• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A cleaning device for projecting at least one fluid to a surface to be cleaned of a motor vehicle, such as an optical sensor of an optical detection system, comprises at least one transport body (8) at interior of which is a distribution duct (11) and which has at its terminal distribution portion (36) a fluid distribution element (9) in which at least one fluid spray nozzle (10) is formed. cleaning, the distribution element (9) having a distribution channel (12) fluidly connected to the distribution duct (11) in the conveying body (8) and the projection nozzle (10). According to the invention, the cleaning fluid dispensing element (9) is formed in two parts (16, 17), a first part (16) having a base (16a) of the dispensing element (9) fixed to the conveying body (8) and a second part (17) having a cover (17a) pressed against the first part (16).
    公开号:FR3056526A1
    申请号:FR1659157
    申请日:2016-09-28
    公开日:2018-03-30
    发明作者:Giuseppe Grasso;Gregory Kolanowski;Philippe Picot;Jordan Vieille;Marcel Trebouet
    申请人:Valeo Systemes dEssuyage SAS;
    IPC主号:
    专利说明:

    056 526
    59157 ® FRENCH REPUBLIC
    NATIONAL INSTITUTE OF INDUSTRIAL PROPERTY © Publication number:
    (to be used only for reproduction orders) (© National registration number
    COURBEVOIE © IntCI 8 : B 60 S 1/56 (2017.01)
    PATENT INVENTION APPLICATION
    A1
    (© Filing date: 28.09.16. © Applicant (s): VALEO WIPING SYSTEMS (30) Priority: Simplified joint stock company - FR. @ Inventor (s): GRASSO GIUSEPPE, KOLANOWSKI GREGORY, PICOT PHILIPPE, VIEILLE JORDAN and (43) Date of public availability of the TREBOUET MARCEL. request: 30.03.18 Bulletin 18/13. (© List of documents cited in the report of preliminary research: Refer to end of present booklet (© References to other national documents ® Holder (s): VALEO WIPING SYSTEMS related: Joint stock company. ©) Extension request (s): © Agent (s): VALEO WIPING SYSTEMS INDUSTRIAL PROPERTY SERVICE.
    VXJ CLEANING DEVICE FOR SPRAYING AT LEAST ONE FLUID TO A CLEANING SURFACE OF A MOTOR VEHICLE.
    FR 3 056 526 - A1 _ A cleaning device, intended to spray at least one fluid towards a surface to be cleaned of a motor vehicle, such as an optical sensor of an optical detection system, comprises at least one body routing (8) inside which is formed a distribution conduit (11) and which comprises at its terminal distribution part (36) a fluid distribution element (9) in which is formed at least one nozzle projection (10) of cleaning fluid, the distribution element (9) comprising a distribution channel (12) fluidly connected to the distribution duct (11) formed in the routing body (8) and to the projection nozzle (10).
    According to the invention, the dispensing element (9) for cleaning fluid is formed in two parts (16, 17), a first part (16) comprising a base (16a) of the dispensing element (9) fixed. to the routing body (8) and a second part (17) comprising a cover (17a) pressed against the first part (16).

    163 178 175 12 177
    CLEANING DEVICE FOR SPRAYING AT LEAST ONE FLUID
    TOWARDS A CLEANING SURFACE OF A MOTOR VEHICLE.
    The present invention relates to the field of driving assistance devices and, more particularly, to the field of optical detection systems used for this purpose. The invention relates more particularly to the cleaning devices configured for cleaning an optical sensor of such an optical detection system.
    An optical detection system is any system comprising optical sensors such as cameras, laser sensors or other sensors based on the emission and / or detection of light in the visible or invisible spectrum for humans, in particular the 'infrared.
    Such optical detection systems are fitted to an increasing number of motor vehicles in order to assist the driver of the vehicle in certain driving situations, one of which, well known, is the parking aid. For this aid to be as effective as possible, the data provided by the optical detection device must be of the best possible quality, and it is therefore essential to have clean optics to carry out these data acquisitions. To do this, a device for cleaning a sensor of the optical detection device (for example the external optical surface of a camera) is arranged in the vicinity of the optical detection device in order to be able to inject on demand, on said sensor, a cleaning fluid just before detection is carried out (for example taking a picture).
    Such a cleaning device comprises in particular a body for conveying cleaning fluid through which cleaning fluid is able to circulate, coming from a fluid storage tank towards a distribution element, fixed to the end of the routing body and carrier of projection nozzles. The fluid is ejected from the device via these projection nozzles, in the direction of the optical sensor to be cleaned.
