TECHNICAL FIELD
[0001] The present invention relates to a luminous device of a vehicle lamp of an automotive
vehicle. More particularly, the present invention relates to a luminous device of
a signaling lamp of an automotive vehicle.
STATE OF THE ART
[0002] In the field of motor vehicles, a vehicle luminous device, for example a pixelated
tail lamp, known to a person skilled in the art is adapted to display a pictogram,
visible from outside of the vehicle, at several meters. Such luminous devices may
be composed of a plurality of homogenous light emitting surfaces, a plurality of light
source supports, a plurality of light sources, and a plurality of masks having a plurality
of cavities through which the light emitted by the light sources is sent towards an
outer lens. The cavities of the masks separate light beams of each LED to make sure
that one LED illuminates one pixel so that the shadowing effect can be prevented.
The light source supports, the light sources, and the masks are arranged in such a
way that they cooperate to produce a good luminous homogeneity of the pixels over
the plurality of surfaces/areas. However, there is a possibility of light leakage
between adjacent light areas when both the adjacent areas are not lit at the same
time. The cavities of the masks may act as physical barriers to reduce the light leakage
between the adjacent light areas. It is necessary the masks have to follow the curvature
of the outer lens. It is also necessary that the masks should be rigidly positioned
and the tolerances between different parts of the lighting module should be maintained
due to high optical requirements.
SUMMARY OF THE INVENTION
[0003] An object of the invention is to alleviate the above mentioned problems. To be more
precise, an object of the invention is to provide a curved interlocking mask structure
having a plurality of masks for a vehicle luminous device, for example, a pixelated
light module.
[0004] Another object of the present invention is to provide different locking mechanisms
to provide a curved interlocking mask structure of the vehicle luminous device.
[0005] Another object of the present invention is to reduce the tooling cost for making
the curved interlocking mask structure of the vehicle luminous device.
[0006] Another object of the present invention is to make the plurality of masks of the
curved interlocking mask structure in a single mold and can be oriented along different
directions in the vehicle luminous device to produce homogeneous lit aspect.
[0007] According to an embodiment of the present invention, there is provided a luminous
device for an automotive vehicle comprising: a plurality of lighting modules juxtaposed
along a given direction; and an outer lens arranged to project a light beam emitted
from the plurality of lighting modules. Each lighting module comprises: a light source
support mounted with a plurality of light sources on its first face and a mask disposed
opposite to the first face of the light source support. The mask comprises a plurality
of cavities through which light rays emitted from the plurality of light sources are
directed towards the outer lens. The mask of each lighting module is provided with
a locking means intended to connect masks of the plurality of lighting modules. Thus,
the plurality of masks can be interlocked by the locking means to provide an interlocking
mask structure that can be rigidly positioned in the lighting module. Further, in
an embodiment, the locking means between the masks allow the masks to orient in different
directions so that the light emitted by the light sources can be sent out in an efficient
manner without light leakage between adjacent masks of the interlocking mask structure.
[0008] In a non-limiting embodiment of the present invention, the locking means is a flexible
connecting link. Flexible means elastically flexible. With the use of the flexible
connecting links to form the interlocking mask structure, it is possible to make the
interlocking mask structure using a single mold, thereby reducing the number of molds
and hence the tooling cost. Further, with the use of the flexible connecting links,
any two masks of the mask structure can be oriented along different axes and thereby
the homogenous-lit aspect can be obtained.
[0009] In a non-limiting embodiment of the present invention, the locking means include
at least one notch in the first lateral face of the mask and at least one protrusion
in the second lateral face opposite to the first lateral face. In an embodiment, the
at least one protrusion of a first mask can be engaged in the corresponding at least
one notch of an identical mask juxtaposed horizontally along the given direction of
the luminous device. Advantageously, with this configuration, each mask can be molded
independently and can be assembled together using the notches and protrusions to provide
the interlocking mask structure. Hence, with this configuration, the process of molding
can be simplified.
