EP2343477A1 - Lamp reflector - Google Patents

Abstract

The reflector (1) has a hollow parabolic reflector body (2) with an internal reflection surface, where an interior cross section of the reflector body is increased towards a longitudinal center axis (8) from a rear lighting center opening (10) to a front light outlet (12). The body is divided into multiple reflector segments (16) by multiple slots (14) that are distributedly arranged and section-wise provided between the lighting center opening and the light outlet. The reflector segments are integrally connected with each other by a non-slotted connecting region (18).

Description

The present invention relates according to the preamble of claim 1, a luminaire reflector consisting of a hollow, substantially rotationally symmetrical parabolic reflector body with an inner reflection surface and increasing in the direction of a longitudinal central axis of a rear, smaller illuminant opening to a front, larger light exit opening internal cross-section.

Such reflectors are well known. In this case, a light source is at least partially introduced through the bulb opening into the hollow, parabolspiegelartigen reflector body. The light emanating from the respective luminous means is reflected and directed by the inner reflection surface so that it is emitted from the front light exit opening.

Known reflectors of the type mentioned are usually produced in one forming process in one piece and rotationally symmetrical from an originally flat sheet metal blank (Ronde). This design has the decisive disadvantage that such reflectors can only be finished on the surface after forming, for example by being mirrored, as a result of which, as a rule, a non-optimal reflection efficiency is achieved.

There are also other reflectors are known which are composed of several different parts, wherein the different parts are each bent from an already pre-finished sheet metal sheet. On the one hand, however, these multi-part reflectors clearly have a rotationally symmetrical reflector shape different appearance and on the other hand, a poor mechanical stability.

The publication DE 20 2009 004 003 U1 describes a so-called "round reflector", which consists of a blank made of aluminum sheet, which is anodized on the reflective side, projecting from an annular central part of the Ronde star-shaped strip-like fingers which are bent into a reflector shape. The fingers can be connected to one another at the end in order to fix the desired reflector shape. However, the resulting reflector has no, at least no optimal, parabolic shape.

The present invention is based on the object to provide a luminaire reflector of the generic type described above, which is simple and inexpensive to produce, and also ensures a high reflection efficiency with an optimal reflector shape.

This is achieved by the features of independent claim 1 according to the invention. Advantageous design features of the invention are contained in the dependent claims and in the subsequent description.

Accordingly, the invention provides that the substantially parabolic reflector body is divided at a circumferential location between the illuminant opening and the light exit opening and distributed over several distributed over the circumference, in each case only partially so between the illuminant opening and the light exit opening extending slots is divided into a plurality of reflector segments in that the reflector segments are connected to one another in pairs laterally via remaining, unslotted connection areas. By means of this embodiment according to the invention, the reflector body may advantageously be formed from a one-piece blank made from a single-sided, highly light-reflecting flat material, preferably a sheet metal material, the blank originally lying in one plane strip-shaped and connected in the radial direction over the lateral connecting portions reflector segments has a total of approximately C-shaped surface shape. From this flat shape of the blank can then be formed in a simple and economical manner, in particular in a rolling, thermoforming and / or embossing process of the reflector body so that it receives an overall optimal parabolic shape, which also - apart from the very narrow, linear Slots - is essentially rotationally symmetric.

The reflector body therefore preferably consists of a sheet metal material that is at least highly reflective on the inside, in particular of a reflective coated aluminum sheet. A particularly suitable material is available under the name "MIRO" (registered trademark of the company ALANOD Aluminum-Veredlung GmbH and Co. KG). In this case, the sheet material may have a smooth, high-gloss surface or a faceted profiled, but also high-gloss surface.

In view of the fact that the reflector body according to the invention has a reduced mechanical stability due to its multiple slotted design, it is advantageous to use the reflector body for fixing and stabilization in an outer reflector carrier. This additional reflector support practically forms a stable "cover" (reflector cover), for which purpose it preferably has a closely parabolic design adapted to the reflector body. For this purpose, the reflector carrier is preferably one-piece and rotationally symmetrical from an originally flat sheet metal sheet, in particular of an aluminum sheet, formed (pressed). With particular advantage, the reflector support in the region of the light exit opening of the reflector body retaining means for releasably or permanently attach additional components, such as in particular the light exit opening overlapping protective screen (protective glass) and / or other intentions have. In addition, the reflector support may be treated, especially in the region of its outer surface for an attractive design, such as painted, sandblasted and / or z. B. coated metal. As a result, the reflector support practically forms a luminaire or reflector housing with an attractive design.

