奥地利专利AT518118A1 Lighting unit for a motor vehicle

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专利摘要:
The invention relates to a lighting unit (100) for a motor vehicle, wherein the lighting unit (100) has a housing (10) with a housing opening (11) and a cover disk (12) closing the housing opening (11). 11) surrounding edge an adhesive bed (13) is provided, in which adhesive bed (13) the cover plate (12) with an adhesive (14) is glued to the housing (10), and wherein in the housing (10) at least one elongated light guide (1, 2) is arranged, in which light of at least one light source (3, 4) via a coupling region (1a, 2a) can be coupled to a first end region of the light guide (1, 2), and wherein the at least one light guide ( 1, 2) in a second end region (21, 22) has a light-permeable end surface (21a, 22a) bounding the at least one light guide (1, 2), and wherein the second end region (21, 22) of the light guide (1, 2 ) in the adhesive bed (13 protrudes, so that the end surface (21a, 22a) at least partially contacted in the adhesive bed (13) adhesive (14).
公开号:AT518118A1
申请号:T50010/2016
申请日:2016-01-11
公开日:2017-07-15
发明作者:Manduch Jozef；Fabry Marek；Brath Tomas
申请人:Zkw Group Gmbh；
IPC主号:

专利说明:

LIGHTING UNIT FOR A MOTOR VEHICLE
The invention relates to a lighting unit for a motor vehicle for generating at least one lighting function and / or signaling function, wherein the lighting unit has a housing with a housing opening and a cover which closes the housing opening, wherein an adhesive bed is provided on an edge surrounding the housing opening, in which Adhesive bed, the cover plate with a cover plate section or cover disc sections is used and glued to the housing with an adhesive, and wherein in the housing 'at least one elongated optical fiber and at least one light source associated with the at least one light source are arranged, wherein at least a light source via a coupling region at a first end region of the at least one light guide can be coupled into the light guide, wherein the at least one light guide tauskoppelfläche on its front side a Lieh and at a The front side opposite back has a Lieh tum steering surface, so deflected from the at least one light source in the at least one light guide coupled light on the Lieh tum steering surface and is emitted via the light output surface of the light guide.
Furthermore, the invention relates to an above-mentioned lighting unit, which is designed as a motor vehicle headlight.
Finally, the invention also relates to a motor vehicle headlight, which has one or more lighting units mentioned above.
Elongated ladders are frequently used in motor vehicle headlamp design, for example for generating parking light distributions or daytime running light distribution, or for generating signaling functions, e.g. a flashing light function. The term "elongated" or "elongated" is understood to mean that the longitudinal extension of the optical waveguide (ie the extent in the light propagation direction in the optical waveguide) is significantly greater, e.g. at least 5 times or at least 10 times greater than the transverse extent (the transverse extent is, for example, the or a diameter of the optical fiber). In the present invention, the optical fiber used has two open ends, at one end, the light of a light source is coupled, while at the other open end no light coupling takes place.
Such elongate light guides typically terminate in typical illumination units for motor vehicle headlights in a region facing away from the coupling-in region a few millimeters after their visible portion, i. they only extend a few millimeters beyond the light output surface. At the end surface, which terminates the light guide in this area facing away from the light source, there is light reflections of the light coupled into the light guide and propagating as a result of total reflection by the light guide and thus to a significant increase in the light intensity in the end region of the light guide, resulting in typically one, sometimes several hotspots. This adversely affects the appearance of the light guide with the light source on for a viewer outside the motor vehicle, since the homogeneity of the appearance is disturbed by such a hotspot (or by several).
In order to solve the above-described problem, prior art apertures are provided by means of which the problematic end region of an optical waveguide can be covered so that the hotspot (s) are not recognizable. As a result, however, the effective length of the light guide is reduced, the optical fiber is optically shortened, and accordingly can not be optimally utilized in a motor vehicle in any case scarce space dimensioned.
Furthermore, this results in that the light guide has a lower effective light exit surface and thus emits less light than the identical light guide, which is not covered by a diaphragm with the same power of the light source.
It is also disadvantageous that such a panel requires space that is already severely limited in modern motor vehicles anyway.
It is an object of the invention to provide a solution to the above problems.
This object is achieved with a lighting unit for a motor vehicle in that, according to the invention, the at least one light guide has a light-permeable, at least one light-limiting end surface in a second end region, and wherein the second end region of the light guide protrudes into the adhesive bed, such that the End surface at least partially contacted the adhesive located in the adhesive bed.
