EP0373065A1 - Motor vehicle headlight comprising a reflector with a complex surface including modified intermediary zones - Google Patents

Motor vehicle headlight comprising a reflector with a complex surface including modified intermediary zones Download PDF

Info

Publication number
EP0373065A1
EP0373065A1 EP89403367A EP89403367A EP0373065A1 EP 0373065 A1 EP0373065 A1 EP 0373065A1 EP 89403367 A EP89403367 A EP 89403367A EP 89403367 A EP89403367 A EP 89403367A EP 0373065 A1 EP0373065 A1 EP 0373065A1
Authority
EP
European Patent Office
Prior art keywords
zones
filament
reflector
cut
optical axis
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP89403367A
Other languages
German (de)
French (fr)
Other versions
EP0373065B1 (en
Inventor
Eric Blusseau
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Valeo Vision SAS
Original Assignee
Valeo Vision SAS
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Valeo Vision SAS filed Critical Valeo Vision SAS
Publication of EP0373065A1 publication Critical patent/EP0373065A1/en
Application granted granted Critical
Publication of EP0373065B1 publication Critical patent/EP0373065B1/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21SNON-PORTABLE LIGHTING DEVICES; SYSTEMS THEREOF; VEHICLE LIGHTING DEVICES SPECIALLY ADAPTED FOR VEHICLE EXTERIORS
    • F21S41/00Illuminating devices specially adapted for vehicle exteriors, e.g. headlamps
    • F21S41/30Illuminating devices specially adapted for vehicle exteriors, e.g. headlamps characterised by reflectors
    • F21S41/32Optical layout thereof
    • F21S41/33Multi-surface reflectors, e.g. reflectors with facets or reflectors with portions of different curvature
    • F21S41/334Multi-surface reflectors, e.g. reflectors with facets or reflectors with portions of different curvature the reflector consisting of patch like sectors
    • F21S41/335Multi-surface reflectors, e.g. reflectors with facets or reflectors with portions of different curvature the reflector consisting of patch like sectors with continuity at the junction between adjacent areas
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21SNON-PORTABLE LIGHTING DEVICES; SYSTEMS THEREOF; VEHICLE LIGHTING DEVICES SPECIALLY ADAPTED FOR VEHICLE EXTERIORS
    • F21S41/00Illuminating devices specially adapted for vehicle exteriors, e.g. headlamps
    • F21S41/10Illuminating devices specially adapted for vehicle exteriors, e.g. headlamps characterised by the light source
    • F21S41/14Illuminating devices specially adapted for vehicle exteriors, e.g. headlamps characterised by the light source characterised by the type of light source
    • F21S41/162Incandescent light sources, e.g. filament or halogen lamps

Definitions

  • the present invention relates generally to motor vehicle headlights, and it relates more particularly to improvements made to headlights capable of emitting a cut beam, for example a European type passing beam or an anti-fog beam, and comprising for this purpose a lamp whose filament emits freely all around it and cooperates with a smooth reflector with complex surface designed to form the cut by itself.
  • a cut beam for example a European type passing beam or an anti-fog beam
  • the invention relates to improvements to projectors of this type, the smooth surface of the reflector is further designed to give the beam, without the intervention of the closing glass, a substantial width. This avoids the well-known optical defects which appear in particular when a strong lateral deviation is requested from a closing glass inclined relative to the vertical.
  • the width of the beam is obtained by acting essentially on the bottom zone of the reflector complex. This is not always compatible with the presence of a direct light cover placed in front of the lamp. In fact, if the beam is given the required width by strengthening the convergence of the rays reflected by the background, a large proportion of these rays will be intercepted by this mask and not participate in the beam. The light output is thereby reduced.
  • the present invention aims to overcome the drawbacks of the prior art and to propose a cut beam projector of the aforementioned type in which, by the sole intervention of the reflector, retaining an essentially continuous and smooth surface, a substantial widening of the beam is obtained not only horizontally, but if necessary essentially parallel to an inclined part of the cut, and in particular along the angle of raising of the cut along the inclined half-cut of a standardized European passing beam.
  • a secondary object of the present invention when the lamp used has a direct light cover placed at the front thereof, is to minimize the quantity of rays which, after reflection on the reflector, are directed towards this cover and do not therefore do not participate in the formation of the beam.
  • the present invention relates to a motor vehicle headlamp, of the type comprising a filament lamp, a reflector defining an optical axis and a closing lens, the filament emitting freely all around it in the radial direction and the reflector having a essentially continuous and smooth reflecting surface which reflects the rays emitted by the filament so that they are mainly located below a cut-off constituted by two half-planes of given heights and inclinations, characterized in that the reflecting surface has a central zone which reflects the rays coming from the filament so that they propagate in essentially vertical planes and parallel to the optical axis, two intermediate zones situated on either side of the central zone and there connecting with continuity, which reflect the rays coming from the filament by imparting to them a substantial deviation in planes essentially parallel to the half-cutting plane in the definition of which the ray participates, and at least one edge zone situated outside one intermediate zones and connecting with continuity, which reflects the rays from the filament so that they propagate in essentially vertical plane
  • Preferred aspects of the projector of the invention are as follows: - It includes two edge zones located respectively outside the two intermediate zones. - for a headlamp in which the cut is constituted by a horizontal half-plane and a half-plane inclined above a horizontal plane by an angle called the cut-off angle, corresponding to a European passing beam, the filament is arranged parallel to the optical axis and above it so that its emissive surface is substantially tangent to said optical axis, the reflector is further subdivided into two first zones based on portions of paraboloids extending symmetrically on either side of the optical axis between two planes passing through the latter, one horizontal and the other inclined relative to the horizontal of the angle of elevation of cut, and two second zones which extend said first zones respectively above and below these by forming images of the filament, all the highest points of which are located in the vicinity of the cut, and the central zone, the intermediate zones s and the edge zone or zones are respectively formed by interior, intermediate and exterior sub-zones of each of said first and second zones
  • the central zone and the edge zone or zones have different basic focal distances.
  • the intermediate sub-zones of said first zones of the reflector are delimited laterally by portions of circles, while the intermediate sub-zones said second zones are delimited laterally by segments of lines perpendicular to the cut-off half-planes considered, the ends of the circle portions being aligned with the adjacent ends of the associated half-lines.
  • the distance between the axis of the reflector and the start of the intermediate zones is chosen sufficiently large so that the rays deflected inwards by the intermediate zones are not obscured by said cache.
  • a dipped projector comprising a lamp (of contours not shown) provided with an axial filament 100 modeled by a cylinder of length 2 and radius r, arranged in parallel to the optical axis Ox so that its lower surface is essentially tangent to this axis, a reflector with complex surface 200 and a closing glass 300.
  • the reflector is divided into six zones 201 to 206 each having a well-defined role on the optical plane, these zones being themselves continuous in second order and connecting together, according to the planes as illustrated, also with continuity in second order (with the exception of connections between zones 204, 205 and 203, 206, respectively, where continuity is only achieved at first order).
  • each of the zones 201 to 206 is produced only partially in accordance with the equations set out in the above-mentioned patent applications, being modified in certain regions with respect to these equations, as will be seen. see now with reference to Figures 2a to 2c.
  • Each of these figures is a view in horizontal section through the area 205, all the light rays being projected vertically in the horizontal plane of this section.
  • FIG. 2a illustrates the case of a projector according to the aforementioned French patent No. 2,536,502.
  • all the rays reflected by the zone 205 circulate approximately in a vertical plane parallel to the optical axis 0x; the delivered beam is therefore relatively narrow and its width will be given to it by the closing glass, either prismably or striated.
  • FIG. 2b and 2c illustrate the principle of the invention.
  • the zone 205 here comprises an interior sub-zone 205i and an external sub-zone 205e whose surfaces are identical to the surface of the zone 205 in FIG. 2a, except that the basic focal distances of these two zones are different . It is further defined an intermediate zone 205m whose profile deviates from the known surface, so as to give the reflected rays either a determined convergence (FIG. 2b), or a determined divergence (FIG. 2c).
  • the various sub-areas have continuous second order surfaces, and furthermore are connected to each other, in transition planes, with second order continuity. It should be noted here that the differences between the known surface and the surface modified in accordance with the invention have been greatly exaggerated for the sake of clarity.
  • the large width imparted to the part of the beam generated by the area 205 is obtained on the one hand by respecting the inclined half-cut generated in itself by this area, but above all by deflecting the rays luminous at the level of the intermediate zone not horizontally, but in a plane parallel to the cut.
  • the "V" cut of the beam is defined over a large lateral extent.
  • each zone 201 to 206 comprises an interior sub-zone, respectively 201i to 206i, a sub-zone intermediate, respectively 201m to 206m, and an outer subzone, respectively 201e to 206e.
  • the interior and exterior sub-zones are produced in accordance with the above equations, however using in each zone different basic focal distances for the internal sub-zone and the external sub-zone.
  • the sub-areas 201i, 201e and 202i, 202e are portions of paraboloids of revolution, having either the same focal point located on the optical axis directly above the center of the filament, or two distinct focal points located respectively in the vicinity of the two axial ends of the filament, and further having different focal distances two by two.
  • the interior zones 203i to 206i and 203e to 206e are the areas with complex surface defined mathematically in the patent applications cited above, and therefore have the properties stated therein.
  • each of the intermediate sub-areas 201m to 206m locally modifies the profile of the area considered to give the beam the required width, as has been seen above for the area 205m. More precisely, each intermediate subzone has the property of effecting a continuous second-order connection between the associated interior and exterior subzones, offset with respect to each other, by presenting a profile for two for this purpose. reverse curvatures separated by a line of inflection, as shown in Figures 2b and 2c. Each intermediate subzone also has the property of connecting with second order continuity with the intermediate subzone located immediately above or below.
  • each intermediate sub-zone has the function of deflecting the light rays in a direction essentially parallel to the part of the cut defined by the zone in question, so that the various parts of said cut are defined over a large extended in width.
  • the intermediate sub-areas 203m and 204m of the complex surface areas 203 and 204 widen the beam portion considered horizontally below the horizontal half-cut hH of a standardized European passing beam, while the sub-areas intermediate zones 205m and 206m of the zones with complex surface 205 and 206 widen the portion of beam considered below the half-cut inclined at 15 °, denoted Hc, by deflecting the rays parallel to this half-cut.
  • the intermediate sub-zones 201m and 202m are delimited by arcs of circles centered on the center O of the reflector, while the intermediate sub-zones 203m and 204m are delimited by vertical line segments and the intermediate sub-areas 205m and 206m are delimited by line segments making an angle ⁇ with the vertical, that is to say perpendicular to the inclined half-plane of cut Hc. Furthermore, the intermediate sub-zones located on the same side of the optical axis are all located in the extension of one another as illustrated.
  • y G is the distance between the axis 0x and the inner edge of the group of intermediate sub-areas 201m, 203m and 205m located to the left of the optical axis
  • y GM is the distance between the axis 0x and the center of the said group ("center” means the vertical straight line or inclined, or the portion of a circle, where the inflection of each of the intermediate subzones is located)
  • y GL is the distance between the center O and the outer edge of the group of intermediate sub-areas 201m, 203m and 205m
  • y D , y DM and y DL have the same meanings as y G , y GM and y GL , for the right intermediate subzones in FIG.
  • f G , f C and f D are the basic focal distances of the left (sub-areas 201e, 203e and 205e), central (sub-areas 201i to 206i) and right (sub-areas 202e, 204e and 206e) of the reflector;
  • a GL and A GM are parameters which characterize the extent of the deformation of the reflector at the level of the intermediate left subzones 201m, 203m and 205m;
  • a DL and A DM are identical parameters, but for the intermediate right sub-areas 202m, 204m and 206m.
  • the dimension parameters in "y" defined above and the focal length f G are first chosen, then the importance of the width to be given to the beam, represented, is then chosen.
  • f D f C + ⁇ f D (7)
  • l represents the half-length of the filament
  • ⁇ 1 is equal to y /
  • is equal to z /
  • the values taken by the parameters ⁇ , ⁇ 1, y L , y M and f0 appearing for the first time in this equation vary according to the value of the y coordinate on the y′Oy axis, and are indicated in the following table I:
  • FIGS. 3a to 3g show, in the form of images of the filament 100 on a standardized projection screen [H, h, v], the light distribution obtained with the various sub-areas of the reflector as described in detail above.
  • the intermediate zones 201m and 205m widen the considered portion of the beam not laterally along hh, but indeed along the inclined half-cut Hc. It is therefore extended on the side with a substantial extent and a definition which remains excellent. In practice, this translates into an increase in the range of the dipped headlight at the level of the lower side, for greater driving comfort, as well shown in FIG. 4, which illustrates the light distribution given by the whole of the reflector, also in the form of filament images projected onto [H, h, v].
  • FIG. 5 shows a front view of a reflector according to the present invention, capable of emitting an anti-fog beam, that is to say limited by a cut defined by two horizontal half-planes both located at the same level.
  • the reflector 200 comprises a central zone 210, two intermediate zones 220, 230 and two external zones 240, 250.
  • the intermediate zones 220, 230 are constructed in the same way as the sub-zone 205m in FIGS. 2b and 2c. More specifically, using the same parameters as for the surface of the reflector of FIGS. 1a and 1b, the equation of the entire surface of the reflector according to this second embodiment is identical to equation (11) set out above. .
  • FIGS. 6a to 6d have illustrated, by images of the filament generated by the bare reflector and projected on a standardized screen [H, h, v], the light distribution obtained with each of the zones of this reflector.
  • FIG. 6a corresponds to the central part 210 of the reflector
  • FIG. 6b corresponds to the left intermediate zone 220
  • FIG. 6c corresponds to the right intermediate zone 230
  • FIG. 6d corresponds to the external zones 240 and 250.
  • FIG. 7 illustrates, for its part, by a set of isocandela curves in this same projection screen, the light distribution obtained with the whole of the reflector.
  • Projectors comprising a lamp (not shown), a reflector 200 and a front lens 300, in this case a lens arranged at an angle, have been illustrated in the horizontal sections of FIGS. 8a to 8c.
  • a direct light cover 110 arranged so that no light ray emitted by the filament can directly reach the lens 300.
  • Such a cover in the general form of a cylinder closed at its end remote from the lamp, has as its object, so known, to prevent rays from coming out of the projector above the cut-off. Any dazzling of oncoming conductors is thus avoided.
  • the reflector is produced in accordance with French patent application No. 2 609 148, that is to say that it has a background different from that of a projector with a conventional complex surface and intended to modify the convergence of the light rays reflected by said background.
  • the bottom F is divergent, which causes at the level of the closing glass large mixtures between the images generated by the background and those generated by the edges B of the reflector (more precisely in the area 300a of ice). It is thus impossible to ensure using said glass a selective treatment of the various parts of the beam, for example large images (coming from the background) giving the beam its width and thickness and small images (coming from the edges). defining the beam concentration spot.
  • a reflector according to the present invention is illustrated in Figure 8c. It can be observed that, because the reflector is modified not at the bottom F but in intermediate regions I between the bottom F and the edges B.
  • Such a solution combines the advantages of the solutions known in FIGS. 8a and 8b, without having any the disadvantages: there is practically no mixing between large images of the filament generated by the background and the intermediate zones and the small images generated by the edges, and at the same time the mask of direct light does not obscure substantially any ray. More specifically, the converging rays reflected by the modified zones I are sufficiently distant from the cover to bypass the latter (rays R I in FIG. 8c).
  • the invention is applicable to headlights whose reflector does not have the same lateral extent on one side and the other of the lamp, as in the case of FIG. 8c.
  • the reflector may have only one edge zone (for example, in FIG. 1b, the sub-zones 201e, 203e and 205e or else the opposite external sub-zones may not exist, and in FIG. 5, one of the zones 240 and 250 may not exist.

