EP1675755A2

EP1675755A2 - Mounting of a rearview camera in a protection housing with a view window

Info

Publication number: EP1675755A2
Application number: EP04790818A
Authority: EP
Inventors: Stevan Guernalec; Marcel Trebouet; Franck Cathala
Original assignee: Valeo Systemes dEssuyage SAS
Current assignee: Valeo Systemes dEssuyage SAS
Priority date: 2003-10-23
Filing date: 2004-10-25
Publication date: 2006-07-05
Also published as: WO2005039934A3; WO2005039934A2; FR2861348A1; JP2007512165A; US20070132610A1; FR2861348B1

Abstract

The invention provides an arrangement for mounting and fixing a rearview camera (10) on a body shell structure element of a motor vehicle, said camera (10) being arranged at the back of the vehicle with the optical axis (C) thereof globally oriented longitudinally towards the rear. Said invention is characterised in that the camera is arranged inside a hermetically-sealed housing (12), comprising a view window which is located in the optical axis (C) of the camera (10).

Description

"Mounting a rear vision camera in a protective housing with a vision window." The invention provides an arrangement for mounting a rear vision camera on a body structure element of a motor vehicle, including means for protecting the optics of the camera. The invention more particularly provides an arrangement for mounting and fixing a rear vision camera on a body structure element of a motor vehicle, of the type in which the camera is arranged at the rear of the vehicle and its optical axis is generally oriented longitudinally towards the rear, the camera being arranged inside a sealed housing, which has a viewing window located in the optical axis of the camera. Rear view cameras are used in many of today's motor vehicles, and are part of a parking assistance system that detects obstacles behind the vehicle. The camera is generally arranged at the rear bumper or the rear registration plate of the vehicle. The camera is therefore highly exposed to shocks and projections of pollutants which can deposit on its optics and thus reduce its efficiency. It is known to arrange a device for cleaning the optics of the camera, generally a nozzle for cleaning liquid, near the latter, in order to remove the polluting elements which have settled. However, the camera lens, which is a relatively fragile element, is not protected from projections which could damage it. It is also known to mount the camera inside the external casing of the vehicle, and to protect it from external aggressions by means of a protective window fixed to dressing. Although the camera is protected from external aggressions, the camera remains subject to the deposition of pollutants located inside the vehicle trim, and cleaning the camera is particularly difficult in such an arrangement. The object of the invention is to propose an arrangement for fixing the camera which also makes it possible to protect the camera, and more particularly the optics of the camera, and which also makes it possible to ensure cleaning in the event of projections of pollutants. . To this end, the invention provides an arrangement for mounting and fixing a rear vision camera on a body structure element of a motor vehicle, of the type in which the camera is arranged at the rear of the vehicle and its optical axis is generally oriented longitudinally towards the rear, the camera being arranged inside a sealed enclosure, which includes a viewing window located in the optical axis of the camera, characterized in that the window consists of an opening in the housing which is formed in the optical axis of the camera and which is closed by a transverse vertical window made of transparent material. According to other characteristics of the invention: - the casing comprises a frame for supporting the glass which delimits a rear transverse vertical wall of the casing, and the glass is pressed longitudinally towards the rear against a front transverse vertical face of the frame ; - The frame carries elastic elements which are in contact with the transverse vertical front face a of the window, to keep the window in abutment against the front face of the frame; - The upper face of a lower transverse section of the frame is inclined downwards, from the lower edge of the window; - The housing carries means for spraying cleaning liquid on the vertical transverse external face of the window; - The projection means are made integrally with the housing; - The projection means comprise a nozzle which is fixed on an upper horizontal wall of the housing; - The internal vertical transverse face of the glass is covered with a layer of material capable of generating heat; - The elastic elements are made of a current conducting material so as to