    In order to optimize cleaning, an optimal position of the projection nozzles is sought in particular with respect to the optical sensor, so that the fluid projected onto the sensor has the best possible angle of impact, and an arrangement of the internal conduits is sought. in the distribution element which allows circulation of the fluid without pressure loss to promote ejection under pressure of this fluid to the optical sensor.
    Conventionally known are distribution elements arranged in the axial extension of the routing body, with a distribution conduit axially hollowed out in the distribution element and arranged parallel to the distribution channel formed inside the routing body. Distribution orifices are drilled from the outside of the distribution element to the internal distribution conduit so that the fluid can exit via these distribution orifices.
    The invention aims to provide an alternative to known constructions of distribution elements, and more particularly a cleaning device, intended to spray at least one fluid towards a surface to be cleaned of a motor vehicle, such as an optical sensor of '' an optical detection system, the cleaning device comprising at least one routing body inside which is provided a distribution conduit and which comprises at its distribution terminal part a fluid distribution element in which is formed at least one nozzle for spraying cleaning fluid, the dispensing element comprising a dispensing channel fluidly connecting the dispensing duct formed in the conveying body and the spraying nozzle.
    According to the invention, the cleaning fluid distribution element is formed in two parts, a first part comprising a base of the distribution element fixed to the conveying body and a second part comprising a cover and pressed against the first part.
    Plating the first and second parts of the cleaning fluid distribution element against each other makes it possible to form the distribution channel, with at least one of the first and second parts having on their face in contact with the other part an imprint. Plating this imprint in one part against a flat face of the other part contributes to forming the distribution channel for the cleaning fluid.
    It is also possible to provide that each of the first and second parts of the distribution element forms part of the distribution channel by an imprint formed in their contacting face, said imprints being placed opposite one another. Plating one against the other of these parts, at the level of the contact faces in which these cavities are arranged, generates the facing of the two cavities to form the distribution channel. The channel impression in the cover and the second part is complementary to the channel impression in the base and the first part.
    According to different characteristics of the invention, taken alone or in combination, it can be provided that:
    the at least one projection nozzle has a ramp formed projecting from the contact face of the cover of the dispensing element;
    - The ramp is inclined relative to the axis of extension of the distribution channel by an angle between 20 ° and 8o °, in particular between 30 ° and 6o °, in particular between 40 ° and 50 °; more particularly this angle may be equal to or substantially equal to 45 °, it being understood that a value of 42.5 ° will be considered to be substantially equal to 45 °;
    The ramp extends in particular projecting from this closure plate by at least the height and the width of the dispensing orifice;
    the at least one projection nozzle has an outlet duct arranged in the extension of the distribution channel;
    the outlet duct is formed at least in part, or even completely, in the thickness of the base or of the cover;
    the outlet duct extends along an inclined axis of an angle (β) between 20 ° and 80 °, in particular between 30 ° and 6o °, in particular between 40 ° and 50 ° relative to the extension axis of the distribution channel that it extends; we can in particular provide that the outlet conduit has an angle equal to or substantially equal to 45 ° with the distribution channel;
    the outlet duct is arranged parallel to the distribution channel;
    the section of the outlet conduit is less than the section of the distribution channel, the section of each of the conduits being defined in a plane perpendicular to the direction of flow of the fluid through these conduits;
    the dispensing element comprises, at its free end, at least one dispensing orifice of rectangular, square, round, oval or half-moon cross section. Other forms which can nevertheless be envisaged without departing from the invention;
    the routing body extends along a longitudinal extension axis and the distribution channel extends in a direction substantially perpendicular to this longitudinal extension axis;
    the fluid distribution element has an angled shape;
    the distribution channel extends from a proximal end, in fluid connection with the distribution conduit of the delivery body, to a distal end, in fluid connection with the projection nozzle (s);
    the dispensing element is arranged at the end of the fluid delivery body so that the proximal end of the delivery channel is disposed in line with the delivery duct formed in the delivery body.
    the proximal end of the distribution channel has a slope for guiding the fluid arriving from the distribution conduit formed in the delivery body;
    the slope is formed in the cavity formed in the cover; the term “slope” means both an inclined plane forming a regular ramp, for example at 45 ° relative to the elongation axis of the distribution channel and therefore relative to the direction of arrival of the fluid in the distribution element. , only a curved shape: these two examples given as an indication make it possible to limit the pressure drop during the arrival of the pressurized fluid against the cover portion of the dispensing element by guiding the cleaning fluid up to the projection nozzle.
