AUTOMOTIVE LIGHTING AND/OR SIGNALING DEVICE WITH A LIGHT GUIDE

Abstract

 A lighting and/or signaling device (4) for vehicles comprising a container body (8) that delimits a containment seat (12) which extends along a first perimeter edge (28), closed by a lenticular body (20) that extends along a second perimeter edge (32) at least partially counter-shaped to and overlapping said first perimeter edge (28), said containment seat (12) housing at least one LED or mini LED light source (16) adapted to emit a light beam comprising a plurality of light rays (18) which extend along a main optical propagation axis (X-X), and at least one light guide (24) configured to at least partially receive said light rays (18) at an inlet wall (36) thereof and to transmit and/or reflect said light rays (18) onto a rear wall (40) thereof. The rear wall (40) is provided with a plurality of optical extractor elements (44) which extract the light rays (18) and transmit them externally to the light guide (24) through a front wall (48) of the light guide (24), opposite to said rear wall (40), along a transverse direction (T-T), perpendicular to the main optical propagation axis (X-X). With respect to a cross-section plane passing through said main optical propagation axis (X-X) and said transverse direction (T-T), the inlet wall (36) has a middle section (52) with polyline geometry comprising a plurality of rectilinear sections and/or curvilinear sections (56) so as to overall be convex on the side of the at least one light source (16).

Description

FIELD OF APPLICATION

[0001] The present invention relates to an automotive lighting and/or signaling device.

BACKGROUND ART

[0002] The term automotive lighting and/or signaling device is used here in a very broad sense to comprise an automotive light, either rear or front, the latter also named a headlight or headlamp.

[0003] As is known, an automotive light serves to provide a signal or make the roadbed visible to the driver. In other words, the automotive light is a device intended to provide at least one lighting and/or signaling function of the vehicle. Lighting and/or signaling functions of the vehicle, for example include the position light, the turn signal, the brake light, the rear fog lamp, the reversing light, the dipped beam light, the high beam light, the daytime running light, and further similar lights typical of automotive lights. The device may also perform a merely aesthetical function, such as lighting devices that show logos and the like, which may be located both outside and inside the vehicle.

[0004] The present invention is particularly applied to lighting and/or signaling devices that use at least one LED light source that emits a light beam which is channeled in a light guide, through an inlet wall, called "incoupling", of said light guide. Subsequently, the light beam is reflected into the light guide and extracted through a front wall by means of specific extractors arranged along a rear wall called "outcoupling", opposite to said front wall.

[0005] It is fundamental there be no uneven concentrations and/or overlapping of light rays (i.e., spots) on the rear wall because in this case, said spots would also be repeated on the front wall, therefore being visible from the outside.

[0006] Indeed, the end user requires a uniform and homogenous distribution of the light beams, brightness being equal, possibly devoid of any spots.

[0007] Spots substantially are created from the overlapping and/or concentration of several light rays reflected into the light guide which tend to concentrate in certain areas of the outcoupling. The overlapping is due to that fact that separate light rays tend to overlap and/or concentrate in inhomogeneous manner in certain areas of the outcoupling due to the successive reflections inside the light guide.

[0008] The phenomenon is felt even more when the light guide has an overall reduced thickness and a particularly extensive rear wall, i.e., an outcoupling, such as, for example what occurs in the case of long and thin light guide plates or bars.

PRESENTATION OF THE INVENTION

[0009] It is the object of the present invention to provide a lighting and/or signaling device obtained with a rigid union technique of the internal components inside the container body, which overcomes the limitations of the techniques described in relation to an assembly of conventional type.

[0010] Such a need is met by an automotive lighting and/or signaling device according to claim 1.

[0011] Other embodiments of the present invention are described in the dependent claims.