electrically connect the heating material to a source of electric current; - The arrangement comprises strips of conductive material which extend longitudinally inside the housing to electrically connect the elastic elements to a current source; - The elastic elements constitute a rear end section of the strips of conductive material; - The elastic elements are elements attached to the rear end of the strips of conductive material; - The elastic elements each comprise a support finger against the front face of the glass which is capable of sliding in a tubular element, and which is resiliently held in abutment against the front face of the glass; - The front longitudinal end of the strips of conductive material extend in a housing which projects upwards relative to an upper wall of the housing, and which is open at its rear end to receive a complementary connector; - Housing includes a glass support frame, which is molded around the peripheral edge of the glass; - The frame and the glass are fixed to the housing by fixing means which are capable of electrically connecting the layer of heating material to a current source; - The fixing means comprise at least one claw arranged at an edge of the glass and a longitudinal tab fastener which extends longitudinally forward from the claw and which is capable of being received. in a complementary housing of the housing; - The claw comprises at least one contact finger with the layer of heating material; - The fixing means are made in one piece by cutting and folding a strip of current conducting material; - The claw comprises means for its vertical positioning relative to the glass; - The fastening means have symmetry with respect to a median horizontal plane; - the frame is molded around the claw of each fastening means; the body structure element comprises a rear vertical wall and a lower horizontal wall which extends longitudinally forwards from the lower edge of the rear wall, and the body passes at least partially through an orifice complementary to the lower wall, it includes means for diverting the water flowing on the rear wall, generally above the camera; - The arrangement includes a tongue which extends vertically downwards from the bottom wall, behind the camera and whose free lower end edge of the tongue is curved so as to redirect at least part of the water flowing over the rear wall; - the lower edge of the tongue is curved backwards, forming a curved strip; - The rear wall has a boss projecting rearward; - The housing is made of a transparent material, and its walls other than the rear vertical transverse wall can be covered with a layer of opaque material; - the window has the shape of a disc coaxial with the optical axis C of the camera, and the peripheral edge of the window has a thread which cooperates with a complementary thread of the frame to seal and dismount the opening the housing; the arrangement comprises - at least one elastic means of electrical connection and - conductive tracks provided in the housing and intended to electrically supply the layer of material capable of generating heat, the elastic connection means being placed so as to generate a electrical contact between said layer and said tracks; - The elastic connection means extends on a first side of the rear face of the window and another elastic connection means extends on a second side of the face opposite to the first; the arrangement comprises sealing means, a rear part of which is overmolded around the peripheral edge of the elastic connection means and which extends over the periphery of the rear face of the window; - The sealing means are in the form of a non-conductive elastomer; the sealing means also comprise a front part connected to the rear part by at least one bridge, the bridge being intended to be folded so that the rear and front part are placed respectively against the rear and front transverse faces of the window ; - The arrangement includes a thermal protection component to regulate the temperature of the layer; - The thermal protection component is coupled between the elastic connection means and the conductive tracks; - The elastic connection means is charged with electrically conductive particles; and - The arrangement includes a locking clip, capable of compressing the elastic means of connection between the glass and the conductive tracks. Other characteristics and advantages of the invention will appear on reading the detailed description which follows for the understanding of which reference will be made to the appended figures among which: - Figure 1 is a schematic perspective representation of an arrangement for the mounting a camera according to the invention; - Figure 2 is an exploded view of another embodiment of