A computer implemented method for operating a wiper system of a sensor enclosure. The wiper system can be configured to receive a camera operating information from one or more cameras. The one or more cameras can be determined to be in an exposure mode based on the camera operating information. A first speed of one or more wipers can be adjusted such that the one or more wipers are not in field of views of the one or more cameras while the one or more cameras are in the exposure mode.

A camera module shoots a satisfactory image by suppressing the adherence of water droplets to a part in a light transmitting cover through which imaging light is transmitted. Provided are an outer casing comprising a housing having an opening and a light transmitting cover for closing the opening; and a camera module arranged inside the outer casing. A part of the light transmitting cover is provided as a transmission window through which imaging light incident on the camera module is transmitted and a restriction part for restricting the inflow of water droplets toward the transmission window is provided to the light transmitting cover.

A vibrating device includes a tubular body including a first end, a second end, and a plurality of side surfaces that connect the first and second ends, piezoelectric vibrators that are fixed to the tubular body and vibrate the tubular body, and a light transmitting body unit that is directly or indirectly connected to the second end of the tubular body.

The present invention relates to a novel wiper system comprising a wiper vertically aligned to the height of a windshield and configured to move horizontally along a pair of tracks positioned along a top edge and a bottom edge of the windshield. The wiper and the tracks have a thin profile, so as not to obstruct the view of a driver and to not leave any blind spots. The wiper is driven by drive units that are configured to actuate the actuators of the wiper system. A motor provides electric power to the drive unit. The wiper's speed can be controlled using operating means positioned inside the vehicle and nozzles are positioned on the wiper for spraying washing fluid on the windshield. The wiper system can be retrofitted and improves vision while driving, minimizes debris on the windshield, and ensures the driver can clearly see through the windshield.

A vehicular cleaner system (1) for cleaning a to-be-cleaned object (100), wherein: the vehicular cleaner system (1) is provided with a tank (11) that accommodates a cleaning liquid, a pump (12) that pressure-feeds the cleaning liquid inside the tank (11), a high-pressure-air generation unit (2) that generates high-pressure air, a first ejection port that sprays the cleaning liquid toward a cleaning surface of the to-be-cleaned object (100), a second ejection port that sprays the high-pressure air toward the cleaning surface, and a controller (4) and vehicle ECU (40) that control the spraying of the cleaning liquid and the spraying of the high-pressure air; and the controller (4) and the vehicle ECU (40) perform control so as to initiate the spraying of the high-pressure air from the second ejection port after spraying of the cleaning liquid from the first ejection port has been initiated.

An optical sensor device includes a plurality of light-emitting elements arranged on an arrangement surface to be apart from each other in an x direction perpendicular to a z direction that is a direction connecting an area corresponding to the plurality of light-emitting elements and an area corresponding to a light-receiving element. A light-guide lens portion includes a plurality of incident portions respectively corresponding to the plurality of light-emitting elements and respectively receiving light from the plurality of light-emitting elements. The plurality of incident portions is provided with an equalizing portion configured to equalize intensity of the light incident on the light-guide lens portion along the x direction by reducing the intensity of the light along the z direction out of the light that is emitted from the light-emitting element, while allowing an incident of part of the light emitted from the light-emitting element adjacent to the corresponding light-emitting element.

Provided are embodiments for a direct drive wiper system. The system includes a motor that is operably coupled to a wiper system to drive one or more wiper arms of the wiper system, and a gearbox, wherein an input to the gearbox is coupled to the motor and an output of the gearbox is coupled to the wiper assembly, wherein the gearbox is configured to convert an input from the motor to an output to drive the wiper system. The system also includes a brake and stopper mechanism that is coupled to the gearbox and the wiper system. Also provided are embodiments for a method for operating the direct drive wiper system.

Provided are embodiments for a direct drive wiper system. The system includes a motor that is operably coupled to a wiper system to drive one or more wiper arms of the wiper system, and a gearbox, wherein an input to the gearbox is coupled to the motor and an output of the gearbox is coupled to the wiper assembly, wherein the gearbox is configured to convert an input from the motor to an output to drive the wiper system. The system also includes a brake and stopper mechanism that is coupled to the gearbox and the wiper system. Also provided are embodiments for a method for operating the direct drive wiper system.

A vehicle control device includes a driving controller configured to control one or both of steering and acceleration or deceleration of a vehicle; and a mode determiner configured to determine a driving mode of the vehicle to be one of a plurality of driving modes including a first driving mode and a second driving mod, in which the second driving mode is a driving mode in which a task imposed on a driver of the vehicle is lighter than that of the first driving mode and one or both of the steering and the acceleration or deceleration are controlled by the driving controller, and to change the driving mode to the first driving mode on the basis of an operating state of a wiper mounted in the vehicle when the driving controller controls the vehicle in the second driving mode.

A cab for a refuse vehicle includes a cab body defining a first door opening and a second door opening, a first door positioned over the first door opening, and a second door positioned over the second door opening. Each of the first door and the second door includes a door panel and a peep window positioned proximate a lower end of the door panel. The peep window includes an interior windowpane and exterior windowpane. Portions of the interior windowpane and the exterior windowpane are vertically offset and horizontally offset.