[0010] In a non-limiting embodiment of the present invention, the outer lens is curved and
the masks associated with the plurality of lighting modules are arranged in a curved
manner to follow the curvature of the outer lens. The molds of the masks are designed
in such a way that when the masks are interlocked, the interlocked mask structure
follows the curvature of the outer lens. For instance, the molds are designed in such
a way that lateral sides of the masks are not parallel to each other so that when
the masks are interlocked, the interlocked mask structure follows the curvature of
the outer lens. For instance, each mask has a trapezoidal form. According to the curvature
of the outer lens, the mold(s) can be designed such that when they interlock together,
the interlocking structure follows the curvature of the outer lens.
[0011] In a non-limiting embodiment of the present invention, the masks of the plurality
of lighting modules have the same dimensions. Advantageously, the tooling cost can
be minimized or reduced by making the masks of the same dimensions.
[0012] In a non-limiting embodiment of the present invention, each lighting module further
comprises a diffusing screen and/or an opaque grid, which has cells separated by opaque
portions, and each cell is positioned over one cavity of the mask of the corresponding
lighting module. The mask of each lighting module includes a first end, which faces
the light source support, and a second end opposite to the first end, which faces
the diffusing screen, and the opaque grid is arranged opposite to the diffusing screen.
The diffusion screen allows for improved homogeneity of the lit appearance of each
pixel. Further, the opaque grid is made of a thermoplastic material such as polycarbonate
(PC) or poly (methyl methacrylate) (PMMA) and may be in the form of a self-adhesive
film. Thus, it will stick on to the diffusing screen. Other embodiments of the opaque
grid can be suitable. For example, the opaque grid can be made of injected thermoplastic
material, and positioned in front of the diffusing screen by fixation means such as
clips or screws. The diffusing screen and the opaque grid avoids light pollution from
one pixel to another pixel of a pixel matrix, which is formed by the cavities of the
pluralities of masks.
[0013] Each cavity defines one pixel of the pixelated lamp. Each light source can be piloted
individually by piloting means, so that a predefined pixelated image can be displayed.
[0014] According to another embodiment, the present invention also relates to a vehicle
signaling lamp comprising at least one lighting module according to the present invention.
BRIEF DESCRIPTION OF THE INVENTION
[0015] To complete the description and to provide a better understanding of the invention,
a set of drawings is provided. Said drawings form an integral part of the description
and illustrate an embodiment of the invention, which should not be construed as restricting
the scope of the invention, but only as an example of how the invention can be carried
out. The drawings comprise the following characteristics.
Fig.1 is an exploded schematic view of a lighting module of a vehicle, according to
an embodiment of the present invention.
Fig.2a illustrates an unassembled state of a curved interlocking mask structure having
a plurality of masks for a vehicle luminous device, according to an embodiment of
the invention.
Fig.2b illustrates an assembled state of a curved interlocking mask structure having
a plurality of masks for a vehicle luminous device, according to an embodiment of
the invention.
Fig.3a illustrates a curved interlocking mask structure having a plurality of masks
for a vehicle luminous device, according to another embodiment of the invention.
Fig.3b illustrates a mold position of a pair of masks of the curved interlocking mask
structure shown in the Fig.3a.
Fig.3c illustrates an assembled position of a pair of masks of the curved interlocking
mask structure shown in the Fig.3a.
DETAILED DESCRIPTION OF THE INVENTION
[0016] Embodiments of the present application will below be explained in detail by ways
of examples with reference to the accompanied drawings. Throughout the description,
same or similar reference numerals represent same or similar parts. The following
description of the embodiments with reference to the drawings is intended to explain
the general inventive concept of the present application, instead of limiting it to
the present invention.
[0017] In the following detailed description, for purposes of explanation, numerous specific
details are set forth in order to provide a thorough understanding of the disclosed
embodiments. It will be apparent, however, that one or more embodiments may be practiced
without these specific details.
[0018] Vehicle luminous devices are associated with vehicles to perform different lighting
and/or signaling functions and auxiliary functions. For instance, a pixelated tail
lamp, one such luminous device, known to a person skilled in the art, is adapted to
display a pictogram, visible from outside of the vehicle, at several meters.
[0019] A luminous device for an automotive vehicle is described according to an embodiment
of the present invention. In a non-limiting embodiment, the vehicle is a motor vehicle.
The luminous device according to an embodiment is a tail lamp of an automotive vehicle.
