DE102009007490A1 - Reflector Modular System - Google Patents

Abstract

The invention relates to a reflector (10) for a luminaire. According to the invention, the reflector (10) has a first reflector segment (51) and a second reflector segment (52), wherein the first and second reflector segments (51, 52) are mechanically, for example non-positively and / or positively connected miteiander. In this way it is possible to form reflectors or luminaires of three different types by means of production of only two different optical reflector types of reflector segments. In this case, the reflector may have a main axis (S), wherein a light output of the lamp in a direction (L) along the main axis (S) is provided and wherein the first and the second reflector segment (51, 52) parts of the reflector (10) which are formed by at least one section running through the main axis (S) of the reflector (10). It may, for example, four reflector segments (51, 52, 53, 54) may be provided, each forming a quarter of the reflector.

Description

The The invention relates to a reflector for a lamp, as well as a corresponding lamp.

Out the prior art are such lights or reflectors known with different types of light distribution properties. For example, there are lights that light rotationally symmetric distribute or shine in the form of so-called Wallwashern; With a wallwasher achieves asymmetrical light distribution, the usual this serves a wall surface to illuminate. For the production of corresponding lights or Reflectors it is common each to generate a corresponding reflector type.

Of the The present invention is based on the object, the production simplify such lights or reflectors.

These Task is according to the invention with those in the independent ones claims mentioned objects solved. Special embodiments of Invention are in the dependent Claims specified.

According to the invention is a reflector for one Luminaire provided; In this case, the reflector has a first and a second reflector segment, which are mechanically connected to each other are.

On this way it is possible by means of production only two - with respect to their optical properties - different Types of reflector segments Reflectors or luminaires of three different types. If you call "A" the first Reflector segment type and with "B" the second Reflector segment type, so gives a composition of "A" with "A", hereinafter abbreviated to "AA", a reflector of a first type, a composition of "A" with "B" and "AB", respectively Reflector of a second type and a composition of "B" with "B" or "BB" one Reflector of a third type, with all three reflector types differ in their optical properties from each other. In contrast in the state of the art it is possible in this way, with only two different ones Reflector components three different reflectors or to form corresponding lights. The production is simplified accordingly.

Advantageous the reflector has a main axis, wherein a light output the lamp in one direction along the main axis is provided; the first and the second reflector segment represent parts of the reflector by at least one formed by the main axis of the reflector extending section are.

Advantageous the first and the second reflector segment have different optical properties.

Advantageous are the reflector segments positively and / or positively, connected to each other. This is a manufacturing technology particularly simple and thereby suitable connection type. For example, the reflector segments by means of Plug connections are connected to each other.

Advantageous the reflector further comprises a third reflector segment and a fourth reflector segment, wherein the four reflector segments parts of the Reflectors represented by two perpendicular to each other Cuts are formed. In this way, for example when using only two different types of reflector segments "A" and "B" six form optically different acting reflectors, namely - under Using the above notation - the types "AAAA", "AAAB", "AABB", "ABBB", "BBBB" and "ABAB".

According to one Another aspect of the invention is a luminaire with a light source and a reflector according to the invention provided, wherein the light source within one of the reflector circumscribed space is arranged.

The Light source may include at least one LED. It can be at everyone the reflector segments be arranged at least one LED.

The at least one LED can be arranged on a circuit board, and the Board directly on the reflector segment, for example on a inner surface a wall of the reflector segment.

Advantageous the light is a downlight.

The Invention will be described below with reference to an embodiment and with reference closer to the drawings explained. Show it:

1 a schematic cross section through a first embodiment of a reflector according to the invention,

2 a schematic cross section through a second embodiment of a reflector according to the invention,

3 a schematic longitudinal section through a reflector according to the invention with an LED as a light source,

4 a schematic longitudinal section through a variant of a reflector according to the invention, in which the light source is connected via a heat pipe to the reflector,

5 a sketch of the possible arrangement of a light source,

6 a perspective sketch of the main structure of a reflector according to the invention,

7 a schematic longitudinal section through a first reflector segment,

8th a corresponding cross section,

9 to 11 Sketches of examples of differently shaped reflector segments, and

12 to 15 Sketches for reflectors, which are composed of the reflector segments shown.

In 1 is in a very schematic form a cross section through a first embodiment of a reflector 10 outlined. 3 shows a corresponding, also very schematic longitudinal section. The reflector 10 is intended for a light (not shown as such) with a light source. The reflector 10 is used to influence the light generated by the light source of the luminaire. The light source can, as in 3 indicated, for example, at least one LED 2 include. The LED 2 Can do it directly on a board 3 be arranged, in turn, directly to the reflector 10 , on the bottom surface, is arranged.

The reflector 10 has cooling fins 12 on, which serve to dissipate heat from the light source 2 is generated during operation of the lamp. In the in 3 shown longitudinal section, the cooling fins are not sketched for clarity.