With the invention it is achieved that light can escape from the optical waveguide via the translucent terminating surface and can be absorbed in the adhesive which is contacted by the terminating surface.
A light guide within the scope of the invention thus preferably consists of an elongated body, which consists of a lateral surface which comprises the light outcoupling surface and the Lichtumlenkfläche, and a base surface which corresponds to the Lichteinkoppelfläche, and a top surface which corresponds to the end surface. The lateral surface may be a cylinder jacket, the base and top surfaces may be flat. However, both lateral surface and base and top surface can also be designed as desired, in particular, the cross-section of the lateral surface can be configured arbitrarily and be variable over the length of the light guide, deck and base must not be flat, and it does not have to each act around a single, continuous surface. It is advantageous if the adhesive is designed to absorb light, so that as much light as possible is absorbed in the adhesive and accordingly can not be reflected back into the optical fiber. For example, the adhesive is dark, especially colored black.
It may be advantageous if the end surface contacts the adhesive over the entire surface. Thus, light can escape from the second end region of the light guide over the entire end surface and be absorbed in the adhesive.
It can be provided that at least one, preferably exactly one, holder for holding the at least one light guide is arranged in the housing.
It can be provided that forms the at least one holder together with the housing the adhesive bed for the cover plate, for example by the holder forms an inwardly bounding wall for the adhesive bed.
In another variant, the entire adhesive bed is formed by the housing.
It is preferably provided that an inner, the adhesive bed delimiting wall, which is part of the housing or is formed by the at least one holder, at least one recess or opening through which the second end portion of the at least one light guide protrudes into the adhesive bed.
The adhesive bed is, for example, a kind of U-shaped or V-shaped profile, with an outer leg, i. the outer wall of the adhesive bed and e.g. also the bottom of the adhesive bed is formed by the housing, i. Part of the housing is. The inner wall, that is, the inner leg of the U-shaped profile, may also be part of the housing, but we are often formed by the holder for the light guide (s), i. the inner wall is part of the holder.
In order for as much light as possible to escape from the second end region of the light guide and be absorbed in the adhesive, it is favorable if the end surface, in particular the geometry of the end surface, is chosen such that it has the highest possible transmittance, so that a good, in particular As large as possible light transmission through the end surface results.
For example, the end surface may consist of a continuous surface.
It can be advantageous if the end surface consists of two or more individual surfaces.
In this context, it may be favorable if adjoining individual surfaces adjoin one another in a stepped manner, wherein preferably the steps extend in the direction from the rear rear side of the at least one light guide to its front side.
For example, it has proven to be advantageous if the continuous surface or the individual surfaces are flat.
In particular, it may be expedient if the individual surfaces are arranged parallel to one another.
It has been shown that a good transmission can be achieved by the termination surface when the continuous surface or the individual surfaces are normal to a central longitudinal axis of the light guide.
Thus, a majority of the light impinging on the termination surface may impinge thereon at an angle below which total reflection does not return to the light conduit so that the light from the light conduit may exit into the adhesive bed where it is absorbed in the adhesive. For example, the angles at which the light impinges on the termination surface are at 90 ° or 90 °. Frequently, or usually, in prior art illumination devices, the hot spots disadvantageously formed in optical fibers are produced at the end of the optical fiber by light propagating substantially longitudinally through the optical fiber reflected from the end surface. This can be prevented or at least greatly reduced with a preferably described embodiment of the end surface.
The "central axis" of a light guide is an axis in the longitudinal extent of the light guide, which connects in each case the geometric centers of the cross-sectional areas along the longitudinal extension of the light guide, which are normal to this axis.
The above object is further achieved with a lighting unit described above, which is designed as a motor vehicle headlight.
Furthermore, the above object is achieved with a motor vehicle headlight having one or more lighting units described above.
In the Lolgenden the invention is discussed in more detail with reference to the drawings. In this shows
1 is a front view of a lighting unit according to the invention,
2 is an exploded view of the lighting unit of Figure 1,
