FR2992569A1 - Liquid filter tank for use in filtration system for filtering cleaning liquid contained in container for cleaning surface of e.g. pane of car, has piston comprising closure units for closing wall openings in filtration stop position - Google Patents

Abstract

The tank has a hollow body (2) whose filtration wall (4) is provided with multiple openings for passage of liquid, and a discharge mouth (5) for discharging the filtered liquid. A piston (3) is adapted to a filtration position of the liquid when the liquid is maintained remotely from the filtration wall and to a filtration stop position while the liquid is plated against the filtration wall. The piston comprises multiple openings for passage of the liquid, and closure units i.e. pins (8), for closing the wall openings in the filtration stop position. An independent claim is also included for a system for filtering liquid contained in a container.

Description

SELF CLEANING FILTER FOR A LIQUID TANK, IN PARTICULAR A MOTOR VEHICLE WASHER LIQUID RESERVOIR. The invention mainly relates to a liquid tank filter.

The invention also relates to a filtration system including such a filter and a motor vehicle equipped with at least one filtration system of this type. The cleaning of the windows of a vehicle, in particular a motor vehicle, is carried out by spraying a washer fluid on the window to be cleaned. This liquid is contained in a tank that is in communication with a pump that sucks a certain amount of liquid from the tank when the user controls the activation of the cleaning of the glass. Over time and depending on the driving conditions, particles and dirt accumulate in the tank, which can make window cleaning inefficient. This is why some windshield washer fluid tanks are equipped with a filter placed in the tank at the inlet of the pump. These filters are in a known manner in the form of a grid comprising a multitude of small diameter orifices which make it possible to prevent the particles and dirt accumulated in the reservoir from being projected onto the window to be cleaned and obstruct the ventilation system. washing. But during the use of the filter, the dirt accumulates by obstructing the filter holes. However, cleaning the filters requires disassembly of the entire filtration system. This filter obstruction problem immersed in a liquid reservoir is not specific to a motor vehicle windshield washer but extends to any liquid tank filter subjected to periodic movements of pressurized circulation of the said fluid reservoir. liquid.

In this context, the present invention is directed to a liquid tank filter that particles and dirt accumulating in the tank do not obstruct during its use. For this purpose, the filter of the invention is essentially characterized in that it comprises a hollow body extending along a main longitudinal axis and comprising a filter wall provided with a multitude of liquid passage orifices as well as a discharge mouth of the filtered liquid, and in that it comprises a piston coaxially disposed inside the hollow body which is adapted to adopt a filtration position of the liquid being kept at a distance from the filtering wall and a filtration stop position being pressed against the filtering wall, which piston comprises a plurality of liquid passage orifices and means for closing the orifices of the filter wall of the hollow body in the stop position of filtration. The filter of the invention may also include the following optional characteristics considered in isolation or in any possible technical combination: the piston orifices are longitudinally offset relative to the orifices of the filter wall of the hollow body. the piston comprises a plurality of closure studs protruding longitudinally towards the filtration wall of the hollow body and facing a multitude of orifices of the filtration wall of the hollow body, the length of the closure studs being at less than the thickness of said filter wall. - The orifices of the filtration wall of the hollow body and the piston closure studs are regularly distributed over the respective surfaces of the filter wall of the hollow body and the piston. - The piston comprises at least one longitudinal projecting guide pin towards the filter wall of the hollow body and said filtering wall comprises at least one receiving orifice of said guide axis. - The filter comprises a piston return spring against the filter wall of the hollow body which is disposed between said filtering wall and the free end of the guide shaft which comprises a retaining stop of said spring. the hollow body is cylindrical, the piston has the shape of a disc of diameter corresponding to the internal diameter of the hollow body, and the piston comprises two longitudinal protruding guide pins towards the filtration wall of the hollow body, the said wall of filtration comprising two receiving orifices of the two guide axes. The invention furthermore relates to a filtration system which is essentially characterized in that it comprises a filter as previously exposed which is immersed in a liquid reservoir and whose outlet of the filtered liquid is in communication with a suction pump of the liquid contained in said tank. According to a preferred application of the invention, the reservoir contains a washer fluid intended to clean the surface of a window of a motor vehicle.

Finally, the invention relates to a motor vehicle that is equipped with at least one such filtration system. Other characteristics and advantages of the invention will emerge clearly from the description which is given below, by way of indication and in no way limiting, with reference to the appended figures in which: FIG. 1 is a schematic representation in perspective of the body FIG. 2 is a diagrammatic representation in perspective and in section along line II-II of FIG. 1 of the hollow body and the piston of the filter of the invention. FIG. invention in the inactive position, - Figure 3 is a schematic perspective view of the hollow body of the filter of the invention, - Figure 4 is a schematic front view of the piston of the filter of the invention, - Figure 5 is a schematic representation in perspective of the hollow body and the piston of the filter of the invention illustrated in active filtration position, - Figure 6 is a schematic representation in per spective and in section along the section line VI-VI of Figure 5 of the hollow body and the piston of the filter of the invention in the active position of filtration, - Figure 7 is a schematic representation in perspective and in section of the hollow body and the piston of the filter of the invention according to arrow VII of FIG. 6, and FIG. 8 is a schematic representation of the filtration system of the invention comprising the filter immersed in the liquid reservoir and in communication with a pump. suction.