the arrangement according to the invention; - Figure 3 is a detail on a larger scale of the mounting of the glass on the body of the housing shown in Figure 1; - Figure 4 is a schematic representation of the camera, the glass and means for electrically connecting the layer of heating material to the current source; - Figure 5 is a view similar to that of Figure 4, showing an alternative embodiment of the elastic elements; - Figure 6 is a perspective view from behind of the arrangement according to the invention showing the socket formed by the strips of conductive material and the associated housing; - Figure 7 is a view similar to that of Figure 2, showing another method of fixing the frame by electrical connection means, - Figure 8 is a detail on a larger scale of the window and electrical connection means shown in Figure 7, - Figure 9 is a view similar to that of Figure 1, in which the housing and the camera are in the mounted position on a vehicle equipment module, representing means to divert the water flowing on the rear face of the equipment module; - Figure 10 is a view similar to that of Figure 9, showing another embodiment of the means for diverting the water; - Figure 1 1 is a view of a sealing means of the camera housing, overmolded on two elastomeric pads electrically conductive; - Figure 12 is a view of another embodiment of the camera housing, intended to cover the front and rear sides of a window; and - Figure 13 is a sectional view of a front part of an arrangement according to the invention, in which is mounted the sealing means of Figure 12. For the description of the invention, we will adopt as not limiting the vertical, longitudinal and transverse orientations according to the reference V, L, T indicated in the figures. We will also adopt the orientation from back to front as being the longitudinal direction and from right to left, referring to Figure 1. In the description which follows, identical, similar or analogous elements will be designated by the same reference numbers. There is shown in Figures 1 and 2 an arrangement for mounting a rear vision camera 10 forming part of a parking aid device for a motor vehicle. The camera 10 is thus mounted at the rear of the vehicle, generally near the rear bumper or the rear registration plate (not shown), and its optical axis C is oriented rearwards and downwards, so as to be able to detect obstacles of low height located at the rear of the vehicle and which the driver cannot see. The camera 10 is received inside a protective box 12 which on the one hand ensures the attachment of the camera 10 to the body of the vehicle, and which also protects the body of the camera 10. The housing 12 includes a generally cylindrical body 14 coaxial with the optical axis C of the camera 10, which is open at its front end 14a , for the introduction of the camera 10 into the interior volume of the housing 12, and which is open at its rear end 14b, facing the optical axis C of the camera 10, to allow vision towards the 'outside. According to the invention, to protect the camera 10, the housing 12 is closed in a sealed manner. To this end, the housing 12 comprises a front cover 16 which sealingly closes the opening of the front end 14a of the body 14, and the opening of the rear end 14b of the body 14 housing 12 is sealed by a window 18. The front cover 16 has a hole (not shown) for the passage of the cables necessary for the operation of the camera 10. According to a variant not shown, the front cover 16 has a hole which is closed by a membrane made of a material capable of being traversed by air but not by water. This is called a respirator, in particular for balancing the pressure inside the housing 12 in the event of temperature variations. The window 18 is located in the optical axis C of the camera 10, and it extends in a generally vertical transverse plane. It is made of a transparent material, so as not to affect the efficiency of the camera 10. Thus, for example, the window 18 is made of glass or a transparent plastic material such as polycarbonate. It is therefore the window 18 which is subjected to all attacks from the outside, that is to say both projections of pollutants and gravel as deposits of pollutants. The window 18 is made of a material which is less fragile than the optics of the camera 10. In addition, it is easier and less expensive to replace a window 18 according to the invention, in the case where that which is present the origin is greatly damaged, rather than replacing the optics of the camera 10. In addition, the window 18 according to the invention can be cleaned by conventional means, without requiring special attention to cleaning. According to a first embodiment of the invention, the window

