A portable electronic device support assembly for a vehicle comprises a housing for placement, a link arm slidably coupled to the housing at a first end of the link arm, and a device support configured to receive a portable electronic device and rotatably coupled to the link arm at a second end of the link arm. The link arm and device support are movable between stowed and deployed positions. A latching mechanism configured to resist movement of the link arm in the deployed position, the latching mechanism comprising a latch movably coupled to the link arm. The latch is resiliently biased such that the latch engages a recess in the housing when the link arm is in the deployed position. An interaction between the device support and the latching mechanism retracts the latch from the recess as the device support rotates relative to the link arm when moving towards the stowed position.

A vehicle assembly includes a vehicle body including two roof rails spaced from one another. The vehicle assembly further includes a roof panel which is releasably attached to the vehicle body. The roof panel extends from one roof rail to the other roof rail. The roof panel defines a sensor window. An object-detection sensor is aligned with the sensor window.

An apparatus includes a housing including an aperture, a sensor in the housing and having a field of view received through the aperture, a seal sealing a gap between the sensor and the aperture, and a blower positioned to blow into the housing. The seal may be attached to the housing concentrically around the aperture.

A deployable electronic device holder is provided that includes sliding mechanism disposed within a slot in a panel in a vehicle, and a base pivotally coupled to the sliding mechanism and having a cradle configured to support a device. The sliding mechanism slides within the slot and the base pivots about at least one hinge downward to a use position to hold a portable electronic device.

This application provides a prompt method, applied to a portable device adsorbed on a magnetic holder. The method includes: a display of the portable device being off; and detecting, by the portable device, that a parameter related to a magnetic induction intensity deviates from a preset threshold range, lightening the display of the portable device when, before, or after outputting a voice prompt, and displaying, on the display, prompt information about moving the portable device. By using this method, a user can learn, in time, that the adsorption of the portable device on the magnetic holder is unstable, and move the portable device based on the prompt information, so that the portable device can be stably adsorbed on the magnetic holder, thereby effectively preventing the portable device from sliding down from the magnetic holder

A frame for a display device extends in a main plane. The frame includes a plurality of segments coupled to one another, including at least a first segment having at least one injection orifice allowing the injection of an optical adhesive. The plurality of segments defines an opening therebetween delimited by a plurality of inner edges facing each segment, including at least a first inner edge of the first segment. The first segment includes an injection channel having a first end and a second end. The first end is fluidly connected to the injection orifice, and the second end forms the first inner edge of the first segment.

The present disclosure provides a vehicle radar system capable of detecting the appearance of dangerous objects with higher reliability. Further, the present disclosure provides a vehicle radar system that can provide both safety and convenience of a driver by combining a radar sensor with a black box or a navigation device which is almost a necessity for vehicles. Accordingly, the present disclosure provides a vehicle radar system in which a radar sensor is installed in a vehicle to calculate the speed of the host vehicle during driving, detect an object appearing ahead of the vehicle, calculate a relative speed between the host vehicle and the object, link the radar sensor to a user device, such as a smartphone of the driver, or a navigation device through near-field communication and issue a warning through the user device or the navigation device depending on the distance to the appearing object.

An airbag module assembly for mounting to a steering wheel assembly has an airbag, a housing and a visual display unit. The housing has a chamber for stowing the airbag. The housing has an attachment for rigidly fixing to a steering wheel and a forward-facing opening of the chamber for receiving the airbag. The cover encloses the housing and stowed airbag. The housing is fixed to the steering wheel offset and positioned removed from a center region of the steering wheel spaced from a rim of the steering wheel. The airbag module is configured upon deployment to have the inflated airbag project outward over the rim toward an occupant.

A clamping bracket includes base casing, clamping mechanism, controlling mechanism, and anchor mechanism. Clamping mechanism includes first and second clamping members. Controlling mechanism includes a first sliding member being connected to the first clamping member and being slidingly connected to the base casing, and a transmission member being connected to the base casing. Through the transmission member's own movement, transmission member drives the first clamping member to move toward or away from the second clamping member. Anchor mechanism includes a first anchor member that connects to the transmission member and a second anchor member that connects to the base casing. The first anchor member is in an unlock state when separating from the second anchor member and in a lock state when engaging with the second anchor member. Anchor mechanism allows the variable distance between the first clamping member and the second clamping member for holding different mobile devices.

A deployable electronic device holder is provided that includes sliding mechanism disposed within a slot in a panel in a vehicle, and a base pivotally coupled to the sliding mechanism and having a cradle configured to support a device. The sliding mechanism slides within the slot and the base pivots about at least one hinge downward to a use position to hold a portable electronic device.