AT11129U1 - DEVICE FOR SELECTING LED CHIPS OF LED CHIP MATRIX - Google Patents

Abstract

The invention relates to a device (100) for selecting one or more active LED light sources in the form of LED chips (2) of an LED chip matrix (1) of a lighting device of a motor vehicle. According to the invention, the device (100) has at least one diaphragm mask (4, 5), wherein the at least one diaphragm mask (4, 5) lies in front of the LED chips (2) in the light exit direction of the LED chips (2), and wherein the at least one aperture mask (4, 5) has one or more apertures (40, 50), each aperture (40, 50) in shape substantially in the shape of the footprint of one LED chip (2) or a plurality of adjacent LED dies corresponds, and wherein the at least one aperture mask (4, 5) with respect to the LED matrix (1) is slidably and / or rotatably mounted. Furthermore, the invention relates to a lighting device for a vehicle with such a device.

Description

Austrian Patent Office AT 11 129 U1 2010-05-15

description

DEVICE FOR SELECTING LED CHIPS OF A LED CHIP MATRIX

The invention relates to a device for selecting one or more light-emitting regions of an LED chip matrix of a lighting device of a motor vehicle, wherein the LED chip matrix is formed by LED light sources in the form of LED chips.

Furthermore, the invention relates to a lighting device for a motor vehicle with such a device.

Lighting devices in the automotive industry, which have LED light sources, often consist of a number of LED chips, which are arranged in the form of a matrix, for example, an array of 10x5 LED chips.

Each LED module or each LED chip matrix has one or more LED chips, which represent the LED light source, for example LEDs of the type LE W E3A Osram.

In certain applications, such as in object lighting, it is often desirable that only certain LED chips be visible or able to emit light while the remaining LED chips can not emit light. In object lighting, for example, objects on the roadside, such as pedestrians, but also traffic signs, with light, e.g. with infrared light, illuminated, and these objects can then be captured with an infrared camera. Of course, visible light, such as traffic sign lighting can be used.

For the selection of certain LED light sources or LED chips, there are currently electronic solutions in which only certain LED chips are activated, i. E. switched on or already activated LED chips are switched off, so that only the desired LED light sources emit light. This solution offers a high degree of flexibility, as basically any LED chip can be activated, but requires a complex electronics, which enables the switching of individual LED chips.

It is an object of the invention to enable a much simpler selection of LED chips.

This object is achieved with an apparatus mentioned above, which according to the invention comprises at least one aperture mask, wherein the at least one aperture mask in the light exit direction of the LED chips seen in front of the LED chips, and wherein the at least one aperture mask one or more Having openings, and wherein the at least one aperture mask is slidably and / or rotatably supported with respect to the LED matrix.

By means of the aperture masks, it is no longer necessary to turn off individual LED chips (or to turn on the desired LED chips). All the LED chips remain simply active, that is, turned on, and by appropriate positioning of the one or more aperture masks, one or a few LED chips can be selected or, in principle, light emitting areas of the LED chip matrix, i. be visualized, which can then emit their light through the openings, while the other LED chips are shadowed by the / the aperture masks / are.

With a suitable choice of the size of the opening (s) - if the openings in one or both directions has a smaller extent / have than the corresponding dimensions (length / width) of the LED chip - also light-emitting areas can be selected which are smaller in one or both directions of expansion than an LED chip.

However, the openings in the diaphragm masks can also essentially correspond to the shape of the base area of one or more adjacent LED chips. By this is meant that an opening has substantially the length and width of one (or more) LED chip (s). The smallest "unit" which can be selected in this case is an LED chip or a light-emitting surface which corresponds to the size of an LED chip.

With regard to optimum optical results, it is advantageous if the individual LED chips lie in a common plane and their light exit surfaces have the same orientation.

In a simple variant, which is particularly well suited for the selection of different pattern LED chips, exactly one rotatable aperture mask is provided which is rotatable about an axis normal to the base of the LED chips, and wherein the aperture mask one or more having different opening arrangements. Depending on the desired LED chip pattern, the aperture mask is turned into the appropriate position. This variant requires only one aperture.

For selecting a particular LED chip (or optionally a plurality of immediately adjacent LED chips) is another variant, in which two in the light exit direction successively arranged aperture masks are provided, each of the two aperture masks having an opening in the form of an opening slot, and wherein the longitudinal directions of the two opening slots are normal to each other.

The two aperture masks are parallel to each other and parallel to the plane of the LED chips, in addition, the opening slots each extend parallel to the arranged in (vertical and horizontal) rows of LED chips.

Each of the two aperture masks is at least in the direction normal to the longitudinal extent of their opening slots parallel to the LED chip matrix displaced so that by appropriate displacement of the two aperture masks a particular LED chip or a summary of certain LED chips ( eg a 2x2 array of LED chips, depending on the size of the opening slots) can be selected.

In order to select LED chips in each area of the LED matrix, it is advantageous if the two opening slots extend in the longitudinal direction substantially over the entire length or width of the LED chip matrix.