As a result of the preferred two-part design of the luminaire reflector comprising the inner reflector body according to the invention and the optional outer reflector carrier, the reflector is advantageously suitable for any luminous means, both for such luminous means, such as in particular LED's, which emit a relatively low heat during operation, but also for such lamps, such as in particular high-pressure discharge lamps, which generate a higher temperature during operation. Since the temperature is only partially passed on to the outer reflector support, this remains - relatively cool compared to a one-piece reflector, which is why its outer surface designed much more variable, for example, can be painted without problems, without it in operation to thermally induced color changes or even damage can occur.

Fig. 1

einen Axialschnitt eines Leuchten-Reflektors mit einem erfindungsgemäßen Reflektorkörper und einem zusätzlichen äußeren Reflektorträger sowie einer optionalen Schutzscheibe,

Fig. 2

eine Seitenansicht nur des Reflektorkörpers,

Fig. 3

einen ebenen Blechzuschnitt für den erfindungsgemäßen Reflektorkörper in einer ersten Ausführung,

Fig. 4

eine zweite Ausführung eines Blechzuschnitts ähnlich Fig. 3,

Fig. 5

einen vergrößerten Längsschnitt durch den Bereich eines Reflektorsegmentes in der Schnittebene V-V gemäß Fig. 2,

Fig. 6

eine Ansicht wie in Fig. 1 in einer Ausführungsvariante,

Fig. 7

eine Draufsicht einer Schutzscheibe in Pfeilrichtung VII gemäß Fig. 6,

Fig. 8

eine weitere Ansicht analog zu Fig. 1 und 6 in einer weiteren Alternative,

Fig. 9

einen Axialschnitt des äußeren Reflektorträgers in der Ausführung entsprechend Fig. 1 und 6 und

Fig. 10

eine Ansicht wie in Fig. 9 in einer alternativen, z. B. für die Reflektor-Ausführung gemäß Fig. 8 konzipierten Ausführung des Reflektorträgers.

With reference to some illustrated in the drawings, preferred embodiments, the invention will be explained in more detail. Showing:

Fig. 1

an axial section of a luminaire reflector with a reflector body according to the invention and an additional outer reflector support and an optional protective screen,

Fig. 2

a side view only of the reflector body,

Fig. 3

a flat sheet metal blank for the reflector body according to the invention in a first embodiment,

Fig. 4

a second embodiment of a sheet metal blank similar Fig. 3 .

Fig. 5

an enlarged longitudinal section through the region of a reflector segment in the sectional plane VV according to Fig. 2 .

Fig. 6

a view like in Fig. 1 in an embodiment variant,

Fig. 7

a plan view of a protective screen in the direction of arrow VII according to Fig. 6 .

Fig. 8

another view analogous to Fig. 1 and 6 in a further alternative,

Fig. 9

an axial section of the outer reflector carrier in the embodiment accordingly Fig. 1 and 6 and

Fig. 10

a view like in Fig. 9 in an alternative, for. B. for the reflector design according to Fig. 8 designed version of the reflector carrier.

In the various figures of the drawing, like parts are always provided with the same reference numerals.

In the FIGS. 1 . 6 and 8th In each case, an inventive luminaire reflector 1 with a hollow, substantially rotationally symmetrical parabolic reflector body 2 in a preferred arrangement within an outer reflector support 4 is shown. The Fig. 2 shows the reflector body 2 according to the invention separately in side view, and in the FIGS. 9 and 10 two versions of the reflector support 4 are separately illustrated.

The reflector body 2 has an inner reflection surface 6 (cf. Fig. 5 ) and an inner cross section, which increases according to the parabolic shape in the direction of a longitudinal center axis 8 from a rear, smaller illuminant opening 10 to a front, larger light exit opening 12.

Through the illuminant opening 10, a non-illustrated illuminant can be introduced at least in some areas into a focal point region of the reflector body 2. The light emitted by the respective light source is from the reflection surface 6 is reflected so that it is bundled or diffused emitted from the light exit opening 12.

According to the invention it is now provided that the reflector body 2 divided at one point of its circumference between the bulb opening 10 and the light exit opening 12 and distributed in the remaining peripheral area over a plurality of distributed over the circumference, in each case only partially such between the illuminant opening 10 and the light exit opening 12 extending slots 14 is subdivided into a plurality of reflector segments 16, that the reflector segments 16 resulting from this subdivision are connected to one another in pairs via remaining, unslotted connecting regions 18 in pairs. It follows that the reflector segments 16 are each formed strip-shaped with a first, narrower end portion 20 on the side of the bulb opening 10 and a second, wider end portion 22 on the side of the light exit opening 12.