18 is carried by a frame 20 which seals the opening of the rear end 14b of the body 14. The frame 20 has two vertical grooves 22, produced in the internal vertical longitudinal walls opposite the uprights 24 of the frame 20, and they open out at their upper ends, to receive the window 18 which is introduced by a vertical downward movement. So that the connection between the housing 12 and the window 18 is sealed, the window 18 is held in abutment against the front vertical transverse faces 22a of the grooves 22 and of the frame 20.

The seal can, in addition, be completed by a seal (not shown). To keep the window 18 in abutment longitudinally forwards against the front transverse vertical faces 22a of the grooves 22 and of the frame 20, the frame 20 carries elastic elements 26, which here have the form of hooks, and which exert on the face vertical transverse front 18a of the window 18 an effort of plating the window 18 which is oriented towards the rear. For locking in vertical movement upward of the window 18 relative to the frame 20, as can be seen in FIG. 2, the upper horizontal wall 14s of the body 14 is an element attached to the body 14 which is fixed on the other part of the body 14, after mounting the window 18 in the frame 20, so as to cover the upper edge of the window 18, preventing it from moving vertically upwards. According to an alternative embodiment of the invention, the frame 20 is molded around the window 18, and according to another alternative embodiment of the invention, the window 18 is directly bonded to the rear end 14b of the body 14. As we can see in Figure 2, the rear vertical transverse face 28a of the lower section 28 of the frame 20 is located longitudinally behind the rear face 18b of the window 18. According to another aspect of the invention, the upper face 28s of lower section 28 of the frame 20 is inclined downward, from the lower edge of the glass 18 to the upper edge of the rear face 28a of the lower section 28, to avoid any accumulation of pollutants at the lower edge of the glass 18 , and allow their evacuation by runoff. The cleaning of the external face 18b of the window 18 is carried out by means of a device 30 for spraying cleaning liquid which is arranged at the level of the upper wall 14s of the body 14. According to a first embodiment of this projection device 30, as shown in FIG. 1, this is made integrally with the body 14, and it includes an end piece 32 for connection with a device for dispensing cleaning liquid (not shown) and a nozzle 34 which projects the cleaning liquid onto the external face 18b of the window 18. Another embodiment of the projection device 30 is shown in FIG. 2 which constitutes an attached element which is fixed to the upper wall 14s of the housing 14 by any known means, such as for example by bonding or welding. Among the elements that can affect the effectiveness of the camera 10, mention is made of frost, ice and fogging, which are deposited on the rear faces 18b of the window 18. To remove this type of pollutant, it is known to heat the window 18 to cause the evaporation of the water present on the window 18. For this, and according to another aspect of the invention, the internal vertical transverse face 18a of the window 18 is covered, in whole or in part, with a layer of a material capable of generating heat when an electric current passes through it, which will hereinafter be called "layer of thermal material". According to an advantageous embodiment of the invention, the electrical supply of the layer of thermal material is carried out by means of elastic elements 26 which are made of an electrically conductive material. For this, the elastic elements 26 are electrically connected to a source of electric current by means of strips of conductive material 36 which extend longitudinally forward along a vertical side wall of the body 14, here the wall left side 14g. According to a preferred embodiment of these current production means, the bands 36 are made integrally with elastic elements 26, and they consist of longitudinal metal rods whose rear end is shaped so as to form the elastic elements 26. There is shown in Figure 3 another embodiment of the housing 12 according to which the glass 18 is adapted to be dismantled. To this end, the pane has the shape of a disc coaxial with the optical axis C of the camera 10, and its peripheral circular edge 18c has a thread 38 which cooperates with a complementary thread 40 of the body 14 for fixing the pane 18, or for dismantling the pane 18 from the body 14. Furthermore the fact that the pane 18 is removable makes it possible to replace it with another new pane, when it is too damaged to allow correct operation of the camera 10. According to an alternative embodiment, not shown, of the dismountable assembly of the window 18 on the housing 12, the window 18 is integral with the frame 20, and it is the frame 20 which has the shape of a disc and the peripheral edge of which includes a thread which cooperates with a thread complementary to the rear end 14b of the body 14. FIGS. 4 to 6 show two alternative embodiments of the strips of conductive material 36 and of the elastic elements 26, according to which the elastic elements 26 are distributed symmetrically with respect to a median vertical longitudinal plane of the window 18, near the edges lateral verticals of the window 18. In addition, according to these alternative embodiments, strips of conductive material 36 extend above the camera 10, along the upper wall 14s of the body 14, and as can be seen in FIG. 5, the front longitudinal ends 36a of the two strips of conductive material 36 extend in a housing 42 which projects upwards relative to the upper face of the upper wall 14s, and which is open its rear end 42b. The strips of conductive material 36 and the housing 42 thus form a female socket which receives a complementary male connector (not shown) for electrically connecting the elastic elements 26 to the source of electric current. According to the first alternative embodiment shown in FIG. 4, the elastic elements 26 are each a rear end section of the strips of conductive material 36, and they extend generally vertically downwards and rearwards, so that their respective free rear lower ends 26i are in contact against the front face 18a of the window 18, at a place situated vertically generally in the middle of the window 18. According to the second variant shown in FIG. 5, the elastic elements 26 are added elements fixed to the rear end 36b of the strips of conductive material 36. According to this variant, elastic elements 26 comprise a generally tubular element 44 of longitudinal main axis, inside which a finger 46 is capable of sliding. The finger 46 is resiliently pushed backwards by an elastic element (not shown) so as to maintain permanent contact with the layer of thermal material. The tubular element 44, the finger 46 and the elastic element are made of a current-conducting material. Due to their main longitudinal orientation, the elastic elements 26 have a small vertical size, which makes it possible to arrange them at the two upper corners of the window 18. As can be seen in FIG. 6, here, the upper wall

