WO2015086098A1

WO2015086098A1 - Method and device for checking a functionality of a lighting device of a motor vehicle exterior lighting unit

Info

Publication number: WO2015086098A1
Application number: PCT/EP2014/002554
Authority: WO
Inventors: Christian Funk; Florenz Barmeyer
Original assignee: Audi Ag
Priority date: 2013-12-11
Filing date: 2014-09-20
Publication date: 2015-06-18
Also published as: DE102013020753A1

Abstract

The invention relates to a method for checking a functionality of a lighting device (14) of a motor vehicle exterior lighting unit. The lighting device (14) comprises a plurality of lighting elements (16), each lighting element (16) comprising at least one light-emitting diode. According to the method, an activation signal is received by means of a controller (18), an energy supply device (20) is actuated in order to supply electric energy to the lighting elements (16), said energy supply device (20) supplying electric energy to the lighting elements (16) one after the other, and each of the lighting elements (16) is checked while the lighting element (!6) is being supplied with electric energy.

Description

Method and device for checking a functionality of a lighting device of a motor vehicle exterior lighting

DESCRIPTION:

The present invention relates to a method for checking a functionality of a lighting device of a motor vehicle exterior lighting, wherein the lighting device comprises a plurality of lighting elements and wherein each of the lighting elements comprises at least one light emitting diode. Moreover, the present invention relates to a device for checking a functionality of a lighting device of a motor vehicle exterior lighting. Finally, the present invention relates to a motor vehicle with such a device. So far, there is only one light distribution in motor vehicles in traffic to illuminate the roadway. This is asymmetric, for example, vertical cut on the left half of the right hand traffic, and represents a compromise for different road classes. An extension of this light distribution is the high beam, which represents the illumination beyond the low beam range. The orientation of this light distribution can only be activated if there is no other road user in the area of the headlight. Novel adaptive high beam systems eliminate this disadvantage by having specific light emitting diodes per horizontal angle range, which only illuminate this angular range. If another road user is in this area, the LEDs are turned off, causing the road user is no longer dazzled.

Such headlamps comprise a plurality of luminous elements. Each of these light elements or segments may comprise a plurality of light-emitting diodes. In this case, the individual lighting elements can be supplied separately with electrical energy to activate the light-emitting diodes. Usually, the LEDs are activated only when the vehicle is moving. The lighting elements, which are assigned to a high beam distribution, are only activated when the adaptive high beam system is active. If one of the light-emitting diodes should be defective, this can not be determined by the driver.

EP 1 920 971 B1 discloses a lighting control device for controlling the lighting of an auxiliary headlight, which is provided in front of a vehicle and usually only lights up when the vehicle is moving and certain conditions are fulfilled. In this case, the auxiliary headlight can be illuminated when activating the ignition for a predetermined period of time.

In addition, EP 1 535 797 B1 describes a headlamp system for a motor vehicle with at least one low beam headlamp, which is provided with an electric actuator which controls the pivoting of the low beam headlamp. The headlight system comprises a controlled power supply device for detecting faults in the operation of the electric actuator.

In addition, EP 2 468 570 A1 describes a method for operating a lighting device of a motor vehicle. The illumination device comprises a light-emitting diode, which is operated by means of a pulse width modeled signal with a predeterminable duty cycle. In this case, at a predeterminable time, a diagnosis can be carried out in which the period of the pulse-width-modeled signal is chosen to be greater than the period duration during normal operation.

DE 10 2004 008 236 B3 describes a method for checking the operability of at least one vehicle lighting. The functionality of the at least one lighting device is checked in a test mode. The test mode can be activated by means of a remote control, which is integrated in a vehicle key.

It is an object of the present invention to more reliably operate a motor vehicle having a lighting device which comprises a plurality of lighting elements.

This object is achieved by a method having the features of patent claim 1 and a device having the features of patent claim 9. Advantageous developments of the present invention are the subject of the dependent claims. The inventive method for checking a functionality of a lighting device of a motor vehicle exterior lighting, wherein the lighting device comprises a plurality of lighting elements and wherein each of the lighting elements comprises at least one light-emitting diode, includes receiving an activation signal by means of a control device, the driving of a power supply device for supplying the lighting elements with electrical energy wherein the energy supply device supplies the luminous elements successively with electrical energy and the checking of each of the luminous elements during the supply of the luminous element with electrical energy.

The lighting device of the vehicle exterior lighting may include the headlights of the motor vehicle. Alternatively or additionally, the lighting device may comprise the rear lights of the motor vehicle. In the method, an activation signal is received by a controller. As a result of the activation signal, a power supply device is activated. The power supply device serves to supply the lighting elements with electrical energy. With the power supply device, an electrical voltage can be applied to the lighting elements. In addition, an electric current can be impressed into the luminous elements with the energy supply device. Each of the light-emitting elements comprises at least one light-emitting diode. In this case, each of the lighting elements may be formed as a segment comprising a plurality of light-emitting diodes.

