DE10341884B4 - Flexible circuit carrier arrangement - Google Patents

Abstract

Circuit carrier assembly with a support element (1) and one on the support element (1) to the plant bringable circuit carrier (3), the circuit carrier (3) comprising at least one with the circuit carrier (3) connected extension (4) and at least one on the circuit carrier extension (4) arranged electronic component (5), the connection between circuit carrier (3) and extension (4) comprising a flexible connection region (6), wherein the circuit carrier extension (4) on a positioning surface (7) of the support element (1) can be brought into contact and wherein the flexible connection area (6) between circuit carriers (3) and circuit carrier extension (4) when the carrier (1) brought to rest circuit carrier (3) forms a supply sheet (6), characterized in that on the support element (1) an adjusting element (2) can be fastened by its assembly on the support element (1) arranged on the circuit carrier extension (4) electronic component (5) is alignable, wherein the adjusting element (2) an adjusting projection (10) is arranged, which with a in the circuit carrier extension (4) provided Justierausnehmung (11) positive and a play-free fit is engageable, or where ...

Description

The The invention relates to a circuit carrier arrangement for arrangement electronic components, such as light emitting diodes, on a support element according to the preamble of claim 1

Out Electronic components existing circuits are in the most cases on flat Circuit boards, such as boards for printed circuits, arranged. Conventional printed circuit boards become usually by means of conventional SMD assembly process with the electronic components stocked, wherein the electronic components with the associated contact points of the Soldered board become.

The required accuracy of assembly or accuracy the positioning of the electronic components on the board is used in normal electronic components such as resistors, capacitors, Diodes or integrated circuits thereby essentially of Parameters such as packing density of the electronic components or Size of the electronic Components determined.

Higher expectations in terms of the accuracy of the positioning of the electronic components however, for example, relative to other functional components then on when using electronic components that have a have defined long-range effect. These include, for example, however not exclusive, electronic components such as light converters, e.g. Light emitting diodes or phototransistors, as well as ultrasonic transducers, for example ultrasound transmitters or Ultrasonic receiver, or in general all types of sensors.

such electronic converter modules must often, apart from the correct positioning on the board, especially aligned exactly in relation to other functional components become. Such other functional components include, for example Lens assemblies and ultrasonic or light reflectors. In the case of lenses or reflectors, each electronic converter modules such as. Light emitting diodes are assigned, is the exact alignment the respective transducer module relative to the associated reflector crucial for the correct function of the module.

So For example, the exact orientation of a light emitting diode is relative to the reflector associated with the LED crucial for the constructive intended bundling of the light emitted by the light emitting diode and for the evenly distributed radiation of the light beam in the intended direction.

It However, it is often difficult to use converter components such as On the one hand, correctly position LEDs on the board and to solder, and on the other hand at the same time Take care that the LED is in the exact right one Position relative to the associated Reflector is located. In addition, the available today, so-called super bright Light-emitting diodes are no longer used only for signal purposes, for example on electronic devices or displays, but rather serve more and more often Lighting purposes or come for large areas and in daylight visible signal purposes are used.

Especially in lighting and signal applications with particularly high safety and security Quality, as it is to be found, for example, in the automotive sector because of required brightness as well as security and design establish often an arrangement of a plurality or plurality of light-emitting diodes used within a single luminaire. That's the way it is, for example known in turn signals, brake or taillights of motor vehicles earlier used individual light bulbs each to be replaced by a plurality of light-emitting diodes corresponding to the shape and radiating surface the respective lamp often flat are arranged on a three-dimensionally shaped carrier.

one Such a light-emitting diode arrangement is then assigned a reflector, consisting of a plurality of individual reflectors, each LED a single reflector is assigned. However, the problem occurs on that every single light emitting diode both with an associated electronic To connect drive circuit is as well mechanically accurate positioned at the focal point of its associated single reflector must become. This positioning of all light emitting diodes of a lamp in the focal point of each associated individual reflectors must also maintained under all operating conditions and operating temperatures.

Out it is clear from what has been said that the requirements mentioned above barely fulfilled can be a multiplicity of, for example, light-emitting diodes is soldered to a circuit carrier and the thus equipped with LEDs circuit carrier then the respective multi-reflector is assigned.