14s of the body 14 is produced integrally with the body 14, the window 18 is therefore mounted on the frame 20 before the frame 20 is fixed on the body 14 to close the housing 12 in a hermetic manner. FIGS. 7 and 8 show another embodiment of the housing 12 according to which the means 56 for fixing the frame 20 and the glass 18 to the body 14 also make the electrical connection of the layer of thermal material to the current source . As can be seen in more detail in Figure 8, the fastening means 56 are two in number and each comprises a claw 58, which is connected to the glass 18 at the vertical edges of the right and left lateral end 18d, 18g of the window 18, and a fixing lug 60 which extends longitudinally forward from the claw 58. The fixing means 56 are made of a current-conducting material, preferably an iron-based material . In addition, the claw 58 and the associated mounting lug 50 are made in one piece by cutting and bending a metal strip. The claw 58 has an upright 62 which covers the entire lateral edge 18d, 18g associated with the glass 18, and from which fingers of the claw extend to position the claw 58 on the glass 18. Thus, the claw 58 comprises an upper finger 64s and a lower finger 64i which extend transversely by partially covering the associated upper or lower edge of the window 18, by extending the free upper or lower end of the upright 62. The claw also comprises a rear finger 66 bearing against the rear face 18b of the glass 18, which here consists of a vertical strip which extends transversely the rear edge of the upright 62. Finally, the claw comprises two front fingers 68 which are pressed against the face front 18a of the glass 18, and which each consist here of a transverse strip which extends the front edge of the upright 62. The front fingers 68 are in abutment against the front face 18a of the glass 18, consequently , they are in contact with the layer of thermal material. The vertical positioning of the riffe 58 relative to the glass 18 is achieved by the upper and lower fingers 64s, 64i, which makes it possible to position the front fingers 68 relative to the associated contacts (not shown) of the layer of thermal material . The attachment means 56 are secured to the glass 18 by fixing the frame 20 with the glass 18. For this, according to a preferred embodiment, the frame 20 is produced by overmolding around the glass 18 so as to cover the peripheral edge of the window 18 and the claws 58 of the fastening means 56. This also makes it possible to guarantee the seal between the window 18 and the frame 20. The assembly of the assembly consisting of the glass 18, the frame 20 and the fixing means 56 is carried out by means of the fixing lugs 60 which are each received in a complementary housing 70 of the body 14 of the housing 12. The fixing lugs 60 are vertical longitudinal bands which extend longitudinally forward from the upright 62 of the associated claw 58. To facilitate the insertion of the fixing lugs 60 into the associated housing 70, the width of each lug, that is to say their vertical dimension, at their free front longitudinal end 60a is less than the width of the rest of the paw. The fixing lugs 60 also include an elastically deformable finger 72 which is able to retract when the lug 60 is introduced into the housing, and the free rear end 72a of which rests against a transverse vertical face (not shown) of the housing 70, to achieve the longitudinal locking of the fixing lug 60 in the housing 70. The electrical connection of the fixing means 56 to the current source is made by means of the fixing lugs 60, when they are received inside the associated housing 70, by electrical connection means of a type known per se. Finally, each fixing means 56 has symmetry with respect to a median horizontal plane, which makes it possible to have an identical structure of the fixing means 56 arranged on the right and on the left of the window 18, and thus, this reduces the costs. for producing these fixing means 56. According to an alternative embodiment, the frame 20 is made of an elastic material such as an elastomeric material, so that when it is mounted on the body 14 of the housing 12, it realizes the sealing of the closure of the housing 12. The fixing lugs 60 then participate in this sealing by keeping the frame 20 pressed against the body 14 so that the frame 20 is partially deformed. The external climatic conditions are also the cause of a lack of rear visibility. Indeed, as shown in Figures 9 and 10, the assembly formed by the camera 10 and the housing 12, is often part of an equipment module 48 which is arranged above the plate rear registration (not shown) of the vehicle. The housing 12 then projects downward relative to a bottom wall 48i of this equipment module 48. In bad weather, in particular in the event of heavy rain, the water flowing on the rear vertical wall 48a of the module equipment 48 flows in front of camera 10, partially obscuring its field of vision. It is the same in very cold weather, where ice accumulations in the form of stalactites can form in the optical axis of the camera 10. To limit the path of water in front of the camera 10, it is provided means for diverting the flow of water. FIG. 9 shows a first embodiment of these deflection means which consist of a tongue 50 which extends vertically downwards, extending the lower edge of the rear vertical wall 48a of the equipment module 48. The lower edge 50i of the tongue 50 is curved convexly, that is to say that it has the overall shape of an inverted U. Thus, since the ends of the lower edge 50i of the tongue 50, that is to say the lower corners of the tongue 50 are located lowest relative to the rest of the tongue 50, the water flowing from the rear wall 48a of the equipment module 48, and which flows along the tongue 50, is redirected towards the lower corners of the tongue 50, that is to say it is spaced from the optical axis C of the camera 10. In addition, to increase the deflection of the water, the lower edge 50i of the tongue 50 is bent backwards by forming a strip 52 which is curved according to the profile of the lower edge 50i of the tongue 50. Thus , the water flowing along the tongue 50 is blocked by the upper wall of the strip 52 and is therefore forced to flow laterally to the right or to the left with respect to the camera 10. FIG. 10 shows a second embodiment of these deflection means which consist of a boss 54 which projects rearwards on the rear wall 48a of the equipment module 48, above the camera 10. The boss 54 is designed so as to have a profile according to a generally elliptical transverse vertical plane whose width increases as it approaches the lower edge of the rear wall 48a. The boss 54 thus forms an obstacle to the water flowing there. The water then bypasses the boss 54 so that it can continue to flow. According to another preferred embodiment of the invention, the body 14 of the housing 12 is made of an opaque material, which allows on the one hand to conceal the camera 10, and to make it discreet. However, according to another variant embodiment of the invention (not shown), the entire housing 12 is made of a transparent material, such as for example polycarbonate, which makes it possible to simplify the fixing of the glass 18 with the body. 14, since it is made integrally with the body 14. To hide the camera 10, the side walls of the body