In order to select exactly one LED chip, it is also advantageous if the length of the narrow side of the opening slots, ie the width of the opening slots corresponds approximately to the extent of an LED chip.

Another variant of the device according to the invention, which is particularly suitable for the selection of specific LED chip pattern has two or more aperture masks, laterally adjacent to each other, arranged in the form of a band or on a tape laterally one behind the other in the direction of movement of the band wherein each aperture mask has one or more openings, respectively. The band may for example be formed of a flexible material, which has the advantage that the two ends of the tape can be rolled up, whereby space (space) can be saved.

The LED chip matrix can be formed flat in this variant, but in principle the LED chips can also be arranged on a cylinder jacket. In the latter case, the band of the diaphragm masks would have a corresponding curvature; in the case of a planar LED chip matrix, the band can also be curved, for example in a small space, but it must be ensured that before the LED chip matrix, the respective optically active diaphragm mask is flat and parallel to the matrix ,

To generate special light distributions can also be provided that the base of the LED matrix is a curved surface in the form of a partial surface of a cylinder jacket and the at least one aperture mask rotatably mounted about the cylinder longitudinal axis and / or parallel to the cylinder axis is displaceable.

Accordingly, it can also be provided that the base of the LED matrix is a curved surface in the form of a spherical segment and the at least one axis about a pivot point, which coincides with the center of the ball, in a predetermined 2/10 Austrian Patent Office AT 11 129 U1 2010-05-15

Direction or freely rotatably mounted.

Furthermore, individual LED chips or groups of LED chips can also be electronically activated and deactivated. In this way, it becomes possible to roughly select a number of LED chips electronically and to perform a subsequent fine selection of LED chips or areas of one or more LED chips mechanically with one or more aperture masks.

In the following the invention with reference to the drawings is explained in more detail. 1 shows a first variant of a device according to the invention with two diaphragm masks in an exploded view, [0026] FIG. 2 shows an exemplary selection of an LED chip by means of a device from FIG. 1, FIG FIG. 4 shows a second variant of a device according to the invention with diaphragm masks in a band-shaped arrangement; and [0029] FIG. 5 shows a third variant of a device according to the invention with FIG a single aperture mask rotatable about an axis normal to the aperture mask.

In the following, the basic operation of the invention will be explained with reference to various examples. For the sake of simplicity, it is assumed here that the openings either have exactly the size of the light-emitting surface of an LED chip or - in the case of opening slots - the width of the slot corresponds exactly to the respective side length of an LED chip.

It will be understood by those skilled in the art that by enlarging the respective openings, a larger area, and when the opening is made smaller, a smaller area than the corresponding one can be selected from an LED chip.

In particular, the latter case may often be important because typical LED chips have a size of about 1mm x 1mm, which usually an angle range of about Γ can be illuminated upwards or sideways. If a narrower range, about 0.5 ° to be illuminated, it is necessary to select a smaller area than that of a whole LED chip, namely about 0.5mm x 0.5mm, which is done by means of correspondingly smaller openings.

Figure 1 shows an LED chip matrix (LED module) 1 with 14 LED chips 2, which are arranged in 2 rows and 7 columns in a rectangle. The LED chips or the LED chip matrix is mounted on a carrier element 3. The LED chip matrix is part of a lighting device of a motor vehicle.

The LED chips 2 are parallel to each other and in this variant in a common plane, which is formed by the planar support member 3.

In the on, active state, the LED chips (= LED light sources) emit light and form a specific light distribution.

In some circumstances, it is desirable to select one or more active LED chips, i. only to make this or these LED chips visible, while the other LED chips should not be visible.

For this purpose, in the light exit direction in front of the LED chip matrix 1, a device 100 for selecting one or more active LED light sources 2 is provided. The device 100 comprises two diaphragm masks 4, 5 which, viewed in the light exit direction of the LED chips 2, are arranged in front of the LED chips 2 and one behind the other. The two diaphragm masks 4, 5 are also planar and arranged parallel to each other and parallel to the LED chip matrix 1. In order to select a specific LED chip, each of the two diaphragm masks 4, 5 has an opening 40, 50 in the form of an opening slot, wherein the longitudinal directions of the two opening slots 40 , 50 are normal.

The two aperture masks are as already mentioned parallel to each other and parallel to the plane of the LED chips, in addition, the opening slots each extend parallel to the arranged in (vertical and horizontal) rows of LED chips.

Each of the two aperture mask 4, 5 is in the direction normal to the longitudinal extent of its opening slots 40, 50 parallel to the LED chip matrix 1 displaced, as indicated in Figure 1 with corresponding arrows, so that by corresponding displacement of the Both aperture masks a specific LED chip or a summary of certain LED chips (eg a 2x2 arrangement of LED chips, depending on the size of the opening slots) can be selected.

In order to be able to select LED chips in each region of the LED matrix, the two opening slots 40, 50 extend in the longitudinal direction substantially over the entire length or width of the LED chip matrix 1 in the variant shown.

In the variant shown is further provided that exactly one LED chip to be selected. Accordingly, it is provided that the length of the narrower side of the opening slots 40, 50, that is to say the width of the opening slots, corresponds approximately to the extent of an LED chip 2.

