vehicle headlights

专利摘要:
In a vehicle headlamp comprising a light module (1) with a light source carrier (3), with at least one light source (17) and one of the at least one light source (17) associated reflector part (5), wherein referencing elements (24) on the reflector part (5) with corresponding Referencing (25) on the light source carrier (3) can be brought into operative connection, the light source carrier (3) in a guide part (2) with guide rails (6) for the reflector part (5) can be inserted and the reflector part (5) has a light source carrier (3 ) associated with the carrier light source (3) along the guide rails (6), wherein the guide rails (6) are formed to the referencing elements (24) on the reflector part (5) during insertion of the light source carrier (3) with the corresponding referencing elements (25) on the light source carrier (3) in operative connection.
公开号:AT516303A1
申请号:T50683/2014
申请日:2014-09-24
公开日:2016-04-15
发明作者:Markus Grafeneder；Thomas Schlinger；Sebastian Godderidge；Jürgen Zorn
申请人:Zizala Lichtsysteme Gmbh；
IPC主号:

专利说明:

vehicle headlights
The invention relates to a vehicle headlamp comprising a light module with a light source carrier, with at least one light source and a reflector part associated with the at least one light source, wherein referencing elements on the reflector part can be brought into operative connection with corresponding referencing elements on the light source carrier.
The LED technology is now widely used in modern vehicle headlights and allows on the one hand very high luminous efficiencies and due to the small size of the Licht¬quellen and other parts of the system great design freedom in the headlights De¬. On the other hand, in the assembly of the individual parts of a light module of an LED headlamps greater accuracy and precision than in conventional Glühfaden- or halogen systems, since the very small light sources must be aligned with high precision with respect to the corresponding reflector parts to the strict legal requirements with respect to the light image and in particular with regard to the avoidable blinding of oncoming traffic.
When manufacturing the light source carriers or the printed circuit boards, when the same is used with the LED light sources, slight inaccuracies with respect to the positioning occur, which is why the corresponding reflectors can not simply be positioned with respect to the edges of the light source carrier due to said high precision requirements. Rather, after the placement process, the actual positions of the LEDs must be determined and, depending on this, corresponding referencing marks made. In this case, it is customary to make the reference marks on the light source carrier as referencing holes, with which corresponding referencing pins can be brought into operative connection with the respective reflector parts, i. in which the referencing pins can intervene, so that the reflector part can be aligned and mounted with respect to the actual position of the LED light sources. While this solution is completely satisfactory in the initial assembly of a vehicle headlamp, it entails disadvantages for the exchange of used LED light sources by the vehicle tool holder insofar as it would be necessary to disassemble the headlamp or at least largely to handle the reflector parts in the prior art to dismantle to get to the reflector parts to separate them from the light source carrier and connect to a new light source carrier can. This is clearly unreasonable for the user, and it is at all considered to be unfavorable for parts such as reflectors to be exposed, since they have a mechanically highly sensitive reflective coating, in which only fingerprints already lead to considerable losses in performance of the corresponding headlamp.
The invention is therefore based on the object to improve the replacement of LED light sources da¬hingehend that a replacement part with the LEDs can be pushed largely without the Verwen¬dung of tools in the headlight and re-referencing or align the Reflectors to the LEDs reliably and without manipulation of the reflectors by the user takes place.
To achieve this object, a vehicle headlamp of the type mentioned erfin¬dungsgemäß further developed such that the light source carrier is inserted into a guide part with guide rails for the reflector part and the reflector part has a the light source carrier associated driver for common displacement of Reflektor¬teils with the light source carrier along the guide rails , wherein the guide rails are formed to bring the Referenzierelemente on the reflector part during insertion of the light source carrier with the corresponding Referenzierelementen at the light source carrier inWirkverbindung. Characterized in that a guide member is provided for the light source carrier, further comprising guide rails for the reflector part, in which the Reflek¬torteil is brought by the action of a driver when inserting the new light source carrier in the Referenzierelemente or holes on the light source carrier, he ¬referenieren the reflector part as it were automatically when inserting the Aus¬tauschteils, ie of the light source carrier without the reflector part having to be stirred in any way. Here, it is not a problem that the Referenzierbohrungen, as described above, due to the slightly different positioning of the LEDs may also be located at slightly different positions of the board, since the differences are considered to be permissible boards so small that the Referenzierstifte the Reflector part still in the Find appropriate Referenzierbohrungen and the exact position until the very last, at the end of insertion of the light source carrier entspricht.Der vehicle headlights invention thus allows a simple and fast