DESCRIPTION OF THE DRAWINGS

[0012] Further features and advantages of the present invention will be more comprehensible from the following description of preferred and non-limiting embodiments thereof, in which:

Figure 1 shows a perspective view, with separated parts, of a lighting and/or signaling device according to a possible embodiment of the present invention;

Figure 2 shows a perspective view, in an assembled configuration, of the lighting and/or signaling device in Figure 1;

Figure 3a shows a sectional view of the lighting and/or signaling device in Figure 2, along the section plane III-III, according to a solution of the known art;

Figure 3b shows a sectional view of the lighting and/or signaling device in Figure 2, along the section plane III-III, according to an embodiment of the present invention;

Figure 4 shows a perspective view of component IV shown in Figure 1;

Figure 5 shows a top plan view of the component in Figure 4;

Figure 6 shows a perspective view of an enlarged detail of the component in Figure 4;

Figure 7 shows the enlarged detail VII indicated in Figure 4;

Figure 8 shows the enlarged detail VIII indicated in Figure 5.

[0013] The elements or parts of elements common to the embodiments described below will be indicated using the same numerals.

DETAILED DESCRIPTION

[0014] With reference to the aforesaid drawings, a lighting and/or signaling device, such as an automotive light, to which the following disclosure refers without however losing in generality, is indicated as a whole by 4.

[0015] As mentioned above, the expression "lighting and/or signaling device" may indifferently mean either an automotive rear light or an automotive front light, the latter also known as headlight or headlamp, comprising a light external to the vehicle having a lighting and/or signaling function, such as, for example, a position light, which may be a front position light, a taillight, a side marker, a turn signal, a brake light, a rear fog lamp, a high beam light, a dipped beam light, and the like.

[0016] Thus, as better described below, the device in its signaling function may comprise the possibility of sending light signals, logos, but also words and lit messages of any kind. Thus, the device may perform a merely aesthetical function, such as lighting devices that show logos and the like, which may be arranged both outside and inside the vehicle.

[0017] The lighting and/or signaling device 4 comprises a container body or hollow housing 8, usually made of polymeric material, such as, for example acrylonitrile butadiene styrene, or ABS, which conventionally allows fixing the lighting and/or signaling device 4 to the related vehicle or to any type of support.

[0018] For the purposes of the present invention, the container body or housing 8 may have any shape, size or position: for example, the container body 8 may also not be directly connected to the bodywork or other external fixings of the associable vehicle.

[0019] The container body 8 delimits a containment seat 12 which accommodates a plurality of components of said lighting and/or signaling device.

[0020] The containment seat 12 in particular accommodates at least one light source 16 arranged and supported inside said containment seat 12. The at least one light source 16 preferably comprises LED or mini LED light sources adapted to emit a light beam comprising a plurality of light rays 18 which extend along a main optical propagation axis X-X.

[0021] For example, a lenticular body 20 may be placed at least partially to close the container body 8 so as to close said containment seat 12 which accommodates the light source 16.

[0022] For the purposes of the present invention, the lenticular body 20 is external to the lighting and/or signaling device 4 so as to define at least one outer wall of the lighting and/or signaling device directly subject to the atmosphere, thus integrating with the line of the car, when the container body 8 is firmly recessed in the enclosure of the vehicle.

[0023] According to possible embodiments, the material of the lenticular body 20 is of polymeric type, that is a resin such as PMMA (poly methyl methacrylate), PC (polycarbonate) and the like. Said material of the lenticular body 20 is therefore at least partially transparent or semitransparent or translucent, one or more opaque portions being able to be included.

[0024] As shown, the containment seat 12 that extends along a first perimeter edge 28 is closed by the lenticular body 20 which extends along a second perimeter edge 32 at least partially counter-shaped to and overlapping said first perimeter edge 28.

[0025] The lighting and/or signaling device 4 further comprises at least one light guide 24 formed with a transparent polymeric material, such as PC, PMMA or the like, configured to at least partially receive the incoming light beam generated by said light source 16, transmit it by means of total internal reflection along a prevailing propagation direction and output it from the lenticular body 20, as better described below.

[0026] Said at least one light guide 24 is configured to at least partially receive said light rays 18 at an inlet wall 36 thereof (called incoupling), convey the light rays 18 and extract said light rays 18 by means of a rear wall 40 thereof (called outcoupling).

