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.

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.

A wiper (14) for wiping a window pane (12) of a motor vehicle is provided, having a drive shaft (16) that can be driven by a motor, and a wiper lever (18) connected to the drive shaft (16) for moving a wiper blade. The wiper lever (18) is flexibly bendable. A maximum bending angle (20) of the wiper lever (18) around a bending axis extending perpendicular to the drive shaft (16) is limited by a limit stop (32) to bending of the wiper lever (18) in the range of elastic deformation. The limit stop (32) makes stop contact at the maximum bending angle (20) and can keep the deformation of the wiper lever (18) reliably in the range of elastic deformation, thus reducing the risk of damage to wipers (14).

A wiper system for a vehicle includes: a glass wiper disposed on a window glass of a vehicle; a motor providing driving power to the glass wiper; a camera capturing images of surroundings of the vehicle; and a camera wiper disposed on a camera lens of the camera and connected to the motor by a linkage to operate in association with the glass wiper such that the camera wiper swings back and forth over the camera lens while the glass wiper swings back and forth over the window glass.

An automated grommet installer and methods of installing a grommet. The installer and methods are capable of seating a grommet in an aperture of a window and facilitating correct alignment of the grommet within the window. Grommets are used to support and seal around a window wiper attached to a window. Typically, grommets are asymmetrical to match the curvature of the window. Embodiments of the described installer maintain grommet orientation while inserting the grommet in the window, quickly and efficiently installing the grommet. In embodiments the installer includes a system for identifying an incorrectly loaded grommet prior to installation and alerting an operator. In other embodiments, the installer includes a positioner that positions the grommet proximate to the window for installation and a gripper having one or more fingers reach through the window aperture, engage the grommet, and draw it into position, seated in the window.

A liftgate structure having a structural inner panel with an outside surface and an inner surface having a lower perimeter surface area extending across substantially the entire width of the structural inner panel. The structural inner panel includes a wiper motor housing recess formed on the inner surface. A plurality of brackets are connected to the outside surface of the structural inner panel, where each of the brackets has at least one friendly hole. The liftgate structure further includes a tether having 2 ends each having at least one over molded retainer for connecting the tether to a wiper motor housing positioned within the wiper motor housing recess of the structural inner panel. Additionally the tether is positioned through each of the at least one friendly holes of the plurality of brackets.

A rear windshield gutter assembly includes a vehicle that has a rear windshield, a rear surface and a rear windshield wiper that is positioned on the rear windshield. The rear windshield wiper includes a wiper fluid dispenser that selectively releases a fluid onto the rear windshield for cleaning the rear windshield. A gutter is coupled to the vehicle and is aligned with the rear windshield. The gutter captures the fluid when the fluid is released onto the rear windshield and directs the fluid to a predetermined drain location. Moreover, the gutter inhibits the fluid from running down the vehicle thereby enhancing visual appearance of the vehicle with respect to inhibiting streaks caused by the fluid on the vehicle.

When a headlight driver input indicates an AUTO mode, a VCIB accepts a headlight mode request from an ADK. The VCIB identifies a current headlight driver input. The VCIB reads first correspondence information and checks the identified headlight driver input and the accepted headlight mode request against the first correspondence information to determine an illumination status of a headlight.

A wiper system for a machine is provided. The wiper system includes a first motor configured to operate a first wiper and a second motor configured to operate a second wiper wherein the first motor and the second motor are connected in a parallel configuration. The wiper system further includes a power source which is in electrical connection with the first and the second motors for energizing each motor to move the respective wipers. The wiper system includes a switch configured to simultaneously operate the first motor and the second motor in one of a high speed mode, a low speed mode, or a park mode. The wiper system includes an isolating circuit configured to isolate the first motor from the power source and allow the second motor to run independent of the first motor when the switch is set in the park mode and speed of the first motor is different from speed of the second motor.