The cooling fins 12 can be shaped in a conventional manner. The cooling fins 12 In particular, they can be chosen so large that a particularly effective heat dissipation is made possible. For example, it may be provided that the individual cooling fins are at least about as large that they are an order of magnitude smaller than the reflector diameter.

The reflector 10 can be a reflector wall 14 comprise an inner surface with respect to the position provided for the light source 16 and an outer surface 18 having, wherein the cooling fins 12 on the inner surface 16 and / or on the outer surface 18 are arranged. At the in 1 example shown are the cooling fins 12 on the inner surface 16 arranged.

2 shows in one of the 1 corresponding representation, a second embodiment, wherein the reference numerals are used analogously. In this example, the cooling fins are 12 on the outer surface 18 the reflector wall 14 arranged.

Of course, it can be provided that the cooling fins 12 both on the inner surface 16 , as well as on the outer surface 18 are arranged. This is basically advantageous in terms of a particularly effective heat dissipation.

In the sketches shown, it is indicated that the cooling fins cover the entire inner surface 16 or the entire outer surface 18 taking. However, it can also be provided that the cooling fins 12 only partially occupy the corresponding area or areas. For example, it can be provided that the cooling fins 12 at least a quarter, preferably at least one third or at least half of that surface of the reflector 10 occupy themselves without the cooling fins 12 would result.

The inner surface 16 In particular, it may be a reflective surface which, in a manner known per se, is intended to reflect light originating from the light source in a specific way, so that a desired radiation can be achieved. If cooling fins 12 on this inner, reflective surface 16 are provided, it is advantageous to ensure that the type of light output is not through the cooling fins 12 is adversely affected in an undesirable manner.

The reflector according to the invention 10 can one, in 3 indicated major axis S have. In particular, the reflector 10 a - perpendicular to the main axis S - have cross-section, which defines a circular shape. This, in itself, is so well-known and common in reflectors used for downlights.

At the reflector 10 can in this case the cooling fins 12 be symmetrical with respect to the main axis S, in particular axially symmetric or rotationally symmetrical.

In a corresponding lamp, the arrangement of the light source of in 3 sketched arrangement of the light source, ie the light source can be on the bottom surface of the reflector 10 be arranged. Advantageously, the light source is thermally as directly as possible with the reflector 10 connected to the most effective heat transfer from the light source to the reflector 10 to enable.

The light source, as mentioned above, a LED include. In this case, it can be provided that the LED is arranged on a circuit board and the circuit board directly to the reflector 10 is arranged.

at The luminaire can be a downlight, where a or a plurality of LEDs are provided as the light source; a reflector for a downlight is comparatively large, so that a comparatively large heat transfer surface is formed. Besides that is the reflector in the installed state of the lamp usually not in the insulated ceiling cavity arranged, but stands with the ambient air of the application to be illuminated in contact.

As in 4 can also be provided that the light source via at least one heat pipe 20 with the reflector 10 thermally connected. In the sketch of the 4 are two heatpipes 20 shown. The light source may be at least one LED 30 act on a circuit board 31 is arranged, the board 31 thermally directly with the at least one heat pipe 20 connected is. The heat pipe 20 on the other hand can be directly thermally with the reflector 10 , For example, with the inner reflector wall 16 be connected. The cooling fins are in 4 again not outlined for the sake of clarity; however, they are provided in this example.

In 5 an embodiment is indicated in which the light source (as shown in FIG 3 ) on the bottom surface of the reflector 10 is arranged, in the form of several, for example, four LEDs 21 . 22 . 23 . 24 , In the example shown, there is one LED each 21 . 22 . 23 . 24 a quarter of the reflector 10 assigned.

For easier describability, a coordinate system is used in the following, in which - as in 5 outlined - the x-axis and the y-axis perpendicular to the main axis S of the reflector 10 run. In 6 is a perspective sketch of the main structure of the reflector 10 shown. The reflector 10 can be cup-shaped overall. One recognizes that with this determination for the reflector 10 a light output of the corresponding lamp is provided in a direction which lies along the main axis S. In the selected coordinate system, the z-axis extends along the major axis S, the light output being directed in the negative z-direction; in 6 the direction of the light output is denoted by L. This indicates the reflector 10 in the direction of the light output L a reflector opening 50 on. In the example shown, the edge of the reflector opening runs 50 in the xy plane. Thus, eight octants I to VIII are formed by the coordinate system, with the reflector 10 located in the first four octants I to IV.

The reflector according to the invention 10 has a first reflector segment 51 and a second reflector segment 52 on, wherein the first reflector segment 51 with the second reflector segment 52 mechanically connected. The two reflector segments 51 . 52 can parts of the reflector 10 represent, which are formed by at least one section along a plane E, through the main axis S of the reflector 10 runs. It can be provided that the first reflector segment and the second reflector segment are formed such that they form a complete cup-shaped reflector in combination. In the example shown, the first reflector segment 51 the part of the reflector 10 which lies in the first octant I, the second reflector segment 52 the part of the reflector 10 which lies in the fourth octant IV.