Landscapes

  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Non-Portable Lighting Devices Or Systems Thereof (AREA)

Abstract

The invention relates to a motor vehicle headlight, of the type comprising a filament lamp (100), a reflector (200) defining an optical axis and a sealing lens, the filament emitting freely all around it in a radial direction and the reflector exhibiting a substantially continuous and smooth reflecting surface which reflects the rays emitted by the filament in such a manner that they are for the most part situated below a cut constituted by two half planes of given heights and inclinations. According to the invention, the reflecting surface comprises a central zone (201i-206i) which reflects the rays emanating from the filament in order that they should propagate in planes which are substantially vertical and parallel to the optical axis, two intermediary zones (201m, 203m, 205m; 202m, 204m, 206m) situated on either side of the central zone and connected thereto with continuity, which reflect the rays emanating from the filament while imparting to them a substantial deflection in planes which are substantially parallel to the cut off half plane, in the definition of which the ray participates, and at least one marginal zone (201e, 203e, 205e; 202e, 204e, 206e) situated outside one of the intermediary zones and connected thereto with continuity, which reflects the rays emanating from the filament in order that they should propagate in planes which are substantially vertical and parallel to the optical axis.

Description

La présente invention a trait d'une façon générale aux projecteurs de véhicules automobiles, et elle concerne plus particulièrement des perfectionnements apportés aux projecteurs susceptibles d'émettre un faisceau coupé, par exemple un faisceau de croisement de type européen ou un faisceau antibrouillard, et comportant à cet effet une lampe dont le filament émet librement tout autour de lui et coopère avec un réflecteur lisse à surface complexe conçu pour former la coupure par lui-même.The present invention relates generally to motor vehicle headlights, and it relates more particularly to improvements made to headlights capable of emitting a cut beam, for example a European type passing beam or an anti-fog beam, and comprising for this purpose a lamp whose filament emits freely all around it and cooperates with a smooth reflector with complex surface designed to form the cut by itself.

Plus précisément, l'invention a trait à des perfectionnements à des projecteurs de ce type, dont la surface lisse du réflecteur est conçue en outre pour donner au faisceau, sans l'intervention de la glace de fermeture, une largeur substantielle. On évite ainsi les défauts optiques bien connus qui apparaissent notamment lorsqu'une forte déviation latérale est demandée à une glace de fermeture inclinée par rapport à la verticale.More specifically, the invention relates to improvements to projectors of this type, the smooth surface of the reflector is further designed to give the beam, without the intervention of the closing glass, a substantial width. This avoids the well-known optical defects which appear in particular when a strong lateral deviation is requested from a closing glass inclined relative to the vertical.

Des projecteurs de ce type sont décrits dans la demande de brevet français No. 2 609 148 au nom de la Demanderesse.Projectors of this type are described in French patent application No. 2 609 148 in the name of the Applicant.

Cependant, dans tous ces projecteurs connus, la déviation impartie par le réflecteur aux rayons lumineux qu'il réfléchit s'effectue dans un plan horizontal. Cela signifie en particulier, pour un projecteur de croisement à coupure européenne, que les rayons qui définissent normalement la demi-coupure inclinée de ce type de faisceau sont écartés de cette demi-coupure par une telle déviation. En pratique, cela se manifeste par une demi-coupure horizontale bien définie sur une grande largeur, tandis que la demi-coupure inclinée par rapport à l'horizontale n'est définie que sur une très faible étendue. Ceci est clairement illustré sur la figure 13 de la demande de brevet sus-­mentionnée, où l'on voit que la demi-coupure inclinée est prolongée vers la droite par ce qui constitue une simple extension de la demi-coupure horizontale de gauche.However, in all these known projectors, the deviation imparted by the reflector to the light rays which it reflects takes place in a horizontal plane. This means in particular, for a dipped headlamp with European cut-off, that the rays which normally define the inclined half-cut of this type of beam are separated from this half cut by such a deviation. In practice, this is manifested by a well defined horizontal half-cut over a large width, while the inclined half-cut relative to the horizontal is only defined over a very small extent. This is clearly illustrated in FIG. 13 of the aforementioned patent application, where it can be seen that the inclined half-cut is extended to the right by what constitutes a simple extension of the left horizontal half-cut.

Par ailleurs, dans les projecteurs décrits dans cette demande de brevet, la largeur du faisceau est obtenue en intervenant essentiellement sur la zone de fond du réflecteur complexe. Ceci n'est pas toujours compatible avec la présence d'une cache de lumière directe disposé en avant de la lampe. En effet, si l'on donne au faisceau la largeur requise en renforçant la convergence des rayons réflechis par le fond, une grande proportion de ces rayons va se trouver interceptée par ce cache et ne pas participer au faisceau. Le rendement lumineux s'en trouve diminué.Furthermore, in the headlights described in this patent application, the width of the beam is obtained by acting essentially on the bottom zone of the reflector complex. This is not always compatible with the presence of a direct light cover placed in front of the lamp. In fact, if the beam is given the required width by strengthening the convergence of the rays reflected by the background, a large proportion of these rays will be intercepted by this mask and not participate in the beam. The light output is thereby reduced.

La présente invention vise à pallier les inconvénients de la technique antérieure et à proposer un projecteur à faisceau coupé du type précité dans lequel, par la seule intervention du réflecteur, conservant une surface essentiellement continue et lisse, on obtienne un élargissement substantiel du faisceau non seulement horizontalement, mais le cas échéant essentiellement parallèlement à une partie inclinée de la coupure, et notamment suivant l'angle de relèvement de la coupure le long de la demi-coupure inclinée d'un faisceau de croisement européen normalisé.The present invention aims to overcome the drawbacks of the prior art and to propose a cut beam projector of the aforementioned type in which, by the sole intervention of the reflector, retaining an essentially continuous and smooth surface, a substantial widening of the beam is obtained not only horizontally, but if necessary essentially parallel to an inclined part of the cut, and in particular along the angle of raising of the cut along the inclined half-cut of a standardized European passing beam.

Un objet secondaire de la présente invention, lorsque la lampe utilisée comporte un cache de lumière directe placé à l'avant de celle-ci, est de minimiser la quantité de rayons qui, après réflexion sur le réflecteur, sont dirigés vers ce cache et ne participent donc pas à la formation du faisceau.A secondary object of the present invention, when the lamp used has a direct light cover placed at the front thereof, is to minimize the quantity of rays which, after reflection on the reflector, are directed towards this cover and do not therefore do not participate in the formation of the beam.