Because even if the light-emitting diodes, which is not the case in practice, could be soldered so precisely to the circuit carrier that their position and their distances exactly the positions and distances of the individual reflectors of the Multire This would only apply to very specific climatic conditions or to very specific temperatures. Any change in these conditions or temperatures would cause the positioning of the light-emitting diodes relative to the individual reflectors of the multi-reflector would no longer be guaranteed, in particular due to thermal expansions, which are significant in the plastics used here.

This but also applies if, as known from the prior art is flexible or flexible circuit carrier or circuit board with flexible projections can be used, on which the light-emitting diodes are arranged. Such flexible circuit carrier can though the curved contours a light carrier are subject to the same tolerance problems with respect to the Accuracy of the assembly as well as regarding the dimensional change dependent on from the ambient temperature. Furthermore takes place with the known flexible circuit carriers no Tolerance compensation, such that when assembling the multi-reflector Positions and distances the LEDs to the positions and distances of the individual reflectors of the Multireflektors could be adjusted.

The DE 94 22 405 U1 describes a combination instrument for a motor vehicle whose electronic components are supplied with power via a printed circuit board. To position the circuit board to a system carrier serve pins that engage positively in slots on the circuit boards.

The US 6,292,370 and the DE 197 20 106 C2 describe in each case the use of flexible circuit carriers, wherein the flexible circuit carriers have a storage sheet.

With In this context, it is the object of the present invention a circuit carrier assembly for electronic To create components that the described disadvantages of the prior technology overcomes. In particular, it should be possible with the circuit carrier arrangement, electronic components with the normal assembly tolerances on the circuit carrier assembly but still accurate under all operating conditions Positioning of the electronic components relative to others functional components, such as reflectors to achieve.

These Task is achieved by a circuit carrier assembly according to the teaching of claim 1.

preferred embodiments The invention are the subject of the dependent claims.

The Circuit carrier arrangement according to the invention includes in itself first a known manner, a circuit carrier, such as the circuit board of a printed circuit, as well as a support element for supporting the Circuit carrier, the circuit carrier can be brought to the support element to the plant. The circuit carrier has in a manner also known per se, an extension, which has a flexible connection area connected to the circuit carrier is, wherein arranged on the extension of an electronic component is, and wherein the extension arranged on a on the support element positioning can be brought to the plant.

In also known per se, the positioning of the Support element, for example, angled relative to the surface of the support element be. If then the circuit carrier to the support element to the plant is brought so receives the circuit carrier extension due to the angular position of the positioning of the Supporting element also an angled position. The electric Connection between the arranged on the circuit substrate extension electronic Component and the circuit carrier extends over it the flexible Ver connection area between circuit carrier and Circuit board extension.

Generic draws the circuit carrier assembly characterized in that the flexible connection region between circuit carrier and circuit carrier extension forms a supply sheet, and that when circuit carrier or Circuit support extension brought on the support element or on the positioning surface for conditioning.

Of the Supply sheet serves the position of the circuit carrier extension and the electronic component arranged thereon relatively to the positioning surface the support element independently from the position of the circuit carrier relative to the support element even later change to be able to if the circuit carrier For example, already firmly connected to the support element. This means, that the impact of a variety of dimensional tolerances of a circuit carrier, support element, Circuit support extension and positioning surface as well Electronic assembly existing arrangement also then corrected can be, if both the device already soldered to the circuit board, the circuit support arranged on the support element and connected to the support element as well as the circuit carrier extension with the electronic component on the positioning of the Support element is brought to bear.

This is of particular importance when the circuit carrier has more than one extension and thus also more than one electronic component. That's the way it is, for example in motor vehicle lights known to use circuit carriers having a plurality of extensions, on each of which an electronic component, in this case a light emitting diode, is arranged. If such a circuit carrier is connected to the associated support member, then the flexibly or flexibly connected to the circuit carrier circuit support extensions come with the light emitting diodes arranged thereon in each case at the associated positioning surfaces to the plant.

On the arrangement of circuit carrier with light-emitting diodes and support element finally a multi-reflector is mounted, having a plurality of individual reflectors, each individual reflector associated with a light emitting diode. For proper function However, it is necessary for the luminaire to have each individual light-emitting diode is aligned exactly relative to its associated individual reflector. This separate alignment of each LED is included this example according to the invention allows that each LED or each light-emitting diode carrying circuit substrate extension a supply sheet is assigned, the subsequent alignment of each LED independent in all spatial directions from the other LEDs, regardless of the circuit carrier as well independently of tolerances or thermal expansions from circuit carrier or supporting element allowed.