Due to the inventive design of the reflector body 2 of a one-piece blank 24 - see 3 and 4 - Be formed of a one-sided, ie on the reflection surface 6 forming side, refined, highly light-reflecting sheet metal material. This one-piece blank 24 has in its original, lying in a plane configuration with the strip-shaped and in radial alignment via the lateral connecting portions 18 connected reflector segments 16 a total of about C-shaped surface shape. Out of this flat initial state, the parabolic shape of the reflector body 2 can be formed in particular in a rolling, deep-drawing and / or embossing process. In this case, each reflector segment 16 is deformed by curvature (curvature) in three surface coordinate directions three-dimensional.

It is advantageous if the reflector segments 16 according to 3 and 4 in the plane state of the sheet metal blank 24 have slightly convexly curved extending side edges 26, wherein the curvature in adaptation to the desired Parabolic shape is designed so that in the finished molded state, a minimization of the width of the slots 14 is achieved.

In a preferred embodiment, the unslotted connection regions 18 are arranged approximately centrally between the illuminant opening 10 and the light exit opening 12, so that the end sections 20, 22 of each reflector segment 16 are formed as free, laterally divided by the slots 14 ends.

According to 3 and 4 the reflector segments 16 of the originally flat blank 24 are arranged in a circular arc, in particular approximately semicircular row, wherein the two last reflector segments 16 a and 16 b are integrally connected only at one side edge with the adjacent reflector segment 16. These two end reflector segments 16 a, b are completely separated axially in the finished molded state of the reflector body 2. They can - because of the preferred arrangement of the reflector body 2 in the reflector support 4 - in the embodiment according to Fig. 3 be adjacent in the finished molded state without connection via a continuous slot. In the in Fig. 4 illustrated alternative, these two reflector segments 16a, b connected by connecting means 28 randlich each other. In the in Fig. 4 illustrated embodiment, the connecting means 28 are formed as a tab connection, wherein the one reflector segment 16a, for example, two tabs 30 which are guided and deformed by a respective slot opening 32 of the other reflector segment 16b, for example, bent and / or rotated.

In a further advantageous embodiment, on the one hand provided that the reflector segments 16 at their first, narrower end portions 20 parallel to the longitudinal central axis 8 aligned, distributed around the bulb opening 10 around arranged end webs 34, which together practically form an axially projecting, divided by slots ring land. On the other hand, the reflector segments 16 at its second, wider end portions 22 perpendicular to the longitudinal center axis 8 outwardly angled, a total of the Light exit opening 12 enclosing and lying in the plane of the light exit opening 12 annular web forming web portions 36. These web portions 36 are also separated from each other via the slots 14.

The number of reflector segments 16, in which the reflector body 2 is divided, depends on the size of the reflector body 2 and on the respective lighting technical, application-specific task. So it can be any number. In the illustrated preferred embodiments, the reflector body 2 consists of fifteen reflector segments 16.

The inner reflection surface 6 of the reflector body 2 may be formed smoothly mirrored or faceted structured. The structure depends on the desired reflection properties.

Notwithstanding the illustrations in 3 and 4 For example, the slots 14 may still be significantly narrower in practice. Preferably, the width of the slots 14 in the molded state of the reflector body 2 is in the range of only 0 to 0.3 mm.

As far as the reflector carrier 4 which is preferably additionally provided is concerned, it has a correspondingly parabolic, only slightly larger configuration adapted to the reflector body 2 for fitting the reflector body 2. In order to achieve a good fixation and stabilization of the segmented reflector body 2, the reflector body 2 is preferably fastened by suitable means within the reflector support 4.

The reflector support 4 is preferably in one piece and rotationally symmetrical from an originally flat sheet metal sheet, in particular from an aluminum sheet, transformed. For this purpose, the sheet metal blank is rotated and pressed onto a reflector inner contour exhibiting mold.

The reflector support 4 may have an axially protruding annular collar 38 in the region of the illuminant opening 10. This results in the possibility according to Fig. 1 to guide the end webs 34 of the reflector segments 16 of the reflector body 2 through the annular collar 38 and for fixing in the direction of in Fig. 1 drawn arrows 40 by at least 90 ° or 180 ° to bend outward.

As exemplified in Fig. 6 and 8th is shown, the reflector body 2 but also be held in the reflector support 4, that the end webs 34 are arranged freely within the reflector support 4. In particular, in this case, the reflector body 2 is attached via the front web portions 36. For this purpose, the reflector support 4 in the region of the light exit opening 12 of the reflector body 2 holding means 42 for the reflector body 2 and preferably also for certain additional components, such as in particular the light exit opening 12 covering the protective plate 44 and / or other intentions. Preferably, the holding means 42 are formed by a receiving flange, which consists of a radially outwardly extending flange portion 46 and an adjoining, axially projecting peripheral edge 48. For holding the reflector body 2 can be used with the web portions 36 in the peripheral edge 48 and placed on the flange portion 46 and then in particular fastened together with the protective plate 44. For this purpose, the protective disk 44 can be fastened directly via a bayonet connection. This can according to Fig. 7 the protective disc 44 on its outer circumference radial bayonet approaches 50 which can be inserted into corresponding bayonet recesses 52 of the peripheral edge 48 and secured by rotation.

