WO2019158282A1

WO2019158282A1 - Luminaire module, arrangement, set, method, headlight and vehicle

Info

Publication number: WO2019158282A1
Application number: PCT/EP2019/050510
Authority: WO
Inventors: Thomas Feil; Daniel Weissenberger
Original assignee: Osram Gmbh
Priority date: 2018-02-19
Filing date: 2019-01-10
Publication date: 2019-08-22
Also published as: DE102018202464A1

Abstract

The invention relates to a luminaire module having at least one light source. The luminaire module allows for at least two different lighting functions and the respective lighting function can be initially selected by means of a selector.

Description

LUMINAIRE MODULE, ARRANGEMENT, SET, PROCEDURE, HEADLIGHTS

AND VEHICLE

DESCRIPTION

The invention relates to a lamp module according to the preamble of claim 1, of an arrangement according to the preamble of claim 11, a set of egg nem method for the arrangement of a headlight and a vehicle.

In order to output different light functions, for example in the case of a vehicle headlight, a dimming light and / or a fog light, different light modules are used for a respective light function. A disadvantage is a high production cost and high costs for the different lighting modules.

The object of the present invention is to provide a luminous tenmodul, which leads to a cost reduction in a lamp or a headlamp, and an arrangement that leads to a cost reduction in a lamp or a headlamp. It is another object of the invention to provide a cost-effective set, as well as a method which leads to a cost reduction in egg ner luminaire or a headlamp. Another object of the invention is to provide a cost-effective headlight and a vehicle.

This object is achieved with regard to the luminaire module according to the features of claim 1, with regard to the arrangement according to the features of claim 11, with regard to the set according to the features of claim 18, with regard to the method according to the features of claim 1. Claim 19, with regard to the headlamp according to the features of claim 21 and with respect to the vehicle according to the features of claim 22.

Particularly advantageous embodiments can be found in the dependent claims.

According to the invention, a luminaire module is provided. This can be provided, for example, for a headlight, in particular for a vehicle headlight. The luminaire module can have at least one light source. By means of this light source, at least two different light functions can preferably be output or provided by the light module. Advantageously, one of the outputable light functions initially, for example, during assembly or before assembly or after installation of the lamp module, at least one adjusting means adjustable.

This solution has the advantage that with a single lamp module, depending on the setting, different, for example, at least two different light functions can be output. In other words, only one type of luminaire module is necessary for the realization of different lighting functions. As a result, it is possible to advantageously reduce the production costs of a headlamp with the luminaire module, since no different luminaire modules are necessary for different light functions. Also, a logistics and / or storage of the lamp module or in particular a plurality of lamp modules can be simplified, since different lighting functions can be realized with the same lighting module. Storage and logistics can thus turn on one Restrict lighting module for different lighting functions. If, for example, a vehicle headlamp has a luminaire module for a fog light and a light module for a dipped beam, then a respective respective light function can be formed with the same light module. It only requires an initial selection of the light function. Initial selection of the Lichtfunkti on, for example, mean that after the SET ment and / or the selection of the light function, example, as part of a mounting of the lamp module in a headlight, no change in the light function is more pre-see.

A light function can be, for example, an emitted light of at least one light source with a specific color location and / or with a specific luminous flux. A change of the radiation, for example a change of a color location by a change of the color, or a dimming of the light source can represent a further light function. The lighting functions are preferably designed in accordance with the regulations of the Economic Commission for Europe of the United Nations (UNECE). Alternatively, lighting functions are possible that do not comply with these regulations.

To provide at least two different light functions, at least two light sources may be provided in the luminaire module. These may be, for example, individually electrically contacted, so that, for example, only a part of the light sources or all the light sources are contacted. For example, one part of the light sources may be de-energized while another part is energized. By a change of the energized Part of the light sources can advantageously be a wei tere light function can be output by the lamp module.

Advantageously, a luminaire optics may be provided in the luminaire module, which unifies an output light distribution in a plurality of Lichtquel len. Thus, for example, a radiation brightness of the individual light sources can be adjusted so that a uniform light distribution results for the luminaire module. Advantageously, at least two light sources can be adjacent to one another without a slightly negative effect on the emitted radiation due to slightly different brightnesses of the individual light sources.

