Light guide for influencing a light emitted by LEDs light and arrangement for emitting light with su

专利摘要:
A light-conducting element for influencing a light emitted by LEDs, wherein (5) the light-guiding element extends along a longitudinal axis (L) comprising - a side edge region (2) formed to enter the light and extending parallel to the longitudinal axis (L), a light exit region (3) provided for the exit of the light, which likewise extends parallel to the longitudinal axis (L), wherein an intermediate region (4) for guiding the light is formed between the edge region (2) and the light exit region (3), characterized in that the edge region (2) is configured to deblade or bundle the course of the light in a plane (E) oriented parallel to the longitudinal axis (L), and the light exit region (3) is designed for this purpose of the light in a further plane (E ') to unblind or bundle, wherein the further plane (E') normal to the longitudinal axis (L) and thereby perpendicular to the first-mentioned plane (E) oriented runs.
公开号:AT15631U1
申请号:TGM422/2014U
申请日:2014-12-05
公开日:2018-03-15
发明作者:Machate Andreas
申请人:Zumtobel Lighting Gmbh；
IPC主号:

专利说明:

description
LIGHT-GUIDING ELEMENT FOR INFLUENCING A LIGHT EMITTED BY LEDS AND ARRANGEMENT FOR EMITTING LIGHT WITH SUCH A LIGHT-GUIDING ELEMENT AND LAMP The invention relates to a light-guiding element for influencing a light emitted by LEDs (LED: light-emitting diode), and an arrangement for emitting light . In addition, the invention relates to a lamp with such an arrangement for emitting light.
A conventional LED is due to its small spatial size, as it were, a point light source. If the light of an LED or several LEDs is viewed directly, it can therefore lead to very high beam densities and thus undesirable glare. It is known from the prior art to use an optical element or light-guiding element to change the light from LEDs in such a way that it is suitable as light which is emitted by a luminaire. For example, it is known for this purpose to use a light guide plate in which light from LEDs is irradiated via two opposite lateral edge regions, the light - spatially distributed and therefore less dazzling - being emitted via one of the large areas of the light guide plate, i.e. a flat side.
However, this can lead to the fact that the light emitted by the light-guiding element or the light-guiding plate is emitted in a relatively large solid angle range, so that undesirable glare can continue to occur, in particular if the light-guiding element is a corresponding component of a light is used. In addition, the surface of the light-guiding element via which the light is emitted may appear unevenly bright; for example, brighter areas can be formed here, which indicate individual LEDs as light sources. This is also usually undesirable.
The invention has for its object to provide an improved light guide. In particular, the light-guiding element should enable a particularly suitable, glare-free light emission. Furthermore, an improved arrangement for light emission should be specified, as well as an improved lamp.
This object is achieved according to the invention with the objects mentioned in the independent claims. Particular embodiments of the invention are specified in the dependent claims.
According to the invention, a light-guiding element is provided for influencing a light emitted by LEDs, the light-guiding element extending along a longitudinal axis. The light-guiding element has a lateral edge area designed for the entry of the light, which extends parallel to the longitudinal axis, and a light exit area provided for the exit of the light, which also extends parallel to the longitudinal axis, with an intermediate area between the edge area and the light exit area Conduction of light is formed. The edge area is designed to glare or bundle the course of the light in a plane oriented parallel to the longitudinal axis and the light exit area is designed to glare or bundle the course of the light in a further plane, the further The plane is normal to the longitudinal axis and is oriented perpendicular to the first-mentioned plane.
With this design, the glare control can be effected in the two levels at two spatially separated areas, which enables a particularly homogeneous emission of the glare-free light.
[0008] The edge area preferably has a plurality of discrete light entry areas. This makes the light guide particularly suitable for LEDs.
Preferably, viewed in a section along the plane, each of the light units has 1/24
AT 15 631 U1 2018-03-15 Austrian patent office, a concavely shaped central part for bundling light rays of light that enter the light-guiding element in the light entry region in question, preferably with a deflection area for further bundling of the light rays on both sides of the central part is. This design is particularly suitable for glare control or focusing in the first-mentioned level.