[0027] In particular, said rear wall 40 is provided with a plurality of optical extractor elements 44 that extract the light rays 18 and transmit them externally to the light guide 24 through a front wall 48 of the light guide 24, opposite to said rear wall 40, along a transverse direction T-T, perpendicular to the main optical propagation axis X-X.

[0028] In particular, said optical extractor elements 44 of the rear wall 40 comprise local discontinuities or surface alterations or prisms or the like, capable of reflecting the light in specular or scattered manner; moreover, the rear wall 40 may be embossed or etched, comprising projected incisions capable of scattering light.

[0029] Said front wall 48 of the light guide 24 in turn may comprise optical elements, such as cylindrical optics or pillow optics or the like, and/or scattering elements, such as an embossing portion and/or an etched portion.

[0030] Advantageously, with respect to a cross-section plane passing through said main optical propagation axis X-X and said transverse direction T-T, the inlet wall 36 of the light guide 24 has a middle section 52 with polyline geometry comprising a plurality of rectilinear sections and/or curvilinear sections 56 so as to overall be convex on the side of the at least one light source 16. The concept of polyline is to be understood in the broad sense: in other words, as better described below, the polyline is a set of rectilinear sections and/or curvilinear sections 56 that overall define a straight or (completely or partially) curved line that has a convexity on the side of the light source 16.

[0031] Preferably, especially in the case of light guides having a length which is less than 50 mm, said polyline is configured so that the light rays 18, introduced through the inlet wall 36 of the light guide 24, hit the rear wall 40 directly or following a single reflection on the front wall 48. Thereby, the scattering of the light rays on the rear wall 40 may be controlled so that it is uniform and homogeneous and does not have any light spots. For example, the comparison between Figures 3a and 3b shows how an inlet wall 36 (Figure 3a) does not allow sufficiently spacing apart two contiguous light rays 18', 18" from each other, while an inlet wall 36 overall having convex polyline allows increased spacing of said contiguous light rays 18', 18".

[0032] According to a possible embodiment of the present invention, said polyline comprises two mutually angled consecutive rectilinear sections 56 which form an angle at the vertex which is greater than 180 degrees, on the side of the LED light source 16.

[0033] According to a possible embodiment of the present invention, said polyline comprises at least one rectilinear section and one curvilinear section 56 that are consecutive to each other so as to obtain an overall convex polyline on the side of the at least one light source 16.

[0034] According to a possible embodiment of the present invention, said polyline comprises two curvilinear sections 56 that are consecutive to each other so as to obtain an overall convex polyline on the side of the at least one light source 16.

[0035] In general, the curvilinear sections 56 may be arcs of circle, ellipse, parabola, hyperbole and the like.

[0036] With respect to the section plane passing through the main optical propagation axis X-X and the transverse direction T-T, the rectilinear and/or curvilinear sections 56 forming the polyline related to the cross section of the inlet wall 36 of the light guide 24 identify each one a skirt of the inlet wall 36.

[0037] The skirts of the adjacent inlet wall 36 are inclined and joined to one another at a vertex line.

[0038] Preferably, each skirt of the inlet wall 36 extends in a wavy manner along the longitudinal direction L-L.

[0039] In greater detail, and according to a possible embodiment of the present invention, each skirt of the inlet wall 36 of the light guide 24 comprises a plurality of adjacent optics 84 along a longitudinal direction L-L, perpendicular to the transverse direction T-T and the main optical propagation direction X-X. Preferably, said optics 84 have a "V" or "U" profile with the vertex facing the light source 16.

[0040] Therefore, such optics 84 follow one another so as to give the skirt of the inlet wall 36 a wavy structure having a related phase, amplitude and frequency.

[0041] Preferably, skirts of the inlet wall 36 have respective wavy structures having equal phase and/or amplitude and/or frequency. Obliviously, at least one among such phase and/or amplitude and/or frequency of a skirt may be different from the others.

[0042] According to a possible embodiment of the present invention, said optics 84 are arranged along the longitudinal direction L-L according to a continuous sinusoidal pattern comprising alternating ridges 88 and depressions 92, at a constant pitch 96. Pitch 96 is the distance between two consecutive ridges 88 or depressions 92 along said longitudinal direction L-L.