Changing the LED light sources with automatic re-referencing of the reflector part, so that the reflectors do not need to be removed or even touched to align them with respect to the new LED positions.
The vehicle headlight according to the invention is preferably further developed such that the light source carrier comprises a board on which the light sources and the referencing elements are arranged. The light source carrier thus consists of a carrier part, on which a circuit board or printed circuit board, which carries the light sources, can be fixed. While it is thus conceivable within the scope of the present invention to determine the light sources even without a printed circuit board on the light source carrier, in which case the referencing elements are on the carrier part, for example in the form of bores in the carrier part, the preferred variant will also be described in detail below is to arrange the light sources on a board, in which case the Referenzierelemente are on the board and the board is in turn arranged on the support member. When referring to the board in the following description, the corresponding information can also be applied to the case that the light sources are arranged directly on the support part without the interposition of a board.
According to the invention, the driver for the reflector part ensures that the reflector part is pushed along the guide rails during insertion of the light source carrier into the guide part, the design of the guide rails being suitable for removing the reflector part from a position in which the referencing elements or pins on the reflector part do not engage in the corresponding referencing elements or holes on the light source carrier, to spend in a position in which the referencing elements or pins cooperate with the Referenzie rele- ments or -bohrungen. It will be apparent to those skilled in the art that in the case of bores and pins, this must result in a lowering of the reflector portion in the direction of the board to bring the pins into the holes. On the other hand, when the light source carrier is pulled out, the reflector part must be raised from the board to expose the reflector part. As long as the Referenzierstiftein the Referenzierbohrungen, the reflector part is moved when pulling out the Licht¬ source carrier together with this and lifted by the action of the guide rails. However, as soon as the referencing pins are disengaged, there is no further displacement in the guide rails and thus no additional lifting movement of the reflector part can be brought about. Consequently, the reflector part is at the other
Pulling out the light source carrier at least with the Referenzierstiften on the Leiterzü¬gen the board and may cause further pulling out scratches on the surface of the board and in particular on the conductor tracks of the board. To remedy this situation, it is provided according to a preferred embodiment of the present invention that an ejector for the reflector part is provided on the light source carrier to move the reflector part in a release position when pulling out the light source carrier along the guide rails, in the referencing with the reflector part ¬tels the guide rails are raised in an exempted from the conductor tracks of the light source carrier position. It is thus provided a separate component, which ensures a displacement of the Reflektorteils along the guide rails when pulling out the light source carrier also then, if the Referenzierstifte through the guide in the guide rails are no longer engaged with the Referenzierbohrungen in the board, so a Füh¬rung in the guide rails so long can take place until the Referenzierstifte by the Wir¨kung the guide rails when pulling out the reflector part, which according to the invention results in a displacement of the reflector member in the guide rails of the guide member, are sufficiently spaced from the board, so that it upon complete withdrawal of the light source carrier to no damage of circuit traces of the board through the Refe¬renzierstifte comes.
In order to ensure a good guidance of the reflector part on the light source carrier, the invention is preferably further developed such that the driver on the reflector part Refe¬renzierbohrungen for the engagement of Referenzierstiften at the light source carrier. LED light sources have a high energy density, which is why, as a rule, precautions must be taken in order to dissipate the heat, which occurs very selectively in the area of the LED light sources, from the circuit board in an efficient manner. In this context, the invention is therefore preferably further developed such that the light source carrier is designed as a heat sink for the light sources. The light source carrier, which provides in its basic function a flat mounting surface for the light sources or for the circuit board is made according to die¬ser preferred embodiment of a material which has the best possible thermal conductivity and has a sufficient mass around the heat occurring punctually on the board in the area of the LED light sources and distributed in Kühlkör¬per.