Preferably, the light entry areas - each viewed in a section normal to the longitudinal axis - have a concave structure, in particular in the form of a preferably centrally formed notch. In this way it can be achieved that the incoming light rays are fanned out and subsequently a larger proportion of the light enters the light exit area.
Preferably, the light exit area is formed by a rod-like lens element, which is arranged at least substantially oriented parallel to the longitudinal axis. This enables a particularly suitable glare control or bundling in the further level.
[0012] The edge region and the intermediate region are preferably formed by an at least substantially plate-shaped region. This allows a particularly suitable conduction of the light from the edge area to the light exit area.
Preferably, the lens element and the rest of the light guiding element are formed from one piece. Alternatively, the lens element and the rest of the light-guiding element are preferably connected to one another via an adhesive connection or weld connection, for example a laser weld connection.
Preferably, the light-guiding element is designed such that the light leaves the light-guiding element at least essentially only via the lens element. Alternatively, the light-guiding element is preferably designed in such a way that the light leaves the light-guiding element both via the lens element and via the intermediate region. In this way, further advantageous light emissions can be brought about.
Preferably, the light-guiding element also has a further side edge region which is designed for the entry of the light and which extends parallel to the longitudinal axis and thereby runs through the plane. As a result, the light can advantageously be radiated into the light-guiding element from two opposite sides.
According to a further aspect of the invention, an arrangement for light emission is provided, which has an LED light source with a plurality of LEDs for emitting a light, and an inventive light guide element, which is arranged such that the light at least partially in the lateral edge area in the light guide element enters.
According to a still further aspect of the invention, a lamp is provided which has an arrangement according to the invention for emitting light.
Preferably, the lamp is in the form of a ceiling lamp or pendant lamp, which is designed such that the light is emitted from the light-guiding element via the light exit area into the lower half-space when the lamp is oriented for operation of the lamp.
Preferably, the lamp is also designed such that, when the lamp is intended to operate the lamp, light is also emitted from the light-guiding element via the intermediate region into the lower and / or upper half-space.
The invention is explained below with reference to exemplary embodiments and with reference to the drawings. Show it:
1 shows a perspective sketch of a light-guiding element according to the invention, [0022] FIG. 2 shows a corresponding sketch in a transparent representation,
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«JxS austrian patent office AT 15 631 U1 2018-03-15 Figure 3 2 shows a perspective sketch in the manner of an exploded view of an arrangement according to the invention for emitting light, Fig. 4 2 shows a perspective sketch of an end region of the light guide element to illustrate the mode of operation, Fig. 5 a perspective sketch of a light entry area, Figure 6 a sketch of the light entry area in the manner of a sectional view along the plane, Figure 7 another sketch of the light entry area in the manner of a sectional view along the further plane, Fig. 8 2 shows a sectional illustration of the light-guiding element normal to the longitudinal axis, Figure 9 another corresponding sectional view to illustrate the effect of a notch in a light entry area, Figure 10 2 shows a perspective sketch of a light-guiding element according to a further embodiment, Fig. 11 2 shows a perspective sketch of a light-guiding element according to yet another embodiment, Figure 12 2 shows a perspective cut sketch of a lamp according to the invention, Fig. 13 a corresponding cross section, Figures 14 and 15 two more perspective sketches for the lamp, Fig. 16 a sketch of the lamp, mounted on a conductor rail of a trunking system, Fig. 17 a cross-sectional sketch of a detail, Fig. 18 a perspective sketch of an end region of the lamp, Figure 19 a sketch of a view of the lamp from below and Fig. 20 a sketch of an end portion of the light guide element of the lamp and a cover plate. 1 shows a perspective view of a light guide according to the invention.
ment according to a first embodiment. 2, the same light-guiding element is sketched in a transparent manner in order to make the structures more recognizable.
Fig. 3 shows a perspective sketch of the light guide element in the manner of an exploded view together with LEDs 1, which are preferably arranged in a row on an elongated circuit board 12. The LEDs 1 are part of an LED light source; the LED light source and the light-guiding element form parts of an arrangement according to the invention for emitting light.
The light-guiding element is designed to influence a light emitted by the LEDs 1.
The light guide element is elongated overall, so that it extends with its largest or main extent along a longitudinal axis L.