A cet effet, la présente invention concerne un projecteur de véhicule automobile, du type comprenant une lampe à filament, un réflecteur définissant un axe optique et une glace de fermeture, le filament émettant librement tout autour de lui en direction radiale et le réflecteur présentant une surface réfléchissante essentiellement continue et lisse qui réfléchit les rayons émis par le filament de telle sorte qu'ils soient en majorité situés au-­dessous d'une coupure constituée par deux demi-plans de hauteurs et d'inclinaisons données, caractérisé en ce que la surface réfléchissante comporte une zone centrale qui réfléchit les rayons issus du filament pour qu'ils se propagent dans des plans essentiellement verticaux et parallèles à l'axe optique, deux zones intermédiaires situées de part et d'autre de la zone centrale et s'y raccordant avec continuité, qui réfléchissent les rayons issus du filament en leur impartissant une déviation substantielle dans des plans essentiellement parallèles au demi-plan de coupure à la définition duquel le rayon participe, et au moins une zone de bord située à l'extérieur de l'une des zones intermédiaires et s'y raccordant avec continuité, qui réfléchit les rayons issus du filament pour qu'ils se propagent dans des plans essentiellement verticaux et parallèles à l'axe optique.To this end, the present invention relates to a motor vehicle headlamp, of the type comprising a filament lamp, a reflector defining an optical axis and a closing lens, the filament emitting freely all around it in the radial direction and the reflector having a essentially continuous and smooth reflecting surface which reflects the rays emitted by the filament so that they are mainly located below a cut-off constituted by two half-planes of given heights and inclinations, characterized in that the reflecting surface has a central zone which reflects the rays coming from the filament so that they propagate in essentially vertical planes and parallel to the optical axis, two intermediate zones situated on either side of the central zone and there connecting with continuity, which reflect the rays coming from the filament by imparting to them a substantial deviation in planes essentially parallel to the half-cutting plane in the definition of which the ray participates, and at least one edge zone situated outside one intermediate zones and connecting with continuity, which reflects the rays from the filament so that they propagate in essentially vertical planes parallel to the optical axis.

Des aspects préférés du projecteur de l'invention sont les suivants :
- il comprend deux zones de bord situées respectivement à l'extérieur des deux zones intermédiaires.
- pour un projecteur dans lequel la coupure est constituée par un demi-plan horizontal et un demi-plan incliné au dessus d'un plan horizontal d'un angle dit angle de relèvement de coupure, correspondant à un faisceau de croisement européen, le filament est disposé parallèlement à l'axe optique et au-dessus de celui-ci de telle sorte que sa surface émissive soit sensiblement tangente audit axe optique, le réflecteur est en outre subdivisé en deux premières zones basées sur des portions de paraboloïdes s'étendant symétriquement de part et d'autre de l'axe optique entre deux plans passant par ce dernier, l'un horizontal et l'autre incliné par rapport à l'horizontale de l'angle de relèvement de coupure, et deux secondes zones qui prolongent lesdites premières zones respectivement au-dessus et au-­dessous de celles-ci en formant des images du filament dont tous les points les plus hauts sont situés au voisinage de la coupure, et la zone centrale, les zones intermédiaires et la ou les zones de bord sont formées respectivement par des sous-zones intérieures, intermédiaires et extérieures de chacune desdites premières et secondes zones.
- la zone centrale et la ou les zones de bord ont des distances focales de base différentes.
- en projection dans un plan perpendiculaire à l'axe optique, les sous-zones intermédiaires desdites premières zones du réflecteur sont délimitées latéralement par des portions de cercles, tandis que les sous-zones intermédiaires desdites secondes zones sont délimitées latéralement par des segments de droites perpendiculaires aux demi-plans de coupure considérés, les extrémités des portions de cercle étant alignées avec les extrémités adjacents des demi-­droites associées.
- pour un projecteur comprenant en outre un cache de lumière directe disposé en avant de la lampe, la distance entre l'axe du réflecteur et le début des zones intermédiaires est choisie sufisamment grande pour que les rayons déviés vers l'intérieur par les zones intermédiaires ne soient pas occultés par ledit cache.
Preferred aspects of the projector of the invention are as follows:
- It includes two edge zones located respectively outside the two intermediate zones.
- for a headlamp in which the cut is constituted by a horizontal half-plane and a half-plane inclined above a horizontal plane by an angle called the cut-off angle, corresponding to a European passing beam, the filament is arranged parallel to the optical axis and above it so that its emissive surface is substantially tangent to said optical axis, the reflector is further subdivided into two first zones based on portions of paraboloids extending symmetrically on either side of the optical axis between two planes passing through the latter, one horizontal and the other inclined relative to the horizontal of the angle of elevation of cut, and two second zones which extend said first zones respectively above and below these by forming images of the filament, all the highest points of which are located in the vicinity of the cut, and the central zone, the intermediate zones s and the edge zone or zones are respectively formed by interior, intermediate and exterior sub-zones of each of said first and second zones.
- the central zone and the edge zone or zones have different basic focal distances.
- in projection in a plane perpendicular to the optical axis, the intermediate sub-zones of said first zones of the reflector are delimited laterally by portions of circles, while the intermediate sub-zones said second zones are delimited laterally by segments of lines perpendicular to the cut-off half-planes considered, the ends of the circle portions being aligned with the adjacent ends of the associated half-lines.
- for a headlamp further comprising a direct light cover disposed in front of the lamp, the distance between the axis of the reflector and the start of the intermediate zones is chosen sufficiently large so that the rays deflected inwards by the intermediate zones are not obscured by said cache.

D'autres aspects, buts et avantages de la présente invention apparaîtront mieux à la lecture de la description détaillée suivante d'une forme de réalisation préférée de celle-ci, donnée à titre d'exemple et faite en référence aux dessins annexés, sur lesquels :

  • la figure 1a est une vue de côté en coupe d'un projecteur de croisement à coupure européene conforme à la présente invention, dont la lampe est illustrée par son seul filament;
  • la figure 1b est une vue de dos du projecteur de la figure 1, dépourvu de sa glace de fermeture;
  • les figures 2a à 2c sont des vues en coupe transversale schématique à travers le réflecteur, illustrant le principe de base de la présente invention;
  • les figures 3a à 3g illustrent, par des ensembles d'images du filament projetées sur un écran de protection, l'éclairement fourni par diverses zones du réflecteur des figures 1a et 1b, en l'absence de la glace de fermeture ;
  • la figure 4 illustre, de façon analogue, l'éclairement fourni par l'ensemble du projecteur des figures 1a et 1b, en l'absence de la glace de fermeture;
  • la figure 5 est une vue de face d'un projecteur antibrouillard conforme à la présente invention, dépourvu de sa glace de fermeture et dont la lampe est illustrée par son seul filament;
  • les figures 6a à 6d illustrent, par des ensembles d'images du filament projetées sur un écran, l'éclairement fourni par diverses zones du réflecteur de la figure 5, en l'absence de la glace de fermeture;
  • la figure 7 illustre, par un ensemble de courbes isocandéla sur un écran de projection, l'éclairement fourni par l'ensemble du projecteur de la figure 5, dépourvu de sa glace de fermeture; et
  • les figures 8a à 8c sont des vues schématiques en coupe horizontale illustrant la répartition horizontale des rayons lumineux réfléchis avec deux projecteurs de la technique antérieure et un projecteur conforme à la présente invention.
Other aspects, objects and advantages of the present invention will appear better on reading the following detailed description of a preferred embodiment thereof, given by way of example and made with reference to the accompanying drawings, in which :
  • FIG. 1a is a side view in section of a European cut-off headlamp according to the present invention, the lamp of which is illustrated by its only filament;
  • Figure 1b is a back view of the projector of Figure 1, devoid of its closing glass;
  • Figures 2a to 2c are schematic cross-sectional views through the reflector, illustrating the basic principle of the present invention;
  • FIGS. 3a to 3g illustrate, by sets of images of the filament projected on a protective screen, the illumination provided by various zones of the reflector of FIGS. 1a and 1b, in the absence of the closing glass;
  • FIG. 4 illustrates, in a similar manner, the illumination provided by the whole of the projector of FIGS. 1a and 1b, in the absence of the closing glass;
  • Figure 5 is a front view of a fog light according to the present invention, devoid of its closing glass and whose lamp is illustrated by its only filament;
  • FIGS. 6a to 6d illustrate, by sets of images of the filament projected on a screen, the illumination supplied by various zones of the reflector of FIG. 5, in the absence of the closing glass;
  • FIG. 7 illustrates, by a set of isocandela curves on a projection screen, the illumination provided by the whole of the projector of FIG. 5, devoid of its closing glass; and
  • Figures 8a to 8c are schematic views in horizontal section illustrating the horizontal distribution of the light rays reflected with two projectors of the prior art and a projector according to the present invention.

En référence tout d'abord aux figures 1a et 1b, on y a représenté un projecteur de croisement comprenant une lampe (de contours non illustrés) pourvue d'un filament axial 100 modélisé par un cylindre de longueur 2 et de rayon r, disposé parallèlement à l'axe optique Ox de telle sorte que sa surface inférieure soit essentiellement tangente à cet axe, un réflecteur à surface complexe 200 et une glace de fermeture 300.Referring firstly to Figures 1a and 1b, there is shown a dipped projector comprising a lamp (of contours not shown) provided with an axial filament 100 modeled by a cylinder of length 2 and radius r, arranged in parallel to the optical axis Ox so that its lower surface is essentially tangent to this axis, a reflector with complex surface 200 and a closing glass 300.

Le réflecteur est divisé en six zones 201 à 206 ayant chacune un rôle bien déterminé sur le plan optique, ces zones étant elles mêmes continues au second ordre et se raccordant entre elles, selon les plans tels qu'illustrés, également avec continuité au second ordre (à l'exception des raccordements entre les zones 204, 205 et 203, 206, respectivement, où la continuité n'est réalisée qu'au premier ordre).The reflector is divided into six zones 201 to 206 each having a well-defined role on the optical plane, these zones being themselves continuous in second order and connecting together, according to the planes as illustrated, also with continuity in second order (with the exception of connections between zones 204, 205 and 203, 206, respectively, where continuity is only achieved at first order).

Un projecteur de ce type est décrit dans les demandes de brevet français Nos. 2 536 502 et 2 599 121 au nom de la Demanderesse, dont le contenu est incorporé à la présente description par référence, et auxquelles on se reportera pour plus de détails.A projector of this type is described in French patent applications Nos. 2,536,502 and 2,599,121 in the name of the Applicant, the content of which is incorporated into the present description by reference, and to which reference will be made for more details.

Conformément à un aspect essentiel de l'invention, chacune des zones 201 à 206 est réalisée seulement en partie conformément aux équations exposées dans les demandes de brevet sus-mentionnées, en étant modifiée dans certaines régions par rapport à ces équations, comme on va le voir maintenant en référence aux figures 2a à 2c.In accordance with an essential aspect of the invention, each of the zones 201 to 206 is produced only partially in accordance with the equations set out in the above-mentioned patent applications, being modified in certain regions with respect to these equations, as will be seen. see now with reference to Figures 2a to 2c.

Chacune de ces figures est une vue en coupe horizontale à travers la zone 205, tous les rayons lumineux étant projetés verticalement dans le plan horizontal de cette coupe.Each of these figures is a view in horizontal section through the area 205, all the light rays being projected vertically in the horizontal plane of this section.