    According to a characteristic of the invention, the first and second parts of the dispensing element are bonded or welded in particular by ultrasound or by laser.
    And according to another characteristic of the invention, the dispensing element is arranged substantially perpendicular to the fluid conveying body.
    Other characteristics, details and advantages of the invention and of its operation will emerge more clearly on reading the description given below for information, in relation to the appended figures, in which:
    - Figure 1 is a perspective view of a detection assembly for a motor vehicle comprising an optical detection device and a cleaning device according to the invention, here arranged in parallel, the cleaning device being in the deployed position for projecting fluid on the detection device;
    - Figure 2 is a sectional view, along a sectional plane comprising the axes of elongation of the optical detection and cleaning devices, of the detection assembly of Figure 1;
    - Figure 3 is an exploded view of the detection assembly of Figure 1, from the same perspective angle, in which it is notably made visible the constitution in two parts of the dispensing element which is arranged in the terminal part the cleaning device;
    - Figure 4 is a sectional view of the end part of the cleaning device, illustrating more particularly a bent-two-part distribution element according to the principle of the invention, configured to allow the ejection of cleaning fluid on a optical sensor;
    - Figure 5 is a perspective view of one of the parts of the dispensing element, and in particular the cover, making visible the internal face of this cover, namely the face brought into contact with the other part of the distribution element;
    - Figures 6 and 7 are sectional views of the dispensing element of the cleaning device, before and after assembly of the two component parts forming the base and cover; and
    - Figure 8 is a front view of a motor vehicle, the front face of which is equipped with an optical detection system and an associated cleaning device according to the invention.
    It should first be noted that if the figures show the invention in detail for its implementation, they can, of course, be used to better define the invention if necessary. It will also be understood that the embodiment of the invention illustrated by the figures is given by way of non-limiting example.
    It is also recalled that, in the description which follows, the names upstream and downstream refer to the direction of flow of the cleaning fluid in the cleaning device of the detection assembly with optical sensor according to the invention. Thus, the upstream designation refers to the side of the cleaning device through which this cleaning fluid is admitted therein, and the downstream designation refers to the side of the cleaning device through which the cleaning fluid is distributed outside the latter, towards a surface of an optical sensor of an optical detection assembly of a motor vehicle.
    FIG. I illustrates an optical sensor detection assembly i for a motor vehicle comprising at least one optical detection device 2 provided with an optical sensor 5, preferably a camera, and a cleaning device 3 for the optical sensor 5. Both devices are mounted in housings formed in a common housing 4 which are specifically dedicated to them. FIG. 8 illustrates a view of a motor vehicle on which such an optical sensor detection assembly 1 is installed, in particular here in the front face.
    In the example illustrated, the optical detection device 2 and the cleaning device 3 extend longitudinally along two axes of elongation, respectively (X) and (X ’), substantially parallel. The elongation axis (X) of the optical detection device 2 here corresponds to the optical axis of the optical sensor 5 and the elongation axis (X ') of the cleaning device 3 corresponds here, in the case of a telescopic cleaning device, to the deployment axis of the telescopic element of the cleaning device. FIG. 1 illustrates a cleaning phase, during which the telescopic element of the cleaning device 3 is in the deployed position so that a dispensing element 9 which it carries at its free end allows the projection of a fluid cleaning on the optical sensor 5.
    The optical detection device 2 and the cleaning device 3 are mounted on the common housing 4 by means of an intermediate support element 6, which comprises means for receiving each of the devices as well as means allowing the attachment to the common housing.
    With particular reference to FIGS. 1 and 2, there will be described in more detail the components of the detection assembly 1.
    The telescopic cleaning device 3 has an upstream part 31, comprising at least one routing body 8, formed of at least one hollow body inside which a piston 7 is movable between a retracted position and a deployed position (visible in FIGS. 1 and 2), thus forming the telescopic element of the cleaning device, as well as a downstream part 32 comprising at least the distribution element 9.
    In the upstream part 31, the hollow body 8 has a shape of revolution around the longitudinal axis (X '), being closed at one end by an inlet flange 34 and presenting at the opposite end a sleeve 33 inside of which the piston 7 is able to slide. A fluid inlet nozzle 35 is formed projecting from the inlet flange 34 while being eccentric relative to the longitudinal axis (X '). The constituent elements of this upstream part 31, and in particular the means allowing the displacement of the piston 7 from an extreme rest position to an extreme deployed position, will be described in more detail below, but it should first be noted that the fluid delivery body comprises in particular a terminal distribution portion 36 arranged opposite the inlet nozzle 35. This distribution terminal portion 36 is pierced so as to present a distribution conduit 11 through which the fluid cleaning flows to the downstream part 32 of the cleaning device, and in particular the dispensing element 9, for projection onto the optical sensor.
