A drive component comprising a first rotation part and a second rotation part arranged to rotate together around a common central axis with respect to each other around that central axis. The drive component further comprises a rotation limiter operative between the two rotation parts, which limits rotation between them.

The rotation limiter is so arranged that when the first rotation part is driven to rotation, the first rotation part after traversing a free angular stroke carries the second rotation part in a mutual angular position determined by the rotation limiter, i.e. the carry-along angle, along in rotation. The rotation limiter comprises an indexer energized by rotation of the first and/or second rotation part, so that in successive driving cycles on the drive component the carry-along angle is indexed and the rotation parts in successive driving cycles differ in mutual angular position at carry-along.

A drive component comprising a first rotation part and a second rotation part arranged to rotate together around a common central axis with respect to each other around that central axis. The drive component further comprises a rotation limiter operative between the two rotation parts, which limits rotation between them.

The rotation limiter is so arranged that when the first rotation part is driven to rotation, the first rotation part after traversing a free angular stroke carries the second rotation part in a mutual angular position determined by the rotation limiter, i.e. the carry-along angle, along in rotation. The rotation limiter comprises an indexer energized by rotation of the first and/or second rotation part, so that in successive driving cycles on the drive component the carry-along angle is indexed and the rotation parts in successive driving cycles differ in mutual angular position at carry-along.

A motor housing removal assembly comprises an extension defining a plurality of surface features on at least one side, an adjustment member comprising, a support member configured to couple to and move relative to the extension, an engagement element moveably coupled to the support member and configured to engage the extension to define a locked position preventing the support member from moving relative to the extension, a base portion coupled to the support member, and a plurality of pry members each comprising a first end coupled to the base and comprising a first thickness, and a second end opposing the first end and comprising a second thickness. A holder is fixedly coupled to an end of the extension and configured to hold at least a portion of a motor housing.

Various embodiments of the teachings herein include a method for determining a target position of a surroundings sensor of a vehicle using a vehicle-side attachment element as a calibration object, wherein the sensor and the attachment element are movable relative to each other. The method includes: ascertaining a first position of the surroundings sensor in a first relative pose; moving the sensor and/or the element from the first pose to a second pose between the sensor and the element; ascertaining a second actual position of the surroundings sensor in the second relative pose; and determining the target position of the surroundings sensor by averaging the first position and the second position to form an averaged actual position and assigning the averaged actual position as the target position.

Various embodiments of the teachings herein include a method for determining a target position of a surroundings sensor of a vehicle using a vehicle-side attachment element as a calibration object, wherein the sensor and the attachment element are movable relative to each other. The method includes: ascertaining a first position of the surroundings sensor in a first relative pose; moving the sensor and/or the element from the first pose to a second pose between the sensor and the element; ascertaining a second actual position of the surroundings sensor in the second relative pose; and determining the target position of the surroundings sensor by averaging the first position and the second position to form an averaged actual position and assigning the averaged actual position as the target position.

The invention relates to an adjustment device for adjusting the position of an adjustable element. The device comprises a base frame for attachment to the adjustable element, an output shaft rotatably coupled to the base frame, an electric motor held by the base frame, and a worm gear assembly for transmitting rotation of the electric motor to the output shaft. The worm gear assembly includes a first worm gear and corresponding first worm. The output shaft is provided with the first worm gear coaxially disposed about a central axis of the output shaft. The first worm gear is substantially rotationally coupled or fixed to the output shaft, is held in the base frame, and is in engagement with the first worm gear. The adjustment device is arranged such that the base frame and the output shaft are rotatable with respect to each other over an angle of at least 120°.

The invention relates to an adjustment device for adjusting the position of an adjustable element. The device comprises a base frame for attachment to the adjustable element, an output shaft rotatably coupled to the base frame, an electric motor held by the base frame, and a worm gear assembly for transmitting rotation of the electric motor to the output shaft. The worm gear assembly includes a first worm gear and corresponding first worm. The output shaft is provided with the first worm gear coaxially disposed about a central axis of the output shaft. The first worm gear is substantially rotationally coupled or fixed to the output shaft, is held in the base frame, and is in engagement with the first worm gear. The adjustment device is arranged such that the base frame and the output shaft are rotatable with respect to each other over an angle of at least 120°.

A sealing means of a pivot joint system between a base assembly and a head assembly of a rear view device, including a two-component pivot seal including a hard component including at least one of one or more attachment and holding means for at least one of attachment of the sealing means to the base assembly and holding at least one cable, and a soft component. A base assembly and a rearview device are also described.

A vehicular exterior rearview mirror assembly includes a mirror head movably attached at a mounting base configured for mounting at a side of a vehicle. The mirror head includes a mirror casing and a mirror reflective element. An actuator is operable to move the mirror head relative to the mounting base between at least an extended position and a folded position. The actuator includes a first detent interface that is engaged to maintain the mirror head at the folded or extended position when the mirror head is moved via the actuator to that position. The actuator includes a second detent interface that is engaged to maintain the mirror head at the folded or extended position when the mirror head is manually moved to that position. The second detent interface is not engaged while the actuator moves the mirror head between the folded position and the extended position.

A vehicular exterior rearview mirror assembly includes a mirror head movably attached at a mounting base configured for mounting at a side of a vehicle. The mirror head includes a mirror casing and a mirror reflective element. An actuator is operable to move the mirror head relative to the mounting base between at least an extended position and a folded position. The actuator includes a first detent interface that is engaged to maintain the mirror head at the folded or extended position when the mirror head is moved via the actuator to that position. The actuator includes a second detent interface that is engaged to maintain the mirror head at the folded or extended position when the mirror head is manually moved to that position. The second detent interface is not engaged while the actuator moves the mirror head between the folded position and the extended position.