La figure 2a illustre le cas d'un projecteur selon le brevet français No. 2 536 502 précité. Comme on peut l'observer, tous les rayons réfléchis par la zone 205 circulent approximativement dans un plan vertical parallèle à l'axe optique 0x; le faisceau délivré est donc relativement étroit et sa largeur va lui être conférée par la glace de fermeture, convelablement prismée ou striée.FIG. 2a illustrates the case of a projector according to the aforementioned French patent No. 2,536,502. As can be observed, all the rays reflected by the zone 205 circulate approximately in a vertical plane parallel to the optical axis 0x; the delivered beam is therefore relatively narrow and its width will be given to it by the closing glass, either prismably or striated.

Les figures 2b et 2c illustrent le principe de l'invention. La zone 205 comprend ici une sous-zone intérieure 205i et une sous-zone extérieure 205e dont les surfaces sont identiques à la surface de la zone 205 de la figure 2a, à ceci près que les distances focales de base de ces deux zones sont différentes. Il est en outre défini une zone intermédiaire 205m dont le profil s'écarte de la surface connue, de manière à donner aux rayons réfléchis soit une convergence déterminée (figure 2b), soit une divergence déterminée (figure 2c). Selon l'invention, les diverses sous-zones présentent des surfaces continues au second ordre, et en outre se raccordent entre elles, dans des plans de transition, avec continuité au second ordre. Il faut noter ici que les écarts entre la surface connue et la surface modifiée conformément à l'invention ont été fortement exagérés par souci de clarté.Figures 2b and 2c illustrate the principle of the invention. The zone 205 here comprises an interior sub-zone 205i and an external sub-zone 205e whose surfaces are identical to the surface of the zone 205 in FIG. 2a, except that the basic focal distances of these two zones are different . It is further defined an intermediate zone 205m whose profile deviates from the known surface, so as to give the reflected rays either a determined convergence (FIG. 2b), or a determined divergence (FIG. 2c). According to the invention, the various sub-areas have continuous second order surfaces, and furthermore are connected to each other, in transition planes, with second order continuity. It should be noted here that the differences between the known surface and the surface modified in accordance with the invention have been greatly exaggerated for the sake of clarity.

Conformément à un aspect essentiel de la présente invention, la grande largeur conférée à la partie du faisceau engendrée par la zone 205 est obtenue d'une part en respectant la demi-coupure inclinée générée en soi par cette zone, mais surtout en déviant les rayons lumineux au niveau de la zone intermédiaire non pas horizontalement, mais dans un plan parallèle à la coupure. Ainsi, comme on va le détailler plus loin, la coupure en "V" du faisceau est définie sur une grande étendue latérale.In accordance with an essential aspect of the present invention, the large width imparted to the part of the beam generated by the area 205 is obtained on the one hand by respecting the inclined half-cut generated in itself by this area, but above all by deflecting the rays luminous at the level of the intermediate zone not horizontally, but in a plane parallel to the cut. Thus, as will be detailed later, the "V" cut of the beam is defined over a large lateral extent.

En pratique, chaque zone 201 à 206 comporte une sous-­zone intérieure, respectivement 201i à 206i, une sous-zone intermédiaire, respectivement 201m à 206m, et une sous-zone extérieure, respectivement 201e à 206e.In practice, each zone 201 to 206 comprises an interior sub-zone, respectively 201i to 206i, a sub-zone intermediate, respectively 201m to 206m, and an outer subzone, respectively 201e to 206e.

Les sous-zones intérieures et extérieures sont réalisées conformément aux équations précitées, en utilisant cependant dans chaque zone des distances focales de base différentes pour la sous-zone intérieure et la sous-zone extérieure.The interior and exterior sub-zones are produced in accordance with the above equations, however using in each zone different basic focal distances for the internal sub-zone and the external sub-zone.

En d'autres termes, les sous-zones 201i, 201e et 202i, 202e sont des portions de paraboloïdes de révolution, ayant soit un même foyer situé sur l'axe optique à l'aplomb du centre du filament, soit deux foyers distincts situés respectivement au voisinage des deux extrémités axiales du filament, et possédant en outre des distances focales différentes deux à deux. En outre, les zones intérieures 203i à 206i et 203e à 206e sont les zones à surface complexe définies mathématiquement dans les demandes de brevet citées plus haut, et présentent donc les propriétés y énoncées. On peut rappeler ici qu'un tel réflecteur a pour objet, par les zones 201 et 202, d'amorcer la coupure en "V" du type général décrit en introduction, et par les zones 203 à 206 de prolonger cette coupure en engendrant des images du filament dont tous les points sont situés au-dessous de ladite coupure.In other words, the sub-areas 201i, 201e and 202i, 202e are portions of paraboloids of revolution, having either the same focal point located on the optical axis directly above the center of the filament, or two distinct focal points located respectively in the vicinity of the two axial ends of the filament, and further having different focal distances two by two. In addition, the interior zones 203i to 206i and 203e to 206e are the areas with complex surface defined mathematically in the patent applications cited above, and therefore have the properties stated therein. It may be recalled here that the purpose of such a reflector is, by zones 201 and 202, to initiate the "V" cut of the general type described in the introduction, and by zones 203 to 206 to prolong this cut by generating images of the filament, all the points of which are located below the said cut.

Conformément à la présente invention, chacune des sous-zones intermédiaires 201m à 206m vient modifier localement le profil de la zone considérée pour conférer au faisceau la largeur requise, comme on l'a vu ci-dessus pour la zone 205m. Plus précisément, chaque sous-zone intermédiaire a pour propriété d'effectuer un raccordement continu au second ordre entre les sous-zones intérieure et extérieure associées, décalées l'une par rapport à l'autre, en présentant à cet effet un profil à deux courbures inverses séparées par une ligne d'inflexion, comme le montrent bien les figures 2b et 2c. Chaque sous-zone intermédiaire a également pour propriété de se raccorder avec continuité au second ordre avec la sous-zone intermédiaire située immédiatement au-dessus ou au-dessous.In accordance with the present invention, each of the intermediate sub-areas 201m to 206m locally modifies the profile of the area considered to give the beam the required width, as has been seen above for the area 205m. More precisely, each intermediate subzone has the property of effecting a continuous second-order connection between the associated interior and exterior subzones, offset with respect to each other, by presenting a profile for two for this purpose. reverse curvatures separated by a line of inflection, as shown in Figures 2b and 2c. Each intermediate subzone also has the property of connecting with second order continuity with the intermediate subzone located immediately above or below.

Sur le plan optique, chaque sous-zone intermédiaire a pour fonction de dévier les rayons lumineux dans une direction essentiellement parallèle à la partie de la coupure définie par la zone considérée, de telle sorte que les diverses parties de ladite coupure sont définies sur une grande étendue en largeur. En particulier, les sous-zones intermédiaires 203m et 204m des zones à surface complexe 203 et 204 élargissent la portion de faisceau considérée horizontalement au-dessous de la demi-coupure horizontale hH d'un faisceau de croisement européen normalisé, tandis que les sous-zones intermédiaires 205m et 206m des zones à surface complexe 205 et 206 élargissent la portion de faisceau considérée au-dessous de la demi-coupure inclinée à 15°, notée Hc, en déviant les rayons parallèlement à cette demi-coupure.From the optical point of view, each intermediate sub-zone has the function of deflecting the light rays in a direction essentially parallel to the part of the cut defined by the zone in question, so that the various parts of said cut are defined over a large extended in width. In particular, the intermediate sub-areas 203m and 204m of the complex surface areas 203 and 204 widen the beam portion considered horizontally below the horizontal half-cut hH of a standardized European passing beam, while the sub-areas intermediate zones 205m and 206m of the zones with complex surface 205 and 206 widen the portion of beam considered below the half-cut inclined at 15 °, denoted Hc, by deflecting the rays parallel to this half-cut.

Dans la projection dans le plan yOz que constitue la figure 1b, les sous-zones intermédiaires 201m et 202m sont délimitées par des arcs de cercles centrés sur le centre O du réflecteur, tandis que les sous-zones intermédiaires 203m et 204m sont délimitées par des segments de droite verticaux et les sous-zones intermédiaires 205m et 206m sont délimitées par des segments de droite faisant un angle β avec la verticale, c'est-à-dire perpendiculaires au demi-plan de coupure incliné Hc. Par ailleurs, les sous-zones intermédiaires situées d'un même côté de l'axe optique sont toutes situées dans le prolongement l'une de l'autre comme illustré.In the projection in the yOz plane that constitutes FIG. 1b, the intermediate sub-zones 201m and 202m are delimited by arcs of circles centered on the center O of the reflector, while the intermediate sub-zones 203m and 204m are delimited by vertical line segments and the intermediate sub-areas 205m and 206m are delimited by line segments making an angle β with the vertical, that is to say perpendicular to the inclined half-plane of cut Hc. Furthermore, the intermediate sub-zones located on the same side of the optical axis are all located in the extension of one another as illustrated.

On va maintenant définir par une approche mathématique un exemple de réalisation du réflecteur conforme à ce premier aspect de l'invention, d'autres exemples étant bien entendu possibles sans sortir du cadre de l'invention.We will now define by a mathematical approach an embodiment of the reflector according to this first aspect of the invention, other examples being of course possible without departing from the scope of the invention.

Sur la figure 1b, on a illustré les paramètres suivants:
yG est la distance entre l'axe 0x et le bord intérieur du groupe de sous-zones intermédiaires 201m, 203m et 205m situées à gauche de l'axe optique;
yGM est la distance entre l'axe 0x et le centre dudit groupe (on entend par "centre" la ligne droite verticale ou inclinée, ou encore la portion de cercle, où se trouve l'inflexion de chacune des sous-zones intermédiaires);
yGL est la distance entre le centre O et le bord extérieur du groupe de sous-zones intermédiaires 201m, 203m et 205m;
yD, yDM et yDL ont les mêmes significations que yG, yGM et yGL, pour les sous-zones intermédiaires de droite sur la figure 1b, à savoir 202m, 204m et 206m;
fG, fC et fD sont les distances focales de base des parties gauche (sous-zones 201e, 203e et 205e), centrale (sous-zones 201i à 206i) et droite (sous-zones 202e, 204e et 206e) du réflecteur;
AGL et AGM sont des paramètres qui caractérisent l'importance de la déformation du réflecteur au niveau des sous-zones intermédiaires de gauche 201m, 203m et 205m;
ADL et ADM sont des paramètres identiques, mais pour les sous-zones intermédiaires de droite 202m, 204m et 206m.
In FIG. 1b, the following parameters have been illustrated:
y G is the distance between the axis 0x and the inner edge of the group of intermediate sub-areas 201m, 203m and 205m located to the left of the optical axis;
y GM is the distance between the axis 0x and the center of the said group ("center" means the vertical straight line or inclined, or the portion of a circle, where the inflection of each of the intermediate subzones is located);
y GL is the distance between the center O and the outer edge of the group of intermediate sub-areas 201m, 203m and 205m;
y D , y DM and y DL have the same meanings as y G , y GM and y GL , for the right intermediate subzones in FIG. 1b, namely 202m, 204m and 206m;
f G , f C and f D are the basic focal distances of the left (sub-areas 201e, 203e and 205e), central (sub-areas 201i to 206i) and right (sub-areas 202e, 204e and 206e) of the reflector;
A GL and A GM are parameters which characterize the extent of the deformation of the reflector at the level of the intermediate left subzones 201m, 203m and 205m;
A DL and A DM are identical parameters, but for the intermediate right sub-areas 202m, 204m and 206m.