    In the downstream part 32, the distribution element 9 is fixed to the free end of the distribution end part 36 and it comprises at least one spray nozzle 10 for cleaning fluid and a distribution channel 12 fluidly connecting the conduit distribution 11 of the piston 7 and the projection nozzle 10, as can be seen in particular in FIG. 2.
    In the illustrated case, in order to simplify the assembly of the assembly, provision may be made to firstly assemble the routing body 8 on the box common to the optical detection system, then to fix, by elastic snap-fastening, the fluid distribution element at the terminal distribution part 36 of the piston 7 projecting through an opening formed in the housing.
    FIG. 4 illustrates the downstream part 32 of the cleaning device 3. More particularly the figure illustrates the distribution element 9, in particular of bent shape, capable of being fixed, for example by elastic snap-fastening, to the terminal distribution part 36 of the piston 7 in order to fluidly connect the distribution conduit 11 of the piston 7 to the distribution channel 12. The attachment of the distribution element 9 to the distribution end portion 36 of the piston 7 is sealed by the presence of an O-ring 50.
    The distribution element 9 extends, in particular by its bent shape, in a direction substantially perpendicular to the longitudinal elongation axis of the fluid delivery body 8. It is understood that the distribution channel formed at the the interior of the distribution element also extends perpendicular to this longitudinal elongation axis.
    The common housing 4 has a zone for fixing to the structure of the vehicle, comprising in particular one or more fixing members 4 ’, and a zone for receiving the detection 2 and cleaning devices 3.
    This reception area has in particular a front face 40, which faces the outside of the vehicle when the common housing 4 is mounted on the structure of the vehicle, onto which two bores open, among which a first bore forms a reception housing 41 of the optical sensor 5 and a second bore forms a passage housing 42 dimensioned to be crossed by the piston 7. In the embodiment presented here, these housing are substantially circular and of different diameters.
    Furthermore, the common housing 4 has on this front face 40 a cavity 15 arranged around the second bore 42 and whose shape and size are slightly greater than those of the distribution element 9, so as to form a receiving cavity of this dispensing element 9 when the movable piston 7 is in the rest position. Thus, it is possible to completely retract the distribution element 9 in the common housing 4 when the cleaning device 3 is not operational, and therefore not to hinder l'acquisitionο the acquisition of data by the detection device 2 This is made possible in particular due to the angled shape and therefore the substantially parallel arrangement of the dispensing element 9 with the front face 40 of the common housing, which makes it possible to produce an imprint of constant thickness, equal to l thickness of the distribution element 9, to form the cavity 15.
    FIG. 2 illustrates the detection assembly 1 of the invention in the cleaning phase during which the movable piston 7, and therefore the dispensing element 9 which it carries at its free end, is in the deployed position, so that the dispensing element is capable of projecting fluid onto the optical sensor 5On the arrows illustrated the path of the cleaning fluid injected into the cleaning device 3 via the inlet nozzle 35. The fluid is thus sent to an inlet chamber 30 delimited laterally by the hollow body and axially by the inlet flange and by the movable piston. It is understood that the dimension of the intake chamber varies as a function of the movement of the movable piston in the hollow body. The pressure exerted by the cleaning fluid pushes the piston 7 in the hollow body, opposite the inlet flange 34, towards its deployed position. The inlet flange 34 comprises a rod 45 which extends substantially perpendicularly to the interior of the hollow body and along which the movable piston 7 is guided in sliding between the retracted extreme position and the extreme deployed position, the movable piston having an internal wall arranged opposite the rod 45. In the embodiment, passage channels 43 are formed in the upper upstream part of the piston 7 so as to open onto the inlet chamber 30, so that the cleaning fluid is likely to pass between the rod 45 and the internal wall of the piston 7 when the relative position of the piston relative to the rod allows. In this position, illustrated in FIG. 2, where the downstream end of the passage channels is cleared, the cleaning fluid penetrates the distribution duct 11 formed in the piston and in the distribution end part 36, to then enter the 'distribution element 9. An elastic return means 44, here a compression spring, is disposed in the hollow body to return the piston to the retracted extreme position when the pressure exerted by the cleaning fluid is insufficient.
    The piston 7 is movable along a longitudinal axis (A) parallel to the extension axis (X) of the optical detection device 2 and substantially identical to the extension axis (X ’).
