A wiper device for cleaning a vehicle window is disclosed. The wiper device has a wiper arm fastened in a torque-proof manner to a wiper shaft via an articulation piece, the wiper arm being arranged pivotably on the articulation piece in a pivot axis, a wiper blade arranged on the wiper arm, and a washing device for the wiper blade, which contains a feed for a washing fluid, wherein the feed runs in the longitudinal axis of the wiper shaft and leads to the wiper blade in a direction running substantially perpendicularly to the longitudinal axis.

A windshield wiper cleaning assembly for dislodging debris from a wiper blade includes a housing that is attachable to a windshield wiper arm on a vehicle. A plunger unit is movably integrated into the housing and the plunger unit is urged outwardly from the housing when the plunger unit is turned on. The plunger unit abuts the windshield when the plunger unit is turned on thereby facilitating the arm of the windshield wiper to be urged away from the windshield. Moreover, the plunger is biased to retract into the housing after the plunger unit is turned on thereby facilitating a wiper blade on the windshield wiper arm to strike the windshield. In this way debris can be dislodged from the wiper blade.

A windshield wiper cleaning assembly for dislodging debris from a wiper blade includes a housing that is attachable to a windshield wiper arm on a vehicle. A plunger unit is movably integrated into the housing and the plunger unit is urged outwardly from the housing when the plunger unit is turned on. The plunger unit abuts the windshield when the plunger unit is turned on thereby facilitating the arm of the windshield wiper to be urged away from the windshield. Moreover, the plunger is biased to retract into the housing after the plunger unit is turned on thereby facilitating a wiper blade on the windshield wiper arm to strike the windshield. In this way debris can be dislodged from the wiper blade.

A connector for attaching a vehicle wiper arm and blade to a shaft allows the wiper arm to be rotated away from a wiping surface to a service up position. The connector has an internal component which can be rotated to one or more positions within an external component. Further, the connector can be latched into an in-use position

A wiper system for clearing an outer surface of a window is disclosed and includes an arm, a frame, a blade, and an actuator operatively connected to the arm. The arm includes a parked position and defines a proximate end portion and a distal end portion. The arm is pivotable about the proximate end portion of the arm out of the parked position. The frame is pivotally connected to the distal end portion of the arm. The frame defines a lengthwise distance. The blade extends along at least a lengthwise portion of the frame. The blade defines an edge that is configured to contact the outer surface of the window when the arm is in the parked position. The actuator is configured to exert a force against the arm that is sufficient to urge the arm out of the parked position and away from the outer surface of the window.

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 clearing an outer surface of a window is disclosed and includes an arm, a frame, a blade, and an actuator operatively connected to the arm. The arm includes a parked position and defines a proximate end portion and a distal end portion. The arm is pivotable about the proximate end portion of the arm out of the parked position. The frame is pivotally connected to the distal end portion of the arm. The frame defines a lengthwise distance. The blade extends along at least a lengthwise portion of the frame. The blade defines an edge that is configured to contact the outer surface of the window when the arm is in the parked position. The actuator is configured to exert a force against the arm that is sufficient to urge the arm out of the parked position and away from the outer surface of the window.

The disclosed technology provides solutions for improving window wiper systems and in particular, for improving wiper systems used on autonomous vehicles (AVs). Aspects of the disclosed technology include a widow wiper system that includes a motor comprising a shaft, a wiper arm coupled to a distal end of the shaft, and a wiper guide disposed around the distal end of the shaft, wherein the wiper guide comprises a guidance track that is configured to accommodate a protrusion of the wiper arm through a side surface of the wiper guide. Autonomous vehicle systems and methods of manufacture are also provided.

A wiper apparatus which removes foreign matters from a windshield by rotating by a pivot of a vehicle may include an arm piece connected to one end of an arm retainer to connect a wiper blade, and a coupling portion having a step portion formed to extend along a longitudinal direction so that an upper surface of the arm piece and an upper surface of the arm retainer form a same surface when coupled to correspond to a coupling hole formed in the arm retainer.

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).