SYSTEM FOR CLEANING AN OPTICAL SENSOR, AN ASSEMBLY COMPRISING SUCH A SYSTEM AND AN ASSOCIATED MOTOR

专利摘要:
The present invention relates to a system (1) for cleaning an optical sensor (3), especially a motor vehicle, comprising: - a projection element (5) of a cleaning liquid, - a reservoir (7) of a cleaning liquid in fluid communication with the cleaning liquid spraying element (5); - a pump (9) configured to pump the cleaning liquid from the reservoir (7) to the liquid spraying element (5). for cleaning, the system (1) also comprising a containment wall (11) of the cleaning liquid which is movable between a retracted position in which the confinement wall is configured to be positioned out of the field of view of the optical sensor (3) and a cleaning position in which the containment wall (11) is configured to be positioned in front of the optical sensor (3) so as to define a recovery vessel (13) for the cleaning liquid and in that it comprises a pipe of évac uation (15) of the cleaning liquid connected on the one hand to the recovery chamber (13) in the cleaning position and on the other hand to the reservoir (7) of the cleaning liquid.
公开号:FR3051753A1
申请号:FR1654760
申请日:2016-05-27
公开日:2017-12-01
发明作者:Frederic Giraud
申请人:Valeo Systemes dEssuyage SAS；
IPC主号:

专利说明:

SYSTEM FOR CLEANING AN OPTICAL SENSOR, AN ASSEMBLY COMPRISING SUCH A SYSTEM AND AN ASSOCIATED MOTOR VEHICLE
The present invention relates to the field of optical sensors and in particular optical sensors intended to be mounted on a motor vehicle and more specifically the cleaning systems of such optical sensors.
Nowadays, rear view cameras are used in many of today's motor vehicles, and in particular they are part of a parking aid system that makes it easier to park in a location without turning around and detect obstacles behind the vehicle. Cameras are also used at the front of the vehicle or on the sides to replace or complement mirrors to improve driver vision.
Back-up cameras are known which are installed inside the cockpit against the rear window / bezel looking towards the rear from the rear window of the vehicle. These cameras are well protected from external climatic influences and can for example benefit from the defrosting and cleaning systems of the rear window, for example a heating wire integrated in the glass of the rear window.
However, the angle of view is not optimal, especially for a parking aid and for this reason, it is preferred that the camera be arranged at the rear bumper or at the rear registration plate of the vehicle .
In this case, the camera is highly exposed to the projections of dirt that can be deposited on its optics and thus reduce its effectiveness, or even make it inoperative.
Especially in rainy weather or when there is snow in winter, rain, dirt, salt or snow can be expected to affect the operation of the vision system.
It therefore appears necessary to regularly clean these vision systems to ensure optimal operation.
However, particularly if the vehicle comprises several optical sensors, the amount of cleaning fluid needed can be significant, which means that the tank of cleaning fluid must be very large to prevent the user of the vehicle from having to fill too often the tank cleaning fluid.
But, a large tank requires a large volume that is not necessarily available in a vehicle.
The present invention therefore aims to at least partially solve this problem by reducing the liquid consumption required for cleaning the optical sensors. For this purpose, the present invention relates to a cleaning system for an optical sensor, in particular a motor vehicle, comprising: a cleaning fluid spraying element; a cleaning fluid reservoir in fluid communication with a cleaning fluid; the cleaning fluid spraying element; - a pump configured to pump the cleaning liquid from the reservoir to the cleaning liquid spraying element, the system also comprising a cleaning liquid confining wall which is movable between a retracted position in which the confinement wall is configured to be positioned out of the field of view of the optical sensor and a cleaning position in which the confinement wall is configured to be positioned in front of the optical sensor so as to define a recovery chamber of the cleaning liquid and that comprises a cleaning liquid discharge pipe connected to a art to the recovery chamber in the cleaning position and secondly to the reservoir of the cleaning liquid.
In a complementary and independent manner, several particular aspects of different implementations of the invention will now be described.
According to one aspect of the present invention, the confinement wall has a substantially spherical cap shape whose concave portion is configured to be oriented towards the optical sensor.
According to a further aspect of the present invention, the recovery chamber is positioned higher than the reservoir when the system is in the assembled state so that the flow of the cleaning liquid from the cleaning liquid recovery chamber towards the tank is achieved by gravity.
According to an additional aspect of the present invention, the system comprises an additional pump disposed in the cleaning liquid discharge pipe. The latter is in particular configured to pump the cleaning liquid from the cleaning fluid recovery chamber to the tank.
According to another aspect of the present invention, the system also includes a filter disposed in the cleaning liquid discharge line for filtering dirt particles, in particular having a size greater than a predetermined size.
According to a further aspect of the present invention, the system comprises a support of the optical sensor. At least a part of the evacuation pipe is for example integrated in the optical sensor support.
According to an additional aspect of the present invention, the projection element is carried by the confinement wall.
According to another aspect of the present invention, the projection element is positioned on the confinement wall so as to face the optical sensor in the cleaning position.
According to a further aspect of the present invention, the confinement wall comprises an internal supply channel fluidly connected to the projection element.
According to an additional aspect of the present invention, the confinement wall is rotatable.
According to another aspect of the present invention, the system comprises an actuator configured to move the containment wall between the retracted position and the cleaning position.
According to a further aspect of the present invention, the actuator is an electric actuator having in particular an output shaft which is coupled to the containment wall.
According to an additional aspect of the present invention, the actuator comprises a hydraulic cylinder.
According to another aspect of the present invention, the hydraulic cylinder comprises: - a cylinder body comprising an inlet nozzle intended to be in fluid communication with the pump and an outlet nozzle intended to be in fluid communication with the fluid element; projection, - a piston separating the cylinder body in a first chamber in fluid communication with the inlet nozzle and a second chamber, said piston being movable on the one hand between a proximal position in which the volume of the first chamber is and in which the outlet tip is in fluid communication with the second chamber and on the other hand a distal position in which the volume of the first chamber is at a maximum and wherein the outlet tip is in fluid communication with the first chamber. chamber so as to feed the projection element with cleaning liquid, the displacement of the piston from the proximal position to the distal position is caused by the cleaning liquid pumped by the pump.
According to a further aspect of the present invention, the hydraulic cylinder comprises an elastic return means disposed in the second chamber. The return means is in particular configured to cause the displacement of the piston from the distal position to the proximal position, in particular when the pump is inactive.
According to an additional aspect of the present invention, the projection element is a nozzle, in particular configured to project a cleaning liquid at an inlet pressure in the nozzle of between 1 and 1.7 bar.
According to another aspect of the present invention, the system also includes a processing unit configured to activate the pump. The latter is for example activated for a first predetermined time when a cleaning command is received.
