RU2088443C1 - Nozzle unit of windshield washer - Google Patents

Abstract

FIELD: automotive industry. SUBSTANCE: liquid is injected through two nozzles mounted in the housing of the nozzle unit. The unit is provided with a heater connected with the nozzles. EFFECT: enhanced reliability. 1 dwg

Description

 The invention relates to a device for cleaning the windows of vehicles.

 A known vehicle glass washer nozzle comprising a housing of at least one nozzle connected by a nozzle to a washer fluid supply system and a heating element connected to the nozzle.

In the known device, the conversion of electrical energy into thermal energy is carried out due to the electrical resistance of a current conductor of the type thermistor, the efficiency of which is 3-4 times less than in the inventive device, which uses a porous element, a non-metallic body and nozzle are removed from the heating element, and the sharp edge the nozzles spraying the jet significantly worsen the washing of the vehicle glass; moreover, the device selected for the prototype does not solve the problem of maintaining the operability of glass cleaning t vehicle at an outdoor temperature below -5 ^o C.

 A disadvantage of the known cleaner is the technological complexity of manufacturing, a large number of constituent elements, locking spray nozzles with ice, after stopping the flow of washer fluid, which makes it impossible in this connection to re-supply fluid.

The aim of the invention is to maintain the operability of the vehicle glass cleaning system at an outdoor temperature below 0 ^o C.

The goal is achieved in that the vehicle’s glass washer nozzle comprises a housing of at least one nozzle connected by a nozzle to the washer fluid supply system and a heating element connected to the nozzle is provided with another nozzle mounted in the housing in a horizontal plane at an angle of 45 ^o to the first nozzle, the outlet openings of the housing in which the nozzles are placed are made in the form of a cone with an angle of 50 ^° , and the surface of the housing facing the washable glass is tilted relative to the vertical axis by an angle of 15 ^° to the side of the washed about glass.

The location of the nozzles in the inventive jet in a horizontal plane at an angle of 45 ^o relative to one another is determined by the need to provide a liquid spot on the surface being washed.

 The optimum value of the angle is confirmed by experimental tests and meets the technical conditions of vehicle manufacturers.

In the claimed device, nozzles are placed in the housing in openings made in the form of a cone with an angle of 50 ^° , and the surface of the housing facing the glass being washed is inclined relative to the vertical axis by an angle of 15 ^° to the side of the glass being washed.

The choice of the angle of 50 ^o and 15 ^{o is} determined from the maximum allowable tilt angles when the vehicle is moving on an inclined surface of about 15-20 ^o , the liquid remaining at the end of the nozzle fills the entire volume of the nozzle and, due to the distance from the heating element, it is possible to freeze liquid, which is unacceptable.

The correct choice of angles of 50 ^o and 15 ^o confirmed experimentally.

 At these angles, liquid is removed from the volume in question.

 The drawing shows the device of the nozzle of the glass washer of a vehicle.

The nozzle comprises a housing 1 made of a polymer material with elements that impede the movement of the housing 1 in the vehicle body. Two nozzles 2 are mounted in the housing 1 at an angle of 15 ^° to the base of the housing, and the angle between the axes of the nozzles is 45 ^° . The outlet openings of the housing 1 have an expanding cone with an angle of 50 ^o . Each nozzle is a sphere conjugated to a cylinder and has a through hole for the passage of washer fluid. The nozzle contains a heating sleeve 3, in contact with the conductive bus 4 on the one hand, and on the other hand with a heating element 5, which in turn is in contact with the bus 4, and a nozzle 6 connecting the nozzle to the washer system.

 The jet works as follows.

When the vehicle is moving, fluid is constantly present in the washing system. This liquid passes through the nozzle openings and, falling on the windshield, removes dirt. When the ambient temperature drops below 0 ^o C, ice formation is observed in the nozzle cross sections.

 To eliminate this phenomenon, the proposed design of the nozzle has a heating element 5, to which a current of 12 V from the vehicle’s power supply is supplied through a conductive bus 4. The heating element transfers heat to the nozzles 2, in the openings of which the washer fluid defrosts.

 The tests showed the efficiency of the claimed device. At the same time, the vehicle glass washer nozzle can be installed on any car, without changing the energy, due to the insignificant power consumption, it only requires the installation of an additional power button or combining it with the power button for rear window heating.

The technical effect of the invention is that the operability of the vehicle’s glass washing system is maintained to an ambient temperature of -15 ^o C.

Claims (1)

A vehicle glass washer nozzle comprising a housing of at least one nozzle connected by a nozzle to a washer fluid supply system and a heating element connected to the nozzle, characterized in that it is provided with another nozzle mounted in the housing in a horizontal plane at an angle of 45 ^o the first dyuze, outlets housing in which are located the nozzles are in the form of a cone with an angle of 50 ^o, and the housing surface facing the washes the glass is inclined relative to the vertical axis by an angle of 15 ^o in the direction from the wash our of glass.