The present disclosure relates to vehicle technology, and more particularly, to an unmanned vehicle and its sensor device and cleaning mechanism. The cleaning mechanism includes: a housing, a cleaning element, a driving component transmissively connected to the cleaning element and a control unit installed within a receiving cavity. The housing has a light transmissive element provided on a side surface thereof. The cleaning element is pivotable about one end thereof and mounted to the housing. The cleaning element, when pivoting, frictionally interacts with a surface of the light transmissive element that is away from the receiving cavity to clean the light transmissive element. The control unit is communicatively connected to the driving component for controlling the driving component.

Assembly for the production of a wiping system (1), comprising a terminal part (4) of a wiper arm (3) designed to move a wiper blade (2), and a connecting interface (5) for conveying a liquid to the wiper blade (2), said assembly further comprising one sliding element (6) having a first position for locking a connecting device of the wiper blade (2) on said terminal part (4), and a second position enabling the terminal part (4) and the connecting device to be separated, said sliding element (6) being further able to hang said connecting interface (5) either on the connecting device in the first position or on the terminal part (4) in the second position.

Disclosed is a cleaning device for a washing apparatus arranged in a vehicle, comprising a housing with a chamber which is formed in the housing, is configured to be filled with cleaning fluid and is hydraulically connectable to at least one spray nozzle for the cleaning fluid, and with at least one heatable heating wire protruding at least in sections into the chamber. To obtain high functional reliability even at low temperatures and to permit particularly rapid and reliable deicing, a heat-conducting element is arranged in the chamber to enlarge a heat-transferring convection surface, said heat-conducting element absorbing the heat from the heating wire, and being at least partially, and preferably completely, surrounded by the cleaning fluid.

A washer liquid heating apparatus integrated into a reservoir may include a plate-type heater that may be installed in a hole of the reservoir to heat a washer liquid within the reservoir, a protect cover that may be assembled into the reservoir to surround the heater, and a fastening device for fixing the heater and the protect cover to the reservoir, wherein the plate-type heater may be fixed to be exposed to an inside of the reservoir through the hole such that a heating surface where heating may be performed heats the washer liquid within the reservoir.

An aircraft windshield wiper system includes a wiper arm, a wiper blade coupled to a first end of the wiper arm, and an output shaft coupled to a second end of the wiper arm. The wiper blade includes a fluid dispensing system including nozzles, a fluid control unit, fluid lines, fluid source, and a user interface. The wiper blade with the fluid dispensing system is configured to dispense a variety of fluids directly from the wiper blade onto the windshield of an aircraft.

Screen wiper blade of a vehicle, in particular a motor vehicle, comprising a heating electrical circuit, characterized in that said circuit comprises at least one bimetal strip thermostat configured to provide a thermal fuse function.

Windscreen wiper heating element for a vehicle, in particular a motor vehicle, including an electrical heating conductor circuit (120) and a support (118) of that circuit, the circuit including at least one loop (122) the ends of which are connected to electrical power supply terminals (126, 128) characterized in that said at least one loop includes at least one fusible portion (F1, F2) in which the section and/or the material of the conductor of that loop is different from that or those of the conductor of the rest of the loop.

A washer fluid heating device includes a container that contains a washer fluid, a lid portion attached to a first end of the container in a direction of a central axis line O to face an accommodation space for the washer fluid, heating means that has a proximal end portion attached to the lid portion and extends toward the accommodation space, and an outflow pipe having an outlet disposed in the accommodation space, the outlet is provided between a distal end surface of the heating means and a second end opposite to the first end of the container, and a region obtained by projecting the outlet onto a virtual plane perpendicular to the direction of the central axis line O of the container at least partially overlaps a region obtained by projecting the distal end surface of the heating means onto the virtual plane.

A motor vehicle windscreen wiper windscreen washer liquid distribution system including a windscreen washer liquid distribution network is disclosed. The windscreen washer liquid distribution network includes at least one hydraulic pipe including at least one windscreen washer liquid circulation passage, at least one hydraulic connector connected to the circulation passage, and at least one thermally conductive member in thermal contact with the at least one hydraulic connector and with a heating element of the distribution system.

Bladeless programmable multi-jet non-vision-distracting wiper/cleaner devices, designs, methods, systems, assemblies and programs utilizing regulated invisible pressurized multi-air-jets and water-jets, for selectively wiping, cleaning, clearing, bouncing off and removing rain, snow, ice, dust, and other particulate matters from the external surfaces of the front, rear, side windshields and side-view mirrors; providing optimally angled linear-slit or wavy-slit jet nozzles built-in from longitudinal singular or aggregated plurality of delivery air-jet pipes and water-jet pipes for releasing controlled sustained and intermittent flow of invisible pressured air-jet-streams and water-jets, providing cleaner, clearer and safer visibility for millions of automobile driver(s) and/passenger(s), globally, preventing automobile accidents during hazardous weather conditions; said invention operable by a selection or combination of manual, automated, remote-control and interactive voice-commands, regulated by ECU and displays within and away from the automobile; eliminating the use of prior-art annoying, visual-field-interrupting long-bladed oscillating windshield wipers.