The tail lamp is a pixelated tail lamp. As previously mentioned, with the pixelated
tail lamp, a pictogram in particular can be displayed. According to an embodiment
of the present invention, the vehicle luminous device comprises a plurality of lighting
modules juxtaposed along a given direction, for instance, along a transverse direction
of the vehicle; and an outer lens configured to project a light beam emitted from
the plurality of lighting modules. Fig.1 illustrates a lighting module of a vehicle
luminous device, according to an embodiment of the present invention. For the sake
of brevity and explanation, only one lighting module is shown in Fig.1. It is understood
to a person skilled in the art that the luminous device includes one or more lighting
modules. The lighting module 1 comprises a longitudinal axis Az which extends from
the front to the rear of the motor vehicle and which is parallel to the vehicle axis
(not illustrated). It should be noted that lighting module 1 can be arranged in other
orientations. In this case, the longitudinal axis Az has orientation corresponding
substantially to the direction in which the lighting module 1 is intended to be observed.
[0020] Each lighting module 1 of the luminous device 3 comprises a light source support
10 mounted with a plurality of light sources 11 on its first face, and a mask 12 disposed
opposite to the first face of the light source support 10. For instance, the light
source support 10 is a plane electronic holder. The light source support 10 extends
along a transverse axis Ax that is perpendicular to the longitudinal axis Az of the
lighting module 1. In a non-limiting example, the light source support 10 is a printed
circuit board, otherwise known as PCB. In a non-limiting example, the lighting module
1 comprises two light source supports 10 positioned with an angle between them, as
it is visible on Fig.1. In a non-limiting embodiment, light sources 11 are semiconductor
light sources, for instance, light emitting diodes (LEDs). For example, the LEDs may
be OLEDs (organic LEDs), AMOLEDs (Active-matrix-organic-LEDs) or FOLEDs (flexible
OLEDs).
[0021] The mask 12 comprises a plurality of cavities 14 through which light rays emitted
from the plurality of light sources 11 are directed towards the outer lens 19. For
clarity, only some of the cavities 14 have been referenced in Fig.1. In the luminous
device 3, the mask 12 of each lighting module 1 are provided with a locking means
intended to juxtapose and connect masks of the plurality of lighting modules 2 along
a transverse axis (not shown in Figures) of the luminous device 3.
[0022] The light sources 11 are configured to emit light rays that will pass through cavities
14 of the mask 12. Each light source 11 is arranged opposite a single cavity. The
mask has two ends, a first end of which faces the first face of the support 10 and
a second end of which is opposite the first end, facing a diffusing screen 17. Each
mask 12 includes cavities 14 bounded by partitions that form the walls of the cavities.
The cavities form an array of pixels. The pixel array allows a pictogram or moving
image to be formed by turning on the appropriate light sources 11 for the pictogram
or moving image to be formed. Thus, in the non-limiting embodiment, the luminous device
3 can display a suitable pictogram visible at several meters to warn a vehicle behind
the motor vehicle. This improves the safety of the occupants of the motor vehicle
and provides early warning or other information to the following vehicle or a pedestrian
or a bicycle etc.
[0023] According to a non-limiting embodiment, the lighting module 1 further comprises an
opaque grid 18, which has cells/apertures 180 separated by opaque portions, and each
cell is positioned over one cavity 14 of the mask of the corresponding lighting module
1. For clarity, only some of the apertures have been referenced in Fig.1. The apertures
have the same shape as pixels. Thus, in the same way as the pixels, they have hexagonal
shape. The set of apertures also form a honeycomb. However the apertures and the pixels
could have other forms, for example square, rectangle, triangle or other polygons,
or circle, ellipse, oval. The form may be different from one aperture and/or pixel
to another one. Advantageously, they are arranged in a matrix. Advantageously, the
apertures 180 have the same shape as the pixels. The mask 14 of the lighting module
1 includes a first end, which faces the light source support 10, and a second end
opposite to the first end, which faces the diffusing screen 17, and the opaque grid
18 is arranged opposite to the diffusing screen 17. The diffusing screen 17 allows
for improved homogeneity of the lit appearance of each pixel. In non-limiting embodiments,
the diffusing screen 17 is grain structure or white. It mixes the light rays from
the light sources 11 that pass through the cavities 14 to have homogeneous light.