In this context, it is particularly preferred if the light source carrier consists of cast aluminum and has a plurality of cooling elements at its end facing away from the board.
Unlike the light source carrier, the guide part according to a preferred embodiment of the present invention consists of plastic. On the one hand, plastics can be well injection-molded and on the other hand they demand sufficient strength and good durability of the guide.
In the previous description and in the claims was spoken by a Reflektorteil, which is displaced in guide rails for a reflector part when the Licht¬quellenträger is inserted with the board in the guide member or pulled out of the guide member to the referencing elements or pins on Reflector part with the corresponding Referenzierelemente or holes in the board into engagement and bring out of engagement. In this case, according to a preferred embodiment of the present invention, it can be provided that the reflector part comprises a plurality of reflectors. As will become clearer from the description of the figures below, the reflector part can form a plurality of reflectors in interaction with the corresponding ones LED light sources of different light functions of the vehicle headlight er¬ possible.
Although the invention has hitherto mainly been described with reference to a light source carrier, a plate and a reflector part, it can be provided according to a preferred embodiment of the present invention that guide rails for at least two with respect to the light source carrier plane or the reflector part opposite reflector parts are formed, all described details can apply in the same way for the opposing reflector parts and the associated circuit boards and guide rails.
As already mentioned several times, it is preferred in connection with the present invention that the at least one light source is designed as an LED light source. However, the invention can also be used advantageously wherever very small light sources, which require a particularly precise alignment of the corresponding reflectors due to their small size, can be used in a vehicle headlight.
The invention will be explained in more detail below with reference to an embodiment schematically illustrated by the drawing. In this show
Fig. 1 is an overall perspective view of a light module according to the invention;
FIG. 2 shows a perspective view of the pair of guide rails for the reflector part; FIG.
Fig. 3 is a perspective view of a guide member for a vehicle headlamp according to the invention;
4 is a perspective view of a light source carrier comprising a circuit board; 5 and FIG. 6 reflector parts in perspective view;
7 is a sectional view through a light module of a vehicle headlight according to the invention;
FIG. 8 is a detailed view of the area indicated by circle A of FIG. 7; FIG.
Fig. 9 is a sectional view of the light module with reference pins in engagement with the board;
10 shows a representation of the light module according to FIG. 8, in which the referencing pins do not engage in the board; and
Fig. 11 is a perspective view of two reflector parts and the associated guide rails.
In Fig. 1, a light module of a vehicle headlamp according to the invention is denoted by 1.The light module 1 consists of a guide member 2, in which a ausgebil¬deter as a heat sink light source carrier 3 can be inserted with cooling elements 4. When inserting the light source carrier 3 into the guide part 2, a reflector part 5 (or 5 ') is displaced along guide rails 6, wherein, as can already be seen in FIG. 1, the guide rails 6 are shaped in such a way that when the light source carrier 3 is displaced In the direction of the arrow 7 and thus when moving the reflector part 5 (or 5 ') in the direction of the arrow 7 due to the inclined arrangement of the guideways of the guide rails 6 lowering of the reflector part 5 in the direction of the arrow 8 takes place. Likewise, the reflector part 5 'is displaced in the direction of the arrow 9 during insertion. Denoted at 10 is a cover.
In Fig. 2, a pair of guide rails 6 in a part of the guide part 2 is shown. The pair of guide rails 6 is inclined with respect to a light source support plane E symbolized by the two dashed lines and is suitable for receiving and guiding reflector parts (not shown in FIG. 2). With a bore 11 is designated, which serve to set the part shown in FIG. 2, wherein, for example, screws, not shown, the Boh¬rung 11 and the holes 12 in FIG. 3 can enforce the determination. Furthermore, pins 13 and 13 'engage corresponding holes 14 and 14', respectively (Figure 3). In addition, it can be seen in FIG. 3 that the guide part 2 has a large recess 15 into which a light source carrier 3 (not shown in FIG. 3) can be inserted.