The light-guiding element has a lateral edge region 2, which is designed for the entry of the light and extends parallel to the longitudinal axis L; the LED light source is preferably arranged so that the row of LEDs 1 is aligned parallel to the longitudinal axis L, in particular the circuit board 12 can be aligned parallel to the longitudinal axis L for this purpose.
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Patent Office [0045] Furthermore, the light-guiding element has a light exit region 3, which is provided for the exit of the light and which also extends parallel to the longitudinal axis L. An intermediate area 4 for guiding the light is formed between the edge area 2 and the light exit area 3.
As shown by way of example in FIG. 1, the edge region 2 and the intermediate region 4 are formed, for example, by an at least substantially plate-shaped region.
4 shows an end region of the light-guiding element in a somewhat enlarged manner. The edge region 2 is designed to de-glare or bundle the course of the light in a plane E oriented parallel to the longitudinal axis L. The light exit area 3 is designed to unblind or bundle the course of the light in a further plane E ', the further plane E' being normal to the longitudinal axis L and oriented perpendicularly to the first-mentioned plane E. In the example shown, the plate-shaped area is formed running in the plane E.
As further sketched, for example, in FIG. 4, the edge area 2 preferably has a plurality of discrete light entry areas 5. In the example shown, the design is such that the light from one of the LEDs 1 enters the light-guiding element via one of the light entry regions 5. Alternatively, however, it can also be provided that the light from two or more LEDs 1 in each case enters the light guide element via one of the light entry regions 5.
In Fig. 5 one of these light entry areas 5 is sketched in somewhat more perspective and Fig. 6 shows a sketch of the light entry area 5 in the manner of a sectional view along the plane E. In addition, some light rays are sketched as an example in Fig. 6, which the course of the To illustrate light. The light rays arise at a location O, which in this sense indicates the position provided for the corresponding LED 1 or the corresponding LEDs 1.
As can be seen from FIG. 6, in the example shown in the section in question along the plane E, the light entry area 5 has a concave central part 6 for bundling the light rays of light that enter the light guide element in the light entry area 5 concerned, wherein preferably a deflection area 7 is formed on both sides of the central part 6 for further focusing of the light beams. The deflection region 7 is preferably designed to deflect the light beams at least predominantly by means of total internal reflection and to bundle them in this way.
With bundle or glare control, the effect is accordingly referred to here that the angular range in which the light rays originating from location O run is reduced. In Fig. 4 this angular range is schematically designated for the plane E with α.
8 shows a sectional view of the light-guiding element normal to the longitudinal axis L, some light rays being illustrated by way of example and illustrating the course of the light. After entering the light-guiding element and bundling, the light is passed through the light entry region 5 within the intermediate region 4, primarily transversely to the longitudinal axis L - with reference to FIG. 8, therefore, to the right. The light then at least partially reaches the light exit area 3 from the intermediate area 4 and finally leaves the light guide element again.
As indicated in FIG. 8 and enlarged in FIG. 7 and also shown in FIG. 5, the light entry region 5 - viewed in a section normal to the longitudinal axis L - has a concave structure, in particular in the form of a preferably centrally formed indentation 8 on. This can cause the light rays entering the light guide element to be deflected away from plane E, so that they form a larger angle with plane E immediately after entering the light guide element than immediately before entry. This is advantageous because, as a result, a particularly large amount of light subsequently enters the light exit region 3 and the efficiency of the light emission is increased in this way. To illustrate the effect, the case is shown in Fig. 9 in which - under otherwise identical conditions - the light, here
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AT 15 631 U1 2018-03-15 Austrian patent office from the right, enters the light-guiding element, but without the notch 8.
As indicated by the exemplary light rays, here run more light rays that enclose a very small angle with the plane E; These light rays largely pass the light exit area 3, so at least do not get directly into the light exit area 3. In other words, the notches 8 widen the light rays, so to speak.
As is the case in the example shown, the light exit region 3 is preferably formed by a rod-shaped lens element 9, which is oriented at least substantially parallel to the longitudinal axis L on a flat side of the plate-shaped region, in particular centrally. For example, the light-guiding element can consist of the plate-shaped region and the lens element 9, so that it no longer has any other elements or regions.
