An assembly includes an inlet tube and an outlet tube. The assembly includes a solenoid assembly having a plunger movable between an open position in which fluid is permitted to flow from the inlet tube to the outlet tube and a closed position in which fluid is inhibited from flowing from the inlet tube to the outlet tube. The solenoid assembly has a spring urging the plunger to the closed position. The assembly includes a first pressure sensor positioned to be compressed when the plunger is moved toward the open position. Pressure detected by the first pressure sensor indicates whether the plunger is at the open position. The assembly includes a second pressure sensor positioned to be compressed when the plunger is moved toward the closed position. Pressure detected by the second pressure sensor indicates whether the plunger is at the closed position.

An object of the present invention is to provide a valve apparatus capable of keeping a holding state of a valve body. The valve apparatus 14 is adapted to supply cleaning fluid by switching between a first flow channel 54 and a second flow channel 55, the valve apparatus 14 being provided with: a first fluid pipe 44 having a first flow channel 54; a second fluid pipe 45 coaxially aligned with the first fluid pipe 44, the second fluid pipe 45 having a second flow channel 55; a housing 86 provided with a first valve chamber 37 and a second valve chamber 38; a partition wall 49 disposed between the first flow channel 44 and the second flow channel 55 in the housing 86; and a rib 46 provided to the housing 86 to support the partition wall 49, wherein the partition wall 49 has: a film-like valve body 50 which is elastically deformed by pressure of the first valve chamber 37 and the second valve chamber 38 so as to open one of the first flow channel 44 and the second flow channel 55 and close the other of the first flow channel 54 and the second flow channel 55; and a frame 51 attached along an outer circumference of the valve body 50 and supported by the rib 56, wherein the frame 51 is higher in stiffness than the valve body 50.

A system includes a processor and a memory. The memory stores instructions executable by the processor to, upon determining that a first fluid level in a vehicle container is below a threshold based on fluid level sensor data, determine a second fluid level based on a fluid consumption signal and the fluid level sensor, and to navigate the vehicle based on the determined second fluid level.

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.

The invention relates to a wiper motor (10), with an output shaft (11) which rotates in exclusively one direction (12) and is designed at least indirectly to move at least one wiper blade (1) between two reversal positions (A, B). According to the invention, it is provided that the wiper motor (10) has means (30) which are designed at least indirectly to activate a pump (25) for conveying a cleaning fluid in such a manner that cleaning fluid can be applied to a vehicle window (2) exclusively in front of the wiper blade (1) in the respective wiping direction.

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.

A sensor assembly includes a base mounted to a vehicle defining a forward direction, a housing mounted to the base and rotatable relative to the base around an axis in a direction of rotation, a sensing apparatus inside the housing and rotatable with the housing, a sensor window fixed to and rotatable with the housing, and a nozzle fixed relative to the base. The sensor window is flat. The sensing apparatus has a field of view through the sensor window. The nozzle is positioned to be aimed at the sensor window when the sensor window is at a first rotational position that is more than 0° and less than 90° from the forward direction relative to the axis in the direction of rotation.