In the present case, the power supply device is controlled in such a way that the lighting elements are activated one after the other. In particular, all the lighting elements in the headlight are supplied with electrical energy one after the other. The light-emitting diodes in the individual lighting elements can only be checked with respect to their functionality if they are energized. This is especially true in the event that an electrical connection between one of the LEDs and the power supply device is faulty. Thus, a corresponding reference run can be started to function diagnosis of the lighting device, in which the individual lighting elements and their LEDs are tested for functionality. The lighting elements are preferably supplied with electrical energy along a predetermined direction in succession. It is also conceivable that the individual LEDs are supplied in series with electrical energy. The lighting elements can be controlled in succession, for example, along the horizontal or the vertical extension direction of a headlamp or a taillight. The direction along which the individual lighting elements are activated one after the other can be determined or changed, for example, by a user input. Thus, the individual lighting elements can be checked successively in terms of their functionality. If all lighting elements were activated simultaneously, the lighting device would briefly light up. Defects in individual light-emitting diodes could, for example, not be recognized optically. In one embodiment, the lighting elements are each supplied with electrical energy for a predetermined period of time. In this case, the temporal duration for which the light-emitting elements are respectively activated, predetermined or be changed by a user input. The time duration can be selected, for example, so that it allows the driver of the motor vehicle to visually check the functionality of the lighting elements. Thus, the functionality of the lighting device can be checked easily.

In one embodiment, the activation signal is transmitted to the control device when starting an engine of the motor vehicle. Thus, the checking of the functionality of the lighting device can be automatically activated after the start of the engine. Thus, it can be checked before driving, whether the lighting device is fully functional.

In a further embodiment, the activation signal is transmitted to the control device when an ignition of the motor vehicle is switched on. The activation signal can be activated in the so-called terminal 15 cycle. Here, too, the functionality of the lighting device can be checked before the operation of the motor vehicle.

In a further embodiment, the activation signal is transmitted to the control device after starting an engine of the motor vehicle or after ignition of the motor vehicle. This allows the driving rer first to start the engine of the motor vehicle or to activate the ignition and then visually check the lighting device, that is, the headlights and / or taillights. In this way, the driver himself can check the illumination device of the motor vehicle.

Preferably, for checking each of the lighting elements, an electric current flowing through the lighting element or an electric voltage applied to the lighting element is detected. For this purpose, the control device or a corresponding measuring device can check the electrical operating variables of the lighting elements. The electrical current and the electrical voltage can also be measured at the individual LEDs. Thus, the functionality of the lighting elements can be checked automatically.

In one embodiment, a warning is issued if the detected electrical current or the detected electrical voltage exceeds or falls below a predetermined limit. If it is determined during the checking of the electrical operating variables of the lighting elements that they do not correspond to the desired values, this can be visually displayed to the driver inside the motor vehicle. Thus, the driver is reliably informed about the functionality of the lighting device: The inventive device for checking a functionality of a lighting device of a motor vehicle exterior lighting, wherein the lighting device comprises a plurality of lighting elements and wherein each of the lighting elements comprises at least one light emitting diode, includes a control device for receiving an activation signal, an energy supply device for supplying the lighting elements with electrical energy, wherein the energy supply device is controllable with the control device such that the lighting elements are supplied with electrical energy successively, and wherein the control means for checking each of the lighting elements during the supply of the lighting element is formed with electrical energy.

The motor vehicle according to the invention comprises the device according to the invention. The previously described in connection with the method according to the invention Ren described advantages and developments apply mutatis mutandis to the inventive device and the motor vehicle according to the invention.

The present invention will now be explained in more detail with reference to the accompanying drawings. Showing:

Fig. 1 is a schematic representation of a motor vehicle; and

Fig. 2 is a headlight of the motor vehicle.

The embodiments described in more detail below represent preferred embodiments of the present invention.

Fig. 1 shows a schematic representation of a motor vehicle 10 in a plan view. The motor vehicle 10 includes a device 12 for checking a functionality of a lighting device 14 of a vehicle exterior lighting. In the present case, the illumination device 14 comprises the two headlights of the motor vehicle 10. A detailed view of the illumination device 14 or the right headlight of the motor vehicle 10 is shown in FIG. 2. The illumination device 14 comprises a plurality of illumination elements 16. The illumination elements 16 form individual segments within the illumination device 14 or the headlight. In each of the lighting elements 16 at least one light-emitting diode is arranged. Preferably, a plurality of LEDs are arranged in each of the lighting elements 16.

The individual light-emitting elements 16 are activated only during operation of the motor vehicle 10. Individual light elements 16, which are arranged, for example, in the edge region of the illumination device 14, serve to provide a high beam distribution. These are only activated if the high beam operation is activated, for example by an adaptive high beam system. This makes it difficult to check the functionality of the individual light-emitting elements 16 or of the light-emitting diodes arranged therein when the motor vehicle 10 is not being operated.