In a non-limiting mode of realization, the diffusing screen 17 is made of a plastic
material, such as PC or PMMA. In a non-limiting embodiment, the opaque grid 18 is
made of polycarbonate and in the form of self-adhesive film. Thus, it will stick on
the diffusing screen 17. The diffusing screen 17 and the opaque grid 18 avoids light
pollution from one pixel to another pixel of the pixel matrix.
[0024] In the exemplary illustration shown in Fig.1, the lighting module 1 is provided with
two supports 10 each comprising a plurality of light sources 11 and two masks 14,
each of which is arranged to one of the supports 10. Two supports 10 form a certain
angle between them. This makes it possible to adapt to the curved shape of the luminous
device 3 in which the lighting modules 1 are integrated. It should be noted that using
several supports instead of single support reduces the manufacturing cost of the lighting
module 1. Indeed, since the dimensions of the luminous device 3 are large, it is economical
to manufacture smaller supports instead of a single large support. Further, the exemplary
lighting module depicted in the Fig.1 includes two diffusing screens and two opaque
grids. However, it is understood by a person skilled in the art that the present invention
is not limited to two supports, two diffusing screens, and two opaque grids in the
lighting modules. The lighting module could comport more than two of these elements,
and/or other additional elements.
[0025] The luminous device 3 when assembled with the plurality of lighting modules 1, the
masks 12 of the lighting module 1 have to be properly arranged such that the masks
12 should be rigid and the tolerances between different parts of the luminous device
3 is maintained. To ensure that the masks 12 of the luminous device 3 are rigidly
positioned and to follow a curvature of the outer lens, the present invention provides
a curved interlocking mask structure formed by connecting the masks 12 of the lighting
modules 1 of the luminous device 3.
[0026] In a non-limiting embodiment, as previously discussed, the mask 12 of each lighting
module 1 is provided with a locking means intended to juxtapose and connect masks
12 of the plurality of lighting modules 1 along a transverse axis of the luminous
device 3. Thus, the plurality of masks 12 can be interlocked by the locking means
to form the interlocking mask structure that can be rigidly positioned in the luminous
device 3.
[0027] Fig.2a illustrates an unassembled state of curved interlocking mask structure having
a plurality of masks for a vehicle luminous device, according to an embodiment of
the invention. Fig.2b illustrates an assembled state of a curved interlocking mask
structure having a plurality of masks for a vehicle luminous device, according to
an embodiment of the invention.
[0028] In one non-limiting embodiment of the present invention, the masks 12 of the lighting
module 1 may be interlocked by locking means formed integrally with each mask 12.
According to this embodiment, as can be seen from the Fig.2a, the locking means formed
with each mask 12 includes at least one notch 115 on its a first lateral side 105
and at least one protrusion 120 on its a second lateral side 110 opposite to the first
lateral face 105. For the sake of explanation, each mask 12 is formed with two notches
115 on its first lateral side 105 and two protrusions 120 on its second lateral side
110. However, it is understood to a person skilled in the art that each 12 mask may
include plurality of notches and plurality of protrusions, without any limitation.
During assembly, the at least one protrusion 120 of a first mask can be engaged in
the corresponding at least one notch 115 of an identical mask juxtaposed horizontally
along the transverse axis of the luminous device 3 to form the curved interlocking
mask structure. Advantageously, with this configuration, each mask 12 can be molded
independently and can be assembled together using the notches 115 and protrusions
120 to provide the interlocking mask structure. Hence, with this configuration, the
process of molding can be simplified.
