WO2009024433A1 - Vehicle lights having a defogging device - Google Patents

Abstract

The invention relates to a vehicle light (24) having a housing (9), a cover pane (13) covering a light emission area of the housing (9), at least two chambers (12, 22) disposed one above the other and each having an intermediate light pane (11, 21) positioned at a distance, at least one light source (1, 3, 8), and a reflector (2, 4, 7) associated with the light source (1, 3, 8), mounting means for mounting on a vehicle body, and a defogging device inducing at least one air flow by the heat generated by the at least one light source (1, 3, 8). According to the invention, the defogging device comprises at least one means (2, 4, 4`, 5, 7, 25, 27, 28) directing the air flow, at least one means (10, 14, 16, 10, 19, 20, 23) guiding the air flow, and at least one light source (1, 3, 8) generating heat and having an associated reflector (2, 4, 7) and an associated intermediate light pane (11, 21), the at least one means (2, 4, 4`, 5, 7, 25, 27, 28) directing the air flow having at least one air flow divider (25, 27) for dividing an air flow induced by convection heat into at least two partial air flows (6, 26, 32).

Description

 Vehicle lights with a Enttauungsvorrichtung

The invention relates to vehicle lights such as headlights and tail lights of vehicles with a Enttauungsvorrichtung with the features mentioned in the preamble of claim 1.

It is known that in the vehicle lights due to the temperature-induced weather conditions condensation may be formed, which then fogged as a dew or frozen frost, the inner side portions of the vehicle lamp. On the one hand, such a fitting prevents the light rays from fulfilling their purpose to a sufficient extent and, on the other hand, causes the viewer to make a visually negative impression that something is wrong with the tightness of the light. Furthermore, due to the long-lasting moisture damage to the parts of the lamp, in particular corrosion of metal parts such as the contacts and a turbidity of the transparent areas occur. The emergence of moisture in the interior of a luminaire can become even more pronounced if the housing of the luminaire receives a small leak, which would otherwise not be visible and would not be detrimental.

Known countermeasures are, for example, to bring the moisture fittings to evaporate by generating air currents in the interior of the vehicle lamp.

DE 103 31 835 A1 discloses a headlight vehicle lamp, which is provided in the region of the reflector with a made of metal, adapted to the surface of the reflector and serving as its partial surface aperture, flows through the electric current and is heated, whereby a heated air flow arises and the interaction with colder air areas air circulation inside the vehicle lamp is generated. For the circulation of the air flows channels and openings are provided, which connect different chamber areas of the vehicle lamp, and outlet openings, which connect the interiors of the vehicle lamp with the outside air for ventilation, through which the driving air generate a suction effect and in addition for more air flow inside the Light can worry. This solution requires the introduction of additional parts and electrical connections, and associated Controls, which increases the cost and maintenance of the vehicle lamp.

DE 103 40 073 A1 discloses a vehicle lamp, which uses an existing light source as a heat source for heating the air, wherein a metal sheath is arranged around the reflector, in which at least one outlet opening and an inlet opening for the air flow are provided above and below. The compartmentalized subspaces of the vehicle lamp are also connected here with channels and openings for the air currents and there are also openings that are connected to the outside air and are flown through air. In this solution, a small area within the separated reflector chamber is well warmed by the light source disposed therein, but the other areas of the vehicle lamp are made spacious and can not be effectively flowed by the desired generated heat air flow, especially because the housing of the vehicle light is more likely to be in the Length drawn is designed, the applied principle, however, assumes that a heated down air rises within the cold air masses upwards.

Other known solutions have a vertical arrangement of a plurality of light sources on top of each other in each demarcated chambers, wherein a heated by one or more light sources air flow is passed as in the example described in Figure 1 through openings, especially to the inside of the cover. Also, such known solutions do not provide the desired results, as has been proven from the practical use and recorded with a thermal process laboratory images.

The invention has for its object, in view of the above-described shortcomings and inadequacies in a structurally simple and cost-effective manner in a vehicle lamp set up an improved and effective-acting Enttauungssystem.