According to a further aspect of the present invention, the processing unit is also configured to activate the additional pump. The latter is for example activated for a second predetermined time when a cleaning command is received.
The present invention also relates to an assembly comprising an optical sensor and a cleaning system of the optical sensor as described above.
The present invention also relates to a motor vehicle comprising an assembly as described above. Other features and advantages of the invention will emerge from the following description, given by way of example and without limitation, with reference to the accompanying drawings, in which: FIG. 1 represents a diagram of a cleaning system of an optical sensor according to a first embodiment and in a retracted position; - Figure 2 shows a diagram of a cleaning system of an optical sensor according to the first embodiment and in a cleaning position; - Figure 3 shows a diagram of a cleaning system of an optical sensor according to a variant of the first embodiment and in a cleaning position; - Figure 4 shows a diagram of a cleaning system of an optical sensor according to a second embodiment and in a retracted position; - Figure 5 shows a diagram of a cleaning system of an optical sensor according to the second embodiment and in a cleaning position; FIG. 6 represents a diagram of a cleaning system of an optical sensor according to a third embodiment and in a retracted position; FIG. 7 is a diagram of a cleaning system of an optical sensor according to a third embodiment and in a cleaning position; - Figures 8, 9 and 10 show drawings of a motor vehicle comprising an optical sensor at different locations of the vehicle.
In all the figures, the elements having identical functions have the same reference numbers.
In the remainder of the description, the expressions "upstream" or "downstream" to designate elements of a hydraulic device designate a position before, respectively after, one element relative to another in the direction of flow of the liquid or fluid.
The following achievements are examples. Although the description refers to one or more embodiments, this does not necessarily mean that each reference relates to the same embodiment or that the features apply only to a single embodiment. Simple features of different embodiments may also be combined or interchanged to provide other embodiments.
FIG. 1 represents an example of an optical sensor 3 and a cleaning system 1 of the optical sensor 3 according to a first embodiment. Such a cleaning system 1 is particularly intended to be installed on a motor vehicle 100, the optical sensor 3 being for example a rear view camera located at a rear facade (rear bumper 110, license plate or door of trunk ...) of the vehicle 100 as shown in Figure 8. However, other types of optical sensor 3 and other locations on the vehicle can be used as for example at a front panel as shown in Figure 9 or at a side door as shown in Figure 10.
The optical sensor 3 comprises for example a convex optic (curved) such as a fish eye optics ("fish-eye" in English).
The cleaning system 1 comprises a spraying element 5 of a cleaning liquid configured for spraying cleaning liquid onto the objective of the optical sensor 3 during the cleaning of the optical sensor 3. The projection element 5 is for example realized by a nozzle configured to spray a cleaning liquid at a pressure between 1 and 1.7 bar or by a spray nozzle for spraying the cleaning liquid on the optical sensor 3.
The cleaning system 1 also comprises a reservoir 7 of the cleaning liquid in fluid communication with the projection element 5, for example via a supply pipe 8.
The cleaning system 1 also comprises at least one pump 9 configured to pump the cleaning liquid from the reservoir 7 and supply the projection element 5 with cleaning liquid from the reservoir 7. The pump 9 is for example an electric pump. The supply pipe 8 may comprise a non-return valve configured to prevent the cleaning liquid from returning from the projection element 5 to the pump 9 when the pump 9 is inactive. By way of non-limiting example, the pump 9 is here arranged at the reservoir 7, at the interface with the supply pipe 8 but other arrangements of the pump 9 can also be chosen.
The cleaning system 1 also comprises a containment wall 11 of the cleaning liquid which is movable between a retracted position in which the confinement wall 11 is positioned outside the field of view of the optical sensor 3 and a cleaning position in which the wall 11 is positioned in front of the optical sensor 3 so as to define a recovery chamber 13 of the cleaning liquid in the assembled state of the cleaning system 1.
According to a first and a second embodiment described in FIGS. 1 to 5, the confinement wall 11 is mounted to rotate or more specifically to pivot. In FIGS. 1 to 3, the confinement wall 11 is driven by an actuator 23. The confinement wall 11 is then coupled to the actuator 23 which allows it to pivot between the retracted position shown in FIG. 1 and the cleaning position. shown in Figure 2.
The confinement wall 11a, for example, a spherical cap shape whose concave portion is oriented towards the optical sensor 3 in the cleaning position. However, other shapes can also be used. The confinement wall 11 thus forms a chamber 13 for recovering the cleaning liquid in front of the optical sensor 3.
The confinement wall 11 may also carry the projection element 5. The projection element 5 is for example positioned on the confinement wall 11 so as to face the objective of the optical sensor 3 in the cleaning position as shown in FIG. 2. The projection element 5 can also be integrated in the confinement wall 11.
In this case, an internal supply channel 21 may be formed in the confinement wall 11 and be fluidly connected to the projection element 5. The internal supply channel 21 then connects the projection element to the pipe The supply pipe 8 is flexible, for example, to adapt to the movements of the confinement wall 11.
Alternatively, the supply pipe 8 can be fixed on the confinement wall 11 to the projection element 5, for example by staples or holding hooks or any other fastening means known to those skilled in the art. .
The cleaning system 1 also comprises a discharge pipe 15 of the cleaning liquid connected to the recovery chamber 13 in the cleaning position and configured to allow the cleaning liquid to be recovered after the cleaning of the optical sensor 3 and to permit the cleaning of the cleaning liquid. return of the cleaning liquid to the reservoir 7.
The discharge pipe 15 is for example connected, in the cleaning position, to a lower part 131 of the recovery chamber 13 when the cleaning system 1 is in the mounted state so that the cleaning liquid flows by gravity into the recovery chamber 13 towards the evacuation pipe 15.
The discharge pipe 15 is for example placed under the optical sensor 3 (in the mounted state of the cleaning system 1) and the confinement wall 11 comes into contact with the discharge pipe 15 in the cleaning position. A gasket or flexible material may be used at the interface between the containment wall 11 and the exhaust pipe 15.