3 shows a section A-A according to FIG. 1,
4 shows a perspective view of one of the two light guides of the illumination unit according to the invention, with associated heat sink for the light source feeding light into the light guide,
FIG. 5 shows the second end region of the light guide projecting into an adhesive bed (without adhesive) of the illumination unit, FIG.
Lig. 6 in an adhesive bed (with adhesive) of the lighting unit protruding second end portion of the light guide, and
7 shows the second end region of the optical waveguide from FIG. 3 in an enlarged view.
The directions used in the following relate in each case to the installed state of the lighting unit in a motor vehicle or in a motor vehicle headlight, which in turn is installed in a motor vehicle.
FIG. 1, the exploded view from FIG. 2 and the section A - A from FIG. 3 show a lighting unit 100 for a motor vehicle for generating at least one lighting function and / or signaling function, wherein the lighting unit 100 comprises a housing 10 with a housing opening 11 and a housing opening 11 having closing cover 12 has.
An adhesive bed 13, which is shown in detail in FIGS. 5 and 6 in the region of an optical waveguide, is provided on an edge running around the housing opening 11. In this adhesive bed 13, the cover 12 is inserted with a peripheral to the cover 12 cover plate portion 12 a and glued with an adhesive 14 to the housing 10.
In the housing 10, two elongated optical fibers 1, 2 are arranged, wherein each light guide 1, 2 is assigned a light source 3, 4, and wherein light of the respective light source 3, 4 via a coupling region la, 2a, in a first end region of the light guide 1, 2 is arranged, can be coupled into the light guide 1, 2 by the respective light source 1, 2 is turned on. In general, both light sources are operated simultaneously, but it can also be provided to control them independently.
The light sources 1, 2 are usually LED light sources, such an LED light source having one or more light-emitting diodes (LEDs). In principle, other light sources can be used.
In the embodiment shown, the illumination unit 100 has two elongate light guides 1, 2. However, it could just as an optical fiber or three or more light guides may be provided.
The two light guides 1, 2 are held in the housing 10 by a holder 15. The holder 15 may be clipped to the housing 10 or otherwise secured thereto.
The adhesive bed 13 already mentioned above is, for example, a kind of U-shaped or V-shaped profile, with an outer leg, i. the outer wall 13b of the adhesive bed 13 and e.g. Also, the bottom 13c of the adhesive bed 13 is formed by the housing 10, i. Part of the housing 10 is. The inner wall 13a, ie the inner leg of the approximately U-shaped profile, is formed in the example shown by the holder 15 for the light guides 1, 2, i. the inner wall 13a is part of the holder 15th
In the light exit direction X after the light guides 1, 2, in the example shown, two optical bodies 16, e.g. so-called thick wall optics provided, in which the optical fibers 1, 2 feed the light emitted by them. In the optic bodies 16, this light propagates, preferably by means of total reflection, and exits at a front side of the respective optic body 16 and is radiated through the lens 12 into a region in front of the illumination unit 100, where there is a desired light distribution or a part of such Light distribution generated.
The optic bodies can also be realized in a single component.
The light distribution generated by a light guide 1, 2 is rather wider scattered, the thick-walled optics collects the light by total reflection and thus forms on its front side, at which the light emerges, a sharply defined luminous surface.
However, it can also be provided that no such optical body is present and the optical fibers emit light directly through the lens in an area in front of the lighting unit.
The lens can be completely clear, but can also have an optical structure for influencing the light passing through it.
The lighting unit shown in the present example is provided for the realization of a daytime running light, which is typically intended to have a homogeneous as possible, characterized by its shape luminous impression. However, with a lighting unit according to the invention, other light functions, e.g. a direction indicator, brake light, tail light, position light, rear fog light, etc. are realized.
FIG. 4 shows one of the two light guides 1 of the illumination unit 100, wherein furthermore a heat sink 17 is shown, on which the light source 3 is arranged. The optical waveguide 1 consists of an optically transparent material in which light coupled in via the coupling-in area 1a, in particular on the outer jacket of the light-guiding element 1, is totally reflected and thus propagates along the longitudinal extent of the optical waveguide 1.
The light guide 1, i. For example, the outer jacket of the light guide, has on its front side a light output surface lb and on its front side opposite the rear a Lichtumlenkfläche lc, so coupled from the light source 3 in the light guide 1 and in this propagating light at the Lichtumlenkfläche lc and over the Lichtauskoppelfläche lb is emitted from the light guide 1.
