A washer nozzle arrangement structure includes a rear spoiler, a wiper arm, a wiper blade and a washer nozzle. The rear spoiler is arranged on a portion of a body above a rear window and includes a recess part formed on a side of the rear window. A rotation center axis disposed on one end side of the wiper arm is supported on the vehicle. The wiper blade is supported on the other end side of the wiper arm, and is configured to be stored in the recess part when the wiper arm is in a stop position. The washer nozzle is configured to eject a washer liquid toward the rear window. The washer nozzle is arranged in an inside of a portion of the recess part which exists on a front side of the vehicle than the rotation center axis of the wiper blade.

One general aspect includes a system having one or more heat pads installed at a vehicle, the one or more heat pads configured to provide infrared energy transmissions to a vehicle component to defrost, defog, or both defrost and defog a surface of the vehicle component. The system may also carry out the following steps: (a) determining that ice or fog or both ice and fog has accumulated on the surface of the vehicle component; and (b) based on the determination made in step (a), activating the one or more heat pads to defrost, defog, or both defrost and defog a surface of the vehicle component.

One general aspect includes a system having one or more heat pads installed at a vehicle, the one or more heat pads configured to provide infrared energy transmissions to a vehicle component to defrost, defog, or both defrost and defog a surface of the vehicle component. The system may also carry out the following steps: (a) determining that ice or fog or both ice and fog has accumulated on the surface of the vehicle component; and (b) based on the determination made in step (a), activating the one or more heat pads to defrost, defog, or both defrost and defog a surface of the vehicle component.

An imaging device images rearward of a vehicle through a windshield from inside a cabin of the vehicle, and a vehicle washing device includes a wiping device and a controller. The wiping device is capable of reciprocatingly wiping a predetermined range of the windshield. The predetermined range of the windshield includes an imaging range for the imaging device. The controller switches operation of the wiping device to one of a first mode or a second mode in accordance with an input. In the first mode, the wiping device wipes the predetermined range of the windshield. In the second mode, the wiping device wipes the imaging range of the windshield preferentially compared to the first mode.

A method for producing a vehicle rear module that includes: a clear member monolithically including a lamp section and a window section; and a colored member for shielding at least part of a vehicle interior from the exterior. The method for producing the vehicle rear module comprises: a step for injecting a transparent resin from a single resin injection hole into a first cavity to form the clear member; and a step for injecting a colored resin from a plurality of resin injection holes into a second cavity to form the colored member.

A camera lens includes a cover adapted to at least partially enclose at least one camera having at least one camera lens, drive means adapted to rotationally move the cover relative to the camera, and a housing adapted to hold the cover and the drive means, where the housing at least partially encloses the cover and includes at least one opening for allowing electromagnetic radiation to pass through the cover to the lens. A rear view display for a vehicle includes such a cleaning system, and a vehicle includes such a rear view display.

A vehicular pillar structure including: a first front pillar garnish, a first pillar being extended substantially along a vehicle vertical direction; a second front pillar garnish and a second pillar being extended substantially along the vehicle vertical direction, a transparent member that is bridged between the first pillar and the second pillar; an extended portion that is provided on the vehicle interior side and on a vehicle upper side of the transparent member, is formed in a plate shape whose plate thickness direction is a substantially vehicle width direction, and is extended from an upper end portion of the second front pillar garnish to an upper end portion of the first front pillar garnish; and an upper lid member provided to cover a space between a lower end portion of the extended portion and the transparent member, and is configured as a separate body from the second front pillar garnish.

An extraneous-matter removing apparatus according to an embodiment includes a connector, a detector, and a removal unit. The connector is connected with a branch wire branching from a camera wire. The camera wire transmits a start-up signal for starting up a camera provided outside of a vehicle. The detector detects the start-up signal flowing through the branch wire connected with the connector. The removal unit performs, when the detector detects the start-up signal, a removing operation of an extraneous matter attached to the camera.

A vehicle is provided that includes a wiper-integrated tailgate handle switch mounted to a window glass of a tailgate. The wiper-integrated tailgate handle switch includes a tailgate handle switch, which is configured to press a current carrying switch arranged in the internal space thereof using the height of an insertion space defined by a difference in height between transverse and longitudinal bodies of a handle switch housing, and a wiper. Therefore, a degree of freedom in design of the tailgate is increased which improves the aesthetic of the tailgate by removing the tailgate handle switch from the tailgate.

To provide a vehicle window glass which is not susceptible to cracks, and a method for manufacturing the vehicle window glass. A vehicle window glass 1 of the present invention is provided with: a glass plate 11; a color ceramic layer 12, which is formed on the surface of the glass plate 11, and has a thickness more than 10 m but equal to or less than 25 m; and an electrically conductive layer 13, which is formed on the surface of the color ceramic layer 12, and has silver as a main component. The electrically conductive layer 13 and a terminal electrically connected to the electrically conductive layer 13 are connected to each other using a lead-free solder 14. In the vehicle window glass 1 of the present invention, since the thickness of the color ceramic layer 12 is more than 10 m, the glass plate 1 is not susceptible to cracks.