    As illustrated in particular in FIG. 4, the distribution element 9, of angled shape, is attached to the terminal distribution part 36 of the piston 7 and extends in a direction substantially perpendicular to the longitudinal axis ( A) so that the projection nozzle or nozzles 10 arranged at the free end of the distribution element 9 are located in the immediate vicinity of a peripheral zone of the optical sensor 5.
    In other words, the angled shape of the distribution element 9 allows the projection nozzle (s) 10 to be arranged between the elongation axis (X ') of the cleaning device and the axis of elongation (X) of the detection device, which allows, in the context of an arrangement of the cleaning device parallel to the detection device, to bring the projection nozzle 10 closer to the optical sensor 5 to be cleaned.
    The distribution element 9 consists of two separate parts, a first part 16 comprising at least one base 16a and a second part 17 comprising at least one cover 17a, these two parts being capable of defining between them a distribution channel 12 connected fluidly to the distribution duct 11 of the piston 7 and to the projection nozzle 10. The latter can be formed in the base 16a or in the cover 17a, or formed at the junction of these two parts.
    The channel is obtained by forming an imprint in at least one of these two parts and by pressing one against the other of the two parts.
    Figures 4 to 7 illustrate in more detail the dispensing element 9 through several alternative embodiments, in each of which this dispensing element is formed of two separate parts.
    A first part 16 comprises a base 16a of the distribution element which is fixed to the fluid transport body 8 of the cleaning device, and more particularly attached to the terminal distribution part 36 of the piston
    7. A second part 17 has a cover 17a covering the first part. The dispensing element is formed by pressing the first and second parts against each other, in particular at their free end face brought into contact with each other, and by fixing the 'one over the other. In particular, provision may be made to glue the cover to the base, or else to assemble them by means of elastic deformation means. In a particular embodiment, which makes it possible in particular to ensure a watertight fixing and therefore to avoid leakage of fluid which must circulate in the distribution channel 12, the two parts are welded to one another, in particular by a ultrasonic welding process or by laser welding process.
    The two parts of the distribution element 9 respectively have, in section in a plane perpendicular to the longitudinal extension axis of the cleaning device, contours of shape and dimensions capable of cooperating.
    The base 16a of the example illustrated comprises a fixing portion 161, in the form of a cylindrical barrel, with a section of shape complementary to that of the terminal distribution part 36 and a support portion 162, configured to receive, on its face d 'free end 163, opposite the fixing portion 161, the cover 17a. The support portion 162 may include peripheral edges 164, delimiting a central cavity for receiving a part of the cover 17a.
    In the example illustrated in FIG. 4, the free end face 163 offers, at the center of the central reception cavity, a flat contact face, into which the distribution duct 11 opens.
    The cover 17a, notably visible in FIG. 5, comprises a sleeve 171 and a closure plate 172 forming a collar extending radially one end of the sleeve.
    The sleeve is dimensioned so as to be able to be accommodated in the receiving cavity formed in the base 16a around the arrival of the distribution duct. The sleeve 171 has a free end face 173, brought into contact with the free end face 163 of the base 16a.
    An imprint 174 is formed in the cover 17a, here at the sleeve 171, on the free end face 173. This imprint 174 extends from a proximal end 175 arranged in the thickness of the cover to a distal end 176 forming part of the projection nozzle (s)
    10. When the dispensing element is assembled and fixed on the fluid routing body of the cleaning device, the dispensing conduit 11 formed in the piston 7, or at least in the upstream part of the dispensing device, opens out. on this imprint 174 at the proximal end 175 and this imprint extends substantially perpendicular to the distribution duct 11.
    The closure plate 172 has an external face 177 which faces the outside of the vehicle when the device is in position on the vehicle. This external face can take either a flat or domed shape.
    According to the invention, the free end face 173 of the cover, here the internal face of the sleeve, is placed against the free end face 163 of the base, so that the at least one imprint, here formed in the internal face of the cover, form, once covered by the contact face of the other part, here the base, the distribution channel 12.
    The impression 174 participating in forming the distribution channel is produced by removing material from the free end face of the cover 17a, or else by a molding process, simplified by the fact that the impression is open on the face d free end 173 of the cover.
    The imprint 174 has, at the level of the arrival of the fluid, that is to say at its proximal end 175, a guide slope 178 capable of limiting the pressure drop during the arrival of the fluid under pressure in the distribution element 9 against the cover 17a and to accompany said fluid as far as the distal end 176 of the distribution channel 12, towards the projection nozzle 10.
    This guide slope 178 can have the shape of a ramp, or inclined plane, as illustrated in FIG. 4, or it can have the shape of a curved surface, as an example of a parabolic section.