Characterized in that in a vehicle lamp, the housing, a light emission region of the housing covering cover, at least two superimposed chambers, each with a spaced-positioned intermediate lens, at least one light source and a light source associated reflector, fastening means for Attaching to a vehicle body and having a Enttauungsvorrichtung causing by the heat generation of the at least one light source at least one air flow, the Enttauungsvorrichtung air flow directing means, air flow guiding means and at least one heat generating light source, each with an associated reflector and an associated intermediate lens, wherein the air flow directing Means comprise at least one air flow divider for dividing a caused by the convection heat flow of air into two partial air streams, the object is achieved with the features of claim 1.

In a further preferred embodiment of the present invention, the air flow divider is arranged in the region between adjacent chambers and projects into the space region of an ascending air flow.

In a further preferred embodiment of the present invention, the air flow divider with the lower edge of the reflector of the upper light source forms an opening into which the rising warm air flow enters.

With a further embodiment of the invention, the air flow divider is connected to an additional covering area.

In yet another preferred embodiment of the present invention, at least one further deflecting surface and a covering surface are provided for guiding and deflecting an air flow, and in a further preferred embodiment the heat-generating light sources are arranged one above the other. As a result, the heat air flows generated by them are added up to a stronger common air flow.

In a still further preferred embodiment of the present invention, the lowermost light source is associated with a light signal function that enables the light source to be permanently turned on, and in a preferred embodiment, the light signal function associated with the lowermost light source is that of a tail lamp or a rear fog lamp.

With the above features, according to a preferred embodiment of the present invention, it is possible to have one through the, preferably, from the lowest light source heated airflow deflected at the reflector rises to the next above arranged light source and further deflected at the upper part of the reflector and a deflecting deflected inside the housing, wherein a partial flow flows through the upper opening of the lower intermediate lens due to the temperature difference in the lower chamber and in you are displacing the cold air. The cold air flow flows through the lower opening of the lower intermediate lens into the light source region of the light source and is heated by it, thereby forming another Teilzirkulationskreis in the lower chamber and the light source region in front of the intermediate lens.

The high-rise warm airflow is further directed by a relatively restricted opening formed between the deflecting surface and an additional covering region into the central region of the housing where the rising airflow impinges on a descending airflow divider and is divided by it into two further partial airflows. A partial air flow is deflected towards the intermediate chamber through the covering area and flows through the opening provided in the intermediate chamber, where it displaces the colder air, which then flows through the below-disposed opening along the inside of the cover into the chamber arranged below and the is added there flowing airflow. The other divided by the air flow divider partial air flow rises along the air flow divider in the housing interior and flows through a formed between the lower edge of the upper reflector and the covering area opening in the light source space of the upper light source, where he up to an upper opening of the intermediate light on the lens Intermediate lens rises. There it displaces the colder air downwards, which then flows through the below-arranged opening along the inside of the cover in the chamber arranged below it and is added to the air flow flowing there.

Further preferred embodiments of the invention will become apparent from the remaining, mentioned in the dependent claims characteristics.

The invention will be explained below in embodiments with reference to the accompanying drawings. Show it: Figure 1 is a schematic cross-sectional view of a vehicle lamp according to the

State of the art; and

Figure 2 is a schematic cross-sectional view of an inventive

Vehicle light.

1 shows a schematic cross-sectional view of a vehicle lamp 24 with a defrosting device according to the prior art, which is set up in a housing 9 with a transparent cover plate 13 covering the outlet opening. The vehicle lamp 24 embodied as a tail lamp has, by way of example, three chambers 12, 17 and 22 arranged one above the other and bounded by walls.

The vehicle lamp 24 is divided into three chambers 12, 17 and 22, which are separated from each other with walls, in the present embodiment, the chamber 17 itself performs no active signal light function, but only serves optical purposes and also has a reflector function, and the two above and below her arranged chambers 12, 22 clearly in their signal effects separated from each other. This intermediate chamber 17 is closed with a rear wall 5, which prevents the light of adjacent light sources 1, 3 and 8 from penetrating into this chamber 17 and thus emit a distorted light signal. Nevertheless, this chamber 17 is also affected by condensation due to condensation.