FIG. 4 now shows the light source carrier 3 with a board 16 fixed on the carrier part 20 of the light source carrier 3 with LED light sources 17 located thereon. The light source carrier 3 essentially provides a planar contact surface 18 for the circuit board 16, the pla ¬tine 16 is fixed in the present case by means of screws 19, but the setting can also be carried out in any other conceivable way. It is obvious to the person skilled in the art that, opposite the support surface 18, a further support surface can be provided, on which all functionalities already described and yet to be described can be realized identically. Denoted by 4 are cooling elements which serve to release the heat generated at the LED light sources 17, which is dissipated by the carrier part 20, to the environment and thus to provide efficient cooling of the LED light sources 17. Fixing tabs 29 serve to fix the Lichtquellenträgers3 on the guide part 2. Furthermore, 21 referencing pins for corresponding Referenzierboh-ments on the reflector part are shown. Fig. 4 also shows an opening 30 in the immediate vicinity of a plug 31 on the board, which makes it possible to disconnect the board from a corresponding cable before extracting the lots (3).
In Fig. 5, a reflector part 5 is shown, which has a driver 22 with a referencing bore 23 for the referencing pin 21 shown in FIG. The reflector part 5 has reference pins 24 which can engage in corresponding reference bores 25 in the board 16 when the reflector part 5 is in a correct position with respect to the LED light sources 17 (see Fig. 4). This is ensured by the action of the guide rails 6, which interact with corresponding rails 26 on the reflector part 5.
The parts just described are in the illustration of the second reflector part 5 'according to FIG. 6 provided with the same reference numerals.
In Fig. 7 it can be seen that the light source carrier 3 with the drivers 22 of the Reflektor¬teile 5 and 5 'cooperates, the reflector parts 5 and 5' during insertion of the Licht¬stellenträgers 3 in the direction of the arrow 7 along the guide rails. 6 in the direction of arrows 8 and 9, ie be moved to the respective board 16 to.
In Fig. 8, an ejector 27 is shown on the light source carrier 3, which cooperates with a corresponding counterpart 28 on the reflector part 5 to move the reflector part 5 in a Her¬ausziehen the light source carrier 3 along the guide rails 6 in a release position in which Referencing pins 24 shown in Figs. 8 and 9 are raised in a position exempted from the traces of the board 16.
As already mentioned, this can be recognized in FIG. 9, where the referencing pins 24 engage in the circuit board 16 and in particular in the reference bores 25 in the circuit board 16, and for optimal alignment of the reflector part 5 with the LED light source sources (not shown in FIG. 9) , While FIG. 9 shows the state in which the light source carrier 3 has been inserted into the guide part 2, so that the reflector part 5 has been pushed forwards along the guide rails 6 together with the light source carrier 3, around the referencing pins 24 on the reflector part 5 when inserting the light source carrier 3 with the Referenzier¬ holes 25 in the board 16 to bring into operative connection, a state is shown in Fig. 10, in which the light source carrier 3 has been withdrawn, whereby by the action of the ejector 27, the reflector part 5 to the rear pulled and thereby pushed upward (arrow 9), so that the Referenzierstifte 24 are no longer in engagement with the Referenzierboh¬ ments 25 on the board 16. By the action of the driver 27, which could cooperate with the Gegengen 28, the reflector part 5 has been raised so far that a sufficient distance between the Referenzierstiften 24 and the circuit traces of the board 16 was prepared to damage the board 16 in further pulling the light source carrier 3 avoid.
As already mentioned above, all the described functionalities can also be found on the underside of the light source carrier 3, i. on the underside of the carrier part 20, be achieved (concerning reflector part 5 '), the present description for purposes of brevity and clarity largely on the repetition of the functions and functional sequences ver¬.
FIG. 11 again shows the interaction of the reflector part 5 with the guide part 2, and it can be seen that the rails 26 cooperate with the reflector parts 5 with the corresponding guide rails 6 in order to provide guidance of the reflector part 5 (resp. 5 ') in such a way that the referencing pins 24 on the reflector part 5 or 5' during insertion of the light source carrier 3, not shown in FIG. 10, interact with the corresponding reference bores in the circuit board.
LIST OF REFERENCES: 1 vehicle headlight 2 guide part 3 platinum support 4 cooling elements 5,5 'reflector 6 guide rail 7, 8, 9 arrow 10 aperture 11 bore 12 bore 13 referencing pin 14 Referenzierbohrung 15 recess 16 board 17 LED light source 18 support surface 19 screw 20 support member 21 referencing 22th Driver 23 Bore 24 Referencing pin 25 Referencing hole 26 Rail 27 Ejector 28 Counterpart 29 Fastening tab 30 Opening 31 Plug