    At the distal end 176 of the imprint 174, the at least one projection nozzle 10 comprises an outlet conduit 14 arranged in the extension of the imprint participating in forming the distribution channel 12.
    In order to increase the fluid outlet speed, the passage section between the outlet duct 14 and the rest of the distribution channel 12 situated upstream, relative to the direction of flow of the fluid, is varied . More particularly, the section at the outlet duct is less than the section in the middle of the distribution channel. It is understood that the reduction in these sections will, for a constant cleaning fluid flow, increase the speed of this fluid in the distribution element, and therefore increase the diffusion of the fluid jet Fj, illustrated in FIGS. 4 and 5 , and the impact of this on the optical sensor 5 of the detection system. This improves cleaning performance.
    By way of nonlimiting example, one can in particular provide that the section of the distribution channel 12, between the proximal end and the distal end, has a width of 2.2mm and a depth of 1.4mm, and that the section of the outlet conduit 14 has substantially a width of 1.4mm and a depth of 1.4mm.
    The distribution element has at its free end a distribution orifice 13 of rectangular section. In other words, the outlet duct 14 opens, at the free end of the distribution element, by forming this distribution orifice 13 of rectangular section, and for example of square section in the example given above.
    The diffusion of the jet at the outlet of the dispensing orifice 13 takes place at the edges of the rectangular section of the outlet duct. These edges make it possible to direct the diffusion of the jet of cleaning fluid, and it is thus possible to form a segmented jet, called "Bar shape".
    Furthermore, the spray nozzle 10 is configured so that the fluid can be ejected at a determined angle. More particularly, provision can be made for the outlet conduit to extend along an inclined axis at an angle β of between 20 ° and 8o °, in particular between 30 ° and 6o °, in particular between 40 ° and 50 ° , or even equal to or substantially equal to 45 °, and by way of a more precise but nonlimiting example equal to 42.5 °, relative to the axis of extension of the distribution channel which it extends. In this way, it ensures an impact of the cleaning fluid on the optical sensor 5 with an angle relative to the optical axis, in particular also also substantially equal to 45 °, which provides good cleaning conditions.
    Illustrated in FIGS. 4 and 5 are embodiments of the projection nozzle 10 which in particular comprises a ramp 179 forming an inclined surface is disposed opposite the dispensing orifice 13. The ramp 179 thus forms an obstacle to the circulation of fluid to disturb the fluid jet and deflect it, in order to create a “deflected jet” type diffusion of the jet Fj. The orientation of the inclined surface arranged across the fluid circulation makes it possible to guarantee manufacturing angle accuracy controlled by production tolerances and therefore a jet orientation on the optical sensor which is perfectly controlled.
    The ramp 179 may in particular be produced by a protrusion formed projecting from the contact face of the cover 17a, here from the closure plate 172, which extends projecting from this plate at least over the height, or depth, of the imprint 174 formed in the cover 17a.
    The ramp extends in particular projecting from the second part 17 of at least the height, or even at least the height and the width, of the dispensing orifice 13 As an example, the ramp can be inclined relative to to the axis of extension of the distribution channel by an angle a of between 20 ° and 8o °, in particular between 30 ° and 6o °, in particular between 40 ° and 50 ° and if necessary equal or substantially equal to 45 °,
    The principle of the cleaning system of the laser sensor is as follows, as soon as cleaning fluid arrives in the distribution channel 12 of the distribution element 9 via the fluid transport body 8 and the distribution conduit 11. The straight jet of fluid located in the outlet conduit 14 comes into contact with an inclined surface and configured by a defined angle of inclination in order to create the diffusion of the jet of cleaning fluid and thus create a spray covering the surface of the external optical surface of the camera, in particular if necessary by telescopic scanning of the cleaning device.
    There is illustrated in Figures 6 and 7 a second alternative embodiment of the two-part distribution element according to the invention. In this variant, two indentations, one in each part 16, 17 of the distribution element 9, are produced to form the distribution channel 12.
    A first cavity 165 is formed in the base 16a and a second cavity 174 is formed in the cover 17a, and as before, it is the plating one on the other of the two parts, at their respective contact face , namely their free end face 163 and 173, which makes it possible to produce the distribution channel. The two indentations have dimensions, in length and in width, which are substantially equivalent, it being understood that the depth, that is to say the dimension in the direction perpendicular to the free end faces in contact with the two parts, can vary by imprint on the other.
