A vehicle door includes an electrically-powered latch and a user input feature that can be actuated by a user to cause the electrically-powered latch to unlatch. An electrical energy storage device is operably connected to the electrically-powered latch, and a piezoelectric device is mounted to the door. The piezoelectric device can be manually actuated by a user to charge the electrical energy storage device, and electrical energy from the electrical energy storage device can be utilized to actuate the electrically-powered latch to thereby unlatch the latch. The user input feature may comprise a switch or sensor located adjacent a door handle/latch release on an inside and/or an outside of the vehicle door. The electrical energy storage device may comprise an emergency battery, capacitor, or other electrical device.

A vehicle door includes an electrically-powered latch and a user input feature that can be actuated by a user to cause the electrically-powered latch to unlatch. An electrical energy storage device is operably connected to the electrically-powered latch, and a piezoelectric device is mounted to the door. The piezoelectric device can be manually actuated by a user to charge the electrical energy storage device, and electrical energy from the electrical energy storage device can be utilized to actuate the electrically-powered latch to thereby unlatch the latch. The user input feature may comprise a switch or sensor located adjacent a door handle/latch release on an inside and/or an outside of the vehicle door. The electrical energy storage device may comprise an emergency battery, capacitor, or other electrical device.

Dual pivoting laterally translating hinges that attach between a stationary first substrate such as a vehicle body, and a rotating second substrate such as a vehicle door, and extend laterally when the second substrate is rotated. In some examples, the hinges include a knuckle and leadscrew mechanism that changes the hinge geometry when the second substrate is rotated, causing the leadscrew to rotate by either a set of gears or a rack and pinion. In some further examples, the hinges include a jackscrew that changes length as the second substrate is rotated, causing the hinge to extent laterally.

Dual pivoting laterally translating hinges that attach between a stationary first substrate such as a vehicle body, and a rotating second substrate such as a vehicle door, and extend laterally when the second substrate is rotated. In some examples, the hinges include a knuckle and leadscrew mechanism that changes the hinge geometry when the second substrate is rotated, causing the leadscrew to rotate by either a set of gears or a rack and pinion. In some further examples, the hinges include a jackscrew that changes length as the second substrate is rotated, causing the hinge to extent laterally.

A vehicle door apparatus includes: a moving object detector configured to detect a moving object approaching a door of a vehicle; a door opening operation detector configured to detect a door opening operation performed by an occupant in the vehicle; a door opening restriction unit configured to restrict opening of the door by the door opening operation when detecting approach of the moving object; and a door opening permission unit configured to permit opening of the door by the door opening operation when the door opening operation is detected a predetermined number of times in a state in which the opening of the door is restricted.

The invention relates to a detection device for detecting mechanical functional states of a motor vehicle lock, in which at least two binary signal outputs are provided which define a logical state of the detection device through the respective electrical potentials present there. It is proposed that the functional state of the motor vehicle lock is determined on the basis of the logical state of the signal outputs and of the electrical resistance between the predetermined signal outputs.

The invention relates to a detection device for detecting mechanical functional states of a motor vehicle lock, in which at least two binary signal outputs are provided which define a logical state of the detection device through the respective electrical potentials present there. It is proposed that the functional state of the motor vehicle lock is determined on the basis of the logical state of the signal outputs and of the electrical resistance between the predetermined signal outputs.

A drive control apparatus includes an opening-and-closing body. A first driver drives the opening-and-closing body in a closing direction. A second driver moves the opening-and-closing body from a half-latched position to a fully-latched position. A fully-latched detector detects that the opening-and-closing body has reached the fully-latched position. A stop detector detects whether a predetermined stopping condition has been satisfied for stopping the driving of the opening-and-closing body in the closing direction. A drive controller is configured to drive the opening-and-closing body via the first driver in the closing direction. Upon the fully-latched detector detecting that the opening-and-closing body has reached the fully-latched position, the second driver ends operation and the first driver continues to drive the opening-and-closing body in the closing direction until the stop detector detects that the predetermined stopping condition is satisfied.

A drive control apparatus includes an opening-and-closing body. A first driver drives the opening-and-closing body in a closing direction. A second driver moves the opening-and-closing body from a half-latched position to a fully-latched position. A fully-latched detector detects that the opening-and-closing body has reached the fully-latched position. A stop detector detects whether a predetermined stopping condition has been satisfied for stopping the driving of the opening-and-closing body in the closing direction. A drive controller is configured to drive the opening-and-closing body via the first driver in the closing direction. Upon the fully-latched detector detecting that the opening-and-closing body has reached the fully-latched position, the second driver ends operation and the first driver continues to drive the opening-and-closing body in the closing direction until the stop detector detects that the predetermined stopping condition is satisfied.

Provided is a sealing system that may include a frame having a generally ring shape with a body and a ledge extending from the body, and a ring shaped seal having a body with a finger extension extending therefrom and contacting the body of the frame.