[0043] According to a possible embodiment of the present invention, pitch 96 and the geometry of the optics 84 are configured so that the light beam emitted by each light source 16 hits two or more consecutive ridges 88 or depressions 92 of optics 84.

[0044] Preferably, said optics 84 have a height, i.e., a distance between the ridges 88 and the depressions 92, that is the height of the sinusoid, which is less than 1 mm.

[0045] Again, with reference to Figure 3b, a first skirt 56' of the inlet wall 36 is structured to refract and direct the light beam in a first proximal zone 100 of the rear wall 40, while a second skirt 56" of the inlet wall 36 is structured to refract and direct the light beam in a second distal zone 102 of the rear wall 40, so as to involve the whole rear wall 40, said first proximal zone 100 and second distal zone 102 being contiguous to each other. In other words, since the first skirt 56' and the second skirt 56'' of the inlet wall 36 lie on respective mutually inclined lying planes, the light may be refracted with a much broader light distribution and thus involving the whole rear wall 40 - both the first proximal zone 100 and the second distal zone 102 - without light concentrations in the first proximal zone 100 of the rear wall 40.

[0046] According to a possible embodiment of the present invention, a transverse thickness 60 of the light guide 24 is equal to a subtended cord 64 at transverse ends 66, 68 of said polyline.

[0047] Preferably, in order to optimize the optical efficiency of the system, a light emission distribution 72 of said light sources 16 has transverse amplitude 76 which is comparable, for example equal, to said transverse thickness 60 of the light guide 24 so as to involve all the skirts.

[0048] According to a possible embodiment of the present invention, the light guide 24, at the inlet wall 36, has a pair of transverse appendices 80, on opposite sides with respect to said middle section 52 with polyline geometry, so as to facilitate the position of the light guide 24 in the container body 8.

[0049] As can be appreciated from the above description, the present invention allows overcoming the drawbacks introduced in the known art.

[0050] In particular, by virtue of the present invention, the outcoupling surface, or rear wall, of the light guide may be homogeneously lit by means of light rays emitted by the LED.

[0051] After being refracted into the inlet wall, or incoupling, said light rays hit the rear wall directly or following a single rebound in the light guide: thereby, the mentioned homogeneity and the absence of undesired light spots may be obtained.

[0052] It is therefore possible to provide long and thin light guides and/or light guide plates without the risk of having light spots on the outlet wall, thus creating homogeneous and uniform lighting.

[0053] Those skilled in the art, with the object of meeting contingent and specific needs, can make several changes and variants to the lighting and/or signaling devices described above.

[0054] The scope of protection of the present invention is defined by the following claims.

Claims

1. A lighting and/or signaling device (4) for vehicles, comprising:

- a container body (8) that delimits a containment seat (12) which extends along a first perimeter edge (28), closed by a lenticular body (20) which extends along a second perimeter edge (32) at least partially counter-shaped to and overlapping said first perimeter edge (28),

- said containment seat (12) housing at least one LED or mini LED light source (16) adapted to emit a light beam comprising a plurality of light rays (18) which extend along a main optical propagation axis (X-X), and at least one light guide (24) configured to at least partially receive said light rays (18) at an inlet wall (36) thereof and to transmit and/or reflect said light rays (18) onto a rear wall (40) thereof,

- said rear wall (40) being provided with a plurality of optical extractor elements (44) which extract the light rays (18) and transmit them externally to the light guide (24) through a front wall (48) of the light guide (24), opposite to said rear wall (40), along a transverse direction (T-T), perpendicular to the main optical propagation axis (X-X),

- wherein with respect to a cross-section plane passing through said main optical propagation axis (X-X) and said transverse direction (T-T), said inlet wall (36) has a middle section (52) with polyline geometry comprising a plurality of rectilinear sections and/or curvilinear sections (56) so as to be overall convex on the side of the at least one light source (16).

