Motor device includes: motor part including armature shaft; speed reduction mechanism which includes worm and worm wheel and outputs the rotation of the armature shaft at reduced speed; gear case which is provided with bottom part and opening part and accommodates the worm and worm wheel in rotatable manner; gear cover which covers the opening part of the gear case; circuit board which is arranged between the speed reduction mechanism and the gear cover; and board cover which is arranged between the circuit board and the speed reduction mechanism. The board cover is provided with positioning protrusion part protruding toward the gear case, the gear case is provided with positioning recess part into which the positioning protrusion part is press-fit, and the bottom surface of the positioning recess part and the tip surface of the positioning protrusion part press-fit into the positioning recess part face each other with gap therebetween.

Motor device includes: motor part including armature shaft; speed reduction mechanism which includes worm and worm wheel and outputs the rotation of the armature shaft at reduced speed; gear case which is provided with bottom part and opening part and accommodates the worm and worm wheel in rotatable manner; gear cover which covers the opening part of the gear case; circuit board which is arranged between the speed reduction mechanism and the gear cover; and board cover which is arranged between the circuit board and the speed reduction mechanism. The board cover is provided with positioning protrusion part protruding toward the gear case, the gear case is provided with positioning recess part into which the positioning protrusion part is press-fit, and the bottom surface of the positioning recess part and the tip surface of the positioning protrusion part press-fit into the positioning recess part face each other with gap therebetween.

The present invention relates about a wiper system for cleaning a vehicle window, comprising a drive attachment, an arm, a wiper blade and a connecting body located between the drive attachment and the arm, the wiper system comprising a pivot link between the connecting body and the drive attachment, the wiper system comprising a rotational link between the connecting body and the arm, the rotational link having an axis that extends along a first direction, the pivot link having an axis that extends along a second direction, said first direction and said second direction being intersected, wherein the wiper system comprises a mechanical link between the drive attachment and the arm enforcing a rotation of the pivot link around the second direction upon a rotation of the arm around the first direction.

The present invention relates about a wiper system for cleaning a vehicle window, comprising a drive attachment, an arm, a wiper blade and a connecting body located between the drive attachment and the arm, the wiper system comprising a pivot link between the connecting body and the drive attachment, the wiper system comprising a rotational link between the connecting body and the arm, the rotational link having an axis that extends along a first direction, the pivot link having an axis that extends along a second direction, said first direction and said second direction being intersected, wherein the wiper system comprises a mechanical link between the drive attachment and the arm enforcing a rotation of the pivot link around the second direction upon a rotation of the arm around the first direction.

The system concerns a gear motor for a motor vehicle wiping system comprising:—an electric motor comprising a rotor, a stator and a rotating shaft solidly attached to the rotor,—a reducing mechanism connecting the rotating shaft and an output shaft of the gear motor. According to the invention, a roller bearing (23) guides the rotating shaft (22) at one of the longitudinal ends of the rotating shaft, said roller bearing (23), arranged inside the rotor and stator assembly, housed in an inner recess of the rotor, and in which a hollow support bears the magnetic elements and is arranged coaxially and connected in rotation with the rotating shaft (22), said hollow support (25) covering said roller bearing (23) guiding the longitudinal end of the rotating shaft (20) on the side of the electric motor (2), the axial locking of the roller bearing (23) on the rotating shaft (22) being obtained by pressing against the inner race of the roller bearing (23) on the inner wall of the hollow support (25), directly or indirectly through the intermediary of a spacer (8).

The system concerns a gear motor for a motor vehicle wiping system comprising:—an electric motor comprising a rotor, a stator and a rotating shaft solidly attached to the rotor,—a reducing mechanism connecting the rotating shaft and an output shaft of the gear motor. According to the invention, a roller bearing (23) guides the rotating shaft (22) at one of the longitudinal ends of the rotating shaft, said roller bearing (23), arranged inside the rotor and stator assembly, housed in an inner recess of the rotor, and in which a hollow support bears the magnetic elements and is arranged coaxially and connected in rotation with the rotating shaft (22), said hollow support (25) covering said roller bearing (23) guiding the longitudinal end of the rotating shaft (20) on the side of the electric motor (2), the axial locking of the roller bearing (23) on the rotating shaft (22) being obtained by pressing against the inner race of the roller bearing (23) on the inner wall of the hollow support (25), directly or indirectly through the intermediary of a spacer (8).

A windshield wiper system (3, 3′) for wiping a windshield (2) of a vehicle (1) includes a wiper (4) mounted on a movable support element, a guiding device for guiding the support element along a predefined trajectory and a motor mounted on the support element and arranged for providing traction power to move the support element along the predefined trajectory. The wiper system is arranged to move the wiper (4), relative to the windshield, with a translation movement between first and second positions, and with a rotation movement around a rotation axis perpendicular to the windshield between the second position and a third position.

A windshield wiper system (3, 3′) for wiping a windshield (2) of a vehicle (1) includes a wiper (4) mounted on a movable support element, a guiding device for guiding the support element along a predefined trajectory and a motor mounted on the support element and arranged for providing traction power to move the support element along the predefined trajectory. The wiper system is arranged to move the wiper (4), relative to the windshield, with a translation movement between first and second positions, and with a rotation movement around a rotation axis perpendicular to the windshield between the second position and a third position.

A cleaning unit for cleaning a sensor window pane of an optical sensing device, in particular for optical distance measurement, more in particular a LiDAR sensor device, of a motor vehicle. The cleaning unit comprises a wiper. Further, the cleaning unit comprises a drive unit which is arranged for wiping the wiper over the sensor window pane. Advantageously, the cleaning unit can be arranged for wiping a first portion of the wiper, such as a first wiper tip, over the sensor window pane from a first position towards a second position to wipe at least a first portion of the sensor window pane located between said first and second positions. The cleaning unit can then also be arranged for moving the wiper back from said second position substantially towards said first position without said first portion of the wiper wiping over said first portion of the sensor window pane.

A cleaning unit for cleaning a sensor window pane of an optical sensing device, in particular for optical distance measurement, more in particular a LiDAR sensor device, of a motor vehicle. The cleaning unit comprises a wiper. Further, the cleaning unit comprises a drive unit which is arranged for wiping the wiper over the sensor window pane. Advantageously, the cleaning unit can be arranged for wiping a first portion of the wiper, such as a first wiper tip, over the sensor window pane from a first position towards a second position to wipe at least a first portion of the sensor window pane located between said first and second positions. The cleaning unit can then also be arranged for moving the wiper back from said second position substantially towards said first position without said first portion of the wiper wiping over said first portion of the sensor window pane.