A light source or a plurality of the light sources can be designed, for example, as a light-emitting diode (LED) or light-emitting diode. In this case, the light source can be configured, for example, as a red, or a blue, or a green LED. The terms red LED or blue LED or green LED or infrared LED be respectively draw a red light or blue light or green light or infrared radiation emitting LED. If at least three differently colored LEDs are provided in the abovementioned colors, light functions are preferably made possible in the entire "RGB color space." Furthermore, the LEDs can be configured such that they emit light of yellow, blue, warm white or cold white color, for example Infrared-emitting LEDs are also conceivable, which means that, for example, light functions in different colors can be output by the luminaire module. be advantageously individualized functions, for example, for different vehicle and / or headlamp manufacturers and initially, for example during assembly, are selected. An output light function is therefore initially customizable or individua lisierbar. By using different colors, which preferably comply with the applicable standards, also a high signal effect of the output light function can be achieved. Furthermore, LEDs are very inexpensive to produce, since they are manufactured in very large quantities GE. The use of LEDs as Lichtquel len thus costs can be saved in the production of the Leuchtenmo module. In addition, LEDs can be soldered with ease as a surface mounted device (surface mounted device SMD) on device technology simple way simply on a board of the lamp module.

An LED may be in the form of at least one individually packaged LED or in the form of at least one LED chip having one or more light-emitting diodes, or in the form of a micro-LED. Multiple LED chips may be mounted on a common substrate ("submount") and form an LED or may be mounted individually or collectively on a circuit board (eg, FR4, metal core plates, or the like) ("CoB" = chip on Board). The at least one LED can be equipped with at least one own and / or common optics for beam guidance, for example with at least one fres nel lens or a collimator. Instead of or in addition to inorganic LEDs, for example based on AlInGaN or InGaN or AlInGaP, it is generally also possible to use organic LEDs (OLEDs, for example polymer OLEDs). settable. The LED chips can be directly emitting or have an upstream phosphor. Alternatively, the light emitting component may be a laser diode or a laser diode array. It is also conceivable to provide an OLED luminescent layer or a plurality of OLED luminescent layers or an OLED luminescent region. The emission wavelengths of the light-emitting components can be in the ultra-violet, visible or infrared spectral range. The light-emitting components can additionally be equipped with their own converter. Preferably, the LED chips emit white light in the standard ECE white field of the automotive industry, for example realized by a blue emitter and a yellow / green converter.

The LEDs may be direct-emitting LEDs or so-called phosphor-converting LEDs, in which the light emitted by the LEDS, usually blue light, on a downstream phosphor, usually a yellow light converting phosphor, falls and partially umgewan converted into yellow conversion light which, together with the non-converted blue component results in white useful light.

The lighting module, for example, be used for a vehicle light or for a vehicle headlight of a driving tool. For applications in a vehicle headlight is the white point of the useful light, preferably before in a so-called white field that meets the ECE R48 standard. Preferred applications may be stationary and / or fog and / or position lights. Additional non-automotive applications may include, for example, night vision devices and / or infrared cameras. It is also conceivable, the lighting module, for example, in Klei tion, for example, in a safety vest to integrate, which se by a computing unit on certain incident, for example, in traffic, for example, with a warning light function respond.

The at least one adjusting means may be a mechanical switch. By this, at least one light function for the lamp module initially, for example, during assembly or before assembly or after assembly of the lamp module can be set with advantage. The switch can be arranged for example on a housing of the lamp module or on a circuit board of the light tenmoduls. The switch can example, manually switched ge before mounting the lamp module. By the switch can advantageously, on device-technically simple way, initially a light function for the lamp module be adjustable.

As an alternative or additional adjustment, for example, at least two contacts, such as sliding contacts, in particular be provided on a housing of the light tenmoduls. In this case, the housing of the lamp module may have a particular pedestal-like and / or cylindrical portion, on the Außenum fangsfläche a key lug or a plurality of key lugs are provided, which have the contacts. In other words, the contacts may be formed on a bayonet closure of the luminaire module. The contacts can be different electrically clocked kon to output a different light function. This also makes it possible that the lighting module can be connected to a bus system, by means of which the light color is adjusted depending on the desired radio tion.