2. A lighting and/or signaling device (4) according to claim 1, wherein said polyline is configured so that the light rays (18), introduced through the inlet wall (36) of the light guide (24), hit the rear wall (40) directly or following a single reflection on the front wall (48).

3. A lighting and/or signaling device (4) according to claim 2, wherein the light guide (24) has a length which is shorter than 50 mm.

4. A lighting and/or signaling device (4) according to claim 1, 2 or 3, wherein said polyline comprises two mutually angled consecutive rectilinear sections (56) which form an angle at the vertex that is greater than 180 degrees, on the side of the LED light source (16).

5. A lighting and/or signaling device (4) according to claim 1, 2, 3 or 4, wherein said polyline comprises at least one rectilinear section (56) and one curvilinear section (56) which are consecutive to each other so as to obtain an overall convex polyline on the side of the at least one light source (16).

6. A lighting and/or signaling device (4) according to any one of claims claim 1 to 5, wherein said polyline comprises at least two consecutive curvilinear sections (56) so as to obtain an overall convex polyline on the side of the at least one light source (16).

7. A lighting and/or signaling device (4) according to any one of claims 1 to 6, wherein a transverse thickness (60) of the light guide (24) is equal to a subtended cord (64) at transverse ends (66, 68) of said polyline.

8. A lighting and/or signaling device (4) according to claim 7, wherein a light emission portion (72) of said light sources (16) has a transverse amplitude (76) equal to said transverse thickness (60) of the light guide (24).

9. A lighting and/or signaling device (4) according to any one of claims 1 to 8, wherein the light guide (24) has, at the inlet wall (36), a pair of transverse appendices (80), on opposite sides of said middle section (52) with polyline geometry.

10. A lighting and/or signaling device (4) according to any one of claims 1 to 9, wherein the rectilinear and/or curvilinear sections (56) each identify a skirt of the inlet wall (36), wherein the skirts of the adjacent inlet wall (36) are inclined and joined to one another at a vertex line.

11. A lighting and/or signaling device (4) according to claim 10, wherein each skirt of the inlet wall (36) comprises a plurality of adjacent optics (84) along a longitudinal direction (L-L), perpendicular to the transverse direction (T-T) and to the main optical propagation direction (X-X), said optics (84) having a "V" or "U" profile with the vertex facing the light source (16).

12. A lighting and/or signaling device (4) according to claim 11, wherein each skirt of the inlet wall (36) extends in a wavy manner along the longitudinal direction (L-L).

13. A lighting and/or signaling device (4) according to either of claims 11 or 12, wherein said optics (84) are arranged along the longitudinal direction (L-L) according to a continuous sinusoidal pattern comprising alternating ridges (88) and depressions (92), at a constant pitch (96).

14. A lighting and/or signaling device (4) according to claim 13, wherein the pitch (96) and the geometry of the optics (84) are configured so that the light beam emitted by each light source hits two or more consecutive ridges (88) or depressions (92) of optics (84) .

15. A lighting and/or signaling device (4) according to claim 11, 12, 13 or 14, wherein said optics (84) have a height, i.e., a distance between the ridges (88) and the depressions (92), which is less than 1 mm.

16. A lighting and/or signaling device (4) according to any one of claims 10 to 15, wherein a first skirt (56') of the inlet wall (36) is structured to refract and direct the light beam in a first proximal zone (100) of the rear wall (40), while a second skirt (56'') of the inlet wall (36) is structured to refract and direct the light beam in a second distal zone (102) of the rear wall (40), so as to involve the whole rear wall (40), said first proximal zone (100) and second distal zone (102) being contiguous to each other.

17. A lighting and/or signaling device (4) according to any one of claims 1 to 16, wherein said optical extractor elements (44) of the rear wall (40) comprise optical elements, such as cylindrical optics or pillow optics or the like, and/or scattering elements, such as an embossing portion and/or an etched portion.

18. A lighting and/or signaling device (4) according to any one of claims 1 to 17, wherein said front wall (48) of the light guide (24) comprises scattering elements and/or an embossed portion and/or an etched portion.

Drawing