DE102006049299A1 - Lighting device for vehicles - Google Patents

Abstract

The device has a light source arrangement with a set of LEDs arranged along an extension plane. A heat dissipating arrangement exchanges heat between the light source arrangement and an air stream, and has a cooling unit and an electro-plating (26) that are permanently attached to the diodes. The cooling unit and the electro-plating have the heat dissipation surface that increases along a direction (R) of the air stream, where the direction runs parallel to the extension plane of the diodes.

Description

The The invention relates to a lighting device for vehicles comprising a light source arrangement having a plurality of in an extension plane arranged light sources, wherein the extension plane is perpendicular to a light emission direction of the light sources and a heat dissipation arrangement to exchange heat between the light source assembly and an air stream with a Cooling element, which is permanently assigned to the light sources.

From the DE 10 2004 025 623 A1 a lighting device for vehicles is known, which provides on the one hand a light source arrangement with a plurality of light sources and on the other a heat dissipation arrangement for the exchange of heat between the light source arrangement and an air flow. The heat dissipation arrangement is associated with the light source arrangement and has a cooling element with cooling surfaces along which air guide channels are formed. The cooling element is designed as a heat sink and connects directly to a light source of the light source arrangement. The cooling surfaces of the cooling element are shaped such that the air flow is guided substantially in the direction of a light emission direction of the light sources, so that the air flow can be used to keep a lens of the lighting device ice and fog free. In order for the light sources to be sufficiently cooled, the heat dissipation arrangement has a heat exchanger which effects a cooling of the air flow. Compliance with the operating temperature of the light sources is thus effected substantially by tempering the air flow.

From the DE 102 27 720 A1 For example, a lighting device for vehicles is known, which provides a light source arrangement with a light source and a heat dissipation arrangement with a heat sink. The heat sink is directly associated with the light source, so that the cooling of the light source is made possible by a targeted air flow. The heat sink is in each case assigned to a light source.

task It is the object of the present invention to provide a lighting device for vehicles in such a way that in a simple way a predetermined Operating temperature regime for a light source arrangement with a plurality of light sources long-term stable guaranteed is.

to solution This object is the invention in conjunction with the preamble of claim 1, characterized in that the air flow in a plane parallel to the plane of extension of the light sources Directed is and that the cooling element a rising in the direction of the air flow surface for heat having.

Of the particular advantage of the invention is that for a plurality of light sources, the observance of a designated operating temperature range guaranteed can be. According to the invention, a cooling element of the heat dissipation arrangement formed widened in the direction of the air flow, so that the cooling capacity or cooling effect of the cooling element rises in the direction of the air flow. This rising cooling effect the cooling element is used as compensation for the resulting warming the guided along the heat sink airflow, so by overlaying of airflow and cooling effect through cooling elements a uniform cooling of the adjusts along the air stream arranged light sources.

To a development of the invention is the degree of broadening of the cooling element in the direction of the air flow or the degree of transverse extent of the Cooling element, which is perpendicular to the direction of the air flow, depending on the speed and / or the temperature of the air stream and / or depending on Distance between adjacent light sources of the light source arrangement. The rise the width of the cooling element is larger, for example the air flow is stronger heated For example, at lower speed of the air flow or less distance between the light sources to each other. The cooling element can be one piece or multi-piece be educated. It is essential that the cooling effect of the cooling element or a plurality of rows arranged and optionally spaced cooling elements in the direction of Air flow increases.

To In a further development of the invention, the cooling element widened along a back Edge and / or a lateral edge thereof, so that the cooling effect of the cooling element in dependence from the number of light sources or the arrangement provided can be varied. This can be advantageous in particular the Degree of cooling effect adapted to the lighting requirements.

To a development of the invention may be the cooling element continuous or stepped widen in the direction of the air flow, so that space requirements considered can be.

To a development of the invention, the heat dissipation arrangement a fan for Generation of the air flow, so that the heating of the air flow, the along the cooling element guided is, can be reduced.

To In a further development of the invention, the cooling element has a plurality of Cooling surfaces, which extend perpendicular to the direction of the air flow. The Length of this Cooling surfaces increases continuously or abruptly in the direction of the airflow. hereby can the cooling capacity of the cooling element be increased accordingly.

To a development of the invention, one or more cooling elements around an opening angle be arranged inclined to the direction of the air flow. Between the inclined arranged cooling elements can arranged the cooling surfaces so that the cooling capacity increases along the air flow direction.