Pour concevoir un réflecteur conforme à l'invention, les paramètres de dimensions en "y" définies ci-dessus et la focale fG sont tout d'abord choisis, puis on choisit ensuite l'importance de la largeur à donner au faisceau, représentée par les ouvertures angulaires, dans des plans parallèles aux deux demi-coupures, des portions du faisceau engendrées par les sous-zones intermédiaires de gauche et de droite. Ces ouvertures angulaires sont notées ΘG et ΘD, respectivement.To design a reflector according to the invention, the dimension parameters in "y" defined above and the focal length f G are first chosen, then the importance of the width to be given to the beam, represented, is then chosen. by the angular openings, in planes parallel to the two half-cuts, portions of the beam generated by the intermediate subzones of left and right. These angular openings are noted Θ G and Θ D , respectively.

Les paramètres AGL et ADL sont définis par :
AGL = (tgΘG)/(yGM-yGL)      (1)
et
ADL = (tgΘD)/(yDM-yDL)      (2)
The parameters A GL and A DL are defined by:
A GL = (tgΘ G ) / (y GM -y GL ) (1)
and
A DL = (tgΘ D ) / (y DM -y DL ) (2)

On détermine ensuite la valeur de fC en posant :
fC = fG + ΔfG      (3)
ΔfG étant choisi égal à la solution supérieure de l'équation du second degré suivante :
4X² + 4(AA + fG)X - yG.yGM + 4AA.fG = 0      (4)

Figure imgb0001
We then determine the value of f C by setting:
f C = f G + Δf G (3)
Δf G being chosen equal to the upper solution of the following second degree equation:
4X² + 4 (AA + f G ) X - y G .y GM + 4AA.f G = 0 (4)
or
Figure imgb0001

le paramètre AGM est alors calculé par la formule suivante :

Figure imgb0002
the parameter A GM is then calculated by the following formula:
Figure imgb0002

Pour calculer la focale fD, on pose de même :
fD = fC + ΔfD      (7)
où ΔfD est la solution supérieure de l'équation :
-4X² + 4(BB - fC)X + 4fC.BB + yD.yDM = 0      (8)

Figure imgb0003
To calculate the focal length f D , we pose the same:
f D = f C + Δf D (7)
where Δf D is the upper solution of the equation:
-4X² + 4 (BB - f C ) X + 4f C .BB + y D .y DM = 0 (8)
or
Figure imgb0003

On calcule ensuite ADM de la façon suivante :

Figure imgb0004
We then calculate A DM as follows:
Figure imgb0004

Tous les paramètres sont ainsi définis, en étant pour certains choisis par le concepteur et, pour les autres, calculés à partir des premiers comme indiqué ci-dessus.All the parameters are thus defined, some being chosen by the designer and, for the others, calculated from the first as indicated above.

On va maintenant indiquer les équations des diverses zones 201 à 206 du réflecteur, dans le repère orthonormé [0,x,y,z] tel qu'illustré sur les figures 1a et 1b.We will now indicate the equations of the various zones 201 to 206 of the reflector, in the orthonormal reference frame [0, x, y, z] as illustrated in FIGS. 1a and 1b.

Pour les zones 203 et 204, l'équation est la suivante:

Figure imgb0005
avec V = (α + α′)|y| - αyL - α′yM For fields 203 and 204, the equation is as follows:
Figure imgb0005
with V = (α + α ′) | y | - αy L - α′y M

Dans cette équation, ℓ représente la demi-longueur du filament, α₁ est égal à y/ |y|, et ε est égal à z/|z|. En outre, les valeurs que prennent les paramètres α, α¹, yL, yM et f₀ apparaissant pour la première fois dans cette équation varient en fonction de la valeur de la coordonnée y sur l'axe y′Oy, et sont indiquées dans le tableau I suivant :

Figure imgb0006
In this equation, ℓ represents the half-length of the filament, α₁ is equal to y / | y |, and ε is equal to z / | z |. In addition, the values taken by the parameters α, α¹, y L , y M and f₀ appearing for the first time in this equation vary according to the value of the y coordinate on the y′Oy axis, and are indicated in the following table I:
Figure imgb0006

Les surfaces réfléchissantes des zones 205 et 206 sont définies par l'équation (11) ci-dessus, mais en remplaçant les coordonnées x, y et z par des coordonnées X, Y et Z définies de la façon suivante :
Y = y.cosβ + z.sinβ
Z = -y.sinβ + z.cosβ
The reflective surfaces of zones 205 and 206 are defined by equation (11) above, but by replacing the coordinates x, y and z by coordinates X, Y and Z defined as follows:
Y = y.cosβ + z.sinβ
Z = -y.sinβ + z.cosβ

La nouvelle équation obtenue, non écrite afin d'éviter d'alourdir la description, sera notée (12).The new equation obtained, unwritten in order to avoid adding to the description, will be noted (12).

On peut noter que ce changement de coordonnées revient dans la pratique à faire tourner la surface définie par l'équation (11) autour de l'axe Ox, d'un angle β qui est l'angle de relèvement de la demi-coupure de droite du faisceau.It can be noted that this change of coordinates amounts in practice to rotating the surface defined by equation (11) around the axis Ox, by an angle β which is the angle of bearing of the half-cut of beam right.

Enfin, les surfaces réfléchissantes des zones 201 et 202 sont définies par l'équation suivante :

Figure imgb0007
où ρ = √(y² + z²)Finally, the reflective surfaces of zones 201 and 202 are defined by the following equation:
Figure imgb0007
where ρ = √ (y² + z²)

Les valeurs prises par les paramètres apparaissant dans cette équation varient ici encore en fonction de la position de la coordonnée y sur l'axe y′Oy, conformément au tableau II ci-dessous.

Figure imgb0008
The values taken by the parameters appearing in this equation vary here again as a function of the position of the y coordinate on the y′Oy axis, in accordance with Table II below.
Figure imgb0008

On a représenté sur les figures 3a à 3g, sous forme d'images du filament 100 sur un écran de projection normalisé [H,h,v], la répartition lumineuse obtenue avec les diverses sous-zones du réflecteur tel que décrit en détail ci-dessus. On va indiquer ci-dessous la correspondance entre chacune de ces figures et la ou les sous-zones considérées. Figure Sous-zone(s) 3a 201i à 206i 3b 201m, 205m 3c 202m, 206m 3d 204m 3e 203m 3f 201e, 202e, 205e, 206e 3g 203e, 204e FIGS. 3a to 3g show, in the form of images of the filament 100 on a standardized projection screen [H, h, v], the light distribution obtained with the various sub-areas of the reflector as described in detail above. We will indicate below the correspondence between each of these figures and the sub-area (s) considered. Figure Sub-area (s) 3a 201i to 206i 3b 201m, 205m 3c 202m, 206m 3d 204m 3rd 203m 3f 201st, 202nd, 205th, 206th 3g 203rd, 204th

Comme on l'observe sur la figure 3b, les zones intermédiaires 201m et 205m élargissent la portion considérée du faisceau non pas latéralement suivant hh, mais bien suivant la demi-coupure inclinéee Hc. Celle-ci est donc prolongée sur le côté avec une étendue substantielle et une définition qui reste excellente. Dans la pratique, cela se traduit par un accroissement de la portée du projecteur de croisement au niveau du bas côté, pour un plus grand confort de conduite, comme le montre bien la figure 4, qui illustre la répartition lumineuse donnée par l'ensemble du réflecteur, également sous forme d'images du filament projetées sur [H,h,v].As can be seen in FIG. 3b, the intermediate zones 201m and 205m widen the considered portion of the beam not laterally along hh, but indeed along the inclined half-cut Hc. It is therefore extended on the side with a substantial extent and a definition which remains excellent. In practice, this translates into an increase in the range of the dipped headlight at the level of the lower side, for greater driving comfort, as well shown in FIG. 4, which illustrates the light distribution given by the whole of the reflector, also in the form of filament images projected onto [H, h, v].

On a représenté sur la figure 5 une vue de face d'un réflecteur conforme à la présente invention, susceptible d'émettre un faisceau antibrouillard, c'est à dire limité par une coupure définie par deux demi-plans horizontaux situés tous deux au même niveau.FIG. 5 shows a front view of a reflector according to the present invention, capable of emitting an anti-fog beam, that is to say limited by a cut defined by two horizontal half-planes both located at the same level.

Le réflecteur 200 comprend une zone centrale 210, deux zones intermédiaires 220, 230 et deux zones extérieures 240, 250.The reflector 200 comprises a central zone 210, two intermediate zones 220, 230 and two external zones 240, 250.

Les zones centrale et extérieures sont réalisées conformément aux enseignements du brevet français No. 2 536 503, dont la description est incorporée au présent mémoire par référence et auquel on se reportera pour plus de détails. On peut indiquer simplement que ce document enseigne un réflecteur à surface lisse dont la forme est conçue pour qu'il engendre par lui-même la coupure horizontale sus-­mentionnée. La seule différence par rapport à ce brevet réside en ce que des distances focales de base différentes sont utilisées pour chacune de ces trois zones.The central and external zones are produced in accordance with the teachings of French patent No. 2,536,503, the description of which is incorporated into the present document by reference and to which reference will be made for more details. We can simply say that this document teaches a smooth surface reflector whose shape is designed to that it generates by itself the above-mentioned horizontal cut. The only difference from this patent is that different basic focal lengths are used for each of these three areas.

Les zones intermédiaires 220, 230 sont construites de la même manière que la sous-zone 205m sur les figures 2b et 2c. Plus précisément, en utilisant les mêmes paramètres que pour la surface du réflecteur des figures 1a et 1b, l'équation de l'ensemble de la surface du réflecteur selon cette seconde forme de réalisation est identique à l'équation (11) exposée plus haut.The intermediate zones 220, 230 are constructed in the same way as the sub-zone 205m in FIGS. 2b and 2c. More specifically, using the same parameters as for the surface of the reflector of FIGS. 1a and 1b, the equation of the entire surface of the reflector according to this second embodiment is identical to equation (11) set out above. .

Dans ce cas, les deux demi-coupures étant horizontales, la déviation impartie aux rayons par les zones intermédiaires s'effectue dans des plans horizontaux.In this case, the two half-cuts being horizontal, the deviation imparted to the spokes by the intermediate zones takes place in horizontal planes.

On a illustré sur les figures 6a à 6d, par des images du filament engendrées par le réflecteur nu et projetées sur un écran normalisé [H,h,v], la répartition lumineuse obtenue avec chacune des zones de ce réflecteur.FIGS. 6a to 6d have illustrated, by images of the filament generated by the bare reflector and projected on a standardized screen [H, h, v], the light distribution obtained with each of the zones of this reflector.

La figure 6a correspond à la partie centrale 210 du réflecteur, la figure 6b correspond à la zone intermédiaire gauche 220, la figure 6c correspond à la zone intermédiaire droite 230 et la figure 6d correspond aux zones extérieures 240 et 250.FIG. 6a corresponds to the central part 210 of the reflector, FIG. 6b corresponds to the left intermediate zone 220, FIG. 6c corresponds to the right intermediate zone 230 and FIG. 6d corresponds to the external zones 240 and 250.

La figure 7 illustre quant à elle, par un ensemble de courbes isocandéla dans ce même écran de projection, la répartition lumineuse obtenue avec l'ensemble du réflecteur.FIG. 7 illustrates, for its part, by a set of isocandela curves in this same projection screen, the light distribution obtained with the whole of the reflector.