[0029] Fig.3a illustrates a curved interlocking mask structure having a plurality of masks
for a vehicle luminous device, according to another embodiment of the invention. According
to this embodiment, the masks of the lighting module may be interlocked by locking
means, which is a flexible connecting link 125, and is elastically flexible. The curved
interlocking mask structure according to this embodiment includes a plurality of masks
12 in which adjacent masks are connected by a flexible connecting link 125, as can
be seen in the Fig.3a. The masks 12 of this embodiment may be injected in the same
mold and demolding axis of the masks are in the same direction. Fig.3b illustrates
a mold position of a pair of masks of the curved interlocking mask structure shown
in Fig.3a. As can be seen from the Fig.3b, a demolding axis A of a first mask is in
the same direction as a demolding axis B of a second mask, and both the masks are
connected using the flexible connecting link 125. The flexible connecting links enable
the injection of the masks in the same mold. Advantageously, the links 125 are connected
to the two adjacent masks 12 respectively on one edge between two faces of each of
these masks, comprising the lateral facing faces of said two masks. This configuration
ensures an easier molding as there is no gap between the mask and the link in direction
of the respective demolding axis A and B. Fig.3c illustrates an assembly position
of a pair of masks of the curved interlocking mask structure shown in Fig.3a. As can
be seen from the Fig.3c, a demolding axis A of a first mask and a demolding axis B
of a second mask are oriented in different directions, and both the masks are connected
using the flexible connecting link 125. Although a single flexible connecting link
is shown in the figures to connect the two adjacent masks, it is understood to a person
skilled in the art that adjacent masks may be connected using more than one flexible
connecting link.
[0030] When the curved mask interlocking structure is assembled in the luminous device 1,
with the help of the flexible links 125, the masks 12 can be oriented in different
directions, and thus the homogenous-lit aspect can be realized. According to this
embodiment, it is possible to make the interlocking mask structure using a single
mold, thereby reducing the tooling cost.
[0031] The person skilled in the art realizes that the present invention by no means is
limited to the preferred embodiments described above. On the contrary, many modifications
and variations are possible within the scope of the appended claims. Also, the skilled
person readily realizes that the different embodiments described herein may be combined
freely to obtain new combinations.
[0032] Additionally, variations to the disclosed embodiments can be understood and effected
by the skilled person in practicing the claimed invention, from a study of the drawings,
the disclosure, and the appended claims. In the claims, the word "comprising" does
not exclude other elements or steps, and the indefinite article "a" or "an" does not
exclude a plurality. The mere fact that certain measures are recited in mutually different
dependent claims does not indicate that a combination of these measured cannot be
used to advantages.
1. A luminous device (3) for an automotive vehicle comprising:
a. a plurality of lighting modules (1) juxtaposed along a given direction;
b. an outer lens (19) arranged to project a light beam emitted from the plurality
of lighting modules (1), wherein each lighting module (1) comprises:
c. a light source support (10) mounted with a plurality of light sources (11) on its
first face; and
d. a mask (12) disposed opposite to the first face of the light source support (10),
wherein the mask (12) comprises a plurality of cavities (14) through which light rays
emitted from the plurality of light sources (11) are directed towards the outer lens
(19); and
characterized in that, the mask (12) of each lighting module (1) is provided with a locking means intended
to connect masks of the plurality of lighting modules (1).
2. The luminous device (3) as claimed in claim 1, wherein the locking means is a flexible
connecting link (125).
3. The luminous device (3) as claimed in claim 1, wherein the locking means include at
least one notch (115) in a first lateral face (105) of the mask and at least one protrusion
(120) in the second lateral face (110) opposite to the first lateral face (105).
4. The luminous device (3) as claimed in claim 3, wherein the at least one protrusion
(120) of a first mask can be engaged in the corresponding at least one notch (115)
of an identical mask juxtaposed horizontally along the given direction of the luminous
device.
5. The luminous device (3) as claimed in any one of the preceding claims, wherein the
outer lens (19) is curved and the masks (12) associated with the plurality of lighting
modules (1) are arranged in a curved manner to follow the curvature of the outer lens
(19).
6. The luminous device (3) as claimed in any one of the preceding claims, wherein the
masks (12) of the plurality of lighting modules (1) have the same dimensions.
7. The luminous device (3) as claimed in any one of the preceding claims, wherein each
lighting module (1) further comprises a diffusing screen (17) and/or an opaque grid
(18), which has cells (180) separated by opaque portions, and each cell (180) is positioned
over one cavity (14) of the mask (12) of the corresponding lighting module (1).
8. The luminous device (3) as claimed in the preceding claim, wherein the mask (12) of
each lighting module (1) includes a first end which faces the light source support
(10) and a second end opposite to the first end which faces the diffusing screen (17),
and wherein the opaque grid (18) arranged opposite to the diffusing screen (17).
9. A vehicle signalling lamp comprising at least one lighting module (1) as claimed in
any one of preceding claims 1 to 8.