FR2514466A1 - Optical unit for motor vehicle headlamp - uses plastics reflector with thin plastics zone having reinforcing spines to increase heat dissipation and reduce reflector distortion - Google Patents

Abstract

The unit has a transparent front glass (6) covering the rectangular opening of a reflector (7). The reflector has a hole (7A) at the rear for insertion of a filament lamp bulb (8), and an upper, flat topped surface (7 sub 6) in the region above the bulb. The reflector, in the region directly above the bulb, is manufactured with zones of differing thickness plastic (7 sub 6) in order to minimise the risk of distortion and deterioration due to heating of the plastic material used for the reflector. To provide structural rigidity an array of parallel ridges are formed in the thin region above the lamp bulb. These ridges also increase the surface area, increasing the heat dissipation from the headlamp exterior.

Description

 The invention relates to an optical unit, in particular a motor vehicle headlight.

 We already know projectors made of plastic and which consist of a transparent glass provided on its inner face with an optical network determining the desired shape of the light beam and a reflector in the form of a quadric ending in its upper zone and in its lower zone, by substantially planar faces giving this optical unit, seen from the front, a generally rectangular shape suitable for fitting aesthetically to the body of a motor vehicle.

 These projectors are provided at the rear of the reflector with an orifice for the passage and fixing of a lighting bulb oriented along the axis of the reflector and the width of the upper planar face of this reflector is such that its widest central zone is situated vertically by I "m lighting hen, so that the heat released by the bulb is concentrated in the central zone of this substantially planar upper face, ie by raising it directly and vertically from the bulb, either by being deflected towards this central zone by the quadric shape of this reflector.

 In FIG. 1, there is thus represented, in front view, the reflector of an optical unit of known type comprising a basic quadric 1 delimited by upper 2 and lower 3 faces that are substantially plane, this reflector being P0Urvu in its zone rear center, opening 4 intended for passage and fixing of the light bulb.

 The heat release from the bulb oriented along the axis IX of the reflector, propagates along the volume 5 to concentrate in a small area 5, of the upper face 2, which is the cause of rapid deterioration of the optical block.

 Indeed, this thermal concentration produces a significant expansion of the plastic material of the zone which, on the one hand, creates mechanical stresses deforming 1 quadric 1 and, on the other hand, creates, in this zone 51 challenges: by blisters which propagate rapidly on quadric 1 and which are the cause of the detachment of the metallization covering the internal face of the reflector.

 It can then be seen that this deterioration is as similar on the photometric plane as has a deformation and has a tilting towards the lsa.2 of the opening of the reflector where this deterioration results in a deformation and wn shift of the light beam. to the top.

 The present invention aims in particular to remedy these drawbacks and relates, for this purpose, to an optical unit, in particular to a motor vehicle headlight, consisting of a transparent glass closing the opening of a reflector in the form of a quadric, this reflector being provided dsun orifice for the passage and fixing of a light bulb and a substantially planar upper face truncating the quadric of this reflector, optical unit characterized in that the substantially planar upper face has zones of different thicknesses in the vicinity of the vertical of the light bulb.

 According to another characteristic of the invention, the zones of different thicknesses are constituted by extra thicknesses delimiting ribs on each side from the vertical to the light bulb.

 According to another characteristic of the invention, the zones of different thicknesses are formed by a local reduction in the wall thickness up to the vertical of the light bulb.

 According to another characteristic of the invention, the ribs established on each side of the vertical to the light bulb are oriented parallel to the axis X-X of the bulb and its fixing orifice.

According to another characteristic of the invention, the local reduction in wall thickness of the planar upper surface is produced between the ribs,
According to another characteristic of the invention, the flat upper face has an extension outside the quadric at least at the height of the vertical to the light bulb.

 According to another characteristic of the invention, the flat upper face is constituted by a rear extension of the glass.

The invention is shown, by way of non-limiting example, in the accompanying drawings, in which:
FIG. 1 represents, in front view, an optical reflector of known type,
FIG. 2 is a view in vertical axial section of an optical unit according to the invention,
FIG. 3 is a perspective view of the optical unit of FIG. 1,
FIGS. 4, 5 and 6 show in section along AA of FIG. 3, three embodiments of the zones of different thicknesses of the upper face of the reflector,
FIG. 7 is an axial half-section of an embodiment of the reflector,
FIG. 8 is a cutaway perspective view of an optical unit according to the invention,
- Figure 9 is a partial perspective view of another embodiment of the invention.

 The present invention therefore aims to achieve an optical block of a motor vehicle headlamp which is of good reliability while being made of plastic and in particular avoiding the harmful effects of the thermal concentration occurring in the central area of the upper face of the reflector of this optical unit.

 The optical unit shown in FIGS. 2 and 3 is made up of a crystal 6 assembled by a peripheral edge 61 in a peripheral groove 71 formed at the open end 72 of the reflector 7.

 This reflector 7 comprises an axial cover 74 for the passage of the bulb 8, the base 81 of which is fixed to the edge of this opening 74 by a support 9.

 The reflector 7 consists of a base quadric 75 parabolic, hyperbolic or other and of substantially planar upper 76 and lower 77 surfaces truncating the quadric 75.

 The bulb 8, oriented along the axis XX of the reflector, is thus arranged, in particular by its front end, substantially in the vertical plane B passing through the widest zone from the middle of the upper face 76 so that the heat released by the bulb rises vertically along arrow E in order to concentrate in the central zone 78 of this upper face.

 According to the invention, this upper face 76 is provided with zones of different thicknesses in the vicinity of the vertical of the light bulb 8, so as to achieve a stiffening structure in the thickest zones while the thinner areas delimited by these stiffening structures, have a higher possibility of heat dissipation.