The contacts may also be part of a connector relationship, a plug connection. As a result, different contacts of the luminaire module can be contactable before geous enough, depending on the plug, which can be output on simp che way each have a different light function.

Thus, an adjustment of a desired light function, for example, during installation of the light tenmoduls can advantageously be done on device technology simple manner. For example, by turning on or plugging in the luminaire module into a suitable socket, for example a bayonet fitting, or a corresponding plug, only the part of the electrical contacts which are provided for at least one selected, outputable light function can be contacted.

Furthermore, a module electronics or electronics or control unit may be provided in the luminaire module. Advantageously, in the module electronics, a desired radiation, for example with respect to their nominal color location and / or with respect to their desired luminous flux, be ge stores for a respective light function of the lamp module ge. A respective desired radiation for each light function can be determined separately for each luminaire module, prior to assembly, and stored in the module electronics. Furthermore, it is conceivable that an emitted actual radiation is measured by the module electronics. sen can be and the target radiation can be adjusted so that the actual radiation is equal to the desired radiation. As a result, requirements for binning the individual LEDs can advantageously be reduced and a need for a particularly fine color location and / or brightness binning of the individual LEDs and / or luminaire modules can be dispensed with.

In a production of light emitting diodes there are production-related small deviations in the color temperatures and brightness values that stand out in direct comparison, example, in a combination of several LEDs in egg ner lamp. By combining placement of devices can be formed by subgroups of light emitting diodes of known intensity again larger groups of the same intensity in order to achieve, for example, on large screen projection screens or displays with backlighting a balanced and uniform light intensity. The example of the vorgenom mene vorgenom mene dividing the products into the various finely graduated classes is referred to as "binning" (classification, classification). In this case, light-emitting diodes are sorted by means of appropriately finely graduated parameters into so-called bins, that is, the light-emitting diodes are assigned to a group of the same illumination intensity.

It can also be provided a control program, which can compare an actual radiation and a target radiation, and possibly the actual radiation such countries changed so as to equalize them to the desired radiation. Furthermore, a plurality of control programs, for example for different light functions, can be provided in the modular electronics, from which initially, at least, For example, in a mounting of the lamp module, a respective light function can be selected.

According to the invention, an arrangement is further provided. This may comprise a luminaire module according to one or more of the preceding aspects. The luminaire module can have at least three electrical contacts. Furthermore, the arrangement may have a plug connection and / or a socket, in which the lighting module is mounted. As a result, the lamp module is electrically contacted before preferably. By a Kontaktie tion respectively different contacts can advantageously be selected by the light module output, light function.

At least two electrical contacts can be provided on the plug and / or on the socket, by means of which at least a corresponding number of contacts on the lamp module can be electrically contacted. For example, different contacts may be contacted to output different lighting functions. If a plug and / or a socket has, for example, three contacts, a first and a second contact for a first light function of the luminaire module can be contacted, and the first and a third contact for a further light function. Thus, for example, for each combination of contacts a different light function can be output by the luminaire module. This can be done by selecting a connector and / or a socket with the corresponding electrical contacts setting a light function. Advantageously, the production costs of the luminaire module can thereby be saved since a luminaire module can be used for a plurality of light modules. can be used and no different lighting modules are more necessary.

An adjusting means can advantageously be provided on the plug and / or on the socket, which can switch a mechanical switch on the lamp module when the lamp module is mounted, in order to produce a desired light function of the at least two light functions which can be output by the lamp module. to choose. The adjusting means may be, for example, a pin-shaped element, for example a "pin." Depending on the plug or socket, different adjusting means may be provided which can each initially switch a respective light function of the lighting module to select the desired lighting function when mounting the luminaire module.

In the luminaire module, at least one sensor can be provided, which can detect radiation, in particular a color and / or a luminous flux of the radiation, of the light function of the luminaire module. By the sensor, a radiation of the light function of the lamp module can be detected preferably in real time or in certain time intervals.