14, that is to say the upper and lower horizontal walls, as well as the right and left vertical longitudinal walls, are covered with a layer of opaque material, thus preventing the interior of the housing 12 from being seen. describes an arrangement for mounting a rear vision camera making it possible to protect it from various attacks from the outside by means of a tightly closed protective housing, which is of structure relatively simple to significantly increase manufacturing costs. Finally, according to another embodiment of the invention, shown in FIG. 11, the layer of material 106 capable of generating heat is connected to conductive tracks 107 by electrical connection means 100, 101. The means may be in the form of buffers 100, 101 made of elastomeric material, for example EDPM, charged with electrically conductive particles, such as coal or gold. However, any electrically conductive particles can be used. The use of this buffer 100, 101 makes it possible to avoid any risk of aggression on the layer 106 of the window 18. FIG. 11 shows two pads 100, 101 of elongated shape. The first pad 100 extends on a first side of the rear face 18a of the window 18 and the second pad 101 extends on a second side of the face 18a opposite to the first side of the rear face 18a of the window 18. The diffusion of the current through the layer 106 of the window 18 is more homogeneous, because the current crosses transversely, thus taking the shortest path. This is why the elongated shape of the buffers 100, 101 makes it possible to have faster temperature increases. It is however also possible to mount the pads on the two opposite transverse sides of the rear face 18a of the window 18. As can be seen in FIG. 11, a seal 104 is molded around the pads 100, 101 of so as to allow a sealed closure between the window 18 and the housing 1 10. Thus, the overmolded seal makes it possible to isolate the pad 100, 101 conductive elastomer. The seal 104 is made of non-conductive elastomeric material, for example EDPM. The sealing means 104 may further comprise a front part connected to the rear part by at least one bridge 109, the bridge 109 being intended to be folded so that the parts rear and front are placed respectively against the rear transverse faces 18a and front 18b of the window 18. The arrangement may further comprise a thermal protection component 105 for regulating the temperature of the layer 106. Following legislative regulations, the exterior side of a car must have a maximum temperature of 60 ° C. Component 105 makes it possible to limit and control the heating to 60 ° C. For this purpose, it is installed between the pad 100, 101 elastomer and the conductive tracks 107. In FIG. 13 a section is shown showing the window 18, the layer of material 106 capable of generating heat, the pad 100, 101 elastomer, the thermal protection component 105 and the conductive track 107. Figure 13 also shows the seal 104 and the housing 1 10, in which the different layers 18, 100, 101, 105, 106 and 107 are positioned. The arrangement may include a locking clip (not shown) capable of compressing the pad between the glass 18 and the conductive tracks (107). The locking clip ensures a solid electrical connection.