For example, the light redirecting surface 1c - generally, i. is not limited to the embodiment shown - in a known manner, a plurality of prismatic, preferably juxtaposed elements, which on the Lichtumlenkfläche lc incident light, which propagates along the optical fiber 1 therein, deflect to the front, where it over the
Lichtauskoppelfläche / light exit surface lb can escape as already described above.
FIG. 5 and FIG. 6 show, with reference to the upper optical waveguide 1, that this - and preferably analogously to it - the second optical waveguide 2 has in its second end region 21 a translucent terminating surface 21a delimiting the optical waveguide 1, the second end region 21 of the optical waveguide 1 in FIG the adhesive bed 13 protrudes in such a way that the end face 21a of the light guide 1 contacts the adhesive 14 located in the adhesive bed 13 at least in areas, preferably over the whole area.
Preferably, the same applies to the second optical waveguide 2, the second end region 22 of which projects into the adhesive bed 13, such that its translucent closing surface 22a makes contact with the adhesive 14, preferably over its entire area.
It can thus be achieved that light can escape from the light guide 1, 2 via the translucent end face and be absorbed in the adhesive 14 which is contacted by the end face 21, 22a. It is advantageous if the adhesive 14 is designed to absorb light, so that as much light as possible is absorbed in the adhesive and accordingly can not be reflected back into the light guide. For example, the adhesive is dark, especially colored black.
It is preferably provided that the inner, the adhesive bed 13 inwardly bounding wall 13a, which is formed by the holder 15, recesses 15a (Figure 2), through which the second end portions 21, 22 of the two optical fibers 1, 2 in the adhesive bed 3 protrude.
FIG. 7 also shows the second end region 21 of the first light guide 1 in an enlarged representation. In order for as much light as possible to escape from the second end region 21 of the light guide 1 and absorbed in the adhesive 14, it is favorable if the end surface 21a, in particular the geometry of the end surface 21a, is chosen such that it has the highest possible transmittance , so that a good, in particular the highest possible light transmission through the end surface 21a results.
The end face 21a consists, for example, of a continuous surface or, as shown, consists of two or more individual faces 21al, 21a2, 21a3, 21a4, 21a5.
In the latter context, it may be favorable if adjacent individual surfaces 21al, 21a2, 21a3, 21a4, 21a5 are steppedly adjacent to one another as shown, wherein preferably the steps extend in the direction from the back side 1c of the light guide 1 to its front side 1b. For example, in the example shown, in the region of the light coupling surface lb, the individual surface 21al adjoining it is further away from the light coupling point, measured along the longitudinal extent of the light guide 1, than the next adjacent single surface 21a2, which has a single surface 21a5 adjoining the light deflection surface lc the shortest distance.
If the end surface is designed as a flat, continuous surface, it may occur that the adhesive bed, which is preferably closed by the end region of the light guide, becomes too small or too large, and optimum, in particular complete coverage of the end surface with adhesive can not be ensured can. In particular, this may be the case if, as shown in the figures, the housing in the region of the adhesive bed does not run parallel to the end surface but obliquely thereto.
By an embodiment in the form of a plurality of individual surfaces, which are arranged in steps, it can be ensured that an optimal coverage, in particular a complete coverage of the end surface is given with the adhesive.
Furthermore, a type of pin 18 is formed in the region of the light output surface 21a, which protrudes beyond the jacket of the light guide 1, preferably on its rear side. With this pin 18, the light guide 1 can be positioned and / or fixed in the holder 15. The pin 18 is formed in this embodiment such that it forms an extension of the single surface 21a3, which divides the two individual surfaces 21a4, 21a5 respectively into two further surfaces.
In particular, the position of the light guide in the holder 15 can be determined with the pin 18, since the light guide a certain play in the opening 15 a of the holder 15. There could be the risk that the second end of the light guide by the application of the adhesive or the ins Pressing adhesive bed of the web 12 a of the cover is pressed against a wall of the opening 15 a and the adhesive exits on one side through the thus forming, non-uniform gap. By providing a pin as described this can be prevented.
Preferably, the individual surfaces 21al, 21a2, 21a3, 21a4, 21a5 are flat.
It may be expedient if the individual surfaces 21al, 21a2, 21a3, 21a4, 21a5 are arranged parallel to one another.
It has been found that a good transmission through the end surface can be achieved if the continuous surface or the individual surfaces 21al, 21a2, 21a3, 21a4, 21a5 are normal to a central longitudinal axis Y of the light guide 1.
The "central axis Y" of a light guide 1 is an axis in the longitudinal extension of the light guide, each of which connects the geometric centers of the cross-sectional areas along the longitudinal extent of the light guide, which are normal to this axis

