DE102008004934A1 - Lighting device i.e. headlamp, ventilating method, for vehicle, involves bringing more external air into lighting device, when external air is better than air in lighting device or critical value, and vice versa - Google Patents

Abstract

The method involves determining characteristic for air in a lighting device i.e. headlamp, by sensors that are positioned inside the device. External air is brought in the device, where characteristic for the external air is determined by the sensors. Verification is made whether the external air is better or worser than the air in the device or a critical value. More external air is brought into the device, when the external air is better than the air in the device or the critical value, and vice versa.

Description

The The invention relates to a method for ventilating a lighting device a vehicle, in particular a vehicle headlight, with outside air.

Under unfavorable Climatic conditions can manifest in lighting fixtures a motor vehicle, in particular in vehicle headlights, the serve a roadway lighting, moisture accumulation. To one Such condensation of lighting devices of a motor vehicle to avoid or counteract such condensation, it is already known from practice, lighting equipment with outside air to ventilate. So far however, are not methods for ventilating lighting equipment a motor vehicle with outside air known with which safe and reliable as well as with simple means performed a quick Enttauung or a condensation can be safely avoided.

Of these, Based on the present invention, the problem is based a novel method for aeration a lighting device of a motor vehicle, in particular a vehicle headlights, to provide with outside air.

This Problem is solved by a method according to claim 1. According to the invention the method at least the following steps: a) initially at least one characteristic for one within the lighting device present lighting device air with the aid of a sensor positioned within the illumination device determined; b) subsequently becomes outside air introduced into the lighting device, in which case with the help of the sensor positioned within the illumination device at least one characteristic for the outside air is determined; c) then it is checked if the outside air better or worse than the lighting device air or is a limit value, in which case if it is determined that the outside air is better than the lighting device air or the limit, further outside air is introduced into the lighting device, whereas then, if it is determined that the outside air is worse than the Lighting device air or the limit is, no more outside air is introduced into the lighting device.

With the method according to the invention will be first the lighting device air present inside the lighting device with the help of a positioned within the lighting device Sensors evaluated by at least one parameter for the lighting device air to investigate. Subsequently flows outside air in the lighting device, wherein the incoming outside air using the inside of the lighting device positioned Sensors is evaluated by metrological to at least one parameter for the outside air provide. Only if the outside air is better than the lighting device air or the limit is, more is flowing outside air in the lighting device. Then, on the other hand, when the outside air is worse than the lighting device air or the limit, flows no more outside air in the lighting device. As a result, under favorable environmental conditions realized a faster Enttauung the lighting device and by permanently improving the lighting device air a condensation of the lighting device can be reduced. The inventive method is carried out automatically and requires only one single sensor, namely the sensor positioned inside the illumination device, with both the present within the lighting device Lighting device air and the outside air flowing into the lighting device metrologically evaluated.

preferred Further developments of the invention will become apparent from the dependent claims and the following description. Embodiments of the invention without being limited to this to be closer to the drawing explained. Showing:

1 a signal flow diagram to illustrate the method according to the invention.

The invention relates to a method for ventilating a lighting device of a motor vehicle, in particular of a vehicle headlight serving a roadway lighting, with outside air. The method according to the invention will be described below with reference to the signal flow diagram of FIG 1 described in detail.

step 10 of the signal flow diagram of 1 illustrates a start of the motor vehicle by pressing the ignition of the same. The inventive method can be performed only with the engine running.

in the Meaning of the method according to the invention will be first at least one characteristic for one within the lighting device present lighting device air with the aid of a sensor positioned within the illumination device determined.

This is done in one step 11 of the method according to the invention with the aid of within the illumination device positioned sensor detected the relative humidity and optionally the temperature of the lighting device air by measurement.

Subsequently, in one step 12 from these measured values, that is, from the measured relative humidity and the possibly metrologically determined temperature of the lighting device air, the absolute humidity and optionally the dew point temperature of the lighting device air and / or another characteristic of the lighting device air determined.

Subsequently, in the sense of a step 13 of the inventive method introduced outside air into the lighting device. For this purpose, preferably one of the lighting device associated valve, which z. B. is introduced into a cover of the lighting device, open, in which case the outside air either passively depending on the pressure gradient prevailing at the lighting device passively flows into the lighting device or by means of a pump active in the lighting device. Then, if an active pump is present, the valve can also be omitted.

When the outside air flows into the illumination device, at least one parameter for the outside air is determined with the aid of the sensor positioned in the illumination device. This is done in one step 14 with the aid of the sensor positioned within the illumination device, the relative humidity and optionally the temperature of the outside air are detected by measurement.

In one step 15 is determined from the metrologically detected relative humidity and optionally the metrologically detected temperature of the outside air, the absolute humidity and optionally the dew point temperature of the outside air and / or another characteristic of the outside air.

Then in one step 16 Checks if the outside air is worse, namely wetter, or better, that is drier than the lighting device air. Optionally, an offset can be taken into account, taking into account an offset in step 16 It is checked whether the outside air is worse, namely wetter, or better, that is drier, than the offset-corrected lighting device air. For this comparison, preferably in step 15 determined absolute humidity of the outside air with that in step 12 determined, absolute humidity of the lighting device air, optionally corrected by the offset compared.

Will in step 16 found that the outside air is worse, namely moister, than the lighting device air is, starting from step 16 on step 17 branched, taking in step 17 the valve of the lighting device is closed, so as to avoid that further outside air is introduced into the lighting device. step 17 thus ensures that when the outside air is wetter or worse than the lighting device air, no more outside air is introduced into the lighting device.