In an analogous manner, any other additional parts, such as Abblendelemente, filter discs, caps, screens or the like, are attached.

In the in Fig. 8 illustrated embodiment, the reflector body 2 is permanently attached together with the protective plate 44 by the peripheral edge 48 of the reflector support 4 is crimped inwards.

The reflector support 4 may be formed with an outer surface 54 treated for an appealing design, for example painted, sandblasted and / or otherwise coated. The quality of the inner surface of the reflector support 4 is advantageously irrelevant, because it is not visible after the onset of the reflector body 2.

The invention is not limited to the illustrated and described embodiments, but also includes all the same in the context of the invention embodiments. Furthermore, the invention has hitherto not been limited to the feature combination defined in claim 1, but may also be defined by any other combination of specific features of all individually disclosed individual features. This means that in principle virtually every individual feature of claim 1 can be omitted or replaced by at least one individual feature disclosed elsewhere in the application. In this respect, the claim 1 is to be understood only as a first formulation attempt for an invention.

Claims (14)

Luminaire reflector (1), comprising a hollow, substantially rotationally symmetrical parabolic reflector body (2) with an inner reflection surface (6) and with a in the direction of a longitudinal central axis (8) from a rear, smaller illuminant opening (10) to a front , larger light exit opening (12) increasing inside cross section,
characterized in that the reflector body (2) at one circumferential location between the illuminant opening (10) and the light exit opening (12) continuously divided and distributed over several distributed over the circumference, only in each case partially between the illuminant opening (10) and the light exit opening (12) extending slots (14) is divided into a plurality of reflector segments (16), that the reflector segments (16) over remaining, unslotted connecting portions (18) are integrally connected to each other. Luminaire reflector according to claim 1,
characterized in that the reflector segments (16) each strip-shaped with a first, narrower end portion (20) on the side of the illuminant opening (10) and a second, wider end portion (22) on the side of the light exit opening (12) are formed. Luminaire reflector according to claim 1 or 2,
characterized in that the unslotted connection areas (18) lie approximately centrally between the illuminant opening (10) and the light exit opening (12). Luminaire reflector according to one of claims 1 to 3,
characterized in that two reflector segments (16a, 16b) arranged on both sides next to the circumferentially divided circumferential location are connected to one another in a peripheral manner without connection via a continuous slot or via connection means (28). Luminaire reflector according to claim 4,
characterized in that the connecting means (28) are designed as a tab connection, wherein at least one lug (30) formed as a projection of the one reflector segment (16) is guided and deformed through a slot opening (32) of the other reflector segment (16b). Luminaire reflector according to one of claims 2 to 5,
characterized in that the reflector segments (16) at its first, narrower end portion (20) parallel to the longitudinal central axis (8) aligned around the illuminant opening (10) distributed around arranged end webs (34). Luminaire reflector according to one of claims 2 to 6,
characterized in that the reflector segments (16) at its second, wider end portion (22) perpendicular to the longitudinal central axis (8) outwardly projecting, a total of the light exit opening (12) enclosing ring land forming web portions (36). Luminaire reflector according to one of claims 1 to 7,
characterized in that the reflector body (2) is formed from a one-piece blank (24) made from a single-sided, highly light-reflecting flat material, the blank (24) originally lying in a plane with the strip-shaped and in radial alignment via the lateral connecting areas (24). 18) connected reflector segments (16) has a total of approximately C-shaped surface shape. Luminaire reflector according to claim 8,
characterized in that the reflector segments (16) in the plane state of the blank (24) have slightly convex curved side edges (26). Luminaire reflector according to one of claims 1 to 9,
characterized in that the inner reflection surface (6) of the reflector body (2) is formed smooth or faceted structured. Luminaire reflector according to one of claims 1 to 10,
characterized by an outer, the reflector body (2) fixing and stabilizing receiving reflector support (4) adapted to the reflector body (2), corresponding parabolic design. Luminaire reflector according to claim 11,
characterized in that the reflector support (4) is integrally and rotationally symmetrical from an original flat starting material, in particular from an aluminum sheet, is formed. Luminaire reflector according to claim 11 or 12,
characterized in that the reflector support (4) in the region of the light exit opening (12) of the reflector body (2) holding means (42) for releasably or permanently attach additional components, such as in particular the light exit opening (12) covering the protective screen (44) and / or other Intentions, has. Luminaire reflector according to one of claims 12 to 14,
characterized in that the reflector carrier (4) is a treated, z. B. painted, sandblasted and / or coated outer surface (54).

Images