In addition, the discharge pipe 15 may be integrated at least partially with a support 19 of the optical sensor 3. The support 19 is for example placed under the optical sensor 3 and comprises an internal channel, for example made by molding, allowing the flow of the cleaning liquid.
Alternatively, the discharge pipe 15 can be fixed on the support 19 of the optical sensor 3 for example by staples or holding hooks or any other fastening means known to those skilled in the art. The flow of the cleaning liquid in the discharge line 15 from the recovery chamber 13 to the tank 7 can be achieved by gravity. In this case, the tank 7 will be positioned at a height lower than the optical sensor 3 (in the mounted state of the cleaning system 1) and the recovery chamber 13. In this case, the discharge pipe 15 will have inclined orientation towards the reservoir 7. The flow in the discharge pipe 15 can also be achieved by the action of the pump 9. In this case, the elements of the cleaning system 1 and in particular the containment wall 11 will be configured to provide a hermetically sealed system in which the cleaning liquid circulates.
Alternatively, as shown in FIGS. 1 to 3, an additional pump 17 may be arranged at the outlet pipe 15 to suck up the cleaning liquid from the recovery chamber 13 and pump it to the tank 7.
As shown in FIG. 3, a filter 16 may also be disposed in the discharge line 15 so as to filter the dirt particles whose size is greater than a predetermined size. In the case of a cleaning system 1 comprising an additional pump 17, the filter 16 is positioned upstream of the additional pump 17 which protects the additional pump 17. The filter 16 is for example made by a carbon filter or an ultraviolet filter or any other type of filter known from the state of the art.
According to the embodiments of Figures 1 to 3, the actuator 23 may be an electric actuator, including an electric motor having an output shaft 23a, configured to move the confinement wall 11 between the retracted position and the cleaning position.
According to a second embodiment shown in Figures 4 and 5, the actuator 23 may be a hydraulic actuator formed as a hydraulic cylinder 23 '.
The hydraulic cylinder 23 'comprises a cylinder body 23'a, for example of cyhndrical shape, comprising an inlet nozzle 23'b fluidly connected to the pump 9 via a first portion 8a of the supply pipe 8 and an outlet nozzle 23 c c fluidly connected to the projection element 5 via a second portion 8b of the supply pipe 8. The inlet end 23'b is for example located at a first end of the cylinder body 23'a. The outlet end 23'c is for example located on a side edge of the cylinder body 23'a.
The hydraulic cylinder 23 'also comprises a piston 23'd separating the cylinder body 23'a in a first chamber 23'e and a second chamber 23'f.
The first chamber 23'e is in fluid communication with the inlet end 23'b so as to receive the cleaning liquid pumped into the first part 8a of the supply pipe 8 by the pump 9.
In the second chamber 23'f is disposed an elastic return means 23'g, for example a helical spring.
The piston 23'd is movable between a proximal position and a distal position. In the proximal position shown in Figure 4, the volume of the first chamber 23'e is minimal and the outlet tip 23'c is in fluid communication with the second chamber 23'f. In the distal position shown in Figure 5, the volume of the first chamber 23'e is maximum and the outlet tip 23'c is in fluid communication with the first chamber 23'e. Thus, in the distal position, the cleaning liquid is transmitted from the first chamber 23'c to the second portion 8b of the supply pipe 8 so as to supply the spraying element 5 with cleaning liquid.
The displacement of the piston 23'd from the proximal position to the distal position is caused by the cleaning liquid pumped by the pump 9. In addition, the piston 23'd is connected to the confinement wall 11, for example by a connection pivot so that the displacement of the piston 23'd from the proximal position to the distal position causes the displacement of the confinement wall 11 from the retracted position to the cleaning position. Thus, with such a hydraulic cylinder 23 ', the actuation of the pump 9 allows both to pass the containment wall 11 in the cleaning position and to supply the projection element 5 in cleaning liquid.
The elastic return means 23'g is configured to cause the displacement of the piston 23'd from the distal position to the proximal position when the pump 9 is inactive.
FIGS. 4 and 5 also differ from FIGS. 1 to 3 in the absence of an additional pump 17. In this case, the flow of cleaning liquid from the recovery chamber 13 to the reservoir 7 is done by gravity as described. previously. Apart from the actuator 23 and the additional pump 17, the cleaning system 1 of FIGS. 4 and 5 is similar to the cleaning system described from FIGS. 1 to 3.
The cleaning system 1 may also comprise a processing unit 25 configured to control at least one of the following active elements: the pump 9, the additional pump 17 and the actuator 23. The treatment unit 25 is connected to the active elements to be controlled by a communication interface such as a wired link or wireless communication means, for example via electromagnetic waves such as a Wifi interface. The processing unit 25 is configured to receive a cleaning command and to operate the pump 9 for a first predetermined time.
In the case of a cleaning system 1 comprising an electric actuator 23, the processing unit 25 also controls the electric actuator 23 to position the confinement wall 11 in the cleaning position before or at the same time as the actuation of the pump 9. In the case of a cleaning system 1 comprising an additional pump 17, the processing unit 25 also controls the operation of the additional pump 17 for a second predetermined time. The second predetermined time is for example greater than the first predetermined time to allow the discharge of the cleaning liquid at the end of the first predetermined time. The second predetermined time may also have the same duration as the first predetermined time but be offset temporally with respect to the first time so that the additional pump 17 continues to be operated for a predetermined time when the pump 9 is deactivated so as to allow recovery cleaning fluid used.
In the case of a cleaning system 1 comprising a hydraulic actuator 23 ', only the pump 9 and optionally the additional pump 17 are controlled by the processing unit 25. The predetermined activation time of the pump 9 may be more long in this embodiment.
The cleaning command received by the processing unit 25 may be a command initiated by a user, for example via a control element of the dashboard or may be initiated automatically. The automatic control can be a regular time interval command or a command based on a particular detection or a combination of both. For example, a cleaning can be initiated at the beginning or at the end of each use of the optical sensor 3. A cleaning can also be controlled after a predetermined duration of use of the optical sensor 3. This predetermined duration can be modified when particular conditions for example when rainy conditions are detected. The rain detection is done for example via a dedicated sensor that can be used also for driving the wipers. An image processing device may also be associated with the optical sensor 3 to detect whether cleaning is necessary.
