A driving device includes a motor and a control unit for controlling of the motor. The motor includes a motor body and an end cap assembly disposed at one end of the motor body. The motor body comprises a stator, a rotor rotatable relative to the stator, and a motor shaft fixed to and rotated with the rotor. The end cap assembly is provided with two brushes. The control unit includes two connectors for connecting with an external power source. The two brushes are respectively electrically connected to the connectors through the control unit. Lengths of connecting routes of the two brushes to the corresponding connectors are substantially equal to each other.

Provided is a cable routing structure in which a cable guide member includes a support portion including an edge portion on one side and an edge portion on another side, a first erected portion erected on a side of the edge portion on the one side, and a second erected portion erected on a side of the edge portion on the other side. The first erected portion includes an engaging portion engaging with a base member, the second erected portion includes a connecting portion connected to the base member, and a distance in which a linear portion that is intermediate between both ends of a cable is provided between the first erected portion and the second erected portion. The base member includes an engaged portion being engaged with the engaging portion of the first erected portion.

A holder-equipped window glass includes a window glass having a holder and formed in a curved shape having a first radius of curvature in section in a sliding movement direction in a state where the window glass is mounted on a vehicle. The holder includes a connecting portion and a holder body. The connecting portion extends in a direction away from a lower edge of the holder body, and the connecting portion at least partly includes a circular arcuate portion having a second radius of curvature in section in the sliding movement direction.

A holder-equipped window glass includes a window glass having a holder and formed in a curved shape having a first radius of curvature in section in a sliding movement direction in a state where the window glass is mounted on a vehicle. The holder includes a connecting portion and a holder body. The connecting portion extends in a direction away from a lower edge of the holder body, and the connecting portion at least partly includes a circular arcuate portion having a second radius of curvature in section in the sliding movement direction.

The disclosure relates to a motor vehicle having at least one vehicle side, on which a front door and a rear door are provided, and to a method for operating an electric motor in a respective rear door of the at least one vehicle side. The disclosure relates to a motor vehicle having at least one vehicle side, on which a front door and a rear door are provided, wherein an electric motor configured to provide a motorized door function is provided in the rear door and wherein a control device configured to operate the motor which is connected to the motor via electrical conductor elements for transferring a motor current is provided. According to the disclosure, the control device is arranged in the front door and is configured to also control at least one door function of the front door.

This clutch includes an annular clutch housing, a rotationally driven drive-side rotating body, a driven-side rotating body, a rolling body, and a support member. The clutch is configured such that, when the drive-side rotating body starts to rotate when driven, the drive-side rotating body comes into contact with the support member in a rotational direction and presses the rolling body in the rotational direction through the support member, thereby releasing the rolling body from gripping effected by the clutch housing and the driven-side rotating body. The support member includes a load generation section for generating a load which makes it difficult for the support member to rotate about the rotation axis of the drive-side rotating body when at least the drive-side rotating body starts to rotate when driven.

A window lift assembly (3) of a motor vehicle window (5) has a window pane (4) that can be divided into a first pane region (6) and a second pane region (7) in a width direction (8) of the window pane (4). A first window lift (9) carries the window pane (4) in the first pane region (6) and a second window lift (10) carries the window pane (4) in the second pane region (7). The two window lifts (9,10) are actuable independently of each other to move the window pane (4) rectilinearly up and down, to incline the window pane (4) and/or to move the window pane (4) up and down in an inclined manner.

A window lift assembly (3) of a motor vehicle window (5) has a window pane (4) that can be divided into a first pane region (6) and a second pane region (7) in a width direction (8) of the window pane (4). A first window lift (9) carries the window pane (4) in the first pane region (6) and a second window lift (10) carries the window pane (4) in the second pane region (7). The two window lifts (9,10) are actuable independently of each other to move the window pane (4) rectilinearly up and down, to incline the window pane (4) and/or to move the window pane (4) up and down in an inclined manner.

A damper member (80) is provided between the worm wheel (39) and the output member (70), and elastically deformed by a relative rotation of the worm wheel (39) and the output member (70), a gap portion (SP) is provided between the worm wheel (39) and the output member (70), a portion (DP) bulged by elastic deformation of the damper member (80) is housed in the gap portion (SP), the portion (DP) bulged by elastic deformation of the damper member (80) does not push the output member (70) away from the worm wheel (39). Therefore, although it has the damper member (80), it is not necessary to fix the output member (70) so as to prevent the output member (70) from being moved in an axial direction of a support shaft by using a fixing member on the basis of a conventional manner, thereby making it possible to reduce the intensity of the support shaft, and consequently, it is possible to realize excellent shock resistance and silence, and cost reduction.

A clutch includes a roller arranged between a clutch housing and a driven side rotating body. The roller is rotated about a rotation axis of a drive side rotating body together with the drive side rotating body when the drive side rotating body is rotationally driven. The roller hinders rotation of the driven side rotating body by being sandwiched between the clutch housing and the driven side rotating body when the drive side rotating body is not rotationally driven. The support member sandwiches the roller between the clutch housing and the driven side rotating body. The support member rotates about the rotation axis of the drive side rotating body together with the drive side rotating body. The grease is arranged between the clutch housing and the roller. The support member restricts rotation of the roller about a central axis of the roller.