The sensor may preferably be arranged on a housing or on a circuit board of the luminaire module. As a result, he can, for example by means of a power supply of the light tenmoduls device technology simply be ver with care ver. In addition, the sensor can thus advantageously be compact and space-saving on the lamp module is assigned. In the module electronics, the data acquired by the at least one sensor can be evaluated. Advantageously, by the module electronics radiation, for example, a color location and / or a luminous flux, the ge selected light function of the luminaire module be customizable. Thus, advantageously, as already mentioned above, in real time or at certain time intervals, changes to the light function, for example, a Far bort, be reacted and so over a lifetime of the lamp module radiation, for example Lich respect of the color location and / or in terms of Amount of luminous flux for which the output light function is kept constant. For example, can continue to follow a regulation of a Binnings the LEDs.

In the luminaire module, a control line may be provided, which may be connected to the module electronics. By means of the control line, a control signal can be sent to the luminaire module, whereby initially during or after assembly of the luminaire module, a light function of the luminaire module can be selectable. This can be done on device technology simple way setting ei ner light function for a lighting module. For example, a manual operation of a switch is no longer necessary.

According to the invention, a set is also provided which can have at least two different plugs and / or two different sockets and / or different plugs and / or sockets and at least one luminaire module according to one of the preceding aspects. In some cases, the luminaire module can be electrically powered by the different connectors / sockets. be clockable, which depending on the connector / socket by the lamp module, a different light function can be output.

By a volume effect, ie a reduction in the piece cost with an increase in the number can be saved in this way production costs for both the lamp module, as well as for the plug and / or the socket.

The luminaire module may have at least three electrical Kontak te. Furthermore, the luminaire module may comprise at least two light sources, wherein, for example, in each case at least two electrical contacts can each contact a light source electrically. A respective plug or a respective socket can then contact at least two contacts of the lamp module electrically. As a result, for example, in each case at least one light source can be electrically contacted with a respective plug or a corresponding socket.

Thus, a desired light function of a lamp module by the choice of a suitable, for example, a respective light function associated plug or a fit, each associated with a light function version can be set to device technology simple manner.

According to the invention, a method is further provided with which a set light function, for example, over a lifetime of a lighting module, who can receive the. In this case, a light function can initially be set in the luminaire module during the assembly, for example, as described above, by a mecha- nischen switch and / or a control line and / or ei ne by another adjustment. A sensor can then detect and monitor, for example, a radiation emitted by the luminaire module, for example with respect to the color locus and / or with respect to the intensity of the luminous flux. The data detected by the sensor can advantageously be transmitted to the module electronics. An adaptation of the radiation emitted by the luminaire module, for example a useful light, can then be carried out in the module electronics in order thus to obtain the properties of the previously set light function. For example, the light function can be kept constant over a longer service life of a luminaire module.

According to the invention, a headlamp is also provided, which can comprise the luminaire module according to at least one of the preceding aspects and / or the arrangement according to at least one of the preceding aspects and / or the set according to at least one of the preceding aspects.

The headlamp is preferably used in a vehicle. Further fields of application for the headlamp may be effect lighting, entertainment lighting, architainment lighting, general lighting, medical and therapeutic lighting or horticulture lighting.

According to the invention, a vehicle is also provided, which controls the luminaire module and / or the arrangement and / or the headlamp according to at least one of the preceding claims Aspects may have. The vehicle may be an aircraft or a waterborne vehicle or a land bound vehicle. The land-based vehicle may be a motor vehicle or a rail vehicle or a bicycle. Particularly preferably, the vehicle is a truck or a passenger car or a motorcycle. The vehicle may further be configured as a non-autonomous or semi-autonomous or autonomous vehicle.