权利要求:
Claims (14)
[1]
claims
1. lighting unit (100) for a motor vehicle for generating at least one lighting function and / or signaling function, wherein the lighting unit (100) comprises a housing (10) having a housing opening (11) and a housing opening (11) closing cover (12) in which an adhesive bed (13) is provided on an edge running around the housing opening (11), in which adhesive bed (13) the cover disk (12) is inserted with a cover disk section (12a) or with cover disk sections and with an adhesive ( 14) is glued to the housing (10), and wherein in the housing (10) at least one elongate light guide (1, 2) and at least one at least one light guide (1, 2) associated light source (3, 4) are arranged, wherein light of the at least one light source (3, 4) can be coupled into the light guide (1, 2) via a coupling-in region (1a, 2a) at a first end region of the at least one light guide (1, 2), " wherein the at least one light guide (1, 2) on its front side a light output surface (lb, 2b) and on a front side opposite the back a Lieh tum steering surface (lc, 2c), so that of the at least one light source (3, 4) in the at least one light guide (1, 2) coupled light at the Lichtumlenkfläche (lc, 2c) deflected and emitted via the light outcoupling surface (lb, 2b) from the light guide (1, 2), characterized in that the at least one light guide (1 , 2) in a second end region (21, 22) has a light-transmitting end face (21a, 22a) bounding the at least one light guide (1, 2), and wherein the second end region (21, 22) of the light guide (1, 2) into the adhesive bed (13) so that the end face (21a, 22a) at least partially contacts the adhesive (14) in the adhesive bed (13).
[2]
2. Lighting unit according to claim 1, characterized in that the adhesive (14) is designed to absorb light.
[3]
3. Lighting unit according to claim 1 or 2, characterized in that the end face (21a, 22a) the adhesive (14) contacted over the entire surface.
[4]
4. Lighting unit according to one of claims Ibis 3, characterized in that in the housing (10) at least one, preferably exactly one, holder (15) for holding the at least one light guide (1, 2) is arranged.
[5]
5. Lighting unit according to claim 4, characterized in that the at least one holder (15) together with the housing (10) forms the adhesive bed (13) for the cover plate (12).
[6]
6. Lighting unit according to one of claims 1 to 5, characterized in that an inner, the adhesive bed (13) delimiting wall (13a), which is part of the housing or of which at least one holder (15) is formed, at least one recess ( 15a) or opening through which the second end region (21, 22) of the at least one light guide (1, 2) projects into the adhesive bed (13).
[7]
7. Lighting unit according to one of claims 1 to 6, characterized in that the end surface consists of a continuous surface.
[8]
8. Lighting unit according to one of claims 1 to 6, characterized in that the end surface (21a, 22a) consists of two or more individual surfaces.
[9]
9. Lighting unit according to claim 8, characterized in that adjoining individual surfaces (21al, 21a2, 21a3, 21a4, 21a5) adjoin one another in steps, wherein preferably the steps in the direction from the rear back of the at least one light guide (1, 2) to its front run.
[10]
10. Lighting unit according to one of claims 7 to 9, characterized in that the continuous surface or the individual surfaces (21al, 21a2, 21a3, 21a4, 21a5) are flat.
[11]
11. Lighting unit according to one of claims 8 to 10, characterized in that the individual surfaces (21al, 21a2, 21a3, 21a4, 21a5) are arranged parallel to each other.
[12]
12. Lighting unit according to one of claims 7 to 11, characterized in that the continuous surface or the individual surfaces (21al, 21a2, 21a3, 21a4, 21a5) are normal to a central longitudinal axis (Y) of the light guide (1, 2).
[13]
13. Lighting unit according to one of claims 1 to 12, which is designed as a motor vehicle headlight.
[14]
14. Motor vehicle headlight with one or more lighting units according to one of claims 1 to 12.

