阅读说明：本技术 支撑光源的车门密封件 (Vehicle door seal supporting a light source ) 是由 L·贝佐 T·霍迪斯尼 S·玛丽 于 2019-07-04 设计创作，主要内容包括：本发明涉及一种车门密封件(28),该车门密封件插入在该车门中的狭缝(21)的边缘(23)之一与在该狭缝(21)中滑动的车窗(22)的相对的面(24)之间,该车门密封件包括密封件本体(32)以及至少一个柔性唇(34),该密封件本体固定到该狭缝(21)的所述边缘(23),该至少一个柔性唇远离该本体(32)横向延伸直至自由外边缘(35),该自由外边缘搁置在该车窗(22)的所述面(24)上,该车窗(22)的在完全关闭位置的至少一个可见部分(22B)位于该密封件(28)上方。该密封件的特征在于,该密封件在横区段中具有壳体(54),该壳体穿过开口(56)直接通向该车窗(22)的可见部分(22B),至少一个光源(50)在该壳体(54)中布置在该密封件的形成支撑件(325)的一个面上,以便发射光线,该光线穿过该开口(56)离开以通过所述相对的面(24)直接到达该车窗(22)的可见部分(22B)。(The invention relates to a door seal (28) to be inserted between one of the edges (23) of a slit (21) in the door and the opposite face (24) of a window (22) sliding in the slit (21), comprising a seal body (32) fixed to said edge (23) of the slit (21) and at least one flexible lip (34) extending transversely away from the body (32) as far as a free outer edge (35) resting on said face (24) of the window (22), at least one visible portion (22B) of the window (22) in the fully closed position being located above the seal (28). The seal is characterized in that it has, in a transverse section, a housing (54) which opens directly into the visible portion (22B) of the window (22) through an opening (56), at least one light source (50) being arranged in the housing (54) on a face of the seal forming a support (325) so as to emit light rays which exit through the opening (56) to reach directly into the visible portion (22B) of the window (22) through said opposite face (24).)

1. A door seal (28) interposed between one of the edges (23) of a slot (21) of the door and an opposite face (24) belonging to a window pane (22) sliding in the slot (21), comprising a seal body (32) fixed to said edge (23) of the slot (21) and at least one flexible lip (34) extending transversely from the body (32) as far as a free outer edge (35) which presses against said face (24) of the window pane (22), at least a portion (22B) of the window pane (22) visible in the fully closed position being located above the seal (28);

characterized in that the seal (28) has a housing (54) in a transverse section, which opens directly into the visible portion (22B) of the window pane (22) via an opening (56), at least one light source (50) being arranged in the housing (54) on the face of the seal acting as a support (325) in order to emit light rays which exit from the opening (56) to reach directly into the visible portion (22B) of the window pane (22) via the opposite face (24).

2. The seal (28) as set forth in claim 1, characterized in that the housing (54) of the seal (28) is delimited by the flexible lip (34) and an upper projecting peak (326) of the body (32), the opening (56) being laterally retained between a free end edge of the projecting peak (326) and the lip (34).

3. The seal (28) according to claim 1 or 2, wherein the support (325) is common to a group of light sources (50) arranged linearly longitudinally in the housing (54) on said support (325).

4. The seal (28) of claim 1, 2 or 3, wherein each light source (50) is formed by a point light source such as a light emitting diode.

5. The seal (28) according to the preceding claim considered in combination with claim 3, characterized in that the set of light sources (50) is formed by a light emitting diode bar.

6. The seal (28) according to any one of the preceding claims, characterized in that a light diffuser (62) is interposed between the light source (50) and the opening (56) of the housing (54).

7. The seal (28) of the preceding claim when considered in combination with claim 5, wherein the light diffuser (62) is common to all light sources (50).

8. The seal (28) according to claim 6 or 7, characterized in that the light diffuser (62) is formed by a film which encloses the one or more light sources (50) in a sealing manner.

9. The seal (28) according to any one of the preceding claims, wherein the visible portion (22B) of the glazing (22) comprises a marking region (46) provided with a light-diffusing pattern (48), the light source (50) being arranged such that the light rays reach the glazing directly via the marking region (46), illuminating at least a portion of the diffusing patterns (48).

10. The seal (28) according to any one of the preceding claims, characterized in that it is an interior door seal interposed between the inner edge (23) of the slit (21) and the inner face (24) of the window pane.

Technical Field

The invention relates to an assembly comprising a glazing for enclosing a passenger compartment of a motor vehicle and at least one first light source supported by an associated first support, each first light source being laterally offset with respect to the glazing and emitting light directly towards a first free face of the glazing.