For the invention it is irrelevant in which way the orientation of the individual LEDs or electronic components, for example, relative to the respective Single reflectors of a multireflector, finally done. It is for this purpose according to one preferred embodiment However, the invention, a positioning projection on the positioning of the support element arranged, with a arranged on the circuit support extension positioning in form-fitting Intervention can be brought.

According to the invention the circuit carrier assembly an adjustable element which can be brought into contact with the support element. there is arranged on the adjusting An Justiervorsprung, with an on Circuit support extension arranged Justierausnehmung can be brought into positive engagement. These is particular to the invention advantageous, insofar as the correct orientation of the arranged on the circuit substrate extensions electronic components in this way by the additional Ensures adjustment is, which not only the tolerances of the circuit board and the solder joint between circuit carrier and the electronic components, but also the support element itself balance and correct.

One Such Positioniervorsprung, for example in the form of a on the Level of the supporting element uplifting pin can be present when Assembly of circuit carriers and supporting element in the associated Positionierausnehmung the circuit carrier extension intervene and so the relative position of circuit carrier extension and electronic Ensure component relative to the positioning surface of the support element.

The Invention then proves to be particularly advantageous if, as this according to others embodiments the invention is provided, the electronic component is a light converter or ultrasonic transducer, or if the adjusting element is a reflector arrangement, for example, a multi-reflector of a motor vehicle tail lamp, is. Because then, for example, the first circuit carrier with the LEDs on the associated Support element can be arranged, the LEDs only initially a provisional, approximate Experience alignment and positioning.

The final, exact alignment and positioning of the LEDs then takes place simply by mounting the multireflector, simultaneously fulfilled the task of the adjustment. The exact alignment and positioning of the LEDs takes place in that arranged on each individual reflector of the multi-reflector Justiervorsprünge in the each arranged on the circuit carrier extension Justierausnehmungen engage and thus the relative position of each single circuit carrier extension or each individual LED relative to its associated Produce or ensure single reflector.

According to one another embodiment the invention, an adjusting recess is arranged on the adjusting element, with an arranged on the electronic component Justierkontur in form-fitting A handle can be brought. For example, the outer contour an electronic component itself, for example, the outer contour a light emitting diode, to be used, the exact alignment and Positioning of the electronic component relative to the adjusting element to ensure.

This is particularly advantageous as in this way also the assembly or soldering tolerances can be compensated. Because the final Positioning of the electronic component is then no longer on the Detour of the circuit carrier extension, but directly between the electronic component and adjusting, for example ie directly between LED and multi-reflector.

According to further preferred embodiments of the invention, the circuit carrier Regulation both pairings of positioning projections and positioning recesses and pairs of Justiervorsprüngen and Justierausnehmungen or as well as pairings of Justierausnehmungen and Justierkonturen on. In each case, a positioning projection and a positioning recess form a loose fit, while in each case an adjusting projection and an adjusting recess, or respectively an adjusting recess and an adjusting contour, form a backlash-free fit.

This In other words, when assembling the circuit carrier assembly, a first provisional, approximate Alignment of electronic components due to the loose fit between the positioning projections the supporting element and the positioning recesses of the circuit carrier extensions. Subsequently takes place during the assembly of the adjusting the final, exact Alignment of the electronic components due to the backlash-free Mating between the Justiervorsprüngen of the adjusting element and the Justierausnehmungen the circuit substrate extensions or between the Justierausnehmungen of the adjusting element and the Justierkonturen of the electronic components.

According to one another, preferred embodiment the invention has arranged on the positioning of the support element Positioning projection on an undercut, the opening cross-section behind the positioning recess of the circuit carrier extension engageable with the Positionierausnehmung. This is especially advantageous as in this way during assembly of the circuit board on the support element a provisional locking of the circuit carrier extensions to the positioning the support element can be made, which is the assembly of support element, circuit support and adjusting element or multi-reflector significantly simplified.

Of the Undercut of the positioning projection can just as easily be retrofitted, i. after the circuit carrier has been brought to the support element to the plant to be produced. This can for example be done by the raised end face of the first cylindrical Positioniervorsprungs for example by a heated punch or deformed by means of ultrasound forming so that a head formed on Positioniervorsprung and thus the fastening undercut on Positioning projection is made.