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同族专利:

公开号 | 公开日

EP3190332B1|2018-09-12|

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CN106989337A|2017-07-28|

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引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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EP2743131A2|2012-12-14|2014-06-18|SL Corporation|Lamp for vehicle|

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JP6072520B2|2012-11-21|2017-02-01|株式会社小糸製作所|Vehicular lamp with branching light guide lens|

AT513738B1|2012-12-20|2014-07-15|Zizala Lichtsysteme Gmbh|Lighting unit for a headlight|

FR3002794B1|2013-03-04|2015-03-20|Valeo Vision Belgique|LIGHTING AND / OR SIGNALING DEVICE FOR A MOTOR VEHICLE HAVING A LIGHT GUIDE|

AT514022B1|2013-03-07|2015-11-15|Zizala Lichtsysteme Gmbh|Lighting device for a vehicle headlight and vehicle headlights|

KR101451861B1|2014-03-14|2014-10-16|에스엘 주식회사|Lamp for vehicle|AT520398B1|2017-08-29|2020-10-15|Zkw Group Gmbh|LIGHTING AND / OR SIGNALING DEVICE FOR A MOTOR VEHICLE|

AT520399B1|2017-08-29|2020-10-15|Zkw Group Gmbh|LIGHTING DEVICE AND / OR SIGNALING DEVICE FOR A MOTOR VEHICLE|

AT520400B1|2017-08-29|2020-10-15|Zkw Group Gmbh|LIGHTING AND / OR SIGNALING DEVICE FOR A MOTOR VEHICLE|

US10151436B1|2017-10-12|2018-12-11|GM Global Technology Operations LLC|Vehicle lighting assembly with light transfer optical system|

WO2021204373A1|2020-04-08|2021-10-14|HELLA GmbH & Co. KGaA|Light guide for a lighting device of a vehicle and lighting device with such a light guide|

DE102020210315A1|2020-08-13|2022-02-17|Daimler Ag|light strip|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

ATA50010/2016A|AT518118B1|2016-01-11|2016-01-11|Lighting unit for a motor vehicle|ATA50010/2016A| AT518118B1|2016-01-11|2016-01-11|Lighting unit for a motor vehicle|

EP16202322.0A| EP3190332B1|2016-01-11|2016-12-06|Lighting unit for a motor vehicle|

ES16202322T| ES2698358T3|2016-01-11|2016-12-06|Lighting unit for a car|

CN201710006485.9A| CN106989337B|2016-01-11|2017-01-05|Lighting unit and motor-driven vehicle headlight adapter for motor vehicle|

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