A button assembly for an exterior of a vehicle is disclosed. The button assembly is designed with improved water drainage properties. The button assembly includes a button switch and a bezel housing surrounding the button switch that is spaced apart from the button switch. A channel extends between the two components. In one example, the channel has a width of approximately 0.5 mm at one end. In another example, the channel is formed between two surfaces, and the outer surface is sloped relative to the button switch by approximately 15 degrees. Furthermore, in some examples, the channel has a height of approximately 3 mm. Each of these structural characteristics serves to significantly improve the assembly's overall drainage performance, which may be especially essential in colder climates.

A transmission structure of a rotary shaft of an electronic lock contains: a drive unit which includes a holding plate, a motor, a worm, and a driven wheel. The holding plate includes an externally threaded portion and a fixing orifice. The driven wheel includes an internally threaded orifice, two protrusions, two flat zones, two arcuate fringes, and a tooth section. The transmission unit includes a guide element, a movable element, a resilient element, a retainer, and an acting element. The guiding element has a central orifice, the movable element has a guiding orifice, and the acting element has a slidable post. The frame includes a defining orifice and is welded with the holding plate. The connection seat is received in the defining orifice and includes a retaining portion. After the connection seat is received in the defining orifice, the retaining portion is engaged with a fastening ring.

A door assist system for a vehicle is disclosed. The system comprises an actuator configured to control a position of the door about a hinge assembly. An interference sensor forms a portion of a door opening seal and is configured to detect an obstruction in a plurality of detection regions. The system further comprises a controller configured to control the actuator in response to a detection signal from the interference sensor.

A security door configured to provide controlled access through a doorway wherein the security door of the present invention includes all elements to offer a touch-less entry and further provide compliance with building codes and visual surveillance. The security door of the present invention includes a door member being hingedly mounted on a doorway. The door member includes an integrally mounted controller that is operably coupled to a communications network via a network module and communications cable. The controller is operably coupled to a card scanner module and a switch module that operate to provide verification of an individual and move the door member to an open position. The door member further includes an integrally mounted power supply and at least one camera module wherein the camera module is operable to capture photographic images. A light module and egress module are integrally mounted to the door member.

Disclosed is a device for opening/closing an opening element of a motor vehicle by detecting movement of a users limb, the device including an approach and/or contact detection sensor including a single electrode and an analyzer for analyzing the variations in capacitance of the electrode, and an opening element opening/closing control unit. The device also includes: a sealed housing including first and second metal surfaces; and a unit for detecting a predetermined form of the variations of the electrode, exhibiting a succession of a predetermined number of peaks of predetermined amplitude within a predetermined period; the first and second surface being separate, and the electrode being located outside the sealed housing, in such a way that the electrode is coupled electrically to the at least one first surface and to the at least one second surface so as to create at least two approach and/or contact detection areas.

A system for a vehicle having an accessory positioned along the vehicle. The system may also include a sensor located along the vehicle in wireless communication with the accessory, wherein the sensor triggers activation of the accessory based on input from an external source.

A capacitance sensor includes a switch control unit that performs a first switching process that turns on a first switch and then repeatedly performs a second switching process that complementarily switches off and on second and third switches that are respectively connected to second and third capacitors; an obtaining unit that calculates, as a sensor output value, a number of times the second switching process is repeated until a magnitude relationship reverses between an intermediate potential and a reference potential; a calculation unit that calculates a sensor output corrected value obtained by correcting the sensor output value such that a resolution becomes uniform; and a determination unit that determines whether a detection target exists from a magnitude relationship between a sensor output difference value and a determination threshold value.

The present disclosure provides a smart automated latch mechanism for opening a front trunk of a vehicle and a smart sensor array for detecting when the front trunk of the vehicle is at capacity. The system operates by having an electronic latch mechanism for the front trunk coupled with an infra-red sensor at the interface between the lid and the vehicle bonnet. When a change in temperature is detected in this space by the sensor, an electric motor causes the front trunk to open, removing the need for the user to actually touch the vehicle to open the front trunk. This system combines with a directional sensor array arranged inside the trunk which detects when an object is placed in front of it. The sensor array is arranged at a capacity height of the trunk, and thus allows for automated detection of when an object is in an inappropriate position, preventing damage to the vehicle from closing the front trunk lid on the object.

An animal door unit comprising a front panel, a left rear panel, a left guide, a right rear panel, and a right guide, wherein the front panel comprises an entrance; and a door plate having a plurality of guide holes, the door plate configurable in a retracted state and an open state, wherein, in the retracted state, the door plate traverses the entrance, and wherein, in the open state, the door plate does not traverse the entrance. The animal door unit may include a motor disposed within a module case; and a sprocket in rotational communication with the motor, wherein the sprocket interfaces with the plurality of guide holes, such rotational movement of the sprocket inducing linear movement in the door plate.

Multi-mode personal transportation and delivery devices and methods of use are disclosed herein. A method can include providing a preview of an opening height of a tailgate to a user, where the opening height is defined by a distance of liftgate that is measured relative to a ground plane, receiving feedback to adjust the opening height, creating a customized liftgate opening height from the feedback, and storing the customized liftgate opening height in a user account.