A cleaning device for a lidar sensor set-up. The cleaning device includes a movable cleaning element, and is configured, for a cleaning operation, to move the cleaning element over a window of the lidar sensor set-up, on a side facing away from the lidar sensor device and facing the field of view of the lidar sensor set-up. The movable cleaning element has an optical element. The optical element is configured to send back and, in particular, reflect back primary light from a transmitting path of the lidar sensor set-up, which is incident upon the optical element, into a receiving path of the lidar sensor set-up.

A cleaning device for a surface, such as a windshield of a vehicle, has a housing that holds a spray bar, rotatable brush and a wiper blade. An engagement mechanism moves spray bar, the brush, and the wiper blade out from a disengaged position within the housing to an engaged position outside the housing so that they can be used to clean, brush, and dry the surface. After the spray bar, brush, and wiper blade are used to, respectively, clean, brush, and dry the surface, the engagement mechanism then moves the spray bar, the brush, and the wiper blade to a disengaged position within the housing.

A cleaning device for a vehicle has tracks above and below the vehicle's windshield. A brush, wiper blade and spray bar extend across the windshield at a starting side of the windshield. The spray bar provides washer fluid as the brush rotates against the windshield. The spray bar, rotating brush and wiper bar are moved along the tracks and across the windshield to an opposing, return side of the windshield where the wiper blade first contacts the windshield and the brush stops rotating and moves away from the windshield. The spray bar rotates next to the wiper blade to blow air against the windshield. The wiper blade scrapes water while air blows water off the windshield as they move back to the starting side of the windshield where they are stored in a frame along the side of the windshield when not in use.

The invention relates to a wiper device comprising at least one wiper strip unit (12a-g) which has at least one first wiper lip (14a-g) and at least one second wiper lip (16a-g). The wiper device (10a-g) has at least one automatically activated wiper lip switching unit (20a-g) which is provided in order to switch a wiper lip (18a-g) that is active in at least one sub-process of a wiping process.

The invention relates to a motor vehicle driver assistance system (100) comprising at least one detection module (101) and a cleaning device (120), the detection module (101) comprising at least one driver assistance sensor (110, 130) and at least a protective window (140) closing the detection module (101) and protecting the at least one driver assistance sensor (110, 130), the cleaning device (120) being configured to clean the protective window (140) and the cleaning device (120) comprising at least one wiper (121) in contact with the protective window (140) and able to move in a rectilinear main direction (D).

A window washer having a brushing arm mounted to a wiping arm of the window washer, and a motion conversion mechanism for converting back and forth rotational motion of the wiping arm to back and forth linear motion of the brushing arm, thereby the brushing arm rotates with the wiping arm motion, and in addition, linearly slides back and forth from the wiping arm, for brushing a window.

A windshield wiper assembly for effectively cleaning all of the windshield from top to bottom and side to side. The windshield wiper assembly includes an elongated housing having an open bottom and adapted to extend a width of a windshield; a wiper actuating assembly securely disposed in the housing; and a wiper assembly movably supported upon the wiper actuating assembly.

A wiping system for a motor vehicle having a blade configured to move in linear translation over a window and in a direction parallel to two opposite sides of this window, is disclosed. The wiping system also includes a first rail and a second rail which are arranged at the sides of the window, the rails having a curvature to espouse the shape of the window and for housing a first runner and a second runner which are respectively connected to first and second ends of the blade, and a first drive motor and a second drive motor arranged respectively at the first rail and at the second rail to drive the first and second runner via a first coupling mechanism and second coupling mechanism, the first and second drive motors being operated by a control unit configured to synchronize movements of the first and second runners.

A wiper system for wiping off deposits deposited on a surface of a wiped member comprising a pair of carriages attached to frame members holding the wiped member so as to face each other across the wiped member and moving back and forth over the frame members along two facing sides of the wiped member, a pair of wiper arms respectively attached to the pair of carriages and extending from the frame member sides to the wiped member sides, and a pair of wiper blades respectively attached to the pair of wiper arms, extending substantially parallel to the other two facing sides of the wiped member, and arranged at the surface of the wiped member.

A system includes a dome, a wiper assembly, a position sensor and a control device. The wiper assembly includes a wiper blade configured to rotate around the dome. The position sensor may be configured to send a signal to a control device when a wiper blade passes the position sensor. The control device may include one or more processors configured to receive the signal from the position sensor and determine a location of the wiper blade relative to the dome based on the received signal.