Abstract: Anchor brackets/tethers may be used to reinforce a vehicle's resin rear door without substantially increasing the mass of the resin rear door. Such anchor brackets hold an interior trim panel(s) in place, and keep the interior trim panel(s) connected to the door structure or portion(s) thereof. The interior trim panel(s) can act as a protective interior shield that eliminates any exposure of the interior cabin/passenger compartment from any outer (and/or interior) door panel cracks/gaps that may be created during an adverse event. Moreover, conventional interior trim panels may, during a collision, break apart, the broken pieces becoming potentially dangerous projectiles. By being attached to the door structure and/or door componentry, the chance that the interior trim panel (or portions thereof) becoming a projectile is negated or at least lessened.

Abstract: A system for reducing the likelihood of a battery short during a collision of a vehicle includes a metallic structure coupled to a portion of the vehicle. The system further includes a battery located proximate to the metallic structure and having a positive terminal. The system further includes an insulator coupled to the metallic structure such that it is located between the metallic structure and the positive terminal of the battery and configured to resist contact between the metallic structure and the positive terminal of the battery in response to the collision of the vehicle.

Abstract: A spacer for vehicle panels can be shaped such that it absorbs a substantial portion of a first load, the first load applied in a first direction substantially perpendicular to the exterior panel; controllably deforms along a second direction when a second load is applied substantially along the second direction; wherein the second direction is other than the first direction. The spacer need not deform along the second direction when the first load is applied. The spacer can have a shaped member having a channel extending through the spacer perpendicular from the exterior panel, such that the spacer can controllably deform along a width of the channel.

Abstract: Anchor brackets/tethers may be used to reinforce a vehicle's resin rear door without substantially increasing the mass of the resin rear door. Such anchor brackets hold an interior trim panel(s) in place, and keep the interior trim panel(s) connected to the door structure or portion(s) thereof. The interior trim panel(s) can act as a protective interior shield that eliminates any exposure of the interior cabin/passenger compartment from any outer (and/or interior) door panel cracks/gaps that may be created during an adverse event. Moreover, conventional interior trim panels may, during a collision, break apart, the broken pieces becoming potentially dangerous projectiles. By being attached to the door structure and/or door componentry, the chance that the interior trim panel (or portions thereof) becoming a projectile is negated or at least lessened.

Abstract: A spacer for vehicle panels can be shaped such that it absorbs a substantial portion of a first load, the first load applied in a first direction substantially perpendicular to the exterior panel; controllably deforms along a second direction when a second load is applied substantially along the second direction; wherein the second direction is other than the first direction. The spacer need not deform along the second direction when the first load is applied. The spacer can have a shaped member having a channel extending through the spacer perpendicular from the exterior panel, such that the spacer can controllably deform along a width of the channel.

Abstract: A system for reducing the likelihood of a battery short during a collision of a vehicle includes a metallic structure coupled to a portion of the vehicle. The system further includes a battery located proximate to the metallic structure and having a positive terminal. The system further includes an insulator coupled to the metallic structure such that it is located between the metallic structure and the positive terminal of the battery and configured to resist contact between the metallic structure and the positive terminal of the battery in response to the collision of the vehicle.