According to an alternative embodiment, the processing unit 25 may be located outside the cleaning system 1, for example at a central unit of the motor vehicle.
According to a third embodiment shown in FIGS. 6 and 7, the confinement wall 11 can also be mobile in translation. In this case, a toothed wheel is for example mounted on the output shaft 23a of the actuator 23, for example an electric actuator, and a rack 22 is connected to the confinement wall 11 to allow it to move in translation as indicated by the arrow F. Thus, the confinement wall 11 is moved upwards from the retracted position (FIG. 6) to the cleaning position (FIG. 7). In the cleaning position shown in FIG. 7, the projection element 5 comes opposite the objective of the optical sensor 3 so that the actuation of the pump 9 causes the cleaning liquid to be projected onto the objective of the sensor optical 3. The cleaning liquid then flows by gravity down the containment wall 11 and then to the discharge pipe 15. The containment wall 11 is for example inclined to allow the flow of cleaning liquid to 15. The operation is similar to the first variant of the first embodiment described in FIGS. 1 to 3 except for the displacement of the confinement wall 11.
The present invention also relates to an assembly comprising an optical sensor 3 and a system 1 for cleaning the optical sensor 3 as described above, the assembly possibly comprising a support 19 of the optical sensor 3.
The present invention also relates to a motor vehicle 100 comprising at least one optical sensor 3 and at least one cleaning system 1 associated with the optical sensor 3. Different locations of the optical sensor 3 are shown in FIGS. 8 to 10, in particular at the level of FIG. a trunk door, a front bumper or a side opening but other locations of the vehicle are also possible for the implementation of an assembly comprising an optical sensor 3 and an associated cleaning system 1. In the case of a vehicle 100 comprising several optical sensors 3, the latter may be arranged at different locations of the vehicle, for example at a front bumper, a rear bumper or a side door. . In addition, some elements of the cleaning system 1 may be common to several optical sensors 3. A single tank 7 may for example be used for several or all optical sensors 3 of the vehicle. The processing unit 25 may also be common to different optical sensors 3.
The different parts of the supply pipe 8 and / or the exhaust pipe 15 can be coextruded, that is to say, manufactured as a single pipe and then cut to the desired length to reduce the manufacturing costs of the pipe. cleaning system 1.
The operation of the cleaning system 1 will now be described for both embodiments (with an electric actuator and with a hydraulic actuator). 1) Operation with electric actuator (Fig.l to 3)
When a cleaning command is received by the processing unit 25, the latter activates the electric actuator 23 to pass the confinement wall 11 from the retracted position (FIG. 1) to the cleaning position (FIG. ) so that the projection element 5 comes opposite the optical sensor 3 and a recovery chamber 13 is formed around the optical sensor 3. Then, the processing unit 25 activates the pump 9 so that liquid The cleaning liquid is pumped from the reservoir 7 to the projection element 5 via the supply pipe 8. The cleaning liquid is then projected onto the optical sensor 3 as shown in FIG. 2. The first predetermined activation time pump 9 is for example a few seconds (5 seconds for example). The cleaning liquid then flows on the optical sensor 3 and possibly on the confinement wall 11 towards the lower part 131 of the recovery chamber 13. The cleaning liquid is then received via the evacuation duct 15, one of which end is located at the lower part 131 of the containment 13 to be redirected to the reservoir 7. In the case where the cleaning system 1 comprises an additional pump 17, the latter is also activated by the control unit. treatment for a second predetermined time, for example ten seconds, to allow or facilitate the return of the cleaning liquid to the reservoir 7 via the discharge pipe 15. Once the cleaning is completed, that is to say at the at the end of the first predetermined time, the processing unit 25 controls the electric actuator 23 to pass the confinement wall 11 from the cleaning position (FIG. 2) to the retracted position (FIG. to release the field of view of the optical sensor 3 and allow its use. 2) Operation with hydraulic actuator (Fig.4 and 5)
When a cleaning command is received by the processing unit 25, the latter activates the pump 9 so that cleaning liquid is pumped from the tank 7 to the hydraulic cylinder 23 'via the first part 8a of the supply pipe 8. The pumped cleaning liquid then causes the piston 23'd to move from its proximal position (FIG. 4) to its distal position (FIG. 5) by compressing the elastic return means 23'g. The distal passage of the piston 23'd allows, on the one hand, the passage of the confinement wall 11 of the retracted position (fig.4) to the cleaning position (fig.5) so that the element projection 5 is next to the optical sensor 3 and a recovery chamber 13 is formed around the optical sensor 3 and, secondly, the cleaning liquid supply of the projection element 5 via the second part 8b of the supply pipe 8. The cleaning liquid is then projected onto the optical sensor 3. The first predetermined time of activation of the pump 9 is for example a few seconds. The cleaning liquid then flows on the optical sensor 3 and on the confinement wall 11 for the particles that have been returned by the optical sensor 3 or that have flowed from the projection element 5 towards the bottom of the recovery chamber 13. The cleaning liquid is then received through the discharge pipe 15, one end of which is located at the lower part of the containment enclosure 13 to be redirected to the tank 7. In the case where the cleaning system 1 comprises an additional pump 17, the latter is also activated by the processing unit 25 for a second predetermined time, for example a few seconds, to allow or facilitate the return of the cleaning liquid to the reservoir 7 via the evacuation pipe 15. Once the cleaning is completed, that is to say at the end of the first predetermined time, the processing unit 25 deactivates the pump 9. The elastic return means 23'g detaches nd then to move the piston 23'd from its distal position to its proximal position which causes the displacement of the confinement wall 11 from the cleaning position (FIG. 5) to the retracted position (FIG. to release the field of view of the optical sensor 3 and allow its use.
Thus, the cleaning system 1 of the present invention allows an effective cleaning of the objective of the optical sensor 3 thanks to the mobility of the projection element 5 which faces the optical sensor 3 during cleaning and also reduces strongly cleaning fluid consumption through the containment wall 11 which retrieves the cleaning liquid and return it to the reservoir 7 to be reused during a subsequent cleaning. The use of a filter 16 upstream of the tank 7 keeps the cleaning liquid clean for several uses.