In particular, the lens element 9 and the remaining light-guiding element can be formed from one piece, that is to say in other words the light-guiding element can be formed in one piece. For example, the light guide element can be designed as an injection molded part for this purpose. Alternatively, the lens element 9 and the rest of the light-guiding element can be connected to one another via an adhesive connection or a welded connection, for example a laser welded connection. For example, transparent bonding with an optical adhesive or laser welding with a focusing laser is suitable for establishing the connection.
[0057] A plurality of corresponding lens elements can also be provided, which are arranged parallel to one another on the plate-shaped region. In this case, production using the injection molding process is very complex or unsuitable. Accordingly, it is more advantageous in terms of production technology if the lens elements are each manufactured separately, for example as extrusion parts, and then connected to the plate-shaped region by means of corresponding adhesive connections.
In the example shown here, the design is such that the light leaves the light-guiding element at least essentially only via the lens element 9. Alternatively, the design can be such that the light leaves the light guide element both via the lens element and via the intermediate region 4. This will be discussed again below.
In the example shown, the lens element 9 is shaped like a profile and shaped in such a way that it has a flat surface area 91, which preferably runs parallel to the plane E and via which the light is at least partially emitted. In addition, it has two convexly shaped lateral surface areas 92 which, on the one hand, adjoin the flat surface area 91 and, on the other hand, extend as far as the plate-shaped area or the intermediate area 4. The lateral surface areas 92 are shaped in such a way that the light rays running inside them are at least partially deflected by internal total reflections, so that the above-mentioned glare control or focusing in the further planes E ', which is normal to the longitudinal axis L is oriented, is brought about. 4 this is indicated schematically by the angular range β.
As a result, the light is emitted with the arrangement so that it is glare-free in two planes, so to speak, longitudinally and transversely. The arrangement is therefore particularly suitable for use in a lamp, for example in a ceiling lamp or a pendant lamp; For this purpose, the light-guiding element or the arrangement can preferably be oriented such that when the light is oriented for the operation of the light, the light is emitted from the light-guiding element via the light exit region 3 into the lower half-space.
[0061] FIG. 12 shows a perspective cut sketch of a corresponding lamp. As shown in a cross section in FIG. 13 and in a perspective section in FIG. 16, the luminaire is intended to be mounted on a busbar 100. she
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Patent office can hereby be provided for the formation of a so-called light band.
The luminaire shown in FIG. 12 has a light-guiding element which differs from the embodiment described above and shown in FIG. 1 in that the plate-shaped area or the intermediate area 4 is slightly curved around the longitudinal axis L. In addition, the lens element 9 is here connected to the intermediate region 4 via an adhesive or welded connection 106.
FIG. 14 shows a further cut, perspective view of the lamp from obliquely above and FIG. 15 shows a corresponding view from obliquely below.
12, a profile frame 110 of the lamp, which extends parallel to the longitudinal axis L, and a holder 102 for holding the arrangement for emitting light relative to the profile frame 110. 111 shows the rear structure of the lamp designated a device and connection area. Furthermore, a reflector 104 is provided here, for example a diffuse reflector, which is applied flatly with respect to the intermediate region 4 opposite the lens element 9. For example, the reflector 104 can be a film made of MCPET (Microcellular Polyethylene Terephthalate). Furthermore, in this exemplary embodiment, a translucent cover plate 108 is provided, which is arranged optically downstream of the lens element 9, preferably also held on the profile frame 110. The cover plate 108 can be formed in one piece with the lens element 9. 109 is a film which is applied to the cover plate 108 on both sides next to the lens element 9. The film 109 can in particular be a diffuse film; this enables a high-quality depth effect to be achieved.
17, a detail around the edge region is clarified.
20, the light-guiding element and the cover plate 108 of the lamp shown in FIG. 12 are shown separately. The cover disk 108 is arranged here in such a way that it contacts the flat surface area 91 of the lens element 9 over a large area. A corresponding adhesive or welded connection can also be provided here.
Both in the embodiment shown in FIG. 1 and in the embodiment shown in FIG. 12, the light-guiding element furthermore has a further lateral edge region 10 which is designed for the entry of the light and which extends parallel to the longitudinal axis L and thereby runs through level E. The further edge region 10 is preferably formed as a further edge region of the plate-shaped region, the further edge region 10 being formed opposite the first-mentioned edge region 2. In this case, the intermediate region 4 extends between the two edge regions 2, 10.