The vehicle lamp 24 furthermore has a respective reflector 2, 4 and 7 assigned to each of the three light sources 1, 3 and 8. At a distance behind the front cover 13 each transparent intermediate lenses 1 1 and 21 are arranged in the chambers 12 and 22, which are provided according to their function with a signal color as a light filter, for example red for tail light, rear fog light and brake light and white for reverse light , as well as yellow or white for a flashing light. Behind the intermediate lenses 11 and 21, the respective associated reflectors 2, 4 and 7 and inside recessed positioned light sources 1, 2 and 8 are arranged. The reflectors 2, 4 and 7 are arranged in the present embodiment along a line inclined to the cover 13, whereby an equally inclined air flow 6 as a result of the heated preferably by the lowermost light source 1 heated air convection adjusts. The two lower reflectors 2 and 4 are preferably integrated into one another and already serve as a partial surface for guiding the rising from the light source 1 warm air flow 6, as indicated by the arrow line.

The reflector 4 has above its spherically shaped surface a discharged relatively large opening 31 which is arranged so that the rising warm air flow 6 rises on the wall 5 of the intermediate chamber 17 further in the housing 9 and reaches the reflector 7 of the upper light source 8. The reflector 7 is flowed around with the ascending air flow 6 at its rear, but a relatively large discharged opening 29 between the reflector 7 and the rear wall 5 of the chamber 17 and the intermediate lens 1 1 is arranged so that the majority of the warm air flow. 6 rises through this opening 29 in the reflector space of the light source 8. When the light source 8 is in operation and the air flow 6 further heated, it rises to the highest point within the housing 9, where an upper opening 10 in the intermediate lens 1 1 is cut, through which the warm air flow flows into the chamber space of the chamber 12 , The incoming warm air displaces in the chamber 12, the colder air down, where an opening 16 along the cover plate 13 and a lower opening 14 of the intermediate lens 1 1 are available as outlet openings. The colder, emerging from the chamber 12 air circulates through the lower opening 14 in a partial circuit around the intermediate lens 1 1 through the reflector space of the light source 8 and the chamber space of the chamber 12 and thereby heats the intermediate lens 1 1 on both sides and the cover 13 from the inside whereby the condensate fitting or the icing in this area is removed or prevented.

Overall, the Enttauungskonzept provides that a heated by the light sources 1, 3 and 8 air due to the convection heat as a warm flow 6 rises within a colder surrounding air in the housing 9 and thereby targeted by openings and walls to the intermediate lenses 11, 21 and especially to the cover 13 is passed to free these important and externally visible inner surfaces of fittings by condensation.

FIG. 2 shows a schematic cross-sectional view of a vehicle lamp 24 according to the invention, which essentially has the same structure as the vehicle lamp 24 from Figure 1, but provided with the features of the invention. For reasons of a more easily accessible description, a repeating illustration of already described parts in favor of the features according to the invention will therefore be omitted below.

A first Enttauungsmaßnahme invention is realized by the narrowing of the opening 31 between the reflector 4 of the light source 3 and the chamber 17, thereby retaining with a thus increased flow resistance of this opening 31 rising warm air and this through the upper opening 20 of the intermediate lens 21 in the Divert chamber 22, so this chamber 22 is disappointed. The narrowing of the opening 31 between the reflector of the light source 3 and the chamber 17 is implemented by the provision of an air flow divider 25 on the wall of the intermediate chamber 17. Thus, a partial air stream 32 is diverted specifically from the air stream 6 and passed directly into the chamber 22. This will be disappointed very effectively.

In order to better deceive the intermediate chamber 17, the opening 29 between the lower edge of the reflector 7 and the upper wall of the intermediate chamber 17 is narrowed as the second optional Enttauungsmaßnahme invention and additionally equipped with an air flow divider 27. The narrowing of the opening 29 between the lower edge of the reflector 7 and the intermediate chamber 17 is realized by an additional cover surface 28 which extends from the lower edge of the intermediate lens 1 1. At the thus narrowed opening 29 facing the end of the cover 28 immediately adjoins the example as a straight surface heralded down air flow divider 27 and thereby protrudes into the space area where the rising warm air flow 6 runs. As a result, the air flow 6 is divided into two partial streams 6 and 26 in addition to the backstaging effect by the narrowing of the opening 29 on the air flow divider 27. Thereby, the intermediate chamber 17 is supplied more warm air flow 26 and can therefore be disappointed more effectively. The upper chamber 12 in this case remains sufficiently ventilated and disappointed, because there due anyway due to the arrangement always rising warm air rises to a sufficient extent.