权利要求:
Claims (15)
[1" id="c-fr-0001]
1. System (1) for cleaning an optical sensor (3), especially a motor vehicle, comprising: - a projection element (5) of a cleaning fluid, - a reservoir (7) of a liquid of cleaning in fluid communication with the cleaning liquid spraying element (5); - a pump (9) configured to pump the cleaning liquid from the reservoir (7) to the spraying element (5) of the cleaning liquid, characterized in that it comprises a containment wall (11) of the cleaning liquid which is movable between a retracted position in which the confinement wall is configured to be positioned out of the field of view of the optical sensor (3) and a position cleaning device in which the confinement wall (11) is configured to be positioned in front of the optical sensor (3) so as to define a recovery vessel (13) for the cleaning liquid and in that it comprises an evacuation pipe (15) cleaning liquid connected on the one hand to the recovery chamber (13) in the cleaning position and on the other hand to the reservoir (7) of the cleaning liquid.
[2" id="c-fr-0002]
2. System (1) according to claim 1 wherein the containment wall (11) has substantially a spherical cap shape whose concave portion is configured to be oriented towards the optical sensor (3).
[3" id="c-fr-0003]
3. System (1) according to claim 1 or 2 wherein the recovery chamber (13) is positioned higher than the reservoir (7) when the system is in the mounted state so that the flow of the liquid of cleaning the cleaning fluid recovery chamber to the tank (7) is performed by gravity.
[4" id="c-fr-0004]
4. System (1) according to claim 1 or 2 wherein the system (1) comprises an additional pump (17) disposed in the discharge pipe (15) of the cleaning liquid.
[5" id="c-fr-0005]
5. System (1) according to one of the preceding claims wherein the system (1) also comprises a filter (16) disposed in the discharge pipe (15) of the cleaning liquid.
[6" id="c-fr-0006]
6. System (1) according to one of the preceding claims wherein the system (1) comprises a support of the optical sensor and at least a portion of the discharge pipe (15) is integrated in the support (19) of the sensor optical (3).
[7" id="c-fr-0007]
7. System (1) according to one of the preceding claims wherein the projection element (5) is carried by the confinement wall (11) in particular so as to come opposite the optical sensor (3) in the position of cleaning.
[8" id="c-fr-0008]
8. System (1) according to claim 7 wherein the confinement wall (11) comprises an internal supply channel (21) fluidly connected to the projection element (5).
[9" id="c-fr-0009]
9. System (1) according to one of the preceding claims wherein the containment wall (11) is rotatable.
[10" id="c-fr-0010]
10. System (1) according to one of the preceding claims comprising an actuator (23, 23 ') configured to move the containment wall (11) between the retracted position and the cleaning position.
[11" id="c-fr-0011]
11. System (1) according to claim 10 wherein the actuator (23, 23 ') is an electric actuator (23) having in particular an output shaft (23a) which is coupled to the containment wall (11).
[12" id="c-fr-0012]
12. System (1) according to claim 10 wherein the actuator (23, 23 ') coniprend a hydraulic cylinder (23'), in particular comprising - a cylinder body (23'a) comprising an inlet nozzle (23 ') b) intended to be in fluid communication with the pump (9) and an outlet nozzle (23'c) intended to be in fluid communication with the projection element (5), - a piston (23'd) separating the cylinder body (23'a) in a first chamber (23'e) in fluid communication with the inlet nozzle (23'b) and a second chamber (23'f), said piston (23'd) being mobile on the one hand between a proximal position in which the volume of the first chamber (23'e) is minimal and in which the outlet end (23cc) is in fluid communication with the second chamber (23'f ) and on the other hand a distal position in which the volume of the first chamber (23'e) is maximum and in which the outlet end (23'c) is in fluid communication with the first chamber ^ 3'e) so as to supply the spraying element (5) with cleaning liquid, the movement of the piston (23'd) from the proximal position to the distal position being caused by the cleaning liquid pumped by the pump (9).
[13" id="c-fr-0013]
13. System (1) according to one of the preceding claims wherein the projection element (5) is a nozzle configured to project a cleaning liquid to an inlet pressure in the nozzle of between 1 and 1.7 bar .
[14" id="c-fr-0014]
14. System (1) according to one of the preceding claims wherein the system (1) also comprises a processing unit (25) configured to activate the pump (9).
[15" id="c-fr-0015]
15. An assembly comprising an optical sensor (3) and a system (1) for cleaning the optical sensor (3) according to one of the preceding claims.