On constate que la coupure horizontale est définie avec une bonne netteté sur une grande largeur.It can be seen that the horizontal cut is defined with good sharpness over a large width.

On va maintenant expliquer, en référence aux figures 8a à 8c, un autre avantage de la présente invention par rapport aux projecteurs de la technique antérieure, dans le cas où le projecteur, que ce soit un projecteur de croisement ou un projecteur anti-brouillard, comporte un écran ou cache de lumière directe.We will now explain, with reference to FIGS. 8a to 8c, another advantage of the present invention over the headlights of the prior art, in the case where the headlight, whether it is a dipped headlight or an anti-fog headlight, has a screen or direct light cover.

On a illustré sur les coupes horizontales des figures 8a à 8c des projecteurs comprenant une lampe (non illustrée), un réflecteur 200 et une glace frontale 300, en l'espèce une glace disposée en biais. A l'avant de la lampe est prévu un cache de lumière directe 110 disposé de telle sorte qu'aucun rayon lumineux émis par le filament ne puisse atteindre directement la glace 300. Un tel cache, en forme générale de cylindre obturé à son extrémité éloignée de la lampe, a pour objet, de façon connue, d'éviter que des rayons ne sortent du projecteur au-dessus de la coupure. Tout éblouissement des conducteurs venant en sens inverse est ainsi évité.Projectors comprising a lamp (not shown), a reflector 200 and a front lens 300, in this case a lens arranged at an angle, have been illustrated in the horizontal sections of FIGS. 8a to 8c. At the front of the lamp is provided a direct light cover 110 arranged so that no light ray emitted by the filament can directly reach the lens 300. Such a cover, in the general form of a cylinder closed at its end remote from the lamp, has as its object, so known, to prevent rays from coming out of the projector above the cut-off. Any dazzling of oncoming conductors is thus avoided.

Sur les figures 8a et 8b, le réflecteur est réalisé conformément à la demande de brevet français No. 2 609 148, c'est-à-dire qu'il comporte un fond différent de celui d'un projecteur à surface complexe classique et destiné à modifier la convergence des rayons lumineux réfléchis par ledit fond. Dans le cas de la figure 8a, le fond F est divergent, ce qui provoque au niveau de la glace de fermeture d'importants mélanges entre les images engendrées par le fond et celles engendrées par les bords B du réflecteur (plus précisément dans la zone 300a de la glace). Il est ainsi impossible d'assurer à l'aide de ladite glace un traitement sélectif des diverses parties du faisceau, par exemple des grandes images (provenant du fond) donnant au faisceau sa largeur et son épaisseur et des petites images (provenant des bords) définissant la tache de concentration du faisceau.In FIGS. 8a and 8b, the reflector is produced in accordance with French patent application No. 2 609 148, that is to say that it has a background different from that of a projector with a conventional complex surface and intended to modify the convergence of the light rays reflected by said background. In the case of FIG. 8a, the bottom F is divergent, which causes at the level of the closing glass large mixtures between the images generated by the background and those generated by the edges B of the reflector (more precisely in the area 300a of ice). It is thus impossible to ensure using said glass a selective treatment of the various parts of the beam, for example large images (coming from the background) giving the beam its width and thickness and small images (coming from the edges). defining the beam concentration spot.

Lorsqu'on utilise au contraire un fond F convergent, on évite ainsi avantageusement les mélanges d'images au niveau de la glace. Cependant, une proportion non négligeable des rayons réfléchis par le fond, du fait de cette convergence, est maintenant interceptée par le cache de lumière directe 110. Il en résulte une baisse du rendement lumineux ainsi qu'une diminution de la largeur du faisceau, puisque ce sont les rayons qui sont les plus inclinés latéralement qui sont interceptés.When, on the contrary, a convergent background F is used, this advantageously avoids mixing of images at the level of the glass. However, a non-negligible proportion of the rays reflected by the background, due to this convergence, is now intercepted by the direct light mask 110. This results in a reduction in the light output as well as a reduction in the width of the beam, since it is the rays which are most inclined laterally which are intercepted.

Un réflecteur conforme à la présente invention est illustré sur la figure 8c. On peut observer que, du fait que le réflecteur est modifié non pas au fond F mais dans des régions intermédiaires I entre le fond F et les bords B. Une telle solution cumule les avantages des solutions connues des figures 8a et 8b, sans en avoir les inconvénients: il n'existe pratiquement pas de mélange entre les grandes images du filament engendrées par le fond et les zones intermédiaires et les petites images engendrées par les bords, et en même temps le cache de lumière directe ne vient occulter sensiblement aucun rayon. Plus précisément, les rayons convergents réfléchis par les zones modifiées I sont suffisamment éloignés du cache pour contourner celui-ci (rayons RI sur la figure 8c).A reflector according to the present invention is illustrated in Figure 8c. It can be observed that, because the reflector is modified not at the bottom F but in intermediate regions I between the bottom F and the edges B. Such a solution combines the advantages of the solutions known in FIGS. 8a and 8b, without having any the disadvantages: there is practically no mixing between large images of the filament generated by the background and the intermediate zones and the small images generated by the edges, and at the same time the mask of direct light does not obscure substantially any ray. More specifically, the converging rays reflected by the modified zones I are sufficiently distant from the cover to bypass the latter (rays R I in FIG. 8c).

Bien entendu, la présente invention n'est pas limitée aux formes de réalisation décrites ci-dessus et représentées sur les dessins, mais l'homme de l'art saura y apporter toute variante ou modification conforme à son esprit.Of course, the present invention is not limited to the embodiments described above and shown in the drawings, but a person skilled in the art will know how to make any variant or modification in accordance with his spirit.

En particulier, il est clair que l'invention est applicable à des projecteurs dont le réflecteur n'a pas la même étendue latérale d'un côté et de l'autre de la lampe, comme dans le cas de la figure 8c. Et dans un cas limite, le réflecteur peut ne comporter qu'une seule zone de bord (par exemple, sur la figure 1b, les sous-zones 201e, 203e et 205e ou bien les sous-zones extérieures opposées peuvent ne pas exister, et sur la figure 5, l'une des zones 240 et 250 peut ne pas exister.In particular, it is clear that the invention is applicable to headlights whose reflector does not have the same lateral extent on one side and the other of the lamp, as in the case of FIG. 8c. And in a borderline case, the reflector may have only one edge zone (for example, in FIG. 1b, the sub-zones 201e, 203e and 205e or else the opposite external sub-zones may not exist, and in FIG. 5, one of the zones 240 and 250 may not exist.

En outre, l'homme de l'art saura adapter l'invention au cas d'un projecteur à coupure normalisée en vigueur aux Etats-Unis d'Amérique, définie par deux demi-plans horizontaux décalés en hauteur.In addition, a person skilled in the art will know how to adapt the invention to the case of a standard cut-off headlamp in force in the United States of America, defined by two horizontal half-planes offset in height.

Claims (8)

1. Projecteur de véhicule automobile, du type comprenant une lampe à filament (100), un réflecteur (200) définissant un axe optique (0x) et une glace de fermeture (300), le filament émettant librement tout autour de lui en direction radiale et le réflecteur présentant une surface réfléchissante essentiellement continue et lisse qui réfléchit les rayons émis par le filament de telle sorte qu'ils soient en majorité situés au-dessous d'une coupure (hHc; hh) constituée par deux demi-plans de hauteurs et d'inclinaisons données, caractérisé en ce que la surface réfléchissante comporte une zone centrale (201i-206i; 210) qui réfléchit les rayons issus du filament pour qu'ils se propagent dans des plans essentiellement verticaux, deux zones intermédiaires (201m, 203m, 205m; 202m, 204m, 206m; 220, 230) situées de part et d'autre de la zone centrale et s'y raccordant avec continuité, qui réfléchissent les rayons issus du filament en leur impartissant une déviation substantielle dans des plans essentiellement parallèles au demi-plan de coupure à la définition duquel le rayon participe, et au moins une zone de bord (201e, 203e, 205e; 202e, 204e, 206e; 240, 250) située à l'extérieur de l'une des zones intermédiaires et s'y raccordant avec continuité, qui réfléchit les rayons issus du filament pour qu'ils se propagent dans des plans essentiellement verticaux et parallèles à l'axe optique.1. Motor vehicle headlamp, of the type comprising a filament lamp (100), a reflector (200) defining an optical axis (0x) and a closing lens (300), the filament emitting freely all around it in the radial direction and the reflector having a substantially continuous and smooth reflecting surface which reflects the rays emitted by the filament so that they are mainly located below a cut (hHc; hh) constituted by two half-planes of heights and given inclinations, characterized in that the reflecting surface comprises a central zone (201i-206i; 210) which reflects the rays coming from the filament so that they propagate in essentially vertical planes, two intermediate zones (201m, 203m, 205m; 202m, 204m, 206m; 220, 230) located on either side of the central zone and connected to it with continuity, which reflect the rays coming from the filament by imparting to them a deviation subs tantielle in planes essentially parallel to the half-section plane at the definition of which the ray participates, and at least one edge zone (201e, 203e, 205e; 202nd, 204th, 206th; 240, 250) located outside one of the intermediate zones and connecting thereto with continuity, which reflects the rays coming from the filament so that they propagate in essentially vertical planes and parallel to the optical axis. 2. Projecteur selon la revendication 1, caractérisé en ce qu'il comprend deux zones de bord (201e, 203e, 205e; 202e, 204e, 206e; 240, 250) situées respectivement à l'extérieur des deux zones intermédiaires (201m, 203m, 205m; 202m, 204m, 206m; 220, 230).2. Projector according to claim 1, characterized in that it comprises two edge zones (201e, 203e, 205e; 202e, 204e, 206e; 240, 250) located respectively outside the two intermediate zones (201m, 203m , 205m; 202m, 204m, 206m; 220, 230). 3. Projecteur selon l'une des revendications 1 et 2, dans lequel la coupure est constituée par un demi-plan horizontal (hH) et un demi-plan (Hc) incliné au dessus de l'horizontale d'un angle (β) dit angle de relèvement de coupure, correspondant à un faisceau de croisement européen, caractérisé en ce que le filament (100) est disposé parallèlement à l'axe optique (0x) et au-dessus de celui-ci de telle sorte que sa surface émissive soit sensiblement tangente audit axe optique, en ce que le réflecteur est en outre subdivisé en deux premières zones (201, 202) basées sur des portions de paraboloïdes s'étendant symétriquement de part et d'autre de l'axe optique entre deux plans passant par ce dernier, l'un horizontal et l'autre incliné par rapport à l'horizontale de l'angle de relèvement de coupure, et deux secondes zones (203, 206; 204 205) qui prolongent lesdites premières zones respectivement au-dessus et au-dessous de celles-ci en formant des images du filament dont tous les points les plus hauts sont situés au voisinage de la coupure, et en ce que la zone centrale, les zones intermédiaires et la ou les zones de bord sont formées respectivement par des sous-zones intérieures (201i-206i), intermédiaires (201m-206m) et extérieures (201e-206e) de chacune desdites premières et secondes zones.3. Projector according to one of claims 1 and 2, wherein the cut-off is constituted by a horizontal half-plane (hH) and a half-plane (Hc) inclined above the horizontal by an angle (β) said cut-off angle, corresponding to a European passing beam, characterized in that the filament (100) is disposed parallel to the optical axis (0x) and above it so that its emissive surface is substantially tangent to said optical axis, in that the reflector is further subdivided into two first zones (201, 202) based on portions of paraboloids extending symmetrically on either side of the optical axis between two planes passing through the latter, one horizontal and the other inclined with respect to the horizontal of the bearing angle of cut, and two second zones (203, 206; 204 205) which extend said first zones respectively above and below them by forming images of the filament, all of the highest points of which are located in the vicinity of the break, and in that the central zone, the intermediate zones and the edge zone or zones are respectively formed by interior (201i-206i), intermediate (201m-206m) and exterior (201e-206e) sub-zones of each said first and second zones. 4. Projecteur selon l'une quelconque des revendications 1 à 3, caractérisé en ce que la zone centrale et la ou les zones de bord ont des distances focales de base (fC; fG, fD) différentes.4. Projector according to any one of claims 1 to 3, characterized in that the central zone and the edge zone or zones have different basic focal distances (f C ; f G , f D ). 5. Projecteur selon la revendication 4, caractérisé en ce que, en projection dans un plan perpendiculaire à l'axe optique, les sous-zones intermédiaires (201m, 202m) desdites premières zones du réflecteur sont délimitées latéralement par des portions de cercles, tandis que les sous-zones intermédiaires (203m-206m) desdites secondes zones sont limitées latéralement par des segments de droites perpendiculaires aux demi-plans de coupure considérés, les extrémités des portions de cercle étant alignées avec les extrémités adjacentes des demi-droites associées.5. Projector according to claim 4, characterized in that, in projection in a plane perpendicular to the optical axis, the intermediate sub-areas (201m, 202m) of said first areas of the reflector are delimited laterally by portions of circles, while that the intermediate sub-zones (203m-206m) of said second zones are bounded laterally by segments of lines perpendicular to the cut-off half-planes considered, the ends of the circle portions being aligned with the adjacent ends of the associated half-lines. 6. Projecteur selon la revendication 5, caractérisé en ce que les surfaces des premières zones (201, 202) du réflecteur sont définies par l'équation (13), tandis que les surfaces des secondes zones (203, 206; 204, 205) sont définies par les équations (11) et (12).6. Projector according to claim 5, characterized in that the surfaces of the first zones (201, 202) of the reflector are defined by equation (13), while the surfaces of the second zones (203, 206; 204, 205) are defined by equations (11) and (12). 7. Projecteur selon l'une des revendications 1 et 2, dans lequel la coupure est constituée par deux demi-plans horizontaux (hH, Hh) de même niveau et correspond à un faisceau antibrouillard, caractérisé en ce que le filament (100) est disposé parallèlement à l'axe optique et au-dessus de celui-ci de telle sorte que sa surface émissive soit sensiblement tangente audit axe optique et en ce que la surface du réflecteur (200) est définie par l'équation (11).7. Projector according to one of claims 1 and 2, wherein the cut-off is constituted by two horizontal half-planes (hH, Hh) of the same level and corresponds to a fog beam, characterized in that the filament (100) is arranged parallel to and above the optical axis so that its emissive surface is substantially tangent to said optical axis and in that the surface of the reflector ( 200) is defined by equation (11). 8. Projecteur selon l'une des revendications précédentes, comprenant en outre un cache de lumière directe (110) disposé en avant de la lampe, caractérisé en ce que la distance (yG, yD) entre le centre (0) du réflecteur et le début des zones intermédiaires est choisie sufisamment grande pour que les rayons déviés vers l'intérieur par les zones intermédiaires ne soient pas occultés par ledit cache.8. Projector according to one of the preceding claims, further comprising a direct light cover (110) disposed in front of the lamp, characterized in that the distance (y G , y D ) between the center (0) of the reflector and the start of the intermediate zones is chosen large enough so that the rays deflected inwards by the intermediate zones are not obscured by said cover.
EP89403367A 1988-12-07 1989-12-05 Motor vehicle headlight comprising a reflector with a complex surface including modified intermediary zones Expired - Lifetime EP0373065B1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
FR8816061 1988-12-07
FR8816061A FR2639888B1 (en) 1988-12-07 1988-12-07 MOTOR VEHICLE PROJECTOR COMPRISING A REFLECTOR WITH A COMPLEX SURFACE WITH MODIFIED INTERMEDIATE AREAS

