A vehicle assembly includes a vehicle window, a sprayer positioned above the vehicle window and aimed at the vehicle window, a sensor positioned below the vehicle window, and a deflector positioned to receive fluid from the sprayer and shaped to direct the fluid to the sensor. A single sprayer therefore provides cleaning for both the vehicle window and the sensor.

The present disclosure relates to contaminant detection systems and related optical systems and methods. An example contaminant detection system includes an optical coupler configured to couple light into and/or out of an optical element. The contaminant detection system also includes a plurality of light-emitter devices configured to emit emission light toward the optical coupler. The contaminant detection system additionally includes a plurality of detector devices configured to detect at least a portion of the emission light by way of the optical element and the optical coupler. The plurality of detector devices is also configured to provide detector signals indicative of a presence of a contaminant on the optical element.

The present disclosure relates to contaminant detection systems and related optical systems and methods. An example contaminant detection system includes an optical coupler configured to couple light into and/or out of an optical element. The contaminant detection system also includes a plurality of light-emitter devices configured to emit emission light toward the optical coupler. The contaminant detection system additionally includes a plurality of detector devices configured to detect at least a portion of the emission light by way of the optical element and the optical coupler. The plurality of detector devices is also configured to provide detector signals indicative of a presence of a contaminant on the optical element.

The invention relates to a wiper device comprising at least one wiper strip unit (12a-g) which has at least one first wiper lip (14a-g) and at least one second wiper lip (16a-g). The wiper device (10a-g) has at least one automatically activated wiper lip switching unit (20a-g) which is provided in order to switch a wiper lip (18a-g) that is active in at least one sub-process of a wiping process.

A camera cleaning device includes: a jet nozzle being placed above a lens of the camera, the jet nozzle being configured to dispersedly jet washing water toward the lens; and a garnish fixed to an outer panel so as to be placed on a rear side of the outer panel in a vehicle front-rear direction, wherein the jet nozzle is disposed between the outer panel and the garnish.

A camera cleaning device includes: a jet nozzle being placed above a lens of the camera, the jet nozzle being configured to dispersedly jet washing water toward the lens; and a garnish fixed to an outer panel so as to be placed on a rear side of the outer panel in a vehicle front-rear direction, wherein the jet nozzle is disposed between the outer panel and the garnish.

Methods and apparatus are provided for cleaning a sensor lens cover for an optical vehicle sensor. The method includes monitoring the sensor lens cover for a contaminant obstructing at least a portion of the sensor lens cover and determining the presence of the commandant and a contaminant type using information provided by one or more vehicle sensors. A cleaning modality selected based the contaminant type is activated and it is determined whether the cleaning modality has removed the contaminant from the sensor lens cover.

Methods and apparatus are provided for cleaning a sensor lens cover for an optical vehicle sensor. The method includes monitoring the sensor lens cover for a contaminant obstructing at least a portion of the sensor lens cover and determining the presence of the commandant and a contaminant type using information provided by one or more vehicle sensors. A cleaning modality selected based the contaminant type is activated and it is determined whether the cleaning modality has removed the contaminant from the sensor lens cover.

A very compact nozzle assembly 100, 200, 300 and spray head for an automotive washer nozzle is configured for inclusion into an automotive trim component. The compact nozzle assembly and spray head generate a very effective cleaning spray at a selected spray fan angle, yaw angle and roll angle and, in an exemplary embodiment, the spray fan is dual shear shaped, producing an even distribution, which may be varied from 30 to 120. Spray head may be as small as 5 mm in diameter and be aimed to provide a spray with various spray aim, yaw and roll angles. The design accounts for better mold ability and versatility of application.

A very compact nozzle assembly 100, 200, 300 and spray head for an automotive washer nozzle is configured for inclusion into an automotive trim component. The compact nozzle assembly and spray head generate a very effective cleaning spray at a selected spray fan angle, yaw angle and roll angle and, in an exemplary embodiment, the spray fan is dual shear shaped, producing an even distribution, which may be varied from 30 to 120. Spray head may be as small as 5 mm in diameter and be aimed to provide a spray with various spray aim, yaw and roll angles. The design accounts for better mold ability and versatility of application.