FR3012575A1 - COMPACT OPTICAL MODULE FOR VEHICLE - Google Patents

Abstract

The invention relates to a compact optical module (1) for a vehicle, designed to obtain several types of lamps, comprising a reflector (5) associated with a light source, comprising at least one LED and a lens (4), differentiated according to the type of fire, assembled on a support (3) characterized in that the support (3) is identical for all types of lights.

Description

The invention relates to a compact and standardized optical module comprising a diode light source capable of providing different functions depending on its destination such as, for example, high beam, daytime running lights, position lights. In the state of the art, we do not know a vehicle incorporating compact and standardized optical modules comprising common parts and different parts, able to become compact optical modules for high beam, low beam, daytime running lights or position lights. US2012 / 0063156 discloses an optical unit comprising a heat sink that emits heat from a light source, and a base portion including a reflection section, a lens mounting section, and a connecting section. connecting the reflector mounting section and the lens mounting section. The optical unit is composed of several specific elements whose assembly between them is not obvious. In addition, the optical unit is fixed in the bottom of a housing on the dissipator by means of studs, a semi-enveloping glass is fixed on the front of the housing in front of the lens of the optical unit. It is understood that this optical unit consists of several complicated and non-obvious parts to be assembled together. In addition, this optical unit is specific to a single light.

The present invention aims to overcome these disadvantages by providing a compact optical module comprising a diode light source, having a standard piece adapted to receive different complementary parts and easily assembled so as to provide different types of lights on demand. For this purpose the invention proposes a compact optical module for a vehicle, designed to obtain several types of lamps, comprising a reflector associated with a light source, in particular comprising at least one LED and a lens, differentiated according to the type of fire, assembled on a support, the support being common for all types of lights.

Advantageously, the support receives the lens in the direction of the longitudinal axis of the module, allowing good integration and easily mounting on the support.

According to a variant, the support comprises forwardly advanced areas relative to the side walls whose ends are rounded. This facilitates the mounting of the lens.

Optionally, the advanced areas of the support comprise arrangements for centering and clipping the lens. These arrangements are easily achievable and inexpensive.

According to a preferred embodiment of the invention, the lens comprises at each of its longitudinal edges tabs having at their ends appendices. This allows a good grip of the tabs.

According to one variant, the support receives the deflector along the longitudinal axis of the module. Advantageously, the advanced areas of the support 10 comprise rearward arrangements to ensure the centering and clipping of the deflector. According to another variant, the deflector comprises two tongues forward, the dimensions of the ends 15 are identical to the advanced areas of the support. Advantageously, the tabs of the baffle cap the advanced areas of the support which comprises arrangements for clipping the deflector. According to a variant, the deflector comprises at the rear in the upper part, cantilevered, a perforated plate placed horizontally. According to a variant, the perforated plate comprises arrangements on which the light source door is clipped, which allows an easy implementation.

The invention also relates to a vehicle comprising a compact optical module comprising a reflector associated with a light source and a lens, having the aforementioned characteristics.

The invention will be clearly understood and other aspects and advantages will become clear from reading the following description given by way of example with reference to the appended figures in which: FIG. 1 shows an exploded perspective view according to FIG. longitudinal axis of a compact optical module according to the invention; FIG. 2 shows a cross-sectional side view of a compact and standardized optical module according to a first embodiment of the invention; FIG. 3 shows a cross-sectional side view of a compact and standardized optical module according to a second embodiment of the invention. Figure 1 shows an exploded perspective view 20 along its longitudinal axis 2 of a compact optical module 1 according to the invention. The optical module 1 consists solely of four parts assembled along the longitudinal axis 2. The optical module 1 comprises a support 3 formed of the side walls 3a, 3b and lower and upper walls 3c, 3d having a rectangular shape along the axis 2. A lens 4 fixed to the front of the support 3, a deflector 5 fixed at the rear of the support 3, the deflector 5 itself receiving at the rear the light source door 6 on a perforated plate 5a constituting the reflector 5. The lens 4 comprises each of its longitudinal edges of the tabs 4a, 4b comprising their ends of appendages 4c, 4d. At the lower edge, the tongue 4a is longitudinal and the appendix 4c is a flange formed at the end. At the upper edge, the tongue 4b is radial and directed towards the inside of the optical module 1, the appendix 4d is also a flange formed at its end. The lower and upper walls of the support 3 are made in the form of advanced zones 3c, 3d towards the front with respect to the side walls whose ends are rounded. These advanced zones 3c, 3d comprise arrangements 3e, 3f in the form of orifices or openings capable of guiding and clipping the appendages 4c, 4d of the tongues 4a, 4b of the lens 4. The clipping of the lens 4 is realized by moving it on the axis 2 according to the arrow 10. The reflector 5 comprises a parabola constituting the bottom of the reflector 5, extended forwards by the upper and lower sections 5a, 5b. These panels have dimensions at the ends identical to the advanced areas of the support. The panels 5a, 5b have in their internal part arrangements 5c, 5d in the form of orifices or appendages allowing the clipping of the reflector 5, by moving it on the axis 2 along the arrow 11. For this purpose, the panels 5a, 5b of the reflector 5 are to cap the advanced areas 3c, 3d of the support 3 which include the arrangements 3e, 3f necessary for the clipping of the reflector 5. The bottom of the parabola 5e has, at the rear at the top, on the door to false, come of material, a plate 5f openwork placed horizontally with arrangements 5g for clipping the door 6 light source. The light source gate 6 is constituted in the form of a plate 5f having specific cutouts, comprising a light source in the form of one or more LEDs (not visible in the figure). FIG. 2 shows a sectional profile view of a compact and standardized optical module 1 according to a first embodiment of the invention. The optical module 1 comprises the common support 3 for all types of modules, constituting the framework of the optical module 1 on which is clipped, the lens 4 along the longitudinal axis at the front of the support 3 and the deflector 5 next the longitudinal axis at the rear of the support 3. The light source door 6 itself clipped onto the reflector 5. The lens 4 has two convex faces and the parabolic focus 5e of the reflector 5 is located near the light source 7 and covers the upper half of the height of the lens 4. This optical module 1 comprises a reflector 5 having an "elliptical" focus in which the LED emits radiation 10 following a cone, this radiation 10 is captured by a small parabola (small focal length), this light is converged at a predetermined / calculated focal point, then this light is redirected in the axis of the optical module 1 through the lens 4 of elliptical shape. The lens 4 is relatively thick, in appearance, the lens 4 will be perceived as bright rather than the parabola of the reflector 5.