Claims

1. Arrangement for mounting and fixing a camera

(10) rear vision on a body structure element of a motor vehicle, of the type in which the camera (10) is arranged at the rear of the vehicle and its optical axis (C) is generally oriented longitudinally towards the rear, the camera (1 0) being arranged inside a tightly closed housing (12), which comprises a viewing window situated in the optical axis (C) of the camera (10), characterized in that the window consists of an opening of the housing (12) which is produced in the optical axis (C) of the camera (10) and which is closed by a transverse vertical window (18) made of transparent material.

2. Arrangement according to the preceding claim, characterized in that the housing (12) comprises a frame (20) for supporting the glass (18) which delimits a rear transverse vertical wall of the housing (12), and in that the glass (18) bears longitudinally rearwards against a front transverse vertical face of the frame (20).

3. Arrangement according to the preceding claim, characterized in that the frame (20) carries elastic elements (26) which are in contact with the front transverse vertical face (18a) of the window (18), to maintain the window (18 ) resting against the front face of the frame (20).

4. Arrangement according to one of claims 2 or 3, characterized in that the upper face (28s) of a lower transverse section (28) of the frame (20) is inclined downwards, from the lower edge of the glass (18).

5. Arrangement according to one of claims 2 to 4, characterized in that the housing (12) carries projection means (30) for cleaning liquid from the external transverse vertical face of the window (18).

6. Arrangement according to the preceding claim, characterized in that the projection means (30) are made integrally with the housing (12).

7. Arrangement according to the preceding claim, characterized in that the projection means (30) comprise a nozzle (34) which is fixed to an upper horizontal wall of the housing (12).

8. Arrangement according to any one of the preceding claims, characterized in that the internal vertical transverse face (18a) of the window (18) is covered with a layer of material capable of generating heat.

9. Arrangement according to the preceding claim, in combination with claim 3, characterized in that the elastic elements (26) are made of a current conducting material so as to electrically connect the heating material to a source of electric current.

10. Arrangement according to the preceding claim, characterized in that it comprises strips (36) of conductive material which extend longitudinally inside the housing (12) to electrically connect the elastic elements (26) to a source of current.

1 1. Arrangement according to the preceding claim, characterized in that the elastic elements (26) constitute a rear end section of the strips of conductive material (36).

12. Arrangement according to claim 10, characterized in that the elastic elements (26) are elements attached to the rear end (36b) of the strips of conductive material (36).

13. Arrangement according to the preceding claim, characterized in that the elastic elements (26) each comprise a bearing finger (42) against the front face (18a) of the window (18) which is capable of sliding in a tubular element (44), and who is resiliently supported against the front face (18a) of the window (18).

14. Arrangement according to one of claims 10 to 13, characterized in that the front longitudinal end (36a) of the strips of conductive material (36) extend in a housing (42) which projects upwards relative to to an upper wall (14s) of the housing (12), and which is open its rear end (42b) to receive a complementary connector.

15. Arrangement according to claim 1, characterized in that the housing (12) comprises a frame (20) for supporting the glass

(18), which is molded around the peripheral edge of the window (18).

16. Arrangement according to the preceding claim, in combination with claim 8, characterized in that the frame (20) and the window (18) are fixed to the housing (12) by fixing means (56) which are able to connect electrically the layer of heating material to a current source.