Background

Motor vehicle manufacturers have proposed combining a light source with a glazing for enclosing the passenger compartment so that light can be produced that appears to emanate directly from the glazing. This effect can be achieved by hiding the light source in the vehicle bodywork around the edge of the glazing. The light enters the pane and propagates therein by being reflected in succession between the two main faces, the light gradually emerging from the pane in order to create the luminous impression.

Such a device may be combined with a vehicle glazing comprising a light diffusing pattern. The diffusion pattern is hardly visible to the naked eye when the light source is turned off. In contrast, when the light source is turned on, the light reaching the diffusion pattern is diffused, thereby creating a feeling that the diffusion pattern emits light.

It has been proposed to arrange a light source facing the edge face of the window glass to illuminate the diffusion pattern. It has now been found that making such an arrangement does not allow to adapt all the geometries of the window pane, in particular in the case of sliding side window panes with which the door of the vehicle is equipped. Furthermore, the glazing-type composition of the passenger compartment of a motor vehicle, made of tempered or laminated glass or perspex, such as Polymethylmethacrylate (PMMA) or Polycarbonate (PC), does not allow sufficient transmission of light that enables the luminous pattern to be correctly illuminated.

It has been proposed to introduce light through the outside of the glazing, rather than through the edge face. For this purpose, the light source is arranged in an outer seal of the vehicle door. The light source is formed by a light guide which is illuminated by an indirect light source.

However, this solution is expensive because it requires the formation of a seal dedicated to this application.

Furthermore, the use of a light guide illuminates the entire length of the window pane simultaneously, rather than illuminating different areas of the window pane individually.

Additionally, the exterior seals of the vehicle are designed to prevent water accumulation. Furthermore, it is absolutely necessary to protect the light source from external contamination, which can rapidly reduce the brightness of the light source when a layer of dust is deposited. In this regard, the light source is disposed inside a housing that is located below the sealing lip of the seal. As a result, the light source cannot illuminate the window pane as close as possible to the externally visible part of the window pane. As a result, the light is only visible to the viewer after entering the interior of the glazing.

Entry into the glazing results in a loss of light intensity. The result of this is that the light output of such a system is not optimal.

Disclosure of Invention

The invention proposes a door seal interposed between one of the edges of a slot of the door and an opposite face belonging to a window glass sliding in the slot, comprising a seal body fixed to said edge of the slot, and at least one flexible lip extending transversely from the body as far as a free outer edge pressed against said face of the window glass, at least one portion of the window glass visible in the fully closed position being located above the seal.

Such a seal is characterized in that: the seal has a housing in a transverse section, which opens directly into the visible part of the pane via an opening, in which housing at least one light source is arranged on the face of the seal acting as a support in order to emit light rays which exit from the opening to reach the visible part of the pane directly via the opposite said face.

According to other features of the invention:

the housing of the seal is delimited by the flexible lip and an upper projecting peak of the body, the opening being retained laterally between the free end edge of the projecting peak and the lip;

-the support is common to a set of light sources arranged longitudinally in line on said support in the housing;

each light source is formed by a point light source (such as a light emitting diode);

-the set of light sources is formed by a light emitting diode bar;

-interposing a light diffuser between the light source and the opening of the housing;

the light diffuser is common to all light sources;

the light diffuser is formed by a film which encloses the one or more light sources in a sealed manner;

-the visible portion of the glazing comprises a marking area provided with a light diffusing pattern, the light source being arranged such that the light rays reach the glazing directly via the marking area, illuminating at least a part of the diffusing pattern;

the seal supporting the light sources is an inner seal interposed between the inner edge of the slit and the inner face of the glazing.

Drawings

Other features and advantages of the present invention will become apparent upon reading the following detailed description, and for understanding thereof, reference will be made to the accompanying drawings, in which:

figure 1 is a view from the inside and depicts the upper part of a vehicle door equipped with a vehicle window closed by a window pane produced according to the teachings of the present invention;

FIG. 2 is a view similar to FIG. 1, with the door body panel removed;

figure 3 is a vertical cross-sectional view, in the plane of section 3-3 of figure 1, depicting an inner seal equipped with a light source for illuminating the glazing;

FIG. 4 is a schematic view in vertical cross section explaining the operation of an assembly comprising a window glass and a light source with which the vehicle door of FIG. 1 is equipped;

FIG. 5 is a side view depicting the light source with which the inner seal of the door is equipped.

Detailed Description

In the rest of the description, elements having the same structure or similar function will be referred to by the same reference numerals.

