DE3605226A1 - GLARE-FREE LAMP WITH STRIP-SHADE DIMMING REFLECTOR - Google Patents

Abstract

A light fitting with a rod-shaped light source (1) which, in particular, is horizontally arranged, with concavely curved side reflectors (2, 3) extending at the two longitudinal sides of the light source (1) from below to above this light source, with a screening reflector (17) arranged below the light source (1), and with two end reflectors connecting the side reflectors (2, 3) at the end faces, the screening reflector (17) consisting of a strip-like flat material and extending at a short distance below the light source (1) in parallel with the latter between the end reflectors, the width of the screening reflector (17) being >/= the width of the vertical projection of the light source (1) and the screening reflector (17) exhibiting a multiplicity of light outlet openings (18) in its area. <IMAGE>

Description

The invention relates to a luminaire with a stab-shaped, in particular horizontally arranged light source, with reflectors on both longitudinal sides of the light source extending from below to above it, such concave, in particular parabolically curved sides, that all light beams emitted transversely to the light source directly or after reflection under emerge in the transverse direction at a steeper angle to the horizontal than a glow-specific blanking angle α , with an anti-glare reflector arranged below the light source in such a way that all light rays emitted in the longitudinal direction of the light source directly or after reflection at a steeper angle than the glow-specific angle than a light-specific blanking angle β in Exit longitudinally, as well as two front reflectors connecting the side reflectors on the front.

Such a lamp is known from the European publication 01 22 972. The design of the side reflectors of this known luminaire ensures that when viewing the luminaire in the transverse direction of the light source up to a certain angle to the horizontal, the fade-out angle α , no disturbing glare occurs due to light falling directly from the light source into the eye of the beholder. The anti-glare reflector arranged below the light source is used to suppress direct light in the longitudinal direction of the light source up to a certain angle to the horizontal, the suppression angle β . The known lamp thus creates a uniform and practically interference-free lighting, but it has the disadvantage that the dipped reflector arranged below the light source consists of transverse to the vertical central longitudinal plane of the light source slats extending between the side reflectors and attached to them are. However, this training makes the manufacture of the lamp very complex and expensive, since many individual parts have to be produced and subsequently assembled. In this case, the manufacture of the slats is particularly complex, since they are approximately V-shaped in cross section with reflective and concavely curved side surfaces. This training makes expensive manufacturing tools necessary. Furthermore, a change from the light source is cumbersome, since the unit consisting of side reflectors, front reflectors and anti-glare reflectors must be removed as a whole to access them. Finally, it is also difficult to clean the reflectors required for a consistently good efficiency of the luminaire, because due to the cross lamellae there are many corners and edges.

The present invention is therefore based on the object de to specify a lamp of the type described in the introduction, which both have a very good glare control in cross and Longitudinal direction of light emitted by the light source guaranteed, as well as is so simply constructed, that they are inexpensive to manufacture as well as light Interchangeability of the light source and easy cleaning possibility of the reflectors is easy to maintain.

According to the invention this is achieved in that the anti-glare reflector consists of a strip-shaped flat material and extends at a short distance below the light source parallel to the front reflector, the width of the anti-glare reflector being the width of the vertical projection of the light source and the anti-glare reflector in its area has a plurality of light exit openings. The anti-glare reflector of the lamp according to the invention is thus filter-like. Advantageously, the luminaire-specific cut-out angle β in the longitudinal direction between the horizontal and in the longitudinal direction of the light source is determined by two diagonally opposite edges of a light exit opening running in the longitudinal section of the cut-off reflector.

The anti-glare reflector located below the light source covers the light source from below, but vertical light emission is guaranteed through the light outlet openings, which ensures good efficiency. From the design of the light outlet openings according to the invention ensures a fade-out effect, in particular in the longitudinal direction, but also in the transverse direction of the light source, the fade-out angle being determined by the dimensions of the light outlet openings. The dimensions of the light exit openings are influenced in particular by their vertical length and their horizontal area. Therefore, the desired fade-out angle β in the longitudinal direction, but also the fade-out angle α in the transverse direction, can be ensured by special shaping of the light outlet openings.

The anti-glare reflector according to the invention runs in contact going to the side reflectors between these so that the inner surfaces of the side reflectors are smooth trained and therefore easy to clean. But the anti-glare reflector itself is due to its strip-shaped training easy to clean, being it advantageously with its narrow edges is releasably attached to the forehead reflectors. Therefore changing the light source is also very easy feasible since only the anti-glare reflector is removed, e.g. needs to be folded down.

The anti-glare reflector is very easy to manufacture, for example from sheet metal by a single punch process. It is therefore very inexpensive to manufacture. Its attachment to the lamp is also unproblematic, since he only with its narrow edges to be attached to the front reflectors of the lamp needs.

Further advantageous design features of the invention are contained in the subclaims.

