A micro-sized structure and construction method for a fluidic oscillator wash or spray nozzle (100 or 250) has a nozzle housing (110 or 252) enclosing an interior cavity (112 or 262) which receives an insert (114 or 254) having internal fluid passages defining first and second power nozzles (120, 122 or 280, 282). The power nozzles receive pressurized fluid (130) flowing through the interior cavity of the housing, where the fluid flows into the cavity at the bottom of the housing and flows upwardly to inlets (140, 142) for the power nozzles so that accelerating first and second fluid flows are aimed by the power nozzles toward one another in an interaction region (154 or 284) which exhausts laterally along a spray axis through a horn-shaped throat defined partly within the insert and partly within the flared spray outlet orifice (160 or 290) defined through the sidewall (162) in the housing.

Described herein are sensor assembly cleaning apparatuses and methods of operation thereof that utilize a fluid such as pressurized air to cause dispersion of debris, rain droplets/water droplets from other sources, condensation, or any other environmental contaminant that may obscure a transparent surface such as a glass window of a camera housing from the glass window. In this manner, the pressurized air acts to clean the transparent surface, and as a result, improve the clarity of the field-of-view provided through that transparent surface to a camera housed in the camera housing. In addition, sensor assembly cleaning apparatuses described herein can include a water nozzle that is adapted to eject high pressure water onto the transparent surface as well as towards an air nozzle or an air vent that is adapted to eject the pressurized air. The water nozzle can thus be used to remove debris form the air nozzle.

Described herein are sensor assembly cleaning apparatuses and methods of operation thereof that utilize a fluid such as pressurized air to cause dispersion of debris, rain droplets/water droplets from other sources, condensation, or any other environmental contaminant that may obscure a transparent surface such as a glass window of a camera housing from the glass window. In this manner, the pressurized air acts to clean the transparent surface, and as a result, improve the clarity of the field-of-view provided through that transparent surface to a camera housed in the camera housing. In addition, sensor assembly cleaning apparatuses described herein can include a water nozzle that is adapted to eject high pressure water onto the transparent surface as well as towards an air nozzle or an air vent that is adapted to eject the pressurized air. The water nozzle can thus be used to remove debris form the air nozzle.

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.

Systems, devices, system-implemented methods, computer-implemented methods and/or computer program products are provided that can facilitate movement and/or cleaning of a sensor lens of a sensor system for a vehicle body. In one embodiment, the sensor system can comprise a sensor lens having a retractable portion that is moveable at least partially into and out of a chamber. The sensor system also can comprise a cleaning assembly configured to clean the retractable portion disposed within the chamber and at least partially separated from airflow exterior to the chamber. According to another embodiment, a sensor system for a vehicle body can comprise a moveable sensor lens, a cover, and a cleaning assembly configured to clean the sensor lens at least partially concealed by the cover from an environment about the vehicle body.

Systems, devices, system-implemented methods, computer-implemented methods and/or computer program products are provided that can facilitate movement and/or cleaning of a sensor lens of a sensor system for a vehicle body. In one embodiment, the sensor system can comprise a sensor lens having a retractable portion that is moveable at least partially into and out of a chamber. The sensor system also can comprise a cleaning assembly configured to clean the retractable portion disposed within the chamber and at least partially separated from airflow exterior to the chamber. According to another embodiment, a sensor system for a vehicle body can comprise a moveable sensor lens, a cover, and a cleaning assembly configured to clean the sensor lens at least partially concealed by the cover from an environment about the vehicle body.

A cleaning device for selectively bombarding a surface with a media sequence, the sequence including at least a first gaseous medium and a second liquid medium, includes a nozzle configured to bombard the surface with the second medium; a cleaning valve with a holding port, a pressure port, a plunger, and a pressure outlet; and a high-pressure accumulator configured to store the first medium. The first medium is loaded with an accumulator pressure. The cleaning device further includes a changeover valve configured to selectively create a connection between a first medium supply line and a holding line connected to the holding port. The pressure outlet is configured to bombard the surface with the first medium in pulse-like fashion.

A cleaning device for selectively bombarding a surface with a media sequence, the sequence including at least a first gaseous medium and a second liquid medium, includes a nozzle configured to bombard the surface with the second medium; a cleaning valve with a holding port, a pressure port, a plunger, and a pressure outlet; and a high-pressure accumulator configured to store the first medium. The first medium is loaded with an accumulator pressure. The cleaning device further includes a changeover valve configured to selectively create a connection between a first medium supply line and a holding line connected to the holding port. The pressure outlet is configured to bombard the surface with the first medium in pulse-like fashion.

A wiper arrangement having at least one securing and/or guide unit (34a; 34b; 34c), which has at least one securing element (36a; 36b; 36c) with which a connecting unit (24a; 24b; 24c) can be brought into contact when a wiper blade (14a; 14b; 14c) moves relative to a wiper arm (18a; 18b; 18c), and which has at least one guide element (44a; 44b; 44c), which guides the connecting unit (24a; 24b; 24c) when the wiper blade (14a; 14b; 14c) moves relative to the wiper arm (18a; 18b; 18c).

A wind deflector for a windscreen wiper system of a motor vehicle has a windscreen-cleaning apparatus with at least one nozzle for cleaning a windscreen integrated therein. The wind deflector has a wind deflector contour, by way of which an air flow in the region of an associated wiper arm and a wiper blade can be guided. The wind deflector, on its side that faces the wiper blade, has at least one wind-guiding element, which is arranged in the region of the associated nozzle and protrudes, raised, toward the windscreen.