Advantageously, the module electronics of the luminaire module can access an on-board computer or a "body control unit" of the vehicle, thereby advantageously adapting the radiation of the luminaire module as a function of the on-board computer data Depending on the time and / or the date then the radiation can be adjusted by the module electronics, for example, to compensate for an age-related Schwä tion of the radiation of the lamp module as tum of the on-board computer. Furthermore, for example, a temperature of the light module can be detected by the on-board computer to effect a change in the radiation if necessary, for example, if the lamp module becomes too hot if necessary, to carry out a change in the radiation. The sensor or a respective sensor can be selected from the following sensors: a Light Detection and Ranging (LiDar) system, a Radio Detection and Ranging (Radar) system, a Ka mera, an ultrasound (US) sensor, a sensor of a global navigation satellite system, such as the Global Positioning Systems (GPS), an acceleration sensor, a speed sensor, a brightness sensor, a battery state of charge sensor of an electric vehicle.

In the following, the invention will be explained in more detail based on examples of execution. The figures show:

1 is a perspective view of a lamp module according to an embodiment,

Fig. 2 is a perspective view of a Steckerauf acquisition with multiple contacts for a erfindungsge according lighting module, and

3 shows schematically a method for operating a light tenmoduls.

According to Figure 1, a lamp module 1 is shown. This has two light functions and can be used, for example, as Ne bellicht or dipped beam for a headlight ei nes vehicle. The luminaire module 1 has a base 2, via which the luminaire module 1 can be fastened to a socket (not shown). The base 2 has an approximately circular cylindrical outer circumferential surface, from which four key lugs 4 to 10 extend radially away. On the front side, the base 2 has an approximately circular cylindrical recess 12 in which a printed circuit board 14 is provided, which light sources in the form of light-emitting diodes (LEDs) 16 and further Elektronikkom components. Furthermore, a heat sink 18 is provided, which has a plurality of cooling fins, which in this embodiment opposite to the beam direction emitted by the LEDs 16 Strah development axially from the base 2 extend away. The Schlüsselella rule 4 to 10 are arranged approximately diametrically opposite each other. On the in the direction of radiation of the LEDs 16 facing key surfaces of the key latches 4 and 6, a contact surface 20 is formed in each case. On the Schlüssella cal 8 two contact surfaces 20 are formed. The con tact surfaces 20 are electrically connected to the circuit board 14, in particular for energizing the LEDs 16. As a result, depending on the contacting of the different contact surfaces 20 different light functions can be output through the lamp module 1 who the. On the circuit board 14, a mechanical scarf ter 22 is provided, selected by the alternative or in addition to the electrical contacts out a light function. The switch 22, for example, manually and / or by an adjusting means, such as a pin, for example on a socket in which the lamp module 1 is mounted, (not shown) be actu bar.

Figure 2 shows a connector receptacle 30 of a Leuchtenmo module. This has a blind hole-like depression 32 into which a plug (not shown) can be inserted. In the recess 32 four electrical contacts 34 to 40 are provided, via which the lamp module is electrically kon clockable. The contacts 34 to 40 can be contacted individually or in any combination, in order to provide a different light function. The method according to FIG. 3 shows a scheme for the execution of an output of a light function. Shown are, depending Weil schematically in blocks, a lamp module 42, a sensor 44 and a module electronics 46. By the sensor 44 is a monitoring of radiation of Leuchtmo module 42 takes place. The data detected by the sensor 44 are transmitted to the module electronics 46, from where an adjustment of the radiation of the lamp module 42, he follows. Disclosed is a luminaire module with at least one light source, wherein at least two different light functions can be output by the luminaire module, and where in the outputable light function via an adjusting means is initially adjustable.

LIST OF REFERENCE NUMBERS

Luminaire module 1

Socket 2

Key strap 4, 6, 8, 10

Recess 12

Printed circuit board 14

Light emitting diode (LED) 16

Heat sink 18

Contact surface 20

Switch 22

Plug 30

Recess 32

electrical contact 34, 36, 38, 40 luminaire module 42nd

Sensor 44

Module electronics 46

Claims

At least two different Lichtfunktio- nen can be provided by the lamp module (1, 42), characterized in that the outputable light function via an adjusting means (22) is initially adjustable.

2. Lamp module according to claim 1, wherein at least two light sources (16) are provided, which are individually electrically contacted.