In the rest of the description, and without limitation, the orientation indicated by the "L, V, T" trihedron in the figures will be adopted, in which the longitudinal direction is directed from the rear to the front, the vertical direction is directed from the bottom upwards, and the transverse direction is directed from the outside to the inside of the passenger compartment. The vertical orientation is independent of the direction of the earth's gravitational field.

In the remainder of the description, the terms inner and outer will be used to refer to the elements respectively facing inside or outside the passenger compartment.

Fig. 1 depicts a motor vehicle door 10 intended to close the passenger compartment (not depicted) of a motor vehicle. The door 10 includes a lower hollow body 12 and an upper window 14 defined by a frame 16 extending vertically upwardly from the hollow body 12.

As depicted in fig. 2 and 3, the interior space 17 of the hollow body 12 is bounded laterally by a body panel 18, which is generally vertical and longitudinal, toward the exterior of the passenger compartment, and by a lining 20, which is generally vertical and longitudinal, toward the interior of the passenger compartment. In this case, the liner 20 is produced as a single piece with the window frame 16. In this case, the liner 20 is covered with an interior trim panel 19.

The hollow body 12 is open at the top by a longitudinal slot 21. The slot 21 opens vertically in the plane of the window opening 14. In other words, the window aperture 14 is arranged in the vertical continuation of the slit 21.

The slot 21 is laterally bounded between an inner edge 23 formed by an upper edge of the liner 20 and an outer edge 25 formed by an upper edge of the body panel 18.

The vehicle window opening 14 is intended to be closed by a window pane 22, which extends overall in a vertical longitudinal plane. Of course, the window glass 22 may have a slightly curved shape. The window pane 22 is laterally delimited in the thickness direction by a first free surface 24, which in this case forms the inner face 24 of the window pane 22, and by a second free surface 26, which in this case forms the outer face 26 of the window pane 22.

In this case, the window pane 22 is made of tempered glass or laminated glass or plexiglass, such as Polymethylmethacrylate (PMMA) or Polycarbonate (PC). The window pane 22 is a single piece.

The window pane 22 is mounted so as to be able to slide vertically in the slot 21 of the door 10 between a fully closed position, in which it completely encloses the vehicle window 14 (as depicted in figures 1 and 2), and a large open position (not depicted), in which the window pane 22 is at least partially retracted downwards within the hollow body 12.

To prevent moisture and/or contaminants from entering the hollow body 12, the slot 21 is closed by an inner seal 28 and an outer seal 30. The seals 28, 30 take the form of longitudinally extending elastomeric profile segments.

The inner seal 28 is interposed between the inner edge 23 of the slot 21 and the opposite inner face 24 belonging to the window pane 22. As seen in the profile of fig. 3, the inner seal 28 comprises a longitudinal body 32 which is push-fitted to the inner edge 23 of the slot 21. Thus, the body 32 includes a first push-fit groove 321 that opens vertically downward and is bounded laterally by an outer longitudinal vertical wall 322 and an inner longitudinal vertical wall 323. The recess 321 is also delimited in the upward direction by a horizontal upper wall 324 which forms a decorative element arranged in continuation of the upper face of the liner 20. The body 32 also includes a longitudinal push fit recess for the edge of the trim panel 19.

A resiliently flexible compliant lip 34 extends laterally outwardly from the lower edge of the outer vertical wall 322 of the recess 321 as far as the free outer edge 35. The lip 34 is resiliently restored against the window pane 22 so that the free outer edge 35 of the lip 34 presses against the inner face 24 of the window pane 22 to perform the sealing function. In this position against the window pane 22, the lip 34 and the outer face 325 of the outer wall 322 define the housing 54.

The upper wall 324 of the body 32 extends laterally outward by a horizontal upper projecting peak 326. The projecting peak 326 has an outer end longitudinal free edge that is positioned a distance from the inner face 24 of the window pane 22. Thus, the protruding peaks 326 help to vertically bound the housing 54 toward the top.

As can be seen in fig. 3, the housing 54 has an opening 56 which is laterally retained between the free outer edge 35 of the lip 34 and the free edge of the projecting peak 326.

The outer seal 30 is interposed between the outer edge 25 of the slot 21 and the opposite outer face 26 belonging to the window pane 22. The outer seal 30 includes a longitudinal body 36 that is push-fit to the outer edge 25 of the slot 21. The body 36 thus comprises a first push-fit groove 361 which is open vertically downwards and delimited laterally by an inner longitudinal vertical wall 362 and an outer longitudinal vertical wall 363. The groove 361 is also delimited in the upward direction by a horizontal upper wall 364 forming the trim part.