In one step 17 subsequent step 18 is determined depending on the amount by which the outside air is worse than the lighting device air, a waiting time, wherein only after the lapse of the waiting time of the step 18 from step 18 on step 11 is branched. The waiting time of the step 18 ensures that no additional outside air is introduced into the lighting device for the defined period of the waiting time.

Preferably, in step 18 the waiting time is determined depending on the difference of the absolute humidity of the lighting device air and the absolute humidity of the outside air. The waiting time can be determined by this difference in the form of a continuous function or in the form of a staircase function.

The greater the difference between the absolute humidity of the outside air and the absolute humidity of the lighting device air, the more humid and thus the worse the outside air is compared to the lighting device air, the greater the waiting time of the step 18 out.

Will, however, in step 16 found that the outside air is better, namely drier, than the lighting device air, so starting from step 16 on step 19 branched, taking in step 19 a limit value is determined, which depends on the one hand on the absolute humidity of the lighting device air and on the other hand on the absolute humidity of the outside air. At this limit, it may be z. For example, the average of the absolute humidity of the outside air and the absolute humidity of the lighting device air. Furthermore, this limit may also be the absolute humidity of the lighting device air.

After that step 19 gets in one step 14 ' , the step already discussed 14 corresponds detected in the lighting device incoming outside air by means of the positioned in the illumination device sensor by measurement, in which case in step 14 ' the relative humidity and optionally the temperature of the outside air is detected by measurement.

In one step 14 ' subsequent step 15 ' that's the step 15 corresponds, is determined from the metrologically detected moisture and optionally the metrologically detected temperature of the outside air, the absolute humidity and optionally the dew point temperature and / or another characteristic of the outside air.

Then in one step 20 Checks if the outside air is worse, namely moister, or better, namely drier, than that in step 19 determined limit value is. Then, when it detects that the outside air is drier than the one in step 16 determined limit value is determined from step 20 on step 14 ' branches and it is introduced more outside air into the lighting device.

Will, however, in step 20 found that the outside air worse, namely moister, than the one in step 19 determined limit value is determined from step 20 on step 21 branched, taking in step 21 the valve of the lighting device is closed in order to avoid that further outside air is introduced into the lighting device. step 21 therefore ensures that if the outside air is wetter or worse than the one in step 19 determined limit value is, no further outside air is introduced into the lighting device.

In an optionally step 21 subsequent step 22 The process according to the invention preferably depends on the amount by which the outside air is wetter or wetter than that in step 19 calculated limit is defined, a waiting time that must elapse, except for step 11 is branched. The time span of the waiting time is preferably in turn the difference between that in step 19 determined limit value and the absolute humidity of the outside air. The larger this difference, the longer the optional waiting time of the step 22 out.

At this point it should be noted that on the determination of the limit in step 19 can also be dispensed with and throughout the process of the invention at least one characteristic of the outside air, for. B. the absolute humidity of the same, directly with at least one characteristic of the lighting device air, z. B. with the absolute humidity of the lighting device air can be compared.

It Accordingly, according to the method of the invention is only outside air for ventilation to use a lighting device of a vehicle, so long the outside air better than the lighting device air or one of the lighting device air dependent Limit is. The lighting device air is just like the outside air by means of a light positioned within the lighting device air Sensors evaluated metrologically. This can be a condensation Effectively counteracted and a deflation can be realized quickly. The inventive method runs automatically so that moisture regularly can be removed from the lighting device.

Claims (8)

Method for ventilating a lighting device of a vehicle, in particular a vehicle headlight, with outside air, with at least the following steps: a) first becomes at least one characteristic for one within the lighting device present lighting device air with the help of a positioned within the lighting device Sensors determined; b) then outside air introduced into the lighting device, in which case with the help of the sensor positioned within the illumination device at least one characteristic for the outside air is determined; c) then it checks if the outside air better or worse than the lighting device air or is a limit value, in which case if it is determined that the outside air better than the lighting device air or the limit is, more outside air is introduced into the lighting device, whereas then, when it is determined that the outside air is worse than the lighting device air or the limit is, no more outside air into the lighting device is introduced. Method according to claim 1, characterized in that in step a) with the aid of the illumination device Positioned sensor, the relative humidity and, where appropriate the temperature of the lighting device air detected by measurement becomes, whereby from these measured values the absolute humidity and optionally, the dew point temperature of the lighting device air is determined becomes. Method according to claim 1 or 2, characterized in that a valve is opened in step b) for introducing the outside air, being the outside air dependent from the pressure gradient Passively flows into the lighting device. Method according to claim 1 or 2, characterized that in step b) the outside air actively introduced into the lighting device by means of a pump becomes. Method according to one of claims 1 to 4, characterized in that in step b) by means of the sensor positioned within the illumination device, the relative humidity and possibly the temperature of the outside air is detected by measurement, wherein the absolute humidity and optionally the dew point temperature of the outside air is determined from these measured values. Method according to one of claims 1 to 5, characterized that is checked in step c) whether the outside air moister or drier than the lighting device air or is the limit, and then when it is determined that the outside air drier than the lighting device air or the limit is, more outside air is introduced into the lighting device, whereas then, when it is determined that the outside air is more humid than the lighting device air or the limit is, no more outside air into the lighting device is introduced. Method according to Claim 6, characterized that if it is determined that the outside air is moister than the lighting device air or the limit is, for a defined period of time no more outside air into the lighting device introduced and branched back to step a) after this period of time becomes. Method according to claim 7, characterized in that that the defined time span of the difference between the absolute Moisture of the outside air and the absolute humidity of the lighting device air or the difference between the absolute humidity of the outside air and the limit is.