Based on the embodiment shown in the drawing The invention is explained in more detail below  will. Show:

Fig. 1 is a cross-sectional factors by a lamp according to the invention with symmetrical Seitenreflek,

Fig. 2 shows a cross section analogous to FIG. 1, but with asymmetric side reflectors,

Fig. 3 shows a longitudinal section of the lamp according to the invention along the line III-III in FIG. 1, and

Fig. 4 a-f various embodiments of the OF INVENTION to the invention Abblendreflektors in enlarged views of detail IV in FIG. 3.

A lamp according to the invention has a rod-shaped, horizontally arranged light source 1 (fluorescent tube). To both long sides of the light source 1 extend from below to above this concave, in particular special parabolic curved side reflectors 2 , 3 , which can be formed in two parts or in one piece. In the event that the side reflectors 2 , 3 are formed in two parts, they can be connected at their upper edges by a roof reflector 4 . The side reflectors 2 , 3 can be designed symmetrically ( FIG. 1) or asymmetrically ( FIG. 2) with respect to the longitudinal center plane 5 that runs longitudinally.

The side reflectors 2 , 3 determine a fade-out angle α in the transverse direction of the light source 1 . This angle α lies between the horizontal 6 and a connecting line 7 forming a tangent to the light source 1 between the lower edges 8 of the side reflectors 2 , 3 and the lower periphery of the light source 1 . In the viewing direction of a flatter than the angle a, there is no glare for the viewer, since the light source 1 is covered by the side reflectors 2 , 3 .

The curvature of the side reflectors 2 , 3 ensures that light rays, even after reflection on the reflective inner surface of the side reflectors 2 , 3, always exit from the luminaire according to the invention at a steeper angle than the angle α (see the indicated light rays 11 in FIG. 1 and 12 in Fig. 2).

Referring to FIG. 3 also has the luminaire according to the invention has two end reflectors 13, 14, the side reflectors 2, 3 connect front side. The light source 1 is held in the usual way by sockets 15 , 16 .

In order to prevent glare in the longitudinal direction of the light from the viewer due to flat emerging rays, an Abblendre reflector 17 is arranged below the light source 1, which according to the invention consists of a strip-shaped flat material and is located at a short distance below the light source 1 in parallel between the Front reflectors 13 , 14 extends. The width of the anti-glare reflector 17 corresponds at least to the width of the vertical projection of the light source 1 , since this covers the light source 1 over the entire area from below. So that there is no loss of light through this cover, but the luminaire according to the invention maintains good efficiency, the anti-dazzle reflector 17 according to the invention has a large number of light exit openings 18 in its area. As a result, he holds a sieve-like training. In this case, an Off is glare angle β in the longitudinal direction between the horizontal 6 and viewed in the longitudinal direction of the light source by two in the longitudinal section of the Abblendreflektors 17 diagonally opposite edges of a light exit opening 18 extending straight line 21 is determined (see Fig. 3 and 4).

In a particular embodiment of the invention, the width of the anti-glare reflector 17 is the distance, measured perpendicular to the vertical center plane 5 running vertically between the side reflectors 2 , 3, of two connecting lines 22, each forming an upper tangent of the light source 1, between the light source 1 and the lower edges 8 of the Side reflectors 2 , 3 . With this design it can be achieved that direct light from the light source 1 can only exit through the light outlet openings 18 , while all flatly emitted light beams (see the beams 11 , 12 and 23 a in FIGS. 1 and 2) only after reflection on the Side reflectors 2 , 3 and possibly also on the anti-glare reflector 17 can exit the lamp "laterally past" the latter. For this purpose, it is advantageous if the anti-glare reflector 17 has a diffusely or specularly reflecting surface 23 at least on its side pointing in the direction of the light source 1 . Furthermore, it is advantageous in this embodiment, when the screening reflector comprises 17 only in the region of its determined by perpendicular projection of the light source 1 surface light outlet openings 18, while its edge regions are free of openings 24. The opening-free edge regions 24 thus serve to cover and cover the light source 1 and to reflect part of the light, but also give the anti-glare reflector 17 a necessary stability. In the event that the side reflectors 2 , 3 are asymmetrical ( FIG. 2), the anti-glare reflector 17 can also have edge regions 24 of different widths.