A resiliently flexible compliant lip 38 extends laterally inwardly from the lower edge of the inner vertical wall 362 of the recess 361 as far as the free outer edge 39. The lip 38 is resiliently restored against the window pane 22 such that the free outer edge 39 of the lip 38 presses against the outer face 26 of the window pane 22 to perform the sealing function. In this position against the window pane 22, the lip 38 and the outer wall 362 delimit the housing 58.

The upper wall 364 of the body 36 extends laterally inward by a horizontal upper projecting peak 366. The projecting peak 366 has an inner end longitudinal free edge that is positioned a distance from the outer face 26 of the window pane 22. Thus, the projecting peaks 366 help to vertically bound the housing 58 toward the top.

Unlike the shell 54 of the outer seal 28, the shell 58 of the outer seal 30 is closed by a band 367 that extends far enough from the back of the lip 38 to contact the projecting peak 326. This belt 367 largely prevents water or contaminants from accumulating in the housing 58.

The inner seal 28 and the outer seal 30 here each comprise a single flexible lip 34, 38. The two lips 34, 38 are pressed against the window pane 22 laterally opposite one another in order to balance the forces applied to the window pane 22. In this case, the free edges 35, 39 of the flexible lips 34, 38 are arranged at substantially the same height as the free edges of the associated protruding peaks 326, 366.

As depicted in fig. 2, when the window pane 22 is in the fully closed position, a lower portion of the window pane 22 (referred to as a hidden portion 22A) is hidden within the hollow body 12, while an upper portion of the window pane 22 (referred to as a visible portion 22B) is visible to an external observer in the frame 16 of the window aperture 14. The hidden portion 22A is hatched in fig. 2 to 4. Here, in the fully closed position, the hidden portion 22A is defined to be below the lips 34, 38 of the seals 28, 30, while the visible portion 22B extends above the seals 28, 30.

The hidden portion 22A remains within the hollow body 12 regardless of the position of the window pane 22 between its two extreme positions. As depicted in fig. 2, the hidden portion 22A includes a tongue 40 extending vertically downward from the middle of a lower edge 42 of the window glass 22. The lower edge 42 of the window pane 22 therefore has two end sections 42A, 42B which are arranged vertically generally parallel to the sealing elements 28, 30 in the vicinity of said sealing elements 28, 30, the tongue 40 extending vertically downwards below the level of the two end sections 42A, 42B. The tongue 40 is provided with holes 44 which allow the window pane 22 to be connected to a device (not depicted) operating the sliding of the window pane and concealed inside the hollow body 12.

In a variant of the invention, not depicted, the lower edge of the pane may comprise several tongues, for example two tongues, similar to the tongue 40. Each of these tongues may be arranged in an end portion of the lower edge or in a central portion of the lower edge.

Also provided is a glazing 22 comprising a marking region 46 provided with a light diffusing pattern 48. Here, the mark region 46 is arranged on the lower end strip of the visible portion 22B along the entire length of the window glass 22. Thus, the marking area 46 is directly adjacent to the hidden portion 22A of the window glass 22. In the example depicted in the figures, the remainder of the visible portion 22B does not have the diffusion pattern 48.

The diffusing pattern 48 performs, for example, aesthetic functions and/or functions to convey information.

The diffusion pattern 48 may be produced by etching on the surface of the window glass 22, for example, using a laser or using sandblasting, or by etching in the thickness of the window glass 22, for example, using a laser. In the example depicted in fig. 5, the diffusing pattern 48 is produced by surface etching the inner face 24 of the glazing pane 22.

As depicted in fig. 4, the vehicle door 10 is also equipped with at least one light source 50.

In this case, the light source is a point light source 50 formed of, for example, a light emitting diode. Such light emitting diodes are typically fixed to a substrate 53, such as a flexible or rigid printed circuit board. The light source 50 is powered by the battery (not depicted) of the motor vehicle.

Each light source 50 forms an interior light source 50 that is laterally offset relative to the window pane 22 toward the interior of the passenger compartment. The first light source 50 is oriented so as to emit a light beam that reaches the window pane via the inner face 24 of the window pane 22 directly. In the context of the present invention, the word "directly" means that light does not enter the window pane 22 before reaching the inner face 24.

More specifically, the beam of light is directed toward the marking region 46 so as to illuminate at least a portion of the diffuse pattern 48.

As schematically indicated by the arrow "r" in fig. 4, light rays emitted by the light source 50 reach the visible portion 22B of the window pane via the inner face 24 of the window pane 22. More specifically, the light ray "r" reaches the marked portion 46 of the window pane via the inner face 24 of the window pane.