Publications (2)

Publication Number Publication Date
EP0373065A1 true EP0373065A1 (en) 1990-06-13
EP0373065B1 EP0373065B1 (en) 1994-01-26

Family

ID=9372680

Family Applications (1)

Application Number Title Priority Date Filing Date
EP89403367A Expired - Lifetime EP0373065B1 (en) 1988-12-07 1989-12-05 Motor vehicle headlight comprising a reflector with a complex surface including modified intermediary zones

Country Status (6)

Country Link
US (1) US5086376A (en)
EP (1) EP0373065B1 (en)
JP (1) JP2819324B2 (en)
DE (1) DE68912742T2 (en)
ES (1) ES2050835T3 (en)
FR (1) FR2639888B1 (en)

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2671851A1 (en) * 1991-01-23 1992-07-24 Koito Mfg Co Ltd REFLECTOR FOR HEADLIGHT OF CAR.
EP0703403A1 (en) 1994-09-20 1996-03-27 CARELLO S.p.A. Vehicle headlight with a complex-surface reflector
DE19804960A1 (en) * 1997-02-21 1998-08-27 Valeo Vision Vehicle headlamp
EP2199659A1 (en) * 2008-12-18 2010-06-23 Valeo Vision Optical module for automobile designed to provide a cut-off beam and main beam
EP2182270A3 (en) * 2008-10-30 2010-12-15 Ichikoh Industries, Ltd. Vehicle headlamp
EP2354645A1 (en) 2010-02-04 2011-08-10 Valeo Vision Optical device, in particular for an automobile
EP2354647A2 (en) 2010-02-02 2011-08-10 Valeo Vision Device for moving an element of a lighting and/or signalling device of an automobile and operating method for such a device
EP2366941A2 (en) 2010-03-05 2011-09-21 Valeo Vision Lighting module with two reflectors having different focal lengths
EP2453167A1 (en) 2010-11-15 2012-05-16 Valeo Vision Lighting and/or signalling device for an automobile comprising a surface light source

Families Citing this family (40)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2610546B2 (en) * 1991-01-25 1997-05-14 株式会社小糸製作所 Vehicle headlight reflector
JP2604646B2 (en) * 1991-01-28 1997-04-30 株式会社小糸製作所 Vehicle headlight reflector
DE4206881A1 (en) * 1992-03-05 1993-09-09 Bosch Gmbh Robert LOW-BEAM HEADLIGHTS FOR MOTOR VEHICLES
US5481408A (en) * 1992-08-05 1996-01-02 Equestrian Co., Ltd. Method of manufacturing an illuminating reflection mirror
JP2750647B2 (en) * 1992-08-14 1998-05-13 株式会社小糸製作所 Vehicle headlight reflector
JP2681588B2 (en) * 1993-01-18 1997-11-26 株式会社小糸製作所 Reflector of lighting fixtures
GB2284658B (en) * 1993-12-09 1997-07-16 Koito Mfg Co Ltd Headlamp for an automobile
US5483430A (en) * 1994-06-06 1996-01-09 Ford Motor Company Multi-faceted light reflector
US5515255A (en) * 1994-11-14 1996-05-07 Sterner Lighting Systems Incorporated Lamp reflector
CZ287690B6 (en) * 1996-01-29 2001-01-17 Autopal S. R. O. Headlight with complex reflector
FR2751051B1 (en) * 1996-07-11 1998-11-06 Valeo Vision MOTOR VEHICLE PROJECTOR COMPRISING A DIRECT LIGHT COVER WITH VERTICAL SUPPORT ARM AND AN ADAPTED MIRROR
JP3145925B2 (en) * 1996-07-18 2001-03-12 株式会社小糸製作所 Vehicle headlights
FR2755748B1 (en) * 1996-11-08 1999-01-29 Valeo Vision MOTOR VEHICLE PROJECTOR COMPRISING A DISCHARGE LAMP WITH BUSHES AND A MULTI-ZONE REFLECTOR
ES2198541T3 (en) 1996-12-16 2004-02-01 Valeo Vision CAR HEADLIGHT WITH REFLECTOR CONTROL DEVICE.
FR2760068B1 (en) * 1997-02-21 1999-05-14 Valeo Vision MOTOR VEHICLE PROJECTOR WITH MIRROR WITH SIDE-BY-SIDE ZONES, AND METHOD FOR MANUFACTURING SUCH A MIRROR
FR2776366B1 (en) 1998-03-19 2000-06-30 Valeo Vision TURNING PROJECTOR FOR A MOTOR VEHICLE, CAPABLE OF EMITTING DIFFERENT BEAMS
FR2769687B1 (en) 1997-10-13 2000-03-03 Valeo Vision LEFT AND RIGHT MOTOR VEHICLE ASSEMBLY WITH IMPROVED PHOTOMETRIC PROPERTIES
FR2774151B1 (en) 1998-01-28 2000-04-14 Valeo Vision MOTOR VEHICLE PROJECTOR WITH VIRTUAL LIGHT SOURCE
FR2774150B1 (en) 1998-01-28 2000-04-14 Valeo Vision CROSS-SOURCE PROJECTOR FOR A MOTOR VEHICLE, LIKELY TO TRANSMIT A BEAM WITH A CLEAR CUT
FR2774149B1 (en) 1998-01-28 2000-04-14 Valeo Vision MOTOR VEHICLE HEADLIGHT, INCLUDING A CROSS-SECTIONAL SOURCE, AND CAPABLE OF GENERATING A BEAM WITH NON-RECTILLINE CUT
FR2794845B1 (en) 1999-06-08 2001-08-17 Valeo Vision PROJECTOR EQUIPPED WITH A DOUBLE SOURCE LAMP, IN PARTICULAR ROAD CROSSING PROJECTOR FOR A MOTOR VEHICLE
JP3926957B2 (en) * 1999-12-09 2007-06-06 株式会社小糸製作所 Headlamp for vehicle and method for forming reflector thereof
FR2804495B1 (en) 2000-01-31 2002-06-07 Valeo Vision MOTOR VEHICLE HEADLIGHT, INCLUDING A CROSS-SECTIONAL SOURCE, AND CAPABLE OF GENERATING A BEAM WITH NON-RECTILLINE CUT
FR2819042B1 (en) 2000-12-28 2003-03-14 Valeo Vision VEHICLE PROJECTOR COMPRISING A REFLECTOR AND A HORIZONTAL LIGHT SOURCE ORIENTED TRANSVERSELY TO AN OPTICAL AXIS OF THE REFLECTOR
FR2822550B1 (en) * 2001-03-21 2003-05-16 Valeo Vision MOTOR VEHICLE PROJECTOR WITH MIRROR AND DEVICE FOR DIVERSION
FR2822929B1 (en) * 2001-03-30 2003-12-12 Valeo Vision REDUCED OVERALL PROJECTOR FOR MOTOR VEHICLE
JP2003272413A (en) * 2002-03-14 2003-09-26 Koito Mfg Co Ltd Headlight for vehicle
FR2837908B1 (en) 2002-03-28 2004-06-11 Valeo Vision LIGHTING PROJECTOR EQUIPPED WITH A SWIVEL ELLIPTICAL REFLECTOR AND A FIXED LENS FOR THE REALIZATION OF A TURNING BEAM
US6868631B2 (en) * 2003-03-31 2005-03-22 Guan-Ming Chen Front sight night vision device
KR20070114381A (en) * 2005-03-04 2007-12-03 허니웰 인터내셔널 인코포레이티드 Method for purifying quaternary onium salts
JP5029570B2 (en) * 2008-10-30 2012-09-19 市光工業株式会社 Vehicle headlamp
JP5141580B2 (en) 2009-01-30 2013-02-13 市光工業株式会社 Vehicle headlamp
JP2011014523A (en) * 2009-06-01 2011-01-20 Imasen Electric Ind Co Ltd Vehicular lighting fixture
KR101236860B1 (en) * 2010-04-07 2013-02-26 이치코 고교가부시키가이샤 Headlight for vehicles
JP5582865B2 (en) * 2010-05-12 2014-09-03 株式会社小糸製作所 Lamp
JP5714346B2 (en) * 2011-01-27 2015-05-07 株式会社小糸製作所 Vehicle headlamp
JP5407066B2 (en) * 2012-07-26 2014-02-05 市光工業株式会社 Vehicle headlamp
US9222637B2 (en) 2013-03-14 2015-12-29 Valeo North America, Inc. Lightguide with horizontal cutoff and horizontal spread
DE112017001688B4 (en) 2016-03-31 2022-05-05 Honda Motor Co., Ltd. vehicle lamp device
US11187393B1 (en) * 2020-12-30 2021-11-30 Valeo Vision Light system with cut-off