Referring to Figures 1 to 4, the filter of the invention 1 comprises a cylindrical hollow body 2 and a piston 3 which is essentially in the form of a disk whose diameter corresponds to the internal diameter of the hollow body 2. The body hollow 2 extends longitudinally along a main axis XX 'and the piston 3 is disposed coaxially inside the hollow body 2.

Referring to Figure 3, the hollow body 2 comprises a filter wall 4 opposite of which a discharge port 5 of the filtered liquid is in communication with a pump not shown. The filtration wall 4 of the hollow body 2 comprises a plurality of filter through orifices 6 through which the liquid flows when the pump is in operation. Each orifice 6 has a diameter of less than 1 millimeter so that the particles and dirt contained in the reservoir can not pass through the filter. Referring more particularly to Figure 3, the orifices 6 are uniformly and concentrically distributed on the filter wall 4 in alternating series of five orifices 6a extending from the center of the wall to the outer circular edge 7 of the filtration wall 4, and two orifices 6b located on the side of said outer circular edge 7. The number and the configuration of orifices 6, 6a, 6b are adapted according to the design of the filter of the invention.

Referring to Figure 4, the piston 3 comprises a plurality of pins 8 which are distributed on the surface of the piston coinciding with the openings 6 of the filter wall 4 of the hollow body 2 when the piston 3 is disposed coaxially in the body hollow 4 (FIGS. 1 and 2). More specifically, the pins 8 are uniformly and concentrically distributed on the piston 3 in an alternation of series of five pins 8a extending from the center of the piston to the outer circular edge 9 of the piston 3 and two pins 8b located on the side of said outer circular edge 9. The piston 3 further comprises a multitude of orifices which are also uniformly and concentrically distributed on the piston 3. Among these orifices, small holes 10a have a diameter substantially identical to the diameter of the orifices 6 of the filter wall 4 of the hollow body 2 while large holes 10b have a larger diameter, which ensures the flow of the filtered liquid and to avoid an overpressure between the filter wall 4 of the hollow body 2 and the piston 3 during filtration.

The orifices 10a, 10b of the piston 3 are thus longitudinally offset relative to the orifices 6, 6a, 6b of the filtration wall 4 of the hollow body 2 so that when the filtration is stopped, the liquid does not flow out. through the filter 1 and does not cause the passage of dirt in the hollow body 2.

The piston 3 finally comprises a first guide shaft 11 located in the center and a second guide axis 12 offset with respect to the first guide axis 11. These two guide axes are used to maintain the relative position between the piston 3 and the body hollow 2 and avoid any rotation between these two parts. The filtration wall 4 of the hollow body 2 also has two through-holes 17, 18 for receiving the two guide pins 11, 12. With reference to FIG. 1, the free end 13 of the central guide shaft 11 includes a retaining stopper 14 of a return spring 15 which extends as far as the filtering wall 4 of the hollow body 2.

The filter of the invention 1 operates in the following manner. With reference to FIGS. 5 to 7, when the pump, not shown in these figures, is activated in operation by the user to spray washer fluid on a window, the suction force of the pump drives the piston 3 moving backwards according to the arrow F1. The piston 3 is thus kept at a distance from the filtration wall 4 of the hollow body 2, which allows the liquid to flow from the tank, not shown in these figures, towards the discharge opening 5 of the hollow body 2, crossing first. the openings 6, 6a, 6b of the filtering wall 4 of the hollow body 2 and then the orifices 10a, 10b of the piston 3, the actual filtration taking place at the filtration wall 4 of the hollow body 2. 1 and 2, when the pump is rendered inactive, the piston 3 moves backwards along the arrow F2 and is pressed against the inner face 16 of the filtration wall 4 of the hollow body 2. The pins 8 of the piston 3 pass through the openings 6 of the filter wall 4 of the hollow body 2 and repel dirt and particles that would have accumulated at the openings 6 of the filter wall 4 of the hollow body 2 during the previous filtration step. The length of the closure studs 8 is greater than the thickness of the filter wall 4 so as to repel dirt and particles more effectively. The two guide pins 11, 12 make it possible to ensure the coaxial positioning of each of the pins 8 in the orifices 6. When using a suction-type pump, stopping the pump makes it possible to ensure the return of the piston 3 to the filtering wall 4 by repelling the dirt and particles accumulated in the orifices 6 of the filtration wall 4 of the hollow body 2.