 This arrangement makes it possible to avoid the propagation of deformations and other deteriorations, harmful from an optical point of view, towards quadric 75.

 According to the embodiment of Figures 2 and 3, the reflector comprises in combination three kinds of zones of different thicknesses.

 Thus, the upper face 76 comprises first of all two longitudinal ribs 12 symmetrical with respect to the axial vertical plane B and therefore arranged on either side of the zone 78, these ribs ending at the peripheral edge 13 of the reflector and extending by a decreasing section towards the rear.

 The second moven is constituted by a wall of this central area 78 delimited by the ribs 12 and the edge 13, which is of thickness less than that of the quadric in order to promote heat dissipation.

 The third means consists of an extension 14 of the upper face 76, this extension being established at the junction of the quadric 75 and the upper face 7 to constitute a significant stiffening, in particular between the ribs 12 to avoid deformations of the quadric 75 .

 In order to further favor the localization of the deformations in the area 78, if these occur, this central area 78 may include surface irregularities.

 According to FIG. 4, these surface irregularities are formed by corrugations 10 whereas, according to FIG. 5, they are obtained by giving this central zone, a curved shape 11, this kind of irregularities having the effect of promoting the non-permanent deformation of the central area by increasing the amplitude of the undulations or the curvature and therefore, allowing these irregularities to return to the initial position when the headlight is off.

 According to the example of FIG. 5, the curved central zone 78 is provided with bosses or ribs of low height 14.

 According to the embodiment of Figure 6, the central area 78 is flat and thin and also has externally ribs 14 of low height.

 For the realization of the reflector of the optical unit in accordance with the invention, it is possible in particular to implement the molding process which is the subject of patent application in FRANCE No. 78 22 028 of July 25, 1973, according to which provision is made for '' simultaneously inject two compatible materials into an injection mold, one of these materials being disposed on the surface of the reflector in order to obtain a polish @@ opti @ the other or core being dispensed within the thickness of the reflector wall and making it possible to obtain good mechanical and thermal resistance.

 By this process, see FIG. 7, the reflector 7 can be made so that the plastic surface 15 alone constitutes the thin expansion wall 78, while for the rest of the reflector, the material 16 forming the core of the wall is sandwiched between two layers of the material 15 forming the internal and external surfaces of the reflector.

 In the embodiment of FIGS. 2 and 3, the extension 15 came directly during the molding of the reflector 7.

 On the other hand, according to the example of embodiment of FIG. 8, the upper face 18 of the reflector, which is provided with ribs 19 and 20 framing the zone of thinner thickness 21, is produced in one piece with the glass 22 during its molding, this upper face 18 fitting onto a peripheral rim 23, of the reflector during assembly of the glass 22.

 According to the embodiment of FIG. 9, the upper face 24 of the reflector is formed in one piece with a sleeve 25 placed in the intermediate position of the glass 26 and the reflector 27.

 In this case, too, the face 24 comes to fit on an edge 27, of corresponding shape of the reflector in order to constitute the upper face.

 As can be seen in this FIG. 9, the face 24 is provided with longitudinal ribs 28, 29 of relatively large section, framing the thinner expansion zone 30 provided with ribs of small amplitude 301.

Claims (14)

R E V E N D I C A T I O N S  1.- Optical unit, in particular of a motor vehicle headlight, consisting of a transparent glass (6) closing the opening of a reflector (7) in the form of a quadric, this reflector being provided with an orifice (74) for the passage and fixing of a light bulb (8) and of a substantially planar upper face (76) truncating the quality of this reflector, optical unit characterized in that the substantially planar upper face has zones of different thicknesses (78, 12, 13, 14) in the vicinity of the vertical of the light bulb (8).  2. An optical unit according to claim 1, characterized in that the sones of different thicknesses are constituted by extra thicknesses (12, 13) delimiting ribs on each side of the vertical to the light bulb.  3.- optical unit according to claim 1, characterized in that the zones of different thicknesses are constituted by a local decrease in the wall thickness (78) up to the vertical of the light bulb.  4.- optical unit according to claim 2, characterized in that the ribs (12) established on each side of the vertical to the light bulb, are oriented parallel to the axis IZ of the bulb and its fixing hole.  5.- optical unit according to claim 4, characterized in that the ribs (12) extend to an outer rim (13) formed at the periphery of the opening (72) of the reflector.  6. An optical unit according to claim 5, characterized in that the ribs (12) have a decreasing thickness from their junction with the outer rim (13) of the periphery of the opening of the reflector.  7. An optical unit according to claims 2 and 3, characterized in that the local reduction in wall thickness of the planar upper surface (76) is carried out between the ribs (12).  8.- optical unit according to any one of the preceding claims, characterized in that the planar upper face (76) has an extension (14) outside the quadric (75) at least at the height of the vertical X the light bulb.  9. Optical unit according to any one of the preceding claims, characterized in that the flat upper face has surface irregularities in the vicinity of the vertical of the light bulb.  10.- optical loc according to claim 9, characterized in that the surface irregularities consist of undulations0  11.- optical unit according to claim 9 characterized in that the surface irregularities are constituted by curved areas.  12. An optical unit according to claim 92 characterized in that the surface irregularities consist of ribs of low height.  13. An optical unit according to any one of the preceding claims, characterized in that the planar upper face (76)) is constituted by a rear extension (18) of the glass (22).  14. An optical unit according to any one of the preceding claims, characterized in that the flat upper face (76) is constituted by a rear extension (24) of a sleeve (25) interposed between the glass (26) and the reflector (27).