    The distribution channel 12 is extended as previously by an outlet duct 14, which in this example extends along an inclined axis, in particular at an angle substantially equal to 45 °, relative to the axis d elongation of the distribution channel 12. In this variant, the inclination of the jet of fluid impacting the optical sensor is obtained by the inclined arrangement of the outlet duct 14.
    The outlet duct is thus formed by an oblique bore essentially produced in the base 16a of the distribution element.
    It should be noted that the invention is not limited to only the embodiments of a cleaning device dispensing element explicitly described above. As an example of a non-exhaustive variant, it is possible in particular to modify the shape of the parts making up the distribution element and / or the shape of the imprints forming the distribution channel, therefore the distribution element comprises a plurality of parts the component and therefore the assembly participates in forming the distribution channel. For reasons of simplification of the assembly or for aesthetic reasons, the two parts of the dispensing element may present respectively, in section in a plane perpendicular to the longitudinal elongation axis of the cleaning device, edges of shape and equivalent dimensions.
    权利要求:
    Claims (17)
    [1" id="c-fr-0001]
    i. Cleaning device, intended to project at least one fluid towards a surface to be cleaned of a motor vehicle, such as an optical sensor of an optical detection system, the cleaning device (3) comprising at least one body fluid delivery (8) inside which is provided a distribution conduit (11) and which comprises at its distribution end portion (36) a fluid distribution element (9) in which is formed at least one nozzle projection (10) of cleaning fluid, the dispensing element (9) comprising a dispensing channel (12) fluidly connected to the dispensing duct (11) formed in the fluid conveying body (8) and to the projection nozzle (10), characterized in that the dispensing element (9) for cleaning fluid is formed in two parts (16, 17), a first part (16) having a base (16a) of the element distribution (9) fixed to the routing body (8) e t a second part (17) comprising a cover (17a) pressed against the first part.
    [2" id="c-fr-0002]
    2. Cleaning device according to claim 1, characterized in that the distribution channel (12) is formed by pressing one against the other of the first and second parts (16,17) of the distribution element ( 9) cleaning fluid, at least one of the first and second parts having on their face (163,173) in contact an imprint (165,174).
    [3" id="c-fr-0003]
    3. Cleaning device according to claim 2, characterized in that each of the first and second parts (16, 17) of the distribution element (9) forms part of the distribution channel (12) by an imprint (165, 174 ) arranged in their contacting face, said imprints being placed opposite one another.
    [4" id="c-fr-0004]
    4. Cleaning device according to claim 2, characterized in that the first and second parts (16,17) of the dispensing element (9) are assembled one against the other with their contact face (163, 173) respective pressed against one another, one of the first and second parts having a contact face in which is formed an imprint (165, 174) while the other of the first and second parts has a planar contact face .
    [5" id="c-fr-0005]
    5. Cleaning device according to one of the preceding claims, characterized in that the at least one projection nozzle (10) has a ramp (179) projecting from the contact face of the cover (17a) of the distribution element.
    [6" id="c-fr-0006]
    6. Cleaning device according to the preceding claim, characterized in that the ramp (179) is inclined relative to the extension axis of the distribution channel (12) by an angle (a) between 20 ° and 8o °, especially between 30 ° and 6o °, in particular between 40 ° and 50 °.
    [7" id="c-fr-0007]
    7. Cleaning device according to one of the preceding claims, characterized in that the at least one spray nozzle (10) has an outlet duct (14) arranged in the extension of the distribution channel (12).
    [8" id="c-fr-0008]
    8. Cleaning device according to the preceding claim, characterized in that the outlet conduit (14) is formed at least in part, or even completely, in the thickness of the base (16a) or the cover (17a).
    [9" id="c-fr-0009]
    9. Cleaning device according to one of claims 7 or 8, characterized in that the outlet duct (14) extends along an inclined axis at an angle (β) between 20 ° and 8o ° , in particular between 30 ° and 6o °, in particular between 40 ° and 50 °, or even equal or substantially equal to 45 ° relative to the axis of extension of the distribution channel (12) which it extends.
    [10" id="c-fr-0010]
    10. Cleaning device according to one of claims 7 to 9, characterized in that the section of the outlet duct (14) is less than the section of the distribution channel (12).
    [11" id="c-fr-0011]
    11. Cleaning device according to one of the preceding claims, characterized in that the distribution element (9) has at its free end a distribution orifice (13) of rectangular, square, round, oval or half cross section -Moon..
    [12" id="c-fr-0012]
    12. Cleaning device according to one of the preceding claims, in which the conveying body extends along an elongation axis
    5 longitudinal (A), characterized in that the distribution channel (12) extends in a direction substantially perpendicular to the longitudinal extension axis (A).