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FR3109105A1|2021-10-15|Method of cleaning a protective device for a driving assistance system for a motor vehicle and associated driving assistance system

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FR3113269A1|2022-02-11|Cleaning device for selectively cleaning automotive equipment

同族专利:

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公开号 | 公开日

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EP3463995A1|2019-04-10|

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RU2018146467A|2020-06-29|

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JP2019521899A|2019-08-08|

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FR3051753B1|2018-06-15|

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WO2017202562A1|2017-11-30|

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KR20190012191A|2019-02-08|

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US20210221336A1|2021-07-22|

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EP3463995B1|2020-06-17|

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BR112018074318A2|2019-03-12|

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MX2018014527A|2019-05-22|

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CN109476282A|2019-03-15|

引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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EP3006279A1|2014-10-10|2016-04-13|Valeo Systèmes d'Essuyage|Device for cleaning a driving assistance camera of a motor vehicle|

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WO2016074933A1|2014-11-14|2016-05-19|Kautex Textron Gmbh & Co. Kg|On-board vehicle vision and cleaning system|

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DE102014117165A1|2014-11-24|2016-05-25|Kautex Textron Gmbh & Co. Kg|Vehicle integrated vision and cleaning system|FR3110520A1|2020-05-25|2021-11-26|Psa Automobiles Sa|MOUNTING DEVICE ON A FRONT BUMPER SIDE BRACKET FOR A FLEXIBLE WIRED ELEMENT|

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FR3110526A1|2020-05-25|2021-11-26|Psa Automobiles Sa|Automotive optical sensor cleaning system|JP2008179244A|2007-01-24|2008-08-07|Denso Corp|Washer liquid collecting device|

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WO2010028661A1|2008-09-09|2010-03-18|Kautex Textron Cvs Limited|Device for cleaning vehicle surfaces|