The air flows are substantially as described in Figure 1, but much more effectively distributed and guided. In the present embodiment, moreover, the air flow through the lower opening 14 of the upper intermediate lens 1 1 is such changed that exiting through them, displaced from the chamber 12 air does not enter as previously in the reflector space of the light source 8, but descends into the chamber 17, so that around the intermediate lens 11 no circulation takes place and instead more air circulation in the chamber 17th is effected. This corresponds to the real requirements, because the upper chamber 12 remains sufficiently well flown and disappointed, while the very critical central region of the chamber 17 receives more air currents and is thus disappointed more effective.

Practical tests and image recordings made with the aid of a thermal image recording method confirm the effectiveness of the defrosting measures according to the invention. It has been possible, with the help of constrictions of openings and additionally mounted deflection surfaces and especially the middle and the lower portion of the cover plate 13, that is within the chambers 17 and in particular 22, better and faster to disappoint.

In a preferred embodiment, the additional cover surfaces 25 and 28 of the invention and the air flow divider 27 are integrally formed as a part inserted into the housing 9. Nevertheless, inventive cover surfaces 25 and 28 and the air flow divider 27 can also be executed individually and positioned in the housing of the vehicle lamp (24).

The foregoing embodiments of the present invention are merely exemplary in nature and are not to be construed as limiting the present invention. The present invention may easily be transferred to other applications. The description of the embodiment is intended to be illustrative and not to limit the scope of the claims. Many alternatives, modifications and variations will be apparent to one of ordinary skill in the art without departing from the scope of the present invention as defined in the following claims. LIST OF REFERENCE NUMBERS

light source

reflector

light source

reflector

Deflection surface rear wall

Partial air flow

reflector

light source

Housing upper opening

Between Lens

chamber

Cover disc lower opening

intermediate wall

opening

Chamber, intermediate chamber

intermediate wall

Opening upper opening

Between Lens

Chamber lower opening

vehicle light

Air power conductor

Partial air flow

Air flow divider

Covering area, covering area

opening

opening

opening Ŕťilluftstrom

Claims

1. vehicle lamp (24), comprising a housing (9), a cover (13) covering the light exit region of the housing (9), at least two chambers (12, 22) arranged one above the other, each having a spaced-apart intermediate lens (1 1, 21) , at least one light source (1, 3, 8) and a reflector (2, 4, 7) associated with the light source (1, 3, 8), fastening means for fixing to a vehicle body and heat generating the at least one light source (1, 3, 8) at least one air flow causing Enttauungsvorrichtung, characterized in that the Enttauungsvorrichtung at least one air flow directing means (2, 4, 4 ^" , 5, 7, 25, 27, 28), at least one air flow guiding means (10, 14, 16, 10, 19, 20, 23) and at least one heat-generating light source (1, 3, 8) each having an associated reflector (2, 4, 7) and an associated intermediate lens (1 1, 21), wherein the at least an airstr Flow-directing means (2, 4, 4 ^" , 5, 7, 25, 27, 28) at least one air flow divider (25, 27) for dividing a convection caused by the air flow in at least two partial air streams (6, 26, 32). 2. Vehicle lamp according to claim 1, characterized in that the air flow divider (25, 27) in the housing area between the upper chamber (12) and the lower chamber (22) is arranged and projects into the space region of an ascending air flow (6). 3. A vehicle lamp according to claim 1, characterized in that the air flow divider (25) forms an air flow (6) constricting opening (31), so that a partial air flow (32) is passed directly into the chamber (22). 4. Vehicle lamp according to one of the preceding claims, characterized in that the air flow distributor (25) cooperates with a deflection surface (4 ') which assists a targeted branching of the partial air flow (32). 5. Vehicle lamp according to one of the preceding claims, characterized in that the air flow divider (27) with the lower edge of the reflector (7) of the upper light source (8) forms an opening (29), in which enters the rising warm air flow. 6. Vehicle lamp according to one of the preceding claims, characterized in that the air flow divider (27) is connected to a covering area (28). 7. Vehicle lamp according to one of the preceding claims, characterized in that the heat-generating light sources (1, 3, 8) are arranged one above the other. 8. A vehicle lamp according to claim 7, characterized in that the lowermost light source (1) is associated with a light signal function, which enables a permanent switching on of this light source (1). 9. A vehicle lamp according to claim 8, characterized in that the light source function associated with the lowermost light source (1) is that of a tail lamp or a rear fog lamp.