The Invention leaves to realize independently of type, material and structure of the circuit board, as long as the electronic Components arranged on circuit carrier extensions are, by means of a flexible or flexible connection area with the circuit carrier are connected. According to one particularly preferred embodiment However, the invention are circuit carrier, circuit carrier extension and flexible connection portion of a one-piece blank of a flexible Circuit carrier film or a flexible circuit carrier formed. This leads to a particularly easy to manufacture, robust, less prone to failure and as a result, cost-effective Circuit carrier assembly with the features according to the invention.

in the Normally, the supply sheet its function, for example by fulfill, that the flexible connection area between scarf carrier and Circuit support extension lifts off from the support element according to the dimension to be compensated. By the lifting of the connection area from the support element is a length compensation but only possible in one direction. According to one further, particularly preferred embodiment of the invention has Therefore, the support element in the area in which at on the Support element mounted circuit carrier of the supply arc of the circuit board to lie comes, a recess that record the supply sheet can. The recess is preferably shaped and their Depth chosen so that she can take the supply sheet even if this its maximum due to dimensional tolerances and thermal expansions expected size reached. This serves one as possible force-free Storage of the circuit carrier extensions and so that the electronic components on the positioning of the Supporting element, which facilitates the assembly of the circuit carrier assembly as a result and the accuracy of the positioning of the electronic components further increased.

in the The invention will now be described by way of example only illustrative drawings closer explained.

It demonstrate:

1 in a schematic side sectional view of a cutout region of an embodiment of the circuit carrier assembly according to the invention;

2 in a 1 corresponding representation of another embodiment of a circuit carrier assembly with a multi-reflector;

3 in a schematic perspective view of the circuit carrier of the circuit carrier assembly according to 2 ; and

4 in a 3 corresponding representation of the circuit carrier assembly according to 2 with removed multireflector.

1 shows a schematic sectional view of a section of an embodiment of the circuit carrier assembly according to the present invention. One first recognizes a support element 1 and an adjustment element 2 , Between support element 1 and adjusting element 2 is on the support element 1 a circuit carrier 3 arranged. The circuit carrier 3 has a circuit carrier extension 4 on which an electronic component 5 , in this case a light-emitting diode 5 , is arranged. The circuit carrier extension 4 with the LED 5 is by means of a flexible connection area 6 with the circuit carrier 3 connected.

At the in 1 illustrated embodiment, the entire circuit carrier 3 including flexible connection area 6 and circuit carrier extension 4 formed by a one-piece blank of a flexible or bendable circuit substrate. The support element 1 has a positioning surface 7 on which the circuit carrier extension 4 with the light-emitting diode arranged thereon 5 comes to the plant. The adjustment of the circuit carrier extension 4 with the LED 5 on the positioning surface 7 done by the adjustment 2 forming reflector 2 , which bundles the light from the LED 5 emitted light in the desired direction is used.

The positioning surface 7 of the support element 1 has a cylindrical positioning projection 8th on, with one to Positioniervorsprung 8th shape-corresponding positioning recess 9 of the circuit carrier extension 4 engages when the circuit carrier extension 4 on the positioning surface 7 is brought to the plant. However, the diameters of the positioning recess are 9 of the circuit carrier extension 4 or of the positioning projection 8th the positioning surface 7 chosen so that positioning recess 9 and positioning projection 8th form a loose fit with some radial play.

In other words, this means that the fit between Positionierausnehmung 9 and positioning projection 8th for a first, approximate adjustment and positioning of the circuit carrier extension 4 and thus the LED 5 relative to the positioning surface 7 of the support element 1 ensures as soon as the circuit carrier 3 with the light emitting diode 5 supporting circuit carrier extension 4 on the support element 1 is brought to the plant. The final, exact adjustment of the circuit carrier extension 4 or the light-emitting diode 5 takes place during installation of the reflector 2 , and that by the fact that the reflector 2 circuit carrier side arranged Justiervorsprung 10 with another at the circuit carrier extension 4 arranged recess, the Justierausnehmung 11 , comes into play.

Here are the diameter of the conical Justiervorsprungs 10 of the reflector 2 or the Justierausnehmung 11 of the circuit carrier extension 4 chosen so that when engaging the Justiervorsprungs 10 in the Justierausnehmung 11 a backlash-free fit and thus an exact alignment of the circuit carrier extension 4 relative to the reflector 2 results. In other words, that means when mounting the reflector 2 an automatic exact alignment of the circuit carrier extension 4 attached light emitting diode 5 relative to the reflector 2 he follows.