    [13" id="c-fr-0013]
    13. Cleaning device according to one of the preceding claims, characterized in that the fluid distribution element (9) has a shape
    10 cubits.
    [14" id="c-fr-0014]
    14. Cleaning device according to the preceding claim, characterized in that the proximal end of the distribution channel (12) has a guide slope (178) of the fluid arriving from the distribution conduit (11) formed in the routing body. .
    [15" id="c-fr-0015]
    15 15. Cleaning device according to the preceding claim, characterized in that the guide slope (178) is formed in the cavity (174) formed in the cover (17a).
    [16" id="c-fr-0016]
    16. Cleaning device according to one of the preceding claims, characterized in that the first and second parts (16, 17) are glued or
    [17" id="c-fr-0017]
    2 0 welded in particular by ultrasound or laser.
    1/4
    12 10.14
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    同族专利:
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    WO2018059806A1|2018-04-05|
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    CN109923006A|2019-06-21|
    EP3519260A1|2019-08-07|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    FR2704497A1|1993-04-26|1994-11-04|Peugeot|Device forming a windscreen washer particularly for motor vehicle headlamp lens|
    US20080142619A1|2006-12-15|2008-06-19|Hyundai Motor Company|Spray washer nozzle integrated with housing for vehicle|
    JP2013018404A|2011-07-12|2013-01-31|Asmo Co Ltd|Washer nozzle for onboard camera|WO2020136036A1|2018-12-26|2020-07-02|Valeo Systèmes d'Essuyage|Fluid spray nozzle for cleaning device for an optical detection system|
    EP3839606A1|2019-12-19|2021-06-23|Bobst Mex Sa|Cleaning device for an optical sensor and sensor assembly|JP4172710B2|2003-12-19|2008-10-29|株式会社小糸製作所|Cleaning device for vehicle lighting|
    RU2455177C2|2009-09-29|2012-07-10|Денсо Корпорейшн|Onboard optical sensor case and onboard optical sensor|
    US8671504B2|2010-04-28|2014-03-18|Denso Corporation|Cover of vehicle optical sensor and vehicle optical sensor device|
    FR2964888B1|2010-09-20|2016-01-08|Peugeot Citroen Automobiles Sa|DEVICE COMPRISING AN ANTI-RETURN VALVE|
    JP6379665B2|2013-08-12|2018-08-29|株式会社デンソー|In-vehicle optical sensor cleaning device|
    JP2016078688A|2014-10-17|2016-05-16|アスモ株式会社|On-vehicle sensor cleaning device|CN112160390B|2020-08-21|2021-12-17|欧路莎股份有限公司|Ultrasonic jet cleaning device for cleaning human body part|
    法律状态:
    2017-09-29| PLFP| Fee payment|Year of fee payment: 2 |
    2018-03-30| PLSC| Search report ready|Effective date: 20180330 |
    2018-09-28| PLFP| Fee payment|Year of fee payment: 3 |
    2019-09-30| PLFP| Fee payment|Year of fee payment: 4 |
    2020-09-30| PLFP| Fee payment|Year of fee payment: 5 |
    2021-09-30| PLFP| Fee payment|Year of fee payment: 6 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1659157A|FR3056526B1|2016-09-28|2016-09-28|CLEANING DEVICE FOR PROJECTING AT LEAST ONE FLUID TO A CLEANING SURFACE OF A MOTOR VEHICLE|
    FR1659157|2016-09-28|FR1659157A| FR3056526B1|2016-09-28|2016-09-28|CLEANING DEVICE FOR PROJECTING AT LEAST ONE FLUID TO A CLEANING SURFACE OF A MOTOR VEHICLE|
    US16/337,792| US20200001834A1|2016-09-28|2017-08-07|Cleaning device intended for spraying at least one fluid onto a surface to be cleaned of a motor vehicle|
    PCT/EP2017/069961| WO2018059806A1|2016-09-28|2017-08-07|Cleaning device intended for spraying at least one fluid onto a surface to be cleaned of a motor vehicle|
    JP2019516675A| JP2019531963A|2016-09-28|2017-08-07|Cleaning device for spraying at least one fluid onto a surface to be cleaned of a powered vehicle|
    EP17746513.5A| EP3519260A1|2016-09-28|2017-08-07|Cleaning device intended for spraying at least one fluid onto a surface to be cleaned of a motor vehicle|
    CN201780066855.6A| CN109923006A|2016-09-28|2017-08-07|For the cleaning device on the surface to be cleaned by least one fluid injection to motor vehicles|
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