By superimposing the two aperture masks 4, 5 in the desired position exactly the position of an active LED chip 2 'is released, as shown in Figure 2 and Figure 3. In the position of the aperture masks 4, 5 according to FIG. 2, an LED chip 2 'in the upper row (second from the right in the view opposite to the light exit direction) is released and can emit light, in the position of the aperture masks 4, 5 according to FIG the leftmost LED chip 2 'in the lower row is released.

FIG. 4 shows a further variant of a device 100 according to the invention, which is particularly suitable for the selection of specific LED chip patterns. This device 100 has two or more, in the illustration shown seven aperture masks 6a - 6g, which are laterally adjacent to each other, arranged in the form of a band 6 in a row in the direction of movement of the band. Each aperture mask 6a-6g has one or more openings 60a-60f, respectively.

The LED chip matrix 1 is again flat in the illustration. The band 6 can be curved, for example in a small space, but it must be ensured that before the LED chip matrix 1, the respective optically active diaphragm mask is flat and parallel to the matrix.

In Figure 4, the aperture mask 6c is in front of the LED chip matrix 1, corresponding to the two openings 60c of the aperture mask 6c, the two active LED chips 2 'free, while the other active LED chips 2 are covered.

Finally, Figure 5 shows yet another variant of a device 100 according to the invention. This is particularly well suited for selecting different patterns of LED chips and includes exactly one rotatable diaphragm mask 7, which is normal to the base of the LED chips around an axis 9 2, 2 'is rotatable. The aperture mask 7 has one or more different arrangements of openings 70a-70g. Depending on the desired LED chip pattern, the aperture mask is turned into the appropriate position. In the example shown, one opening 70a releases exactly one active LED chip 2 'while the other active LED chips 2 remain hidden.

The aperture mask 7 of Figure 5 is divided into triangular segments as shown, each of these segments containing the respective pattern of openings, and wherein in the optically active position, the respective segment completely covers the LED matrix.

Basically, regardless of the type and number of aperture masks on it 4/10

Claims (10)

Austrian Patent Office AT 11 129 U1 2010-05-15 ensure that the diaphragm (s) always cover the LED matrix completely even in its extreme position, in order to avoid lateral light leakage from the LED chip matrix. Alternatively, smaller apertures and additional covers may be provided. Smaller apertures have the advantage that smaller masses must be moved and thus the drives can be dimensioned smaller, but an additional cover is usually more expensive and increases the susceptibility to failure of the entire product. The movement of the panels is done by means not shown drive units such as servomotors, stepper motors, solenoids, etc., which are controlled by means of a control, also not shown. Claims 1. A device (100) for selecting one or more light-emitting regions of an LED chip matrix (1) of a lighting device of a motor vehicle, wherein the LED chip matrix (1) of LED light sources in the form of LED chips (2, 2 '), characterized in that the device (100) has at least one diaphragm mask (4, 5; 6a-6g; 7), wherein the at least one diaphragm mask (4, 5; 6a-6g; 7) in the light exit direction of the LED chips (2, 2 ') in front of the LED chips (2, 2') is located, and wherein the at least one aperture mask (4, 5; 6a - 6g; 7) one or more openings (40, 70a-70g) and wherein the at least one diaphragm mask (4, 5; 6a-6g; 7) is slidably and / or rotatably mounted relative to the LED matrix (1). 2. Apparatus according to claim 1, characterized in that the LED chips (2, 2 ') lie in a common plane and their light exit surfaces have the same orientation. 3. A device according to claim 2, characterized in that exactly one rotatable diaphragm mask (7) is provided, which is rotatable about an axis normal to the base surface of the LED chips (2, 2 '), and wherein the diaphragm mask (7) a or a plurality of different opening arrangements (70a - 70g). 4. Apparatus according to claim 2, characterized in that two in the light exit direction successively arranged aperture masks (4, 5) are provided, wherein each of the two aperture masks (4, 5) has an opening (40, 50) in the form of an opening slot, and wherein the longitudinal directions of the two opening slots (40, 50) are normal to each other. 5. The device according to claim 4, characterized in that each aperture mask (4, 5) at least in the direction normal to the longitudinal extension of its opening slots (40, 50) parallel to the LED chip matrix (1) is displaceable. 6. Apparatus according to claim 4 or 5, characterized in that the two opening slots extend (40, 50) in the longitudinal direction substantially over the entire length or width of the LED chip matrix (1). 7. The device according to claim 1 or 2, characterized in that two or more aperture masks (6a - 6g), laterally adjacent to each other, in the form of a belt (6) or on a belt are arranged one behind the other and each aperture mask (6a - 6g) respectively has one or more openings (60a - 60f). 8. The device according to claim 1, characterized in that the base surface of the LED matrix is a curved surface in the form of a partial surface of a cylinder jacket and the at least one diaphragm mask is rotatably mounted about the cylinder longitudinal axis and / or parallel to the cylinder longitudinal axis displaceable. 9. 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