FIG. 3 shows a cross-sectional side view of a compact and standardized optical module 1 according to a second embodiment of the invention. The optical module 1 comprises the common support 3 for all types of modules, constituting the framework of the optical module 1 on which is clipped, the lens 4 along the longitudinal axis at the front of the support 3 and the reflector 5 following the longitudinal axis at the rear of the support 3. The light source door 7 is itself clipped onto the reflector 5. The lens 4 has its curved front face and its concave rear face and the parabolic focus 5e of the reflector 5 covers the entire height of the lens 4. This optical module 1 comprises a reflector 5 having a "conventional" focus in which the LED emits radiation 11 following a cone, this radiation 11 is redirected in the axis through the parabola of the Reflector 5, this radiation 11 then passes through the lens 4 which does not change the path of the light rays. In this configuration, the lens is thinner, the parabola must be sufficiently large (large focal length) so that at a certain distance, the optical module in operation is perceived as having a relatively large light dimension. The parabola of the reflector 5 will be perceived as luminous with respect to the lens 4.

Thus, the optical module 1 can advantageously be declined in several types of lights, while having common parts such as the support 3 and possibly the door 6 light source, while offering a range of assembly of the different parts between them simple and facile.5

Claims (12)

REVENDICATIONS1. Compact optical module (1) for a vehicle, designed to obtain several types of lamps, comprising a reflector (5) associated with a light source (7), comprising at least one LED and a lens (4), differentiated according to the type of fire, assembled on a support (3) characterized in that the support (3) is identical for all types of lights. Axial compact optical module (1) according to claim 1, characterized in that the support (3) receives the lens (4) in the direction of the longitudinal axis (2) of the module. 3. Compact optical module (1) according to one of claims 1 or 2, characterized in that the support (3) has forward zones (3c, 3d) with respect to the side walls (3a, 3b). whose ends are rounded. 4. Compact optical module (1) according to claim 3, characterized in that the advanced areas (3c, 3d) of the support (3) comprise arrangements (3e, 3f) to ensure the centering and clipping of the lens (4). ). 5. compact optical module (1) according to any one of the preceding claims, characterized in that the lens (4) has at each of its longitudinal edges tongues (4a, 4b) having their ends appendices (4c, 4d). 6. Compact optical module (1) according to any one of the preceding claims, characterized in that the support (3) receives the deflector (5) along the longitudinal axis (2) of the optical module (1). 7. Compact optical module (1) according to any one of claims 2 or 4, characterized in that the advanced areas (3c, 3d) of the support (3) have rearward arrangements (3g, 3h) to ensure centering and clipping the deflector (5). 8. Compact optical module (1) according to any one of claims 1, 6, 7, characterized in that the deflector (5) comprises forwards two tabs (5a, 5b) whose end dimensions are identical to the advanced zones (3c, 3d) of the support (3). Compact optical module (1) according to claim 1, wherein the tabs (5a, support (3) which comprises arrangements (3a, 3b) for clipping the deflector (5). 10. Compact optical module (1) according to any one of the preceding claims (1, 6 to 9), characterized in that the deflector (5) comprises at the rear in the upper part, cantilevered a plate (5f). openwork placed horizontally. 11. Compact optical module (1) according to claim 10, characterized in that the perforated plate (5f) comprises arrangements (5g) on which closes the door (6) light source (7). 12. Vehicle comprising a compact optical module (1) comprising a reflector (5) associated with a light source (7) and a lens (4) according to any one of claims 1 to 11.