An exact alignment of the LED 5 relative to the reflector 2 is crucial for the luminous efficacy and luminance distribution of a high-quality reflector luminaire. The automatic alignment of the circuit carrier extension 4 and the light-emitting diode arranged thereon 5 during installation of the reflector 2 is also supported by the fact that the Justiervorsprung 10 of the reflector 2 is frusto-conical, so that initial misalignments of the circuit carrier extension 4 relative to the reflector 2 by sliding the edge of the Justierausnehmung 11 of the circuit carrier extension 4 on the inclined surface of the frusto-conical Justiervorsprungs 10 can be compensated automatically.

The at the reflector 2 arranged adjusting projection 10 comes with the mounting of the reflector 2 on the support element in a recess 12 of the support element 1 that the positioning surface 7 of the support element 1 permeates, to lie. The diameter of this recess 12 of the support element 1 is in turn larger than the diameter of the Justiervorsprungs 10 of the reflector 2 , so that even with mounted reflector 2 Relative movements between reflector 2 and support element 1 possible are. Join such relative movements between reflector 2 and support element 1 on, as for example when different heating of reflector 2 and support element 1 may be the case, then follows the circuit carrier extension 4 with the light-emitting diode arranged thereon 5 not the position of the support element 1 but the position of the reflector 2 ,

Thus, the exact alignment of the circuit carrier extension 4 or the light-emitting diode 5 relative to the reflector 2 independent of both the initial and a later deviating later position of the support element 1 , always guaranteed.

To the tolerances of the components of the circuit carrier assembly, in particular tolerances of the circuit carrier 3 , the support element 1 and to be able to record the reflector mount always safe both during assembly of the circuit carrier assembly as well as during later operation of the circuit carrier assembly forms the flexible connection 6 between circuit carriers 3 and circuit carrier extension 4 a supply sheet 6 , For holding the supply sheet 6 has the support element 1 at the bottom of the positioning surface 7 a recess 13 on top of the supply sheet 6 can record.

In other words, this means that, for example, the thermal expansions of support element which are unavoidable during operation of the circuit carrier arrangement 1 , Reflector 2 or circuit carrier 3 by appropriate stretching or bending of the supply sheet 6 can be compensated. In this way, the exact positioning of the circuit carrier extension remains 4 and the light-emitting diode arranged thereon 5 relative to the reflector 2 Even with relative movements between the modules of the circuit carrier assembly always obtained, and there are still no harmful material stresses, especially not in the range of circuit carrier extension 4 and light emitting diode 5 ,

This tolerance compensation is not limited to those movements that occur within the drawing plane of the 1 play. Rather, thanks to the supply sheet 6 also relative movements between circuit carrier extension 4 with light emitting diode 5 and circuit carrier 3 or support element 1 be compensated, perpendicular to the plane of the 1 run. To compensate for such relative movements perpendicular to the plane of the 1 becomes the supply sheet 6 Slightly twisted at the same curvature.

2 shows a further embodiment of a circuit carrier assembly. One first recognizes a support element 1 with five raised positioning surfaces shown in section 7 , From the cutting plane of the 2 Also included are five light emitting diodes 5 as well as five reflectors 2 belonging to a multi-reflector of a motor vehicle light. Based on the presentation of the 2 It becomes clear what significance the circuit carrier arrangement according to the invention possesses, for example, for the execution of high-quality motor vehicle lamps. For already in a motor vehicle light, which, as in 2 represented, for example, five light emitting diodes arranged in a line 5 that has the same circuit carrier 3 . 4 connected or on the same circuit carrier 3 . 4 are arranged, the tolerances occurring in production or in particular during operation can add up to an order of magnitude of several millimeters.

Such tolerances or displacements occur, in particular, when different components, for example a vehicle rear lamp, have different temperatures during operation. This is, for example only, regularly the case when a relatively cold vehicle is exposed to strong sunlight, resulting in the vehicle surface and thus the surface of the taillight with the multi-reflector 2 strongly heated and thus expands, while the lower lying in the vehicle support element 1 with the circuit carrier arranged thereon 3 has a lower temperature. Of course, however, the heat generated by the electronic components of the circuit substrate itself cause corresponding changes in length of the circuit substrate or other components of a circuit carrier assembly, which can be fully compensated by the circuit carrier assembly according to the invention.