With the device 12, the functionality of the illumination device 14 can be checked. The device 12 comprises a control device 18, to which an activation signal is transmitted. Such an activation ^"May approximate signal be generated for example when starting the engine of the motor vehicle 10. Alternatively, can be transmitted to the control unit 18 10 such activation signal upon activation of the ignition of the motor vehicle. The controller 18 is connected to an energy supply device 20 is electrically connected to and adapted to The energy supply device 20 is in turn electrically connected to the illumination device 14 or the headlamps The energy supply device 20 can supply the individual illumination elements 16 of the illumination device 14 separately with electrical energy.

The energy supply device 20 can be controlled by the control device 18 such that the light-emitting elements 16 are activated along a predetermined direction in succession. This is schematically illustrated in FIG. 2 by the arrow 22. In this case, at time t _0, a first of the lighting elements 16 can be activated for a predetermined time duration. Subsequently, the first of the lighting elements 16 can be deactivated again. Thereafter, the next lighting element 16 in the row can be activated for a predetermined period of time. Thus, the individual light-emitting elements 16 are activated one after the other, in the direction of the arrow 22 in the present exemplary embodiment. Alternatively, at time to first the first of the light elements can be activated. In each case, after expiration of a predetermined time duration, the next lighting element 16 can also be activated along the row, the activated lighting elements 16 remaining switched on. By activating the light-emitting elements 6, a reference run can be provided in which the functionality of the individual light-emitting elements 16 or the light-emitting diodes contained therein can be checked. The reference run provided thereby ends at the time

The respective examination of the lighting elements 16 takes place in the time range in which the lighting elements 16 are energized. The check can for example be made optically by the driver or by appropriate workshop personnel. Alternatively, the control device 18 may be designed to measure the electrical voltage and the electric current during the operation of the light-emitting element 16 on the light-emitting element 16. If in this case a predetermined setpoint is exceeded or undershot, a corresponding warning display in the interior of the motor vehicle 10 are provided. Thus, the functionality of the illumination device 14 can be reliably checked.

In the present embodiment, the device for checking a functionality of a lighting device 14 has been explained with reference to the headlight. The functionality of the rear lights of the motor vehicle can also be checked with the device 12. Similarly, the device 12 may be used to inspect other components of the exterior automotive lighting, such as curved lights, after-lights, direction indicators, or the like.

Claims

CLAIMS:

1. A method for checking a functionality of a lighting device (14) of a motor vehicle exterior lighting, wherein the lighting device (14) comprises a plurality of lighting elements (16) and wherein each of the lighting elements (16) comprises at least one light emitting diode through

Receiving an activation signal by means of a control device (18),

- Driving a power supply device (20) for supplying the lighting elements (16) with electrical energy, wherein

- The power supply device (20), the lighting elements (16) successively supplied with electrical energy, and

- Checking each of the light-emitting elements (16) during the supply of the light-emitting element (16) with electrical energy.

2. The method according to claim 1,

characterized in that

the lighting elements (16) are supplied with electrical energy in succession along a predetermined direction.

3. The method according to claim 1 or 2,

characterized in that

the lighting elements (16) are each supplied with electrical energy for a predetermined period of time.

4. The method according to any one of claims 1 to 3,

characterized in that

the activation signal is transmitted to the control device (18) when an engine of the motor vehicle (10) is started.

5. The method according to any one of claims 1 to 3,

characterized in that

the activation signal when switching on an ignition of the motor vehicle (10) is transmitted to the control device (18).

6. The method according to any one of claims 1 to 3,

characterized in that the activation signal is transmitted to the control device (18) for a predetermined time after starting an engine of the motor vehicle (10) or after switching on an ignition of the motor vehicle (10).

7. The method according to any one of the preceding claims,

characterized in that

for checking each of the light-emitting elements (16), an electric current flowing through the light-emitting element (16) or an electrical voltage applied to the light-emitting element (16) is detected.

8. The method according to claim 7,

characterized in that

a warning is issued if the detected electric current strength or the detected electric voltage is a predetermined one

Limit exceeds or falls below.

9. Device (12) for checking a functionality of a lighting device (14) of a motor vehicle exterior lighting, wherein the lighting device (14) comprises a plurality of lighting elements (16) and wherein each of the lighting elements (16) comprises at least one light emitting diode with

a control device (18) for receiving an activation signal,

- A power supply device (20) for supplying the

Lighting elements (16) with electrical energy, wherein

- The power supply device (20) with the control device (18) is controllable such that the lighting elements (16) are supplied in succession with electrical energy, and wherein - the control device (18) for checking each of the lighting elements (16) during the supply of the lighting element (16) is formed with electrical energy.

10. Motor vehicle (10) with a device (12) according to claim 9.