The presence of the return spring 15 then makes it possible to ensure a greater plating force of the piston 3 against the filtration wall 4 of the hollow body 2 so as to push more vigorously the dirt and the particles accumulated in the openings 6 of the wall. filtration 4 of the hollow body 2.

In the case of the use of a pump located upstream of the filter 1 and exerting a thrust force of the liquid through the filter 1, the return spring 15 will however be necessary to ensure the return of the piston 3 against the wall Also, the invention is not limited to the presence of the pins 8 of the piston 3. In fact, a piston 3 having no pins 8 also allows, by the single return effort of the piston 3 against the filter wall 4 of the hollow body 2, to remove dirt and accumulated particles in the orifices 6 of the filter wall 4 of the hollow body 2. It is however necessary that the orifices 6 of the wall of the filtration 4 of the hollow body 2 are not in communication with the orifices 10a, 10b of the piston in which case the dirt and the particles could not be pushed back into the tank. With reference to FIG. 8, the filtration system of the invention comprises a windscreen washer reservoir 20 into which the filter of the invention 1 as described above is immersed. The outlet mouth of the filtered liquid 5 is in communication with a suction pump 21 by means of a communication pipe 22 coaxially disposed in the hollow body 2 of the filter 1. A circular seal 23 makes it possible to ensure the tightness of the system. In variant not shown, the communication pipe 22 and the seal 23 may be made in one piece.

The filter of the invention thus makes it possible to automatically clean the filtering part of the filter 1 in which dirt and impurities may be accumulated and this, by the return of the piston against the filtration wall 4 of the hollow body 2 filter 1 when stopping filtration.

Claims (10)

REVENDICATIONS1. Liquid tank filter subjected to periodic movement movements under pressure of said liquid, characterized in that it comprises a hollow body (2) extending along a main longitudinal axis (XX ') and comprising a filtering wall ( 4) provided with a plurality of liquid passage holes (6,6a, 6b) and a discharge mouth (5) of the filtered liquid, and in that it comprises a piston (3) coaxially arranged inside the hollow body (2) which is adapted to adopt a filtration position of the liquid being kept at a distance from the filtering wall (4) and a filtration stop position while being pressed against the filtering wall (4), which piston (3) comprises a plurality of orifices (10a, 10b) for the passage of the liquid and means for closing (8, 8a, 8b) orifices (6, 6a, 6b) in the wall of the filtration (4) of the hollow body (2) in the filtration stop position. 2. Filter according to claim 1, characterized in that the orifices (10a, 10b) of the piston (3) are longitudinally offset relative to the orifices (6, 6a, 6b) of the filter wall (4) of the hollow body ( 2). 3. Filter according to any one of claims 1 and 2, characterized in that the piston (3) comprises a plurality of closure studs (8,8a, 8b) projecting longitudinally towards the filter wall (4) of the hollow body (2) and opposite a multitude of orifices (6, 6a, 6b) of the filtration wall (4) of the hollow body (2), the length of the closure studs (8, 8a, 8b ) being at least equal to the thickness of said filtering wall (4). 4. Filter according to claim 3, characterized in that the orifices (6,6a, 6b) of the filter wall (4) of the hollow body (2) and the closure studs (8,8a, 8b) of the piston (3) are regularly distributed over the respective surfaces of the filter wall (4) of the hollow body (2) and the piston (3). 5. Filter according to any one of the preceding claims, characterized in that the piston (3) comprises at least one guide axis (11,12) longitudinallylongitudinal towards the filtration wall (4) of the hollow body (2) and in that said filtering wall (4) comprises at least one orifice (17, 18) for receiving said guide axis (11, 12). 6. Filter according to claim 5, characterized in that it comprises a return spring (15) of the piston (3) against the filter wall (4) of the hollow body (2) which is disposed between said filter wall (4) and the free end (13) of the guide shaft (11) which comprises a holding stop (14) of said spring (15). 7. Filter according to any one of claims 5 and 6, characterized in that the hollow body (2) is cylindrical, in that the piston (3) has the shape of a disc of diameter corresponding to the internal diameter of the body hollow (2), and in that the piston (3) has two guiding pins (11,12) protruding longitudinally towards the filtering wall (4) of the hollow body (2), said filtering wall (4) having two orifices (17, 18) for receiving the two guide pins (11, 12). 8. A system for filtering a liquid contained in a tank, characterized in that it comprises a filter (1) according to any one of claims 1 to 7 immersed in a liquid reservoir (20) and whose mouth of evacuation (5) of the filtered liquid is in communication with a liquid suction pump (21) contained in said reservoir (20). 9. Filtration system according to claim 8, characterized in that the reservoir (20) contains a washer fluid for cleaning the surface of a window of a motor vehicle. 10. Motor vehicle, characterized in that it is equipped with at least one filtration system according to claim 9.30