A rotary actuator (1) for a door (2) or ramp comprises an electric motor (3), a reduction gear (4, 5) connected to a front portion (6) of a shaft (7) of the motor (3), an output shaft (8) connected to the reduction gear (4, 5), an automatic locking brake (9) connected to a rear portion (10) of the motor shaft (7) and a decoupler (11) connected between the rear portion (10) of the motor shaft (7) and the locking brake (9) and actuatable to decouple the motor shaft (7) from the locking brake (9).

A rotary actuator (1) for a door (2) or ramp comprises an electric motor (3), a reduction gear (4, 5) connected to a front portion (6) of a shaft (7) of the motor (3), an output shaft (8) connected to the reduction gear (4, 5), an automatic locking brake (9) connected to a rear portion (10) of the motor shaft (7) and a decoupler (11) connected between the rear portion (10) of the motor shaft (7) and the locking brake (9) and actuatable to decouple the motor shaft (7) from the locking brake (9).

An impact absorber to be mounted between a vehicular panel and a vehicular interior part covering the vehicular panel from a vehicular interior side includes an opposite wall to be opposite the vehicular panel, outer walls extending from edges of the opposite wall toward a vehicular interior side, and an extended wall extending from the opposite wall toward the vehicular interior side and having a side edge connected to the one outer wall, and the extended wall having a thickness that is increased from a vehicular interior end thereof toward a vehicular exterior end thereof, and the extended wall having a cutout hole that is open toward a vehicular exterior side.

Method and apparatus are disclosed for vehicle liftgate control for cargo management. An example vehicle includes a liftgate with a sensor on an inner surface and a processor. The liftgate provides access to a cargo area. The processor, when an object is in the cargo area, detect when the object is banked against the liftgate using measurements from the sensor, and when the object is banked and a command to open the liftgate is received, autonomously opens the liftgate to an intermediate position between fully open and fully closed.

Method and apparatus are disclosed for capacitive proximity sensors of vehicle doors. An example vehicle includes an outer surface layer, sheet metal for providing rigidity, a low dielectric layer, and a capacitive sensor. The capacitive sensor includes a receiving layer positioned between the outer surface layer and the low dielectric layer and the sheet metal that functions as a transmitting layer. The low dielectric layer separates the receiving layer and the sheet metal.

Method and apparatus are disclosed for capacitive proximity sensors of vehicle doors. An example vehicle includes an outer surface layer, sheet metal for providing rigidity, a low dielectric layer, and a capacitive sensor. The capacitive sensor includes a receiving layer positioned between the outer surface layer and the low dielectric layer and the sheet metal that functions as a transmitting layer. The low dielectric layer separates the receiving layer and the sheet metal.

The present invention relates to a vehicle latch device; a vehicle latch device (1) includes a switch plate (46), which is provided in a housing (23), and is able to conduct electricity to a motor (48) or another electrical component in the housing (23) other than the motor 48; and the switch plate (46) is formed separately from the housing (23) and formed by an electrically conductive plate being embedded in a synthetic resin 462 in a state where a portion thereof electrically conductive to the motor or electrical component and a connection terminal portion thereof to outside are exposed. The switch plate (46) is fixed in the housing 23 by engagement means 255, 256, 257, 464a, 465, and 467 that engage the synthetic resin 462 and the housing 23 with each other.

The present invention relates to a vehicle latch device; a vehicle latch device (1) includes a switch plate (46), which is provided in a housing (23), and is able to conduct electricity to a motor (48) or another electrical component in the housing (23) other than the motor 48; and the switch plate (46) is formed separately from the housing (23) and formed by an electrically conductive plate being embedded in a synthetic resin 462 in a state where a portion thereof electrically conductive to the motor or electrical component and a connection terminal portion thereof to outside are exposed. The switch plate (46) is fixed in the housing 23 by engagement means 255, 256, 257, 464a, 465, and 467 that engage the synthetic resin 462 and the housing 23 with each other.

Disclosed herein are embodiments of a reinforcement or brace that can be installed on the tailgate of a vehicle. The reinforcement can provide structural support for heavier mounted objects, such as tires, as well as allowing for different attachment points. Advantageously, the tailgate hinge does not need to be removed or replaced.

A vehicle door opening/closing device including a drive mechanism for driving the opening/closing of a door of a vehicle; a first detector and second detector for detecting the distance to an item to be detected which is positioned in a first detection range outside the vehicle or a second detection range which is closer than the first detection range; and a controller for controlling the drive mechanism, based on the detection results of the detectors. The controller prepares for the opening/closing of the door by the drive mechanism, by having the first and second detectors detect that an item to be detected has moved from the start area which is an area that overlaps the first detection range, to a trigger area which is an area that overlaps the second detection range, in the range of operation at a predetermined interval in the width direction of the vehicle.