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB2054815A (en) * 1979-06-29 1981-02-18 Cibie Projecteurs Reflectors for lamps especially headlamps for motor vehicles
EP0084934A1 (en) * 1982-01-16 1983-08-03 LUCAS INDUSTRIES public limited company Lamp reflector

Family Cites Families (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2536502B1 (en) * 1982-11-19 1987-01-09 Cibie Projecteurs CROSSING PROJECTOR FOR MOTOR VEHICLE
JPS59201301A (en) * 1983-04-28 1984-11-14 市光工業株式会社 Headlight for vehicle
FR2599120B1 (en) * 1986-05-26 1988-09-16 Cibie Projecteurs OFFSET MIXED CROSSING PROJECTORS
FR2599121B1 (en) * 1986-05-26 1988-09-16 Cibie Projecteurs OFFSET MIXED CROSSING PROJECTOR
FR2600024B1 (en) * 1986-06-17 1988-10-21 Cibie Projecteurs ADDITIONAL PROJECTOR FOR A CROSSING PROJECTOR FOR A MOTOR VEHICLE
US4704661A (en) * 1986-08-25 1987-11-03 General Electric Company Faceted reflector for headlamps

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB2054815A (en) * 1979-06-29 1981-02-18 Cibie Projecteurs Reflectors for lamps especially headlamps for motor vehicles
EP0084934A1 (en) * 1982-01-16 1983-08-03 LUCAS INDUSTRIES public limited company Lamp reflector

Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2671851A1 (en) * 1991-01-23 1992-07-24 Koito Mfg Co Ltd REFLECTOR FOR HEADLIGHT OF CAR.
US5192124A (en) * 1991-01-23 1993-03-09 Koito Manufacturing Co., Ltd. Reflector for vehicle headlight
EP0703403A1 (en) 1994-09-20 1996-03-27 CARELLO S.p.A. Vehicle headlight with a complex-surface reflector
DE19804960A1 (en) * 1997-02-21 1998-08-27 Valeo Vision Vehicle headlamp
DE19804960B4 (en) * 1997-02-21 2014-01-23 Valeo Vision Motor vehicle headlight with a mirror with laterally juxtaposed zones and method for producing such a mirror
EP2182270A3 (en) * 2008-10-30 2010-12-15 Ichikoh Industries, Ltd. Vehicle headlamp
EP2199659A1 (en) * 2008-12-18 2010-06-23 Valeo Vision Optical module for automobile designed to provide a cut-off beam and main beam
FR2940402A1 (en) * 2008-12-18 2010-06-25 Valeo Vision Sas OPTICAL VEHICLE MODULE FOR PROVIDING A CUT-OFF BEAM AND A BEAM WITHOUT BREAK
EP2354647A2 (en) 2010-02-02 2011-08-10 Valeo Vision Device for moving an element of a lighting and/or signalling device of an automobile and operating method for such a device
EP2354645A1 (en) 2010-02-04 2011-08-10 Valeo Vision Optical device, in particular for an automobile
EP2366941A2 (en) 2010-03-05 2011-09-21 Valeo Vision Lighting module with two reflectors having different focal lengths
EP2453167A1 (en) 2010-11-15 2012-05-16 Valeo Vision Lighting and/or signalling device for an automobile comprising a surface light source

Also Published As

Publication number Publication date
DE68912742D1 (en) 1994-03-10
US5086376A (en) 1992-02-04
ES2050835T3 (en) 1994-06-01
JP2819324B2 (en) 1998-10-30
JPH02270201A (en) 1990-11-05
EP0373065B1 (en) 1994-01-26
DE68912742T2 (en) 1994-05-11
FR2639888A1 (en) 1990-06-08
FR2639888B1 (en) 1993-08-13

Similar Documents

Publication Publication Date Title
EP0373065B1 (en) Motor vehicle headlight comprising a reflector with a complex surface including modified intermediary zones
EP1762776B1 (en) Method for the manufacturing of a module or a vehicle headlamp
EP0466605B1 (en) Reflector for a lighting device of an automotive vehicle, and headlight and signal light incorporating such a reflector
EP0581679B1 (en) Vehicle headlamp comprising a double filament lamp for selectively producing a fog beam and a high beam
EP0250284B1 (en) Dipped headlamp without a cap and having an offset concentration
FR3012867A1 (en) PRIMARY OPTICAL ELEMENT, LIGHT MODULE AND PROJECTOR FOR MOTOR VEHICLE
EP0256930B1 (en) Fog lamp with transverse filament for motor vehicles
EP1600689A1 (en) Multifunction headlamp for motor vehicles
FR2621679A1 (en) LOW-FLOW RECOVERY HIGH-LEVEL ROAD PROJECTOR FOR MOTOR VEHICLE
EP0628765B1 (en) Vehicle headlamp with ellipsoidal type light reflector
EP0684420B1 (en) Headlamp comprising a double filament lamp for low and high beam distribution
FR2609146A1 (en) Motor vehicle headlamp comprising a parabolic reflector with modified base
EP0933585A1 (en) Vehicle headlight comprising a transversal source and able to generate a sharp dark-light cut-off
EP1170546A1 (en) Elliptical headlight with beam modification by means of optical elements movement
FR2583139A1 (en) CROSSING PROJECTOR FOR MOTOR VEHICLE
FR2793542A1 (en) Elliptical headlamp providing dual functions on motor vehicle, giving optimum high and low beam operation of the headlamp
FR2808867A1 (en) Vehicle headlamp with dual beam pattern include mobile shutter to vary illumination of reflector to determine two output beams
FR2634003A1 (en) Motor vehicle headlamp with multizone reflector and method for smoothing such a reflector
FR2797029A1 (en) ELLIPTICAL PROJECTOR FOR A MOTOR VEHICLE, CAPABLE OF GENERATING A TWO-FUNCTIONAL LIGHT BEAM
EP0926431A1 (en) Motor vehicle headlamp comprising a single reflector and a displaceable light source for generating two different light beams
FR2769687A1 (en) LEFT AND RIGHT MOTOR VEHICLE ASSEMBLY WITH IMPROVED PHOTOMETRIC PROPERTIES
EP1096196A1 (en) Headlamp for vehicle with small dimensions, in particular dipping headlamp
EP0736726A1 (en) Motor vehicle headlamp producing a light pattern delimited by two parallel cut-off lines offset in the height
FR2782149A1 (en) Dipped and full beam headlamp assembly includes dual filament lamp with multiple zone mirror offering cut-off beam and full axial beam
FR2626347A1 (en) Lamp with light recovery cheeks, in particular for motor vehicle

Legal Events

Date Code Title Description
PUAI Public reference made under article 153(3) epc to a published international application that has entered the european phase

Free format text: ORIGINAL CODE: 0009012

AK Designated contracting states

Kind code of ref document: A1

Designated state(s): DE ES GB IT

17P Request for examination filed

Effective date: 19900723

17Q First examination report despatched

Effective date: 19920705

RAP1 Party data changed (applicant data changed or rights of an application transferred)

Owner name: VALEO VISION

GRAA (expected) grant

Free format text: ORIGINAL CODE: 0009210

AK Designated contracting states

Kind code of ref document: B1

Designated state(s): DE ES GB IT

GBT Gb: translation of ep patent filed (gb section 77(6)(a)/1977)

Effective date: 19940126

REF Corresponds to:

Ref document number: 68912742

Country of ref document: DE

Date of ref document: 19940310

ITF It: translation for a ep patent filed
REG Reference to a national code

Ref country code: ES

Ref legal event code: FG2A

Ref document number: 2050835

Country of ref document: ES

Kind code of ref document: T3

PLBE No opposition filed within time limit

Free format text: ORIGINAL CODE: 0009261

STAA Information on the status of an ep patent application or granted ep patent

Free format text: STATUS: NO OPPOSITION FILED WITHIN TIME LIMIT

ITTA It: last paid annual fee
26N No opposition filed
PGFP Annual fee paid to national office [announced via postgrant information from national office to epo]

Ref country code: GB

Payment date: 19961127

Year of fee payment: 8

PGFP Annual fee paid to national office [announced via postgrant information from national office to epo]

Ref country code: ES

Payment date: 19961211

Year of fee payment: 8

PG25 Lapsed in a contracting state [announced via postgrant information from national office to epo]

Ref country code: GB

Free format text: LAPSE BECAUSE OF NON-PAYMENT OF DUE FEES

Effective date: 19971205

GBPC Gb: european patent ceased through non-payment of renewal fee

Effective date: 19971205

PG25 Lapsed in a contracting state [announced via postgrant information from national office to epo]

Ref country code: ES

Free format text: LAPSE BECAUSE OF NON-PAYMENT OF DUE FEES

Effective date: 19981206

PGFP Annual fee paid to national office [announced via postgrant information from national office to epo]

Ref country code: DE

Payment date: 19991218

Year of fee payment: 11

PG25 Lapsed in a contracting state [announced via postgrant information from national office to epo]

Ref country code: DE

Free format text: LAPSE BECAUSE OF NON-PAYMENT OF DUE FEES

Effective date: 20011002

REG Reference to a national code

Ref country code: ES

Ref legal event code: FD2A

Effective date: 19990114

PG25 Lapsed in a contracting state [announced via postgrant information from national office to epo]

Ref country code: IT

Free format text: LAPSE BECAUSE OF NON-PAYMENT OF DUE FEES;WARNING: LAPSES OF ITALIAN PATENTS WITH EFFECTIVE DATE BEFORE 2007 MAY HAVE OCCURRED AT ANY TIME BEFORE 2007. THE CORRECT EFFECTIVE DATE MAY BE DIFFERENT FROM THE ONE RECORDED.

Effective date: 20051205