To a development of the invention, the cooling element as a metallization be formed on a provided with LEDs and / or LED chips carrier board is applied. The spaced-apart cooling elements each have an enlarged area in the direction of the airflow, so that a compensation for the heating of the air flow is created.

Further Advantages of the invention will become apparent from the other dependent claims.

embodiments The invention will be explained in more detail with reference to the drawings.

there shows:

1 a longitudinal section through a lighting device according to a first embodiment with a counter to the direction of the air flow tapered cooling element for a plurality of light sources of a light source arrangement,

2 a longitudinal section through a lighting device according to a second embodiment, wherein a plurality of cooling elements of a Wärmeableitanordnung are arranged at an opening angle inclined to the direction of the air flow, and

3 a plan view of a lighting device according to a third embodiment with LED chips as light sources, which can be applied to a carrier board and each of which metallizations are assigned as cooling elements, the surfaces of which rise in the direction of air flow.

A Lighting device according to the invention Can be used as a headlight or as a rear light for vehicles be used.

According to a first embodiment of a lighting device according to 1 is a light source arrangement 1 and a heat dissipation arrangement 2 intended.

The light source arrangement 1 consists of a plurality of light sources 3 , preferably light emitting diodes (LED) 3 which are arranged in an extension plane E. The light-emitting diodes 3 extend, for example, two-dimensionally according to a light field. Alternatively, the LEDs can 3 also extend in a row which is parallel to a direction R of a guided air flow.

To form the guided air flow in the direction R, the heat dissipation arrangement 2 a fan 4 on, at a first end 5 the heat dissipation arrangement 2 is arranged.

The light-emitting diodes 3 the light source arrangement 1 are mechanically and thermally with a cooling element extending at a rear side thereof 6 the heat dissipation arrangement 2 connected. In the present embodiment, the cooling element is integrally formed and has a directly on the back of the light emitting diodes 3 subsequent heat sink 7 with a plurality of cooling surfaces arranged perpendicular to the direction R of the air flow 8th on.

The cooling element 6 is formed widened in the direction R of the air flow, wherein a width B2 at a second end 9 the light source arrangement 1 is greater than a width B1 at the first end 5 the light source arrangement 1 , In the present embodiment, the width B or the surface for heat emission of the cooling element increases 6 in the direction R of the air flow continuously to form a sloping rear edge 10 of the cooling element 6 at. The width of the heat sink 7 of the cooling element 6 is constant. To increase the cooling effect of the cooling element 6 in direction R of the air flow increase the lengths of the cooling surfaces 8th , each extending perpendicular to the direction R of the air flow to. The lengths of the cooling surfaces 8th are on the speed and / or temperature of the air flow and / or a distance A of adjacent light-emitting diodes 3 tuned so that the operating temperature of all light emitting diodes 3 remain in a given operating temperature frame. Is the distance A of the light sources 3 For example, chosen smaller, increase the lengths of the cooling surfaces 8th stronger. By leveling the operating temperatures of the light sources 3 an undesirable variation of the luminous flux or the color of the light sources is avoided.

To guide the air flow in the direction R along the cooling surfaces 8th can not be shown by provided baffles an air duct be provided.

Alternatively, the cooling element 6 in the direction R of the air flow also increase stepwise. Incidentally, this also depends on whether the light sources 3 are arranged in a common plane or stepped to each other. Alternatively, the cooling element 6 also consist of a plurality of cooling element segments, which are arranged under direct contact with the same or spaced from each other in a direction parallel to the direction of the air flow row.

According to a second embodiment of the lighting device according to 2 can be a cooling element 16 with a plurality of inclined by an opening angle Ö arranged heat sinks 17 be educated. Between the heat sinks 17 run cooling surfaces 18 , The arrangement of the heat sink 17 and the cooling surfaces 18 runs in the direction R of the air flow and forming an enlarged width B ', which extends perpendicular to the direction R of the air flow. At a first end 15 of the cooling element 16 this has a relatively small width B1 '; at a second end 19 of the cooling element 16 this has a relatively large width B2 'on. A side edge 20 of the cooling element 16 which is substantially perpendicular to the plane E and perpendicular to a rear edge of the cooling element 17 extends is formed widened. In 2 the lighting device is viewed from a rear side. The light sources extend on a front side of the heat sink 18 and are in the 2 obscured by this.