This enables light to be coupled into the light-guiding element from two opposite sides. Accordingly, as outlined analogously in FIG. 3, a further circuit board 12 'is also provided in the arrangement for emitting light, which has corresponding LEDs for emitting light which enters the light-guiding element via the further edge region 10. The light guide element is preferably designed symmetrically with respect to a plane of symmetry S running through the lens element 9, the plane of symmetry S preferably being oriented perpendicular to the plane E and also perpendicular to the further plane E '. The arrangement is also preferably correspondingly symmetrical.
As indicated, for example, in FIG. 8, the light-guiding element is designed such that a distance is formed between the edge region 2 and the lens element 9. As a result, the areas for the transverse and longitudinal glare control of the light are spatially separated from one another. For example, it can be provided that the lens element 9 has a width B1 in a section normal to the longitudinal axis L parallel to the plane E and is designed such that between the outer boundary of the edge region 2 and the normal projection of the lens element 9 onto the plate-shaped region a further width B2 is formed, B2> 0.5 B1, preferably B2> 0.8 B1 being fulfilled. In the example shown, B2> B1 is advantageously fulfilled.
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Patent Office This spatial separation of the areas for the transverse and longitudinal glare control, that is to say the edge area 2 from the lens element 9, can result in the points at which the LEDs 1 are located when the light emerging from the light guide element is viewed , are not recognizable or identifiable. In particular, a particularly homogeneous light emission that is glare-free in the two planes E and E 'can be achieved.
As already mentioned above, it can be provided that the light at least essentially exits the light-guiding element only via the lens element 9. Alternatively, the design can be such that a further, preferably smaller part of the light is emitted via the areas of the plate-shaped area or of the intermediate area 4 located on both sides of the lens element 9, specifically with reference to the aforementioned alignment of the lamp down and / or up. Diffuse light emission is particularly advantageous here. Light emission downwards and upwards is particularly suitable, for example, in the case of a pendant lamp; Suitable indirect lighting can be achieved here by emitting light upwards.
19 shows a view from below of the luminaire, in which the light is directed downward both over the light exit area 3, specifically over the flat surface area 91, and over the laterally adjoining areas of the plate-shaped area or Intermediate area 4 is released. When the luminaire is viewed from below, there is a medium long, bright stripe s1, which is followed by further stripes s2 on both sides that appear somewhat darker, so to speak, than opal light fields.
A corresponding lamp is suitable, for example, as an office or workplace lamp. High quality light is emitted via the lens element 9, that is to say directed towards the underside or onto a desk or the like.
In the case of additional brightening of the lateral strips s2, an additional attractive optical effect is achieved. A coupling-out structure and a prism or opal plate or a film can also be provided for the light emission via the lateral strips s2. The luminaire can be designed so that the stripes s1, s2 appear white when the LED light source is switched off.
The luminaire is also suitable for being combined with a further, corresponding or structurally identical luminaire to form a light band. An end region of the lamp is sketched in FIG. The design here is preferably such that the light-emitting surface, which is formed, for example, by the cover plate 108, extends to the corresponding front edge of the lamp, that is to say the edge which forms the boundary of the lamp with respect to the longitudinal axis L. . If two corresponding luminaires are lined up in a row, a continuous light exit surface or light line can be achieved. In the example shown in FIG. 18, the light fixture has an end cover 112, the design being such that the end edge of the lens geometry lies flush on the end cover 112.
10 shows a variant of the light-guiding element, which differs in the configuration of the edge region from the example shown first. Here, the light entry areas are designed in a pot-like manner, with quilting areas running around the side, so to speak.
A further variant is shown in FIG. 11, in which the intermediate region is designed to be more curved.
The following variants or designs are also possible:
The light-guiding element can be designed with draft angles. In this way it can be avoided that unfavorable grinding marks are formed in the course of production during the tool separation. Manufacturing as an injection molded part with more than two cavities, slides is also possible; This enables particularly good surfaces to be achieved and separating surfaces to be formed at locations which are optically irrelevant.