The light rays "d" reaching the diffusion pattern 48 formed on the inner face 24 of the window glass 22 are diffused in all directions, i.e., on the one hand toward the inside of the passenger compartment and toward the inside of the window glass 22, and then re-emitted, and on the other hand, toward the outside of the passenger compartment via the outer face 26.

In this manner, when the light source 50 is turned on, the diffusion pattern 48 appears luminous to an observer located inside or outside the passenger compartment.

The marking zone 46 extends along the entire length of the window pane 22. In order to allow its entirety to be illuminated, the vehicle door 10 advantageously comprises a set of several light sources 50 arranged on the inside of the window pane 22. The set of light sources 50 is formed, for example, by a light emitting diode bar. Thus, all the leds in the group are longitudinally aligned. Each light source 50 is thus capable of illuminating a portion of the indicia area 46.

Advantageously, each point light source 50 can be switched between a closed state and an open state, respectively. In this way, only a portion of the indicia area 46 may be illuminated depending on the environment in which the vehicle is used and/or at the discretion of the driver.

The light source 50 is housed in the interior seal 28 of the door 10. As depicted in fig. 3, the light source 50 is more specifically disposed in the housing 54 of the inner seal 28. In the depicted example, the light sources 50 rest on the outside of the outer wall 322 of the body 32 via their base plates 53. The outer face thus forms a support 325 for the light source 50.

The light source 50 is secured, for example, by a resilient grip between the protruding peak 326 and the base of the lip 34. Although this fixed pattern may be sufficient, the base plate 53 may also be bonded to the support 325.

The light source 50 is arranged so as to emit light towards an opening 56 of the housing 54 which opens directly onto the visible portion 22B of the glazing 22. Thus, the light source emits light that exits through the opening 56 to directly reach the visible portion 22B of the window pane 22 via the interior face 24 of the window pane 22.

In order to direct the light more precisely towards the opening 56, the light source 50 may be equipped with optics for changing the propagation direction of the light, such as an optical lens, a reflector or a combination of these elements. In the example depicted in fig. 5, the light source 50 has a reflector 60 that causes light rays emitted toward the lip 34 to be redirected toward the opening 56.

Advantageously, the light source 50 is designed such that light reaches the glazing directly via the marking area 46, illuminating at least a part of the diffusing pattern 48. In this configuration, the output efficiency of the light source is maximized because the light directly reaches the diffusion pattern 48.

The presence of the protruding peaks 326 advantageously makes it possible to avoid direct visibility of the light source from the passenger compartment or from outside the vehicle.

When the door 10 is equipped with a set of light sources 50, the support 325 is advantageously common to all the light sources 50 arranged longitudinally in line on said support 325 in the housing 54.

In this case, the light sources 50 are evenly distributed at certain intervals along the length of the inner seal 28 as a whole.

It has been found that under certain ambient lighting conditions and where several adjacent light sources 50 are turned on simultaneously, the window pane 22 is not uniformly illuminated by the light sources 50. A variation in the light intensity in the longitudinal direction along the window pane is thus observed. Thus, an event called "hot zone" directly facing the light source shows a peak in light intensity, while a zone called "cold zone" interposed longitudinally between the hot zones appears darker.

In order to uniformly illuminate the marking region 46 of the window pane 22 and thus avoid these cold and hot regions, a light diffuser 62, which is independent of the window pane 22, is interposed between the light source 50 and the opening 56 of the housing. Here, the light diffuser 62 is common to all light sources.

As a variant, each light source 50 is equipped with a separate light diffuser.

The light diffuser 62 is formed of, for example, a translucent film capable of diffusing light passing therethrough, thereby uniformly illuminating the mark region 46 of the window glass 22.

In order to extend the lifetime of the light source 50, in this case the film forming the light diffuser 62 encloses the light source or light sources in a sealed manner.

This arrangement advantageously allows the window glass 22 to be replaced without removing the light source 50.

Furthermore, this arrangement allows the light source 50 to be positioned as close as possible to the diffusing pattern 48 of the window glass 22, while at the same time camouflaging the light source 50 with respect to the line of sight of an observer located inside or outside the passenger compartment.

Furthermore, the luminous patterns 48 are advantageously illuminated directly by the luminous sources 50, i.e. without entering into the panes 22 before reaching them, thus maximizing their output efficiency.

The invention has been described in the context of sliding side window applications. It will be appreciated that the invention is also applicable to fixed glazings (window covers) for the passenger compartment of a motor vehicle, such as side windows, windscreens, sidelights or sunroofs.