An apparatus includes a base, a cylindrical sensor window fixed to the base, and a helical cleaning member movable between a retracted position in the base and an extended position extending around the sensor window. The cleaning member includes an outlet directed at the sensor window when the cleaning member is in the extended position.

There is disclosed a viewing system coupled to a motor vehicle having a frame having a roof, at least one support, and a body with the at least one support supporting the roof over the body. The system can comprise at least one camera, at least one screen coupled to the support. In addition each camera is coupled to the at least one support and wherein said at least one screen is in communication with the first set of cameras, wherein said at least one screen displays images presented by the first set of cameras. This device can provide additional view in the blind spot of the vehicle.

A vehicle and/or a method for detecting contaminants on an optical surface are provided. The vehicle includes at least one light source adjacent the optical surface and at least one light detector at an edge of the optical surface. A controller is configured to introduce light from at least one light source into the optical surface, and to measure light at the edge of the optical surface with at least one detector. The controller compares the measured light to a threshold, and, if the measured light crosses the threshold, triggers or implements a response action.

The telescopic washing device comprises first and second telescopic members operable along a first linear path between retracted extended positions parallel to telescopic member longitudinal axis Z; a wiper element coupled to the second telescopic member such that the wiper element is movable according to a second path lying on a plane XY perpendicular to the longitudinal axis Z; a second guiding area associated with first telescopic member or wiper element and according to second path; and a guiding element associated with the other of the first telescopic member or the wiper element to slide to the second guiding area as the first and second telescopic members move to each other. As pressurized fluid is supplied to the first telescopic member, the wiper element is at least rotated according to the second path.

A device which is designed to detect surroundings and which includes a housing and a sensor situated within the housing. The housing includes a transmitter/receiver window, through which the corresponding sensor signals may be emitted into the surroundings by the sensor, and/or sensor signals from the surroundings may be received. The device includes a cover, the cover being designed to be transparent to the sensor signals, and the cover being designed to cover the transmitter/receiver window against exterior surroundings of the device. The device includes a cleaning unit, which is situated at an outside of the housing and is movable relative to the housing using a drive unit. The cleaning unit is designed to remove contaminants from the cover. The cleaning unit includes at least one first nozzle to spray a cleaning liquid onto the cover, and at least one second nozzle to blow a gas onto the cover.

An apparatus includes a base, a cylindrical sensor window fixed to the base, and a helical cleaning member movable between a retracted position in the base and an extended position extending around the sensor window. The cleaning member includes an outlet directed at the sensor window when the cleaning member is in the extended position.

A system includes a sensor base, a sensor cover having a window that is rotatably mounted to the base. The system includes a contacting cleaner and a contactless cleaner. The system further includes a processor that is programmed to actuate, first, the contactless cleaner and, then, upon determining that opacity of the window exceeds a predetermined threshold after actuation of the contactless cleaner, the contacting cleaner.

A LiDAR sensor may include: a housing; a window cover installed on the housing; a motor mounted in the housing; a rotating shaft rotated by the motor; a guide connected to the rotating shaft and rotated along the surface of the window cover; and a brush mounted on the guide so as to face the window cover, contacted with the window cover, and washing the surface of the window cover with rotation of the guide. The guide may include: a first guide part connected to the rotating shaft; a second guide part rotatably connected to the housing; and a third guide part connected to the first and second guide parts, formed in a U-shape so as to face the window cover, and having the brush mounted thereon.

Provided are devices for camera cleaning and flare reduction for vehicles, which can include a cleaning device for cleaning a transparent window of a housing containing a camera system. The devices can include optical panels with different properties that can be moved in front of the transparent window for flare reduction. Methods are provided which can include analyzing at least one image to determine a presence of an optical flare within the at least one image, and, based on detecting the optical flare, causing at least one optical panel to be moved into a position in front of a lens of the imaging device. Computer program products are also provided.

A sensor cleaning apparatus for a vehicle includes: a sensor housing in which a driver and a sensor are mounted, a cover part configured to rotate and exposed to the outside of the sensor housing through an open region formed on a front surface of the sensor housing, and a blade part connected to the cover part. The blade is rotated as the driver is driven and provided to allow air generated by its rotation to flow toward a front surface and a rear surface of the cover.