A wiper device, at least for cleaning a windshield of a vehicle and/or a sensor, having at least one wiper blade which is configured at least to sweep over at least a part of the windshield during a cleaning process, and which has at least one fastening unit at least for fixing the wiper blade to a wiper drive of the vehicle, in particular an output element of the wiper drive of the vehicle. It is proposed that the fastening unit is arranged in a longitudinal end section of the wiper blade.

The invention proposes a drive device (10) for driving a windscreen wiper, which comprises a bearing body (12), a drive shaft (20) which is mounted to rotate with respect to the bearing body (12), a guide housing (19) for guiding the drive shaft (20) in rotation about its axis (A1) which is pivot-mounted with respect to the bearing body (12) about an axis (A2) which is orthogonal to the axis (A1) of the drive shaft (20), a drive motor (16) for driving the shaft (20), a rack (30) and pinion (28) mechanism which causes the shaft (20) to pivot in order to vary the inclination of the axis (A1) of the shaft (20) with respect to the bearing body (12) according to the angular position of the drive shaft (20), characterized in that the drive motor (16) is supported by the guide housing (19).

A windshield wiper assembly for a dual sweep angle and indexable wiper system is provided. The system includes a wiper motor and a wiper arm for sweeping a surface of a windshield coupled to a first eccentric, the first eccentric comprising a primary eccentric and an indexable eccentric plate, wherein the indexable eccentric plate determines an eccentric offset of the wiper arm coupled to the first eccentric. The system further includes an output wiper shaft coupled to the wiper arm, a second eccentric coupled to a cam shaft, and a link coupled to the first eccentric and the second eccentric, the link having a first effective link arm length between the first eccentric and the second eccentric for driving the first eccentric to operate the wiper arm when operated in a first direction.

Disclosed is a windscreen wiper device for a vehicle, in particular a motor vehicle, comprising a fastening element fastened to a drive shaft. The windscreen wiper device comprises a wiper blade having an elongated upper part which is designed at least partially flexibly, an elongated lower part which is designed at least partially flexibly, and a plurality of connecting elements for connecting the upper part and the lower part, wherein the connecting elements are spaced apart from each other along a longitudinal extension of the wiper blade, and wherein the connecting elements are configured to enable a movement of the upper part and lower part relative to each other with a movement component along a longitudinal extension of the wiper blade. The windscreen wiper device further comprises a fastening part on the wiper blade side, wherein the fastening part on the wiper blade side can be connected to the fastening element in a detachable manner, and a coupling device, wherein the fastening part on the wiper blade side and the fastening element can be connected for conjoint rotation via the coupling device until a defined torque value is exceeded.

Element (24, 26) for a system for connecting a windscreen wiper blade holder to a drive arm, said element (24, 26) being designed to be rigidly connected to said blade holder or to said arm and including rotation means (80a, 80b: 60b, 60a) designed to cooperate with complementary means (60a, 60b; 80b, 80a) of another element (26, 24) of the connection system to form an axis of rotation between the element (24, 26) and the second element (26, 24), said axis of rotation being designed to be the axis of rotation between said blade holder and said arm, characterized in that said means of rotation (80a, 80b: 60b, 60a) include a protuberance (80a, 60b), which is arranged on one side of the longitudinal mid-plane (P) of said element (24, 26) and is able to cooperate with a cavity (60a, 80b) in the other element (26, 24), and a cavity (80b, 60a), which is arranged on the other side of said plane (P) and is able to cooperate with a protuberance (60b, 80a) on the other element (26, 24), the element (24, 26) being asymmetrical in relation to said plane (P).

A wiper system 1 has a wiper blade 5 for performing a reciprocating wiping operation on a windshield glass 6 and a brushless motor 2 for causing the wiper blade 5 to perform the reciprocating wiping operation. The motor used as the brushless motor 2 is provided with a rotary shaft for reciprocating the wiper blade 5, has a degree of operation freedom in three axial directions, and is rotatable about axes of two directions orthogonal to the rotary shaft. The wiper blade 5 operates at error angles different in direction between during a forward-path wiping operation and during a return-path wiping operation. When the wiper blade 5 reaches a reversing position, the brushless motor 2 is made to rotate about an axis extending in a extending direction of the wiper blade 5 to change the error angle .

The invention concerns an output element (15; 151) for a motorisation device (1) for driving at least one windscreen wiper arm of a motor vehicle, comprising an output shaft (17; 171) and a toothed wheel (40) integral to and coaxial with the output shaft (17; 171), characterized in that the output shaft (17; 171) is made of plastic material and in that the output element (15; 151) comprises a metallic insert (16; 161; 162; 163), the plastic material of the output shaft (17; 171) being moulded partially over the metallic insert (16; 161; 162; 163), revealing an insert head (25; 251) protruding from the end of the output shaft (17; 171) and intended to connect to a windscreen wiper element in order to drive this in rotation.

The invention also concerns a motorisation device (1) and a method for production of an output element (15; 151).

A wiper system (10) for a motor vehicle, having at least one pantograph wiper arm (20), having a drive arm (22) which can be driven in a predefined angular range (32) by an output shaft (24) of a drive unit (30), wherein the output shaft (24) is pivotably accommodated in a drive bearing (42) arranged on a bracket (40) and the bracket (40) is designed to be fixed to a body of a motor vehicle, the drive arm (22) is fixed directly to the output shaft (24) and the latter is drivable oscillating pivotably about its longitudinal central axis (26) by means of the drive unit (30).

Example embodiments relate to wiper devices for cleaning sensor housings. An example embodiment includes a wiper device for cleaning a surface of a rotatable sensor housing. The wiper device may have a driving arm having a first end and a second end. The first end of the driving arm is connected to a rotatable shaft. The wiper device may also have a wiper arm pivotally connected to the second end of the driving arm. The pivotal connection is located between a front region and a rear region of the wiper arm. Further, the wiper device may have a wiper blade coupled to the front region of the wiper arm. The wiper blade may be configured to wipe the surface of the rotatable sensor housing. Additionally, the wiper device may have a counterweight coupled to the rear region of the wiper arm.

Example embodiments relate to wiper devices for cleaning sensor housings. An example embodiment includes a wiper device for cleaning a surface of a rotatable sensor housing. The wiper device may have a driving arm having a first end and a second end. The first end of the driving arm is connected to a rotatable shaft. The wiper device may also have a wiper arm pivotally connected to the second end of the driving arm. The pivotal connection is located between a front region and a rear region of the wiper arm. Further, the wiper device may have a wiper blade coupled to the front region of the wiper arm. The wiper blade may be configured to wipe the surface of the rotatable sensor housing. Additionally, the wiper device may have a counterweight coupled to the rear region of the wiper arm.