A connector for a sun visor includes a bracket attached to an attachment member, an arm portion which rotatably supports a sun-visor body arranged on one side of the attachment member and of which an end is rotatably inserted into the bracket, a housing fixed to the other side of the attachment member of the bracket and arranged near the end of the arm portion, a connector terminal accommodated in the housing and including a mating connection portion arranged on the other side of the attachment member and an arm-connection portion connected to the end of the arm portion, a fixing portion provided in the connector terminal, and fixing the connector terminal to the housing, and a pressing portion provided at a portion of the connector terminal which faces the bracket, abutting on the bracket, and pressing the connector terminal in an insertion direction of the fixing portion.

A lighting apparatus formed from a translucent cylindrical foam tube such as a white pool noodle that is soft, flexible, and resilient and has a flexible electrically powered internal illumination source such as an LED strip bearing multiple LEDs extending through its interior. The lighting apparatus is typically provided with electricity via a plug adapted for insertion into an automobile cigarette lighter socket, and is readily positioned along the interior edges of an automobile window for illumination of areas where window tint/film is being applied to the window. The lighting apparatus can also have a self-contained power source and be connected in series for added versatility and utility.

The invention relates to a vehicle (1), in particular an industrial vehicle, comprising: a cab (5), a sun visor (6) connected thereto, and at least one sensor unit (7a, 7b, 7c), wherein the sensor unit (7a, 7b, 7c) comprises a protecting element (9) that is pivotally and/or slidably connected to the sun visor (6) and a sensing element (8) connected to the protecting element (9), and wherein the protecting element (9) is movable between a first position, in which the sensing element (8) is positioned inside a housing (10) of the sun visor (6) and is hidden by the protecting element (9), and a second position, in which the sensing element (8) is positioned outside of the said housing (10).

A shading device for a vehicle, comprising a dimming glass plate capable of changing a light transmittance thereof, wherein the dimming glass plate is provided at a portion of a vehicular window glass to separate an interior of vehicular compartment from outside of the vehicular compartment or provided at a portion of a surface of the vehicular window glass that faces inside of the vehicular compartment; a display apparatus formed of a light transmitting material and disposed at a surface of the dimming glass plate that faces inside of the vehicular compartment, with a display portion facing inside the vehicular compartment; an image pickup device to capture an area outside of a vehicle to generate image pickup data, wherein the area is at an opposite surface on the dimming glass plate, the opposite surface being opposite a surface on which the display apparatus is provided; a data processing circuit to generate display image data to be displayed on the display portion based on the image pickup data generated by the image pickup device; and a switch to change light transmittance of the dimming glass plate.

A shading device for a vehicle, comprising a dimming glass plate capable of changing a light transmittance thereof, wherein the dimming glass plate is provided at a portion of a vehicular window glass to separate an interior of vehicular compartment from outside of the vehicular compartment or provided at a portion of a surface of the vehicular window glass that faces inside of the vehicular compartment; a display apparatus formed of a light transmitting material and disposed at a surface of the dimming glass plate that faces inside of the vehicular compartment, with a display portion facing inside the vehicular compartment; an image pickup device to capture an area outside of a vehicle to generate image pickup data, wherein the area is at an opposite surface on the dimming glass plate, the opposite surface being opposite a surface on which the display apparatus is provided; a data processing circuit to generate display image data to be displayed on the display portion based on the image pickup data generated by the image pickup device; and a switch to change light transmittance of the dimming glass plate.

A vehicle window vent is shaped and sized to fit in the opening left when the vehicle window is lowered or retracted. The vent fits in the opening, and its edges are captured by channels that hold the window when the window is closed. Along one edge, the vent comprises a channel, similar to the window-opening channel, so that the vent can accept an edge of the window. Thus, when the window is opened and then partially closed on the vent, the window and vent together are held securely in the window opening. The vent comprises louvered openings to allow air in and out of the vehicle. The openings may be covered with screen or mesh to prevent insects from entering the vehicle. Other features may be provided as well. An efficient method for manufacturing the vents is also described and claimed.

A sun visor according to an exemplary aspect of the present disclosure includes, among other things, a magnetic switch, and a vanity including a light. The light is configured to turn on and off when the magnetic switch is activated and deactivated. The sun visor further includes a vanity cover moveable between an open position and a closed position. Further, movement of the vanity cover relative to the vanity is configured to activate and deactivate the magnetic switch.

The invention refers to a light-transmissive plastic plate structure suitable for vehicle sunroof with curved surface and a method for fabricating the same. By using polymer material formulation, UV resistant coating formulation and precision coating technology, the wear resistance of polymer surface of plastic substrate can be improved to the same level as glass, and the original optical and physical properties after various environmental tests can also be maintained. The plastic substrate is first formed into a curved plastic plate through a hot pressing process, and then a connecting structure is formed and fixed on the plastic plate by an insert-molding injection process, in order to replace the traditional car sunroof mechanism which is assembled by glass plate bonded with metal connecting parts. The light-transmissive plastic plate structure with curved surface comprises a lightweight polymer sunroof and a lightweight plastic connecting structure fixed to the sunroof by insert-molding injection, which can reduce the weight of traditional glass sunroof, front and rear windshield, and side window glass assembly, and is particularly suitable for use in oil-electric hybrid vehicles and pure-electric vehicles that require lightweight specifications.

A method for providing a spatially perceptible acoustic signal for a rider of a two-wheeled vehicle, including: providing an acoustic signal by a two-wheeled vehicle; determining the position of a helmet worn by the rider of the two-wheeled vehicle relative to the two-wheeled vehicle; processing the acoustic signal depending on the determined position to provide a three-dimensional output signal which constitutes a binaural projection of the acoustic signal; and outputting the output signal via a stereo headset of the helmet, wherein the output signal spatially positions a sound source contained in the acoustic signal depending on the determined position, whereby the sound source is spatially locatable by the rider of the two-wheeled vehicle.

A system may have windows. Each window may have light guide structures. The light guide structures may be formed between inner and outer glass layers. Light sources may emit light into the light guide structures. The light guide structures may include light guide core layers that guide light from the light sources across the window. Light-scattering structures may be provided to extract light from the light guide core layers. Some of the guided light may be extracted inwardly to serve as interior illumination for the system. Some of the guided light may be extracted outwardly. The outwardly extracted light visually obscures the interior region from the outside of the system, thereby providing system occupants with privacy.