Further in 2 are recognizable in the area 14 arranged further electronic components. These electronic components 14 are used to control the on the positioning surfaces 7 of the support element 1 arranged light-emitting diodes 5 and are also located on the one-piece circuit board 3 on which in the area of the circuit carrier extensions 4 the light-emitting diodes 5 are arranged. The other electronic components 14 come in the assembly of circuit boards 3 . 4 and support element 1 on the back of the support element 1 to lie by the circuit carrier 3 in the area 15 Drawing-related behind the local positioning surface 7 around a arranged there, in

2 concealed and thus not visible rounded edge of the support element 1 is guided around or bent around.

3 shows the circuit carrier 3 the circuit carrier assembly according to 2 in the flat, not yet bent state before bending or before mounting on the support element 1 , One recognizes in particular the circuit carrier extensions 4 , each with a light emitting diode 5 are equipped. Each circuit carrier extension 4 Recognizable each have a positioning recess 9 and an adjustment recess 11 on. The positioning recess serves for this purpose 9 as described above, the provisionally fixing engagement of the positioning projection 8th the positi onierfläche 7 on the support element 1 , The adjustment recess 11 however, by means of engagement of the reflector 2 according to 1 arranged Justiervorsprungs 10 the final exact adjustment and positioning of the circuit carrier extension 4 or the light-emitting diode 5 relative to the associated reflector 2 ,

Out 3 also shows that the circuit carrier 3 next to the in 2 recognizable five circuit carrier extensions 4 with the five light-emitting diodes arranged thereon 5 another four groups of circuit carrier extensions 4 with the respective associated light-emitting diodes 5 includes, the five groups by five finger-like stripes of the scarf tung carrier 3 be formed. In this way are on the in 3 illustrated circuit carrier 3 a total of 25 LEDs arranged. The other electronic components 14 on the circuit carrier in the drawing-related left area 14 are arranged, belong to the control electronics for the LEDs. at 16 is the plug for connecting the supply or control cable for the circuit carrier 3 or for the motor vehicle light.

4 Finally, the circuit carrier arrangement according to FIG 2 in a perspective view, wherein in the representation of 4 for better recognition of the structure of the circuit carrier assembly, the reflectors 2 the light-emitting diodes 5 or the multi-reflector has been omitted.

One first recognizes the support element 1 , the total of 25 angled positioning surfaces 7 having, each positioning surface 7 a circuit carrier extension 4 with the light-emitting diode arranged thereon 5 assigned. The curved contour of the support element 1 corresponds, for example, the curved course of the body rear of a motor vehicle, while the angular arrangement of the positioning 7 on the support element 1 Ensures that each of the 25 light-emitting diodes 5 radiates in the intended direction of illumination.

On the support element 1 of the 4 is the flexible or correspondingly curved circuit carrier 3 according to 3 arranged. It comes on every positioning surface 7 of the support element 1 an extension 4 of the circuit board 3 with the light-emitting diode arranged thereon 5 to the plant. You can see the double-sided each LED 5 arranged pairs of a respective positioning 9 and a Justierausnehmung 11 , In the positioning recess 9 already accesses the associated positioning projection 8th the respective positioning surface 7 and thus holds the respective circuit carrier extension 4 with the respective light emitting diode 5 provisionally near the intended end position.

The final and exact adjustment of the circuit carrier extensions 4 with the light-emitting diodes arranged thereon 5 takes place during assembly of the in 4 not shown multi-reflector 2 , the drawing-related from the left side to support element 1 and circuit carrier 3 . 4 is brought to the plant. For each of the 25 light-emitting diodes 5 the adjusting projection 10 of the respective single reflector 2 free of play in the adjustment recess 11 of the respective circuit carrier extension 4 and thus ensures an exact alignment and adjustment of the circuit carrier extension 4 and the light emitting diode 3 relative to the associated individual reflector 2 ,

Out 4 also clearly shows in what way the flexible circuit carrier 3 . 4 according to 3 a large part of the surface of the support element 1 covering or encompassing on the curved or curved surface areas of the support element 1 is brought to the plant. at 15 each surrounds one of the finger-like strips of the circuit substrate 3 according to 3 the rounded edge located there 15 of the support element 1 , whereby the connection between the five light-emitting diode groups with which on the back of the support element 1 located surface area 14 of the circuit board 3 will be produced. There are, as already in the 2 and 3 shown, the components of the control electronics 14 for the light-emitting diodes 5 of the circuit board 3 , In addition, in this area is also in 3 to see connector 16 the circuit carrier arrangement or the motor vehicle light 1 . 2 . 3 arranged.