In 7 is a longitudinal section through the first reflector segment 51 schematically sketched and in 8th a corresponding cross-section. You can see the corresponding LED 22 that is the first reflector segment 51 assigned. It may in turn be arranged, for example, on a circuit board which is directly on the "bottom surface" of the reflector segment 51 is arranged. By "bottom surface" is an end region of the reflector segment located in the z-direction 51 designated.

The two reflector segments 51 . 52 can have different optical properties. In this case, each of the two reflector segments 51 . 52 For example, be part of a rotationally symmetrical around the main axis S reflector, hereinafter referred to briefly as "R". In 9 the corresponding cross section is sketched. Furthermore, for example, each of the two reflector segments 51 . 52 a corresponding part of a so-called "wallwasher"be; the corresponding cross section is in 10 sketched and labeled "WW". Furthermore, for example, each of the two reflector segments 51 . 52 be a corresponding part of a so-called "corner wallwashers"; the corresponding cross section is in 11 sketched and labeled "EW".

The reflector segments 51 . 52 For example, they may differ in their shape-in particular in the form of their inner reflector walls-and as a result may have different optical properties.

The mechanical connection of the reflector segments 51 . 52 can be non-positive and / or positive. For example, the reflector segments 51 . 52 be connected by means of connectors. It can be provided that the reflector segments 51 . 52 for this purpose at their neighboring boundaries - in 8th indicated - flanges 60 have, where appropriate Can attack connecting means. Preferably, the mutually facing edges of the reflector segments 51 . 52 congruent.

It can be provided that more than two reflector segments are provided, which form a pot-shaped reflector together. In the example that is in 6 sketched is a total of four reflector segments 51 . 52 . 53 . 54 provided, wherein the third reflector segment 53 the part of the reflector 10 is located in the third octant III, the fourth reflector segment 54 the part of the reflector 10 which lies in the second octant II. The four reflector segments 51 . 52 . 53 . 54 Thus, they can be formed by two cuts which are perpendicular to each other and extend through the main axis S, respectively. The third and the fourth reflector segment 53 . 54 can be analogous to the first two reflector segments 51 . 52 be constructed.

In the 12 . 13 . 14 and 15 are outlined by corresponding cross-sections examples of reflectors, which are composed in different ways by the described reflector segments. According to 12 is a rotationally symmetrical reflector formed by four reflector segments "R". According to 13 a reflector is formed, which is formed to one half of two reflector segments "R", the other half of two reflector segments "W". According to 14 a reflector is formed, which is formed in three quarters of three reflector segments "R" and a quarter of a reflector segment "EW". According to 15 a reflector is formed, which is formed into four quarters of four reflector segments "WW"; This results in a "double wallwasher". So it is as it were a "reflector kit" formed, which makes it advantageous manufacturing technology to form with different reflector segments many different reflectors with different optical properties.

When Light source can be provided that - as shown above - each the reflector segments each associated with one or more LEDs is or are - for example at the bottom surface arranged the relevant reflector segment. This way you can a lamp formed with a light source and a reflector be in which the light source within a circumscribed by the reflector Room is arranged.

at This light may be, for example, a downlight.

Claims (11)

Reflector for a luminaire, characterized in that the reflector ( 10 ) a first and a second reflector segment ( 51 . 52 ), wherein the first and the second reflector segment ( 51 . 52 ) are mechanically interconnected. Reflector according to claim 1, comprising a main axis (S), wherein a light emission of the luminaire in a direction (L) along the main axis (S) is provided, wherein the first and the second reflector segment ( 51 . 52 ) Parts of the reflector ( 10 ) represented by at least one through the main axis (S) of the reflector ( 10 ) extending section are formed. Reflector according to claim 1 or 2, wherein the first reflector segment ( 51 ) and the second reflector segment ( 52 ) have different optical properties. Reflector according to one of the preceding claims, in which the reflector segments ( 51 . 52 ) non-positively and / or positively, are interconnected. Reflector according to Claim 4, in which the reflector segments ( 51 . 52 ) are interconnected by means of plug connections. Reflector according to one of the preceding claims, further comprising a third reflector segment ( 53 ) and a fourth reflector segment ( 54 ), wherein the four reflector segments ( 51 . 52 . 53 . 54 ) Parts of the reflector ( 10 ), which are formed by two sections running perpendicular to each other. Luminaire with a light source and a reflector according to one of the preceding claims, wherein the light source ( 2 . 21 . 22 . 23 . 24 . 30 ) within one of the reflector ( 10 ) circumscribed space is arranged. Luminaire according to Claim 7, in which the light source comprises at least one LED ( 2 . 21 . 22 . 23 . 24 . 30 ). Luminaire according to claim 7 or 8, wherein at each reflector segment ( 51 . 52 . 53 . 54 ) at least one LED ( 21 . 22 . 23 . 24 ) is arranged. Luminaire according to claim 8 or 9, wherein the at least one LED ( 21 . 22 . 23 . 24 ) is arranged on a circuit board and the board directly to an inside of the reflector. Luminaire according to one of claims 7 to 10 in the form of a Downlights.