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RU2455177C2|2009-09-29|2012-07-10|Денсо Корпорейшн|Onboard optical sensor case and onboard optical sensor|

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KR101143988B1|2010-08-31|2012-05-09|기아자동차주식회사|Apparatus for heating washer liquid|

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JP5494743B2|2011-10-14|2014-05-21|株式会社デンソー|Camera cleaning device|

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JP2014215418A|2013-04-25|2014-11-17|スタンレー電気株式会社|Retreating camera for freight car|

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EP2949521B1|2014-05-27|2019-07-24|Fico Transpar, S.A.|Cleaning device and system for vehicle-mountedoptic surface and vehicle-mounted optic sensor with cleaning device|US10350647B2|2011-03-10|2019-07-16|Dlhbowles, Inc.|Integrated automotive system, nozzle assembly and remote control method for cleaning an image sensor's exterior or objective lens surface|

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US10432827B2|2011-03-10|2019-10-01|Dlhbowles, Inc.|Integrated automotive system, nozzle assembly and remote control method for cleaning an image sensors exterior or objective lens surface|

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CA2982271C|2014-04-11|2021-08-24|Russell Hester|Integrated automotive system, compact, low-profile nozzle assembly and compact fluidic circuit for cleaning a wide-angle image sensor's exterior surface|

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US10525937B2|2014-04-16|2020-01-07|Dlhbowles, Inc.|Integrated multi image sensor and lens washing nozzle assembly and method for simultaneously cleaning a plurality of image sensors|

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US11130475B2|2017-05-10|2021-09-28|Volvo Truck Corporation|Vehicle comprising at least one camera and one corresponding washing system for cleaning the camera|

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FR3091242A1|2018-12-26|2020-07-03|Valeo Systemes D'essuyage|Method for cleaning an optical surface of a motor vehicle|

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NL2023712B1|2019-08-27|2021-05-11|Mci Mirror Controls Int Netherlands B V|Cleaning unit and method for cleaning an optical sensor device|

法律状态:
2017-05-30| PLFP| Fee payment|Year of fee payment: 2 |

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2017-12-01| PLSC| Search report ready|Effective date: 20171201 |

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2018-05-28| PLFP| Fee payment|Year of fee payment: 3 |

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2019-05-31| PLFP| Fee payment|Year of fee payment: 4 |

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2020-05-30| PLFP| Fee payment|Year of fee payment: 5 |

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2021-05-31| PLFP| Fee payment|Year of fee payment: 6 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1654760A|FR3051753B1|2016-05-27|2016-05-27|SYSTEM FOR CLEANING AN OPTICAL SENSOR, AN ASSEMBLY COMPRISING SUCH A SYSTEM AND AN ASSOCIATED MOTOR VEHICLE|

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FR1654760|2016-05-27|FR1654760A| FR3051753B1|2016-05-27|2016-05-27|SYSTEM FOR CLEANING AN OPTICAL SENSOR, AN ASSEMBLY COMPRISING SUCH A SYSTEM AND AN ASSOCIATED MOTOR VEHICLE|

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JP2018562022A| JP2019521899A|2016-05-27|2017-04-25|System for cleaning optical sensors, assembly comprising said system and corresponding motor vehicle|

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BR112018074318-6A| BR112018074318A2|2016-05-27|2017-04-25|cleaning system of an optical sensor, assembly comprising such a system and associated motor vehicle|

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KR1020187037039A| KR20190012191A|2016-05-27|2017-04-25|Systems for cleaning optical sensors, assemblies containing such systems, and associated automobiles|

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CN201780041938.XA| CN109476282A|2016-05-27|2017-04-25|System, the component included a system that and associated motor vehicles for cleaning optical sensor|

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RU2018146467A| RU2018146467A|2016-05-27|2017-04-25|OPTICAL SENSOR CLEANING SYSTEM, DEVICE CONTAINING SUCH SYSTEM AND RELATED VEHICLE|

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EP17718561.8A| EP3463995B1|2016-05-27|2017-04-25|System for cleaning an optical sensor, assembly comprising such a system, and associated motor vehicle|

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MX2018014527A| MX2018014527A|2016-05-27|2017-04-25|System for cleaning an optical sensor, assembly comprising such a system, and associated motor vehicle.|

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PCT/EP2017/059771| WO2017202562A1|2016-05-27|2017-04-25|System for cleaning an optical sensor, assembly comprising such a system, and associated motor vehicle|

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US16/304,921| US20210221336A1|2016-05-27|2017-04-25|System for cleaning an optical sensor, assembly comprising such a system, and associated motor vehicle|