The attachment of the circuit board 3 on the curved surface of the support element 1 For example, by gluing or by a plurality in 4 Not shown locking elements take place in an equally large number of in 4 Also not shown recesses of the circuit substrate 3 intervention.

in the The result is thus clear that thanks to the circuit carrier arrangement according to the invention now possible is, electronic components, in particular light-emitting diodes, with large spatial degrees of freedom to be arranged, wherein on a single common circuit substrate both a variety of light emitting diodes as well as the entire control electronics can be accommodated.

there is ensured at the same time thanks to the invention that the electronic Components, such as LEDs, regardless of any tolerance chains or thermal length changes of components of the circuit carrier assembly always the exact provided position and orientation, for example relative to a single reflector of a multi-reflector, maintained.

On This way can be, among other extremely high quality car lights high reliability due to high functional integration also inexpensive to manufacture and above out big allow constructive and creative degrees of freedom.

Claims (9)

Circuit carrier arrangement with a carrier element ( 1 ) and one on the support element ( 1 ) can be brought to the plant circuit carrier ( 3 ), the circuit carrier ( 3 ) comprising at least one with the circuit carrier ( 3 ) associated extension ( 4 ) and at least one on the circuit carrier extension ( 4 ) arranged electronic component ( 5 ), the connection between circuit carriers ( 3 ) and extension ( 4 ) comprising a flexible connection area ( 6 ), wherein the circuit carrier extension ( 4 ) on a positioning surface ( 7 ) of the support element ( 1 ) and wherein the flexible connection area ( 6 ) between circuit carriers ( 3 ) and circuit carrier extension ( 4 ) at the support element ( 1 ) brought to the plant circuit carrier ( 3 ) a supply sheet ( 6 ), characterized in that on the support element ( 1 ) an adjusting element ( 2 ) is fastened, by its mounting on the support element ( 1 ) that on the circuit carrier extension ( 4 ) arranged electronic component ( 5 ) is alignable, wherein the adjusting element ( 2 ) an adjusting projection ( 10 ) arranged with a in the circuit carrier extension ( 4 ) provided Justierausnehmung ( 11 ) in a form-fitting manner and a play-free fit can be brought into engagement, or wherein the adjusting element ( 2 ) an adjusting recess ( 11 ) provided with an electronic component ( 5 ) arranged adjusting contour form-fitting and a backlash-free fit forming engageable. Circuit carrier arrangement according to claim 1, characterized in that on the positioning surface ( 7 ) of the support element ( 1 ) a positioning projection ( 8th ) arranged with a on the circuit carrier extension ( 4 ) arranged Positionierausnehmung ( 9 ) can be brought into positive engagement. Circuit carrier arrangement according to Claim 2, characterized in that the positioning projection ( 8th ) and positioning recess ( 9 ) form a loose fit. Circuit carrier arrangement according to one of claims 2 to 6, characterized in that the positioning projection ( 8th ) a the Positionierausnehmung ( 9 ) has undercut undercut. Circuit carrier arrangement according to one of claims 1 to 4, characterized in that the electronic component ( 5 ) is a light converter, ultrasonic transducer or sensor, in particular an optical sensor, thermal sensor or capacitive sensor, is. Circuit carrier arrangement according to one of claims 1 to 5, characterized in that the adjusting element ( 2 ) is a reflector assembly, a housing part, a prism part or part of a light guide element. Circuit carrier arrangement according to one of Claims 1 to 6, characterized in that circuit carriers ( 3 ), Circuit carrier extension ( 4 ) and flexible connection area ( 6 ) are formed by a one-piece blank of a bendable circuit carrier or of a flexible circuit carrier film. Circuit carrier arrangement according to one of claims 1 to 7, characterized in that the support element ( 1 ) in the area of the supply sheet ( 6 ) of the flexible connection area ( 6 ) between circuit carriers ( 3 ) and circuit carrier extension ( 4 ) a recess ( 13 ) for receiving the supply sheet ( 6 ) having. Circuit carrier arrangement according to one of claims 1 to 8, characterized in that the dimensions of the recess ( 13 ) Due to dimensional tolerances, thermal expansion and the like. Of support element ( 1 ), Circuit carriers ( 3 ) and reflector arrangement ( 2 ) correspond to the maximum expected size of the supply sheet.