17. Arrangement according to the preceding claim, characterized in that the fixing means (56) comprise at least one claw (58) arranged at an edge (18d, 18g) of the window and a longitudinal fixing tab (60 ) which extends longitudinally forward from the claw (58) and which is capable of being received in a complementary housing (70) of the housing (12).

18. Arrangement according to the preceding claim, characterized in that the claw (58) comprises at least one finger (68) in contact with the layer of heating material.

19. Arrangement according to one of claims 16 to 18, characterized in that the fixing means (56) are made in one piece by cutting and folding a strip of current conducting material.

20. Arrangement according to one of claims 18 or 19, characterized in that the claw (58) comprises means (64s, 64i) for its vertical positioning relative to the window (18).

21. Arrangement according to one of claims 16 to 20, characterized in that the fixing means (56) have a symmetry with respect to a horizontal median plane.

22. Arrangement according to one of claims 16 to 19, characterized in that the frame (20) is molded around the claw (58) of each fixing means (56).

23. Arrangement according to any one of the preceding claims, of the type in which the body structure element (48) has a rear vertical wall (48a) and a lower horizontal wall (48i), which extends longitudinally towards the 'front from the lower edge of the rear wall (48a), and of the type in which the body (12) at least partly passes through an orifice complementary to the lower wall (48i), characterized in that it comprises means for deflect the water flowing on the rear wall (48a), generally above the camera (10).

24. Arrangement according to the preceding claim, characterized in that it comprises a tongue (50) which extends vertically downwards from the bottom wall (48i), behind the camera (10) and the edge of which free lower end (50i) of the tongue (50) is curved so as to redirect at least partially the water flowing on the rear wall (48a).

25. Arrangement according to the preceding claim, characterized in that the lower edge (50i) of the tongue (50) is bent backwards by forming a bent strip (52).

26. Arrangement according to claim 23, characterized in that the rear wall (48a) has a boss (54) projecting towards the rear.

27. Arrangement according to any one of the preceding claims, characterized in that the housing (12) is made of a transparent material, and in that its walls other than the rear vertical transverse wall are covered with a layer of opaque material .

28. Arrangement according to any one of the preceding claims, characterized in that the window (18) has the shape of a disc coaxial with the optical axis (C) of the camera (10), and in that the peripheral edge (18c) of the window (18) has a thread (38) which cooperates with a complementary thread (40) of the frame (20) for sealingly and removably closing the opening of the housing (12).

29. Arrangement according to claim 1, in combination with claim 8, characterized in that it comprises - at least one elastic means of electrical connection (100, 101) and - conductive tracks (107) formed in the housing

(1 10) and intended to electrically supply the layer (106) of material capable of generating heat, the elastic connection means (100, 101) being placed so as to generate an electrical contact between said layer (106) and said tracks (107) ..

30. Arrangement according to the preceding claim, characterized in that an elastic connection means (100) extends on a first side of the rear face (18a) of the window (18) and another elastic connection means (101 ) extends over a second side of the face (18a) opposite the first.

31. Arrangement according to claim 29 or 30, characterized in that it comprises sealing means (104), a rear part of which is overmolded around the peripheral edge of the elastic connection means (100, 101) and which extends over the periphery of the rear face (18a) of the window (18).

32. Arrangement according to the preceding claim, characterized in that the sealing means (104) are in the form of a non-conductive elastomer.

33. Arrangement according to claim 31 or 32, characterized in that the sealing means further comprise a front part connected to the rear part by at least one bridge (109), the bridge being intended to be folded so that the rear and front part are placed respectively against the rear (18a) and front (18b) transverse faces of the window (18).

34. Arrangement according to any one of claims 29 to 33, characterized in that it comprises a thermal protection component (105) for regulating the temperature of the layer (106).

35. Arrangement according to the preceding claim, characterized in that the component (105) of thermal protection is electrically coupled between the elastic connection means (100, 101) and the conductive tracks (107).

36. Arrangement according to any one of claims 29 to 35, characterized in that the elastic connection means

(100, 101) is charged with electrically conductive particles.

37. Arrangement according to any one of claims 29 to 36, characterized in that it comprises a locking clip, capable of compressing the elastic connection means (100, 101) between the window (18) and the conductive tracks ( 107).