According to a third embodiment of a lighting device according to 3 The light sources are designed as LED chips, which have connections 25 on a common carrier board 24 are arranged. Immediately adjacent to the terminals 25 The LED chips is a square metallization 26 as a cooling element (cooling surface) applied directly to the terminals 25 is contacted. To the metallization 26 closes on one of the connections 25 opposite side of a conductor track 27 on, which leads to components of a drive device for the LED chips.

The carrier board 24 is upright. Since the air is moved vertically upward due to thermal buoyancy, the metallizations are 26 in the vertical direction extending area larger or wider. In a lower area 28 the carrier board 24 indicates the metallization 26 a width B1 "which is substantially smaller than a width 62 " in an upper area 29 the carrier board 24 , The metallizations arranged in a vertical direction in a row 26 are spaced from each other. This results in a step-like increase of the cooling surfaces in a vertical upward direction, wherein between by means of the metallizations 26 caused cooling effect level is a zero level.

In the lighting device according to 3 There is a natural convection, without the addition of a fan is integrated into the lighting device.

In the embodiments according to the 1 and 2 there is a forced convection, wherein in the heat dissipation arrangement 2 the fan 4 is integrated.

It is understood that the light source arrangement 1 and the heat dissipation assembly 2 is arranged integrated in a housing, not shown, of the lighting device. The light sources 3 Reflectors or other light guiding means can be assigned. In light emission direction 11 in front of the light sources 3 a transparent cover plate is preferably arranged, which covers an opening of the housing.

It is further understood that with the width B, B ', B' 'an extension of the cooling element is designated. This extension can therefore also the depth and the height of the cooling element affect.

Claims (10)

A lighting device for vehicles comprising - a light source arrangement having a plurality of light sources arranged in an extension plane, the extension plane being perpendicular to a light emission direction of the light sources, - a heat dissipation arrangement for exchanging heat between the light source arrangement and an air flow with a cooling element fixedly associated with the light sources characterized in that the air flow in a plane parallel to the plane of extent (E) of the light sources ( 3 ) extending direction (R) is guided and that the cooling element ( 6 . 16 . 26 ) has a rising in the direction (R) of the air flow surface for heat dissipation (B). Lighting device according to claim 1, characterized in that the surface enlargement (B) of the cooling element ( 6 . 16 . 26 ) in the direction (R) of the air flow as a function of the temperature and / or the speed of the air flow and / or as a function of the distance of adjacent light sources ( 3 ) increases. Lighting device according to claim 1 or 2, characterized in that the cooling element ( 6 . 16 ) along one of the light sources ( 3 ) facing away from the back edge ( 10 ) of the same and / or along one in the plane of extent (E) of the light sources ( 3 ) extending lateral edge ( 20 ) of the same widened is formed. Lighting device according to one of claims 1 to 3, characterized in that the cooling element ( 6 . 16 . 26 ) is formed widened continuously or stepwise in the direction (R) of the air flow. Lighting device according to one of claims 1 to 4, characterized in that the heat dissipation arrangement ( 2 ) a fan ( 4 ) for generating the air flow along the cooling element ( 6 . 16 ). Lighting device according to one of claims 1 to 5, characterized in that the cooling element ( 6 . 16 ) as a heat sink ( 7 . 17 ) having a plurality of cooling surfaces arranged perpendicular to the direction (R) of the air flow ( 8th . 18 ), wherein the length of the cooling surfaces ( 8th . 18 ) increases in the direction (R) of the airflow. Lighting device according to one of claims 1 to 6, characterized in that a plurality of by an opening angle (Ö) inclined to the direction (R) of the air flow arranged heat sink ( 17 ) are provided. Lighting device according to one of claims 1 to 7, characterized in that the light sources ( 3 ) are each formed as light-emitting diodes. Lighting device according to one of claims 1 to 8, characterized in that the light sources ( 3 ) are formed as LED chips on a carrier board ( 24 ) and that the cooling element as one of the terminals ( 25 ) of the LED chips adjacent and on the carrier board ( 24 ) applied metallization ( 26 ), wherein the surface of the metallization ( 26 ) increases in the direction (R) of the airflow. Lighting device according to one of claims 1 to 9, characterized in that the light sources ( 3 ) are arranged in rows in the direction (R) of the air flow and that the cooling element ( 6 . 16 . 26 ) mechanically and thermally with the light sources ( 3 ) is coupled.