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.

The switch device is mounted on a vehicle capable of travelling in an automatic driving mode, and is configured to operate at least one function of a wiper function and a light function. The switch device includes an operation lever which is configured to select one operation mode from a plurality of operation modes included in the at least one function and configured to return to a neutral position when the selected operation mode is released, and a feedback unit which is configured to feed back to an operator of the operation lever information indicating that one operation mode has been selected from the plurality of operation modes by using the operation lever.

The switch device is mounted on a vehicle capable of travelling in an automatic driving mode, and is configured to operate at least one function of a wiper function and a light function. The switch device includes an operation lever which is configured to select one operation mode from a plurality of operation modes included in the at least one function and configured to return to a neutral position when the selected operation mode is released, and a feedback unit which is configured to feed back to an operator of the operation lever information indicating that one operation mode has been selected from the plurality of operation modes by using the operation lever.

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).

This technology relates to system for clearing a sensor cover. The system may include a sprayer, a support, and a positioning device. The sprayer may be mounted to the support and direct a flow of fluid to the sensor cover. The positioning device may be configured to adjust the position of the sprayer on the support. The system may include a nozzle and the nozzle may be positioned to direct the flow of fluid to an area of the sensor cover. The system may include additional sprayers.

An electromagnetic wiper system for a windshield of a vehicle includes a linear actuator, a wiper-arrangement, and control circuitry. The linear actuator includes at least one guide rail having permanent magnets and an electromagnetic moving block. The electromagnetic moving block includes at least one perforation that surrounds the at least one guide rail and at least one electromagnetic coil that surrounds the at least one perforation. The wiper-arrangement includes a wiper arm and a wiper blade, wherein at least the wiper arm is coupled to the electromagnetic moving block. The control circuitry controls a linear motion of the electromagnetic moving block along the at least one guide rail to steer the wiper arm that is coupled to the electromagnetic moving block back and forth across a length of the windshield to the windshield, wherein the electromagnetic moving block induces minimal friction during the linear motion.

In a sensor arrangement for measurement of the temperature of a disk, it is provided that the sensor arrangement comprises a circuit carrier with a temperature sensor arranged thereon, wherein the circuit carrier and the temperature sensor are arranged in a housing and an electrical connection and a heat-conducting element are guided out from the housing, the heat-conducting element is configured as a rigid pin, the rigid pin has a thermal connection and a mechanical connection to the circuit carrier, the rigid pin is provided and configured to make a thermal contact with the disk.