The intermediate region 4 can also be designed in such a way that it faces towards the
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Light exit area 3 tapered; this allows a particularly large amount of light to be directed from the intermediate area 4 into the light exit area 3.
Furthermore, it is possible to provide lens pots for cross-glare control, also for cross-glare and longitudinal glare control. Multi-row lens pots are possible.
A corresponding surface structure can be provided for coupling light into the lens element 9. However, light coupling without surface structure can also be provided.
A coupling lens designed as a separately injection molded part can be provided.
In the embodiment shown in FIG. 12, the light-guiding element can be designed together with the cover plate 108 as an H-molded part with draft angles.
The light guiding element can be composed of a plurality of injection molded parts or of injection molded and extruded parts.
With the arrangement according to the invention for emitting light or luminaire, the following advantages can be achieved in particular:
When viewing the luminaire, the LEDs as such are not visible, nor are the LED boards, [0088] there is no 1: 1 relationship between the light source and the light exit surface, but rather a continuous, overlapping area, [0089] homogeneous appearance , no technical details / geometries visible, continuous, transparent optics, crystal clear, high aesthetic value, [0090] · Optics can be strung together for a continuous transparent light line with glare-free light, a UGR value (UGR: Unified Glare Rating) of 19 achievable, · the light-guiding element is at least essentially formed from only one part, [0092] · no multiple material passage of the light, thereby good efficiency.
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权利要求:
Claims (11)
[1]
Expectations
1. Light guiding element for influencing a light emitted by LEDs (1), which is
Light guide element extends along a longitudinal axis (L), having
a side edge region (2) designed for the entry of the light and extending parallel to the longitudinal axis (L),
a light exit area (3) provided for the exit of the light, which also extends parallel to the longitudinal axis (L), an intermediate area (4) for guiding the light being formed between the edge area (2) and the light exit area (3), characterized in that the edge region (2) is designed to glare or bundle the course of the light in a plane (E) oriented parallel to the longitudinal axis (L) and the light exit area (3) is designed to guide the course to dazzle or bundle the light in a further plane (E '), the further plane (E') being normal to the longitudinal axis (L) and oriented perpendicular to the first-mentioned plane (E).
[2]
2. Light guiding element according to claim 1, wherein the edge region (2) has a plurality of discrete light entry regions (5).
[3]
3. Light guide element according to claim 2, in which - viewed in a section along the plane (E) - each of the light entry areas (5) has a concave central part (6) for bundling light rays of light, which in the relevant light entry area (5) enter the light-guiding element, a deflection area (7) being preferably formed on both sides of the central part (6) for further bundling of the light beams.
[4]
4. Light guide element according to claim 2 or 3, wherein the light entry areas (5) - each viewed in a section normal to the longitudinal axis (L) - have a concave structure, in particular in the form of a preferably centrally formed notch (8).
[5]
5. Light guiding element according to one of the preceding claims, in which the light exit region (3) is formed by a rod-like lens element (9) which is arranged at least substantially parallel to the longitudinal axis (L).
[6]
6. Light guiding element according to claim 5, in which the edge region (2) and the intermediate region (4) are formed by an at least substantially plate-shaped region.
[7]
7. light guide element according to claim 5 or 6, wherein the lens element (9) and the remaining light guide element are formed from one piece.
[8]
8. Light guiding element according to claim 5 or 6, in which the lens element (9) and the rest of the light guiding element are connected to one another via an adhesive connection or weld connection, for example a laser weld connection.
[9]
9. Light guiding element according to one of the preceding claims, further comprising
- A further side edge region (10) designed for the entry of the light, which extends parallel to the longitudinal axis (L) and thereby runs through the plane (E).
[10]
10. Arrangement for light emission, having
- an LED light source with several LEDs (1) for emitting a light,
- A light guide element according to one of the preceding claims, which is arranged such that the light at least partially enters the light guide element via the lateral edge region (2).
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Fig. 12
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Fig. 14
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法律状态:
2019-08-15| MM01| Lapse because of not paying annual fees|Effective date: 20181231 |

优先权:

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申请号 | 申请日 | 专利标题

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DE202014105391.3U|DE202014105391U1|2014-11-11|2014-11-11|Light guide for influencing a light emitted by LEDs light and arrangement for light output with such a light guide and light|

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