A seal assembly (100) is provided, which is used to seal the connection region between a glass (103) and a shaft assembly (108) passing through the glass (103). The shaft assembly (108) may comprise a shaft (113) and a threaded bushing (114) around the shaft (113). The seal assembly (100) may comprise an outer seal (101), which has a body portion (115) supported on the glass (103), and further comprises at least one sealing portion (116) to form at least one sealing area (119, 121); and the seal assembly (100) further comprises an inner rotatable seal (106), which has a body portion (122) with a thread (128) for engaging a thread (110) of the bushing (114), and which further comprises at least one second sealing portion (123) to form at least one sealing area (124). Therein, the body portion (115) of the outer seal (101) and the body portion (122) of the inner rotatable seal (106) have corresponding threads (102, 107) for engaging the outer seal (101) with the inner rotatable seal (106). The assembly (100) can prevent the water leakage at the connection region between the wiper and the vehicle body effectively. The assembly (100) is easy and convenient to be installed, with high reliability, and has an advantage in appearance.

When a headlight driver input indicates an AUTO mode, a VCIB accepts a headlight mode request from an ADK. The VCIB identifies a current headlight driver input. The VCIB reads first correspondence information and checks the identified headlight driver input and the accepted headlight mode request against the first correspondence information to determine an illumination status of a headlight.

A wiper (14) for wiping a window pane (12) of a motor vehicle is provided, having a drive shaft (16) that can be driven by a motor, and a wiper lever (18) connected to the drive shaft (16) for moving a wiper blade. The wiper lever (18) is flexibly bendable. A maximum bending angle (20) of the wiper lever (18) around a bending axis extending perpendicular to the drive shaft (16) is limited by a limit stop (32) to bending of the wiper lever (18) in the range of elastic deformation. The limit stop (32) makes stop contact at the maximum bending angle (20) and can keep the deformation of the wiper lever (18) reliably in the range of elastic deformation, thus reducing the risk of damage to wipers (14).

A rear wiper for a motor vehicle according to an exemplary aspect of the present disclosure includes, among other things, a wiper arm including an overmolded metallic bar. This disclosure also relates to a motor vehicle including the rear wiper, and a method of forming the rear wiper.

Disclosed is a rear camera module for a vehicle. The disclosed rear camera module includes a module cover mounted to a rear side of the vehicle such that a rotational shaft of a rear wiper is rotatably coupled to the module cover and a rear camera module installed at the module cover to photograph a rear-view image of the vehicle. The rear camera module can be easily and conveniently installed at the rear side of the vehicle.

An opening and closing member is attachable to a rear opening of a vehicle body in an openable and closable manner. The opening and closing member includes an inner panel disposed to face a vehicle body inner side and a wiper bracket member via which a wiper is attached to an inner side of the inner panel. The inner panel has a bracket attaching part protruding toward the vehicle body inner side. The wiper bracket member has a protruding part protruding toward the vehicle body inner side. The wiper bracket member is attached to the bracket attaching part such that a ridge line of the protruding part is aligned with a ridge line of the bracket attaching part.

A washer nozzle arrangement structure includes a rear spoiler, a wiper arm, a wiper blade and a washer nozzle. The rear spoiler is arranged on a portion of a body above a rear window and includes a recess part formed on a side of the rear window. A rotation center axis disposed on one end side of the wiper arm is supported on the vehicle. The wiper blade is supported on the other end side of the wiper arm, and is configured to be stored in the recess part when the wiper arm is in a stop position. The washer nozzle is configured to eject a washer liquid toward the rear window. The washer nozzle is arranged in an inside of a portion of the recess part which exists on a front side of the vehicle than the rotation center axis of the wiper blade.

The present invention relates to an assembly (111) for motor vehicle equipment comprising: an electric motor (3), a fixing plate (11) to which the electric motor (3) is fixed at least at one attachment point (14), the said fixing plate (11) comprising: at least one fixing point (20) intended for the fixing of the fixing plate (11) to an element external to the assembly (111), such as a structural element of the vehicle,
in which the fixing plate (11) has at least one slot (25) associated with the fixing point (20) and distinct from the associated fixing point (20), the said at least one slot (25) extending over at least part of the thickness of the fixing plate (11).

A tailgate structure is provided that includes: a tailgate that is made of resin and is arranged in an opening of a vehicle body; a wiper that wipes a glass arranged in the tailgate; and a lock device that fixes the tailgate to the vehicle body by being engaged with the opening in a state that the tailgate is closed, wherein the wiper is connected with the lock device by a reinforcing member.

An extraneous-matter removing apparatus according to an embodiment includes a connector, a detector, and a removal unit. The connector is connected with a branch wire branching from a camera wire. The camera wire transmits a start-up signal for starting up a camera provided outside of a vehicle. The detector detects the start-up signal flowing through the branch wire connected with the connector. The removal unit performs, when the detector detects the start-up signal, a removing operation of an extraneous matter attached to the camera.