The light exit openings 18 are preferably evenly distributed, arranged in a grid-like manner on the specified surface area of the anti-glare reflector 17 , and can be formed as punched-outs with a round cross-section ( FIGS. 4a and b). Alternatively, the light exit openings 18 can be formed as deep-drawn embossments with a preferably round cross section and preferably annular edge webs 25 (FIGS . 4c to f). The diameter and the length of the light exit openings 18 , ie ent either the material thickness of the anti-glare reflector 17 (FIGS . 4a and b) or the axial length of the light exit openings 18 including the edge webs 25 (FIGS . 4c to f), influence the cutout angle β in the longitudinal direction , but of course also a fade-out angle in the transverse direction, since the anti-dazzle reflector 17 is arranged below the light source 1 . Therefore, it may be advantageous to form the light exit openings 18 with other than circular cross-section to extend to it that emitted in the longitudinal direction of the light beams at an angle other openings through the light outlet 18 are used as a radiated in the transverse direction of light beams for specific applications. Possible cross sections of the light exit openings 18 are oval or rectangular, for example. Through a special design of the light outlet openings 18 can thus also be achieved that the desired fade-out angle α in the transverse direction between the horizontal 6 and one in the transverse direction of the light source 1 seen through two cross-sections of the dipped reflector 17 diagonally opposite edges of a light outlet opening 18 end Straight line (see, for example, straight line 7 in FIG. 1) is determined. This could shorten the angle α determining the side reflectors 2 , 3 in their vertical extension relative to the illustrated embodiment, which could advantageously further reduce the manufacturing costs of the lamp according to the invention due to material savings.

The anti-glare reflector 17 advantageously consists of sheet metal, in particular aluminum sheet, or else of a reflectively coated plastic.

The anti-glare reflector 17 is detachably fastened according to the invention with its narrow edges 26 to the front reflectors 13, 14 , so that it can be easily removed for changing the light source 1 . For this purpose, it can be pivotally mounted on one side of one of the end reflectors 13 , 14 , while its other narrow side has locking means with the opposite end reflector 13 or 14 .

Claims (12)

1.Luminaire with a rod-shaped, in particular horizontally arranged light source, with on both longitudinal sides of the light source extending from below to above this, so concave, in particular parabolically curved side reflectors that all light rays emitted transversely to the light source directly or after reflection under one to the horizontal Steeper angle than a lamp-specific fade-out angle α emerge in the transverse direction, with a dipped reflector arranged below the light source, such that all light rays emitted in the longitudinal direction of the light source are directly or after reflection at a steeper angle to the horizontal than a lamp-specific fade-out angle β in the longitudinal direction emerge direction, as well as with two side reflectors gates connecting front end reflectors, characterized in that the anti-glare reflector ( 17 ) consists of a strip-shaped flat material and is a short distance below the Light source ( 1 ) extends parallel to this between the front reflectors ( 13 , 14 ), the width of the anti-glare reflector ( 17 ) being the width of the vertical projection of the light source ( 1 ) and the anti-glare reflector ( 17 ) in its area a plurality of light outlet openings ( 18 ). 2. Luminaire according to claim 1, characterized in that the luminaire-specific fade-out angle b in the longitudinal direction between the horizontal ( 6 ) and one in the longitudinal direction of the light source ( 1 ) by two in the longitudinal section of the anti-glare reflector ( 17 ) seen diagonally opposite edges of a light exit opening ( 18 ) extending straight line ( 21 ) is determined. 3. Luminaire according to claim 1 or 2, characterized in that the illuminate specific fade-out angle a in the transverse direction between the horizontal ( 6 ) and one in the transverse direction of the light source ( 1 ) by two diagonally opposite edges seen in cross section of the anti-glare reflector ( 17 ) a light exit opening ( 18 ) extending straight line ( 7 ) is determined. 4. Luminaire according to one or more of claims 1 to 3, characterized in that the width of the anti-glare reflector ( 17 ) the perpendicular to the vertical between the side reflectors ( 2 , 3 ) center plane ( 5 ) measured distance of two each have an upper tangent the light source ( 1 ) forming connecting straight line ( 22 ) between the light source ( 1 ) and the lower edges ( 8 ) of the side reflectors ( 2 , 3 ). 5. Luminaire according to claim 4, characterized in that the anti-glare reflector ( 17 ) only in the area of its vertical projection of the light source ( 1 ) certain area has light outlet openings ( 18 ), while its edge areas ( 24 ) are open. 6. Lamp according to one or more of claims 1 to 5, characterized in that the light exit openings ( 18 ) are arranged in a grid-like manner. 7. Luminaire according to one or more of claims 1 to 6, characterized in that the light outlet openings ( 18 ) are formed as tongues with preferably round cross-section. 8. Luminaire according to one or more of claims 1 to 6, characterized in that the light outlet openings ( 18 ) are formed as deep-drawn impressions with a preferably round cross section and preferably annular edge webs ( 25 ). 9. Luminaire according to one or more of claims 1 to 8, characterized in that the anti-glare reflector ( 17 ) has a diffusely or specularly reflecting surface ( 23 ) at least on its side pointing in the direction of the light source ( 1 ). 10. Luminaire according to one or more of claims 1 to 9, characterized in that the anti-glare reflector ( 17 ) consists of sheet metal, in particular aluminum sheet. 11. Lamp according to one or more of claims 1 to 9, characterized in that the anti-glare reflector ( 17 ) consists of a reflective coated plastic. 12. Luminaire according to one or more of claims 1 to 11, characterized in that the anti-glare reflector ( 17 ) with its narrow side edges ( 26 ) on the front reflectors ( 13 , 14 ) is releasably attached.