Luminaire module according to claim 1 or 2, wherein the light source (16) or a plurality of the light sources (16) is selected from the following light sources: a red light emitting diode (LED), or a green light emitting LED, or a blue light emitting LED.

Luminaire module according to one of claims 1 to 3, wherein at least two light sources (16) are provided, where these have a different color, whereby at least two different light functions in unterschiedli chen colors can be output by the luminaire module (1, 42) selected initially are .

5. Lamp module according to one of claims 1 to 4, wherein as adjusting means, a mechanical switch (22) is provided, by which at least two light functions can be selected.

6. Lamp module according to claim 5, wherein a position of a light function by the mechanical switch (22) takes place manually.

7. Lamp module according to one of claims 1 to 6, wherein a plurality of electrical contacts (20, 34 to 40) as part of the adjusting means on the lamp module (1, 42) are seen in front, which are differently contacted to a light function of at least two different to select different lighting functions. 8. Lamp module according to claim 7, wherein the electrical

Contacts (34 to 40) are designed as part of a plug connection.

9. Lamp module according to claim 7, wherein the Leuchtenmo module (1, 42) has a base-like housing portion (2), on the outer peripheral surface of a keyed schlüssel (4) or a plurality of key lugs (4 to 10) are provided, on or the electrical contacts (20) are provided.

10. Lamp module according to one of claims 1 to 9, wherein a module electronics (46) is provided, in which a target color location and / or a target Lichtström for ei ne respective light function of the lamp module (1) ge is / are.

11. Arrangement with a lamp module (1, 42) according to one of the preceding claims and with a socket, characterized in that the lamp module (1, 42) is electrically contacted via the socket, wherein the contacting takes place such that one of the light functions is selected, and / or characterized in that the lamp module (1, 42) via a plug connection is electrically contacted, where in the contacting such that one of the light functions is selected, and / or characterized in that an adjustment (22) is vorgese hen, which is part of the adjustment, which in a mounting of the lamp module (1) in the Ste cker (30) and / or in the socket the mechanical switch (22) on the lamp module (1, 42) switches to select one of the outputable light functions.

12. Arrangement according to claim 11, wherein a pin-shaped element is provided as adjusting element (22).

13. Arrangement according to one of claims 11 or 12, wherein at least one sensor (44) is provided, by wel chen the radiation of the light function of the Leuchtenmo module (1) can be detected. 14. Arrangement according to claim 13, wherein the sensor (44) in the luminaire module (1, 42) is provided.

15. Arrangement according to claim 13 or 14, wherein the sensor (44) on a printed circuit board (14) of the lamp module (1) is arranged. 16. Arrangement according to one of claims 13 to 15, wherein the module electronics (46), the emissive Radiation of the luminaire module (1) is adaptable according to the data acquired by the sensor (44).

17. Arrangement according to one of claims 11 to 16, wherein a control line to the module electronics (46) of the lamp module (1) is provided, by means of which the

Light function of the luminaire module is initially adjustable.

18. Set with at least one luminaire module (1, 42) according to one of claims 1 to 10 and with at least two different plugs (30) and / or at least two different sockets and / or at least one plug (30) and a socket through which the lamp module (1, 42) is different electrically contacted, depending on the connector (30) or socket out selects a different light function.

19. A method with at least one arrangement according to one of claims 11 to 17, wherein at least one adjusting means (22) before or during or after assembly, a light function for the lamp module (1,

42) is initially set.

20. The method of claim 19 comprising the steps of:

Monitoring a radiation emitted by the luminaire module (1, 42) by at least one sensor (44), - Adapting the radiation of the lamp module (1) th by the module electronics (46) based on the at least one sensor (44) detected data. 21. Headlamp for a vehicle with a lamp module

(1, 42) according to one of claims 1 to 9 and / or with an arrangement according to one of claims 11 to 18.

22. A vehicle with a headlight according to claim 21. 23. The vehicle of claim 22, wherein the module electronics

(46) of the lamp module (1) accesses an on-board computer of the vehicle and makes an adjustment of the ent radiation of the lamp module (1) in response to data of the onboard computer.