a base, a top spaced apart from the base and a plurality of legs that extend from the top to the base and that are spatially arranged relative to one another with window openings interposed between them. In another embodiment, the interface of each of the plurality of legs that contact the top are vertically offset from the interface of each of the legs at the base. The present invention also provides for an energy absorber system that includes at least one energy absorber comprising at least one mating connector component that connects to another mating component of another energy absorber.

Abstract: The present invention provides for various embodiments of a tray energy absorber comprising a base, a first transverse wall that is arcuate and extends from the base, a second transverse wall spaced apart from the first transverse wall and which extends from the base. The tray energy absorber further comprises a plurality of ribs that extend from the base joining the first transverse wall to the second transverse wall. In one embodiment the density of the ribs varies along the transverse width of the tray energy absorber. In another embodiment at least one of the plurality of ribs is greater than 50% of the height of the first transverse wall or the second transverse wall where the rib joins the first and second transverse walls. The present invention also provides for a bumper system used in a vehicle that includes a tray energy absorber attached to a bumper beam. The bumper system optionally includes a fascia that substantially envelops the bumper beam and the tray energy absorber.

Abstract: A motor vehicle structure that includes a hidden airbag door and an integrated airbag chute. The structure may be selected from instrument panel assemblies, seat shields, airbag covers, pillar garnishes, side curtain shields, door trim, knee bolsters, or a combination of one or more of the foregoing structures. The structure is designed to include a retainer having a first surface and a second surface, a deployment chute, and a door portion defined by a tear seam notch in at least one of the first surface and the second surface of the retainer. The deployment chute is attached to and integrated with the retainer. Additionally, the deployment chute and the retainer are constructed and arranged from the same material. The motor vehicle structure may be made by integrally forming the deployment chute with the retainer and defining a door portion using a tear seam notch in at least one of the first surface and the second surface of the retainer.

Abstract: A bumper system for an automobile vehicle includes, in an exemplary embodiment, a first beam configured to attached to the vehicle and a first energy absorber coupled to the first beam. The first energy absorber is tunable for meeting predetermined criteria for both low speed and pedestrian impacts, and includes a plurality of tunable lobes. The lobes are tuned so that a stiffness of the first energy absorber varies from a center of the first energy absorber to each end.

Abstract: A bumper system for an automobile vehicle includes, in an exemplary embodiment, a first beam configured to attached to the vehicle and a first energy absorber coupled to the first beam. The first energy absorber is tunable for meeting predetermined criteria for both low speed and pedestrian impacts, and includes a plurality of tunable lobes. The lobes are tuned so that a stiffness of the first energy absorber varies from a center of the first energy absorber to each end.