权利要求:
Claims (10)
[1]
Claims 1. A vehicle headlight comprising a light module (1) with a light source carrier (3), with at least one light source (17) and a reflector part (5) assigned to the at least one light source (17), wherein referencing elements (24) on the reflector part (5 ) can be brought into operative connection with corresponding referencing elements (25) on the light source carrier (3), characterized in that the light source carrier (3) can be inserted into a guide part (2) with guide rails (6) for the reflector part (5) and the reflector part (5 ) a the light source carrier (3) associated with driver (22) for the common displacement of the reflector portion (5) with the light source carrier (3) along the guide rails (6), wherein the guide rails (6) are formed to the Referenzierelemente (24) on Reflek¬ When inserting the light source carrier (3) with the corresponding Referenzie¬relementen (25) on the light source carrier (3) bring in operative connection.
[2]
2. Vehicle headlight according to claim 1, characterized in that the Lichtquel¬lenträger (3) comprises a board on which the light sources and the Referenzierelemente (25) are arranged.
[3]
3. Vehicle headlight according to claim 2, characterized in that the light source carrier (3) an ejector (27) for the reflector part (5) is provided to the reflector part (5) upon withdrawal of the light source carrier (3) along the guide rails (3). 6) to a release position in which referencing pins (24) on the reflector part (5) are raised by means of the guide rails (6) to a position released from the tracks of the light source carrier (3).
[4]
4. Vehicle headlight according to one of claims 1 to 3, characterized in that the driver (22) on the reflector part (5) has at least one Referenzierbohrung (23) for the Ein¬griff of Referenzierstiften (21) on the light source carrier (3).
[5]
5. Vehicle headlight according to one of claims 1 to 4, characterized in that the light source carrier (3) is designed as a heat sink for the light sources (16).
[6]
6. Vehicle headlight according to one of claims 1 to 5, characterized in that the light source carrier (3) consists of cast aluminum and at its end facing away from the board (16) end a plurality of cooling elements (4).
[7]
7. Vehicle headlight according to one of claims 1 to 6, characterized in that the guide part (2) consists of plastic.
[8]
A vehicle headlamp according to any one of claims 1 to 7, characterized in that the reflector part (5) comprises a plurality of reflectors.
[9]
9. Vehicle headlight according to one of claims 1 to 8, characterized in that on guide part (2) guide rails (6) for at least two mutually with respect to the light source support plane (E) opposite reflector parts (5,5 ') are formed.
[10]
10. Vehicle headlight according to one of claims 1 to 9, characterized in that the at least one light source (17) is designed as an LED light source.

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法律状态:
2016-11-15| HC| Change of the firm name or firm address|Owner name: ZKW GROUP GMBH, AT Effective date: 20161014 |

优先权:

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申请号 | 申请日 | 专利标题

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ATA50683/2014A|AT516303B1|2014-09-24|2014-09-24|vehicle headlights|ATA50683/2014A| AT516303B1|2014-09-24|2014-09-24|vehicle headlights|

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CN201580051729.4A| CN106687741B|2014-09-24|2015-09-07|Automobile front lamp|

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US15/513,739| US10247379B2|2014-09-24|2015-09-07|Vehicle headlamp|

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JP2017516053A| JP6289746B2|2014-09-24|2015-09-07|Vehicle headlamp|

---

PCT/AT2015/050216| WO2016044870A1|2014-09-24|2015-09-07|Vehicle headlamp|

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EP15810726.8A| EP3180562B1|2014-09-24|2015-09-07|Vehicle headlamp|