SE528795C2 - Lighting fitting illuminates light source, reflector and cover glass, with light source point-shaped and cover glass provided with several lenses - Google Patents

Abstract

The lighting fitting (1) illuminates a light source (2), a reflector (3) and a cover glass (4) provided with several lenses (5). The lenses break the light asymmetrically, so that on a surface at right-angles to the lens optical axis a rectangular or quadratic area is illuminated. The cover glass incorporates parallel upwardly extending combs (7) formed by two opposing side surfaces (8,9) at an angle to each other. Each comb has a wave-shape in its longitudinal direction so that the comb height varies. The base between two adjacent combs has a corresponding wave shape so that its height varies. The comb width at its base (10) is constant or varying, permitting the comb side surfaces to have a wave form which corresponds to the comb height variations. Each wave section in a comb comprises a prism which breaks the incoming light from the reflector.

Description

70 75 20 25 523 7 'v72 ... z lighting of, for example, roads, that the luminaires must be placed high up in order to obtain lighting of a longer distance, or alternatively to arrange low-lying luminaires closer to each other.

Despite the measures mentioned, the lighting over an area becomes uneven.

The present invention provides a luminaire which provides a substantially smoother illumination over an area than known luminaires IEI.

The present invention thus relates to a lighting fixture for lighting comprising a light source, a reflector and a coverslip, the light source being substantially point-shaped, the surface of the coverslip comprising a plurality of lenses arranged to refract the light asymmetrically so that on a surface perpendicular to the lens optical axis a rectangular or square area is illuminated, and is characterized in that the cover glass comprises parallel projecting cams formed by two opposite side surfaces at an angle to each other, in that each cam has a wave shape in the longitudinal direction of the cam such that the height of the cam varies, cams have a corresponding waveform so that the height of the bottom varies, in that the width of the cam at its base is constant or variable, causing the side surfaces of the cams to have a waveform corresponding to the height variations of the cam, each wave section of a cam forming a prism for refracting light incident from the reflector, whereby the top wine of the combs kel provides light scattering in a first direction and where the waveform of the side surfaces of the combs provides light scattering in a second direction perpendicular to said first direction and in that the light from each prism illuminates a part of the illuminated surface. The invention is described in more detail below, partly in connection with an exemplary embodiment of the invention shown in the accompanying drawing, in which - figure 1 shows a luminaire according to the invention in cross section - figure 2 shows a lens belonging to the luminaire in cross section - figure 3 shows said lens in a plan view - figure 4 illustrates a first embodiment of said lens - figure 5 illustrates a second embodiment of said lens - figure 6 illustrates that combs are made inclined - figure 7 illustrates waveforms formed in the coverslip.

Figure 1 shows a lighting fixture 1 comprising a light source 2, a reflector 3 and a cover glass 4.

According to the invention, the light source 2 is substantially point-shaped.

Preferred light sources are gas discharge lamps with a high light output and concentrated discharge. Examples of such light sources are MPXL or CDM (Ceramic Discharge Metalhalide). These light sources have a light (Micro Power Xenon Light) spectrum that is close to daylight.

According to a preferred embodiment of the invention, the reflector 3 is parabolic so that the outgoing light leaving the reflector is parallel.

The surface of the cover glass 4 comprises a plurality of lenses 5, arranged to refract the light asymmetrically so that on a surface perpendicular to the optical axis 6 of each lens 5 a rectangular or square area is illuminated.

The lenses 5 in the coverslip comprise parallel projecting cams 7 formed by two opposite side surfaces 8, 9 at an angle to each other. Each cam 7 has a waveform in the longitudinal direction of the cam in such a way that the height of the cam varies. The bottom 12 between two adjacent cams also has a corresponding wave shape so that the height of the bottom varies. This is illustrated in Figure 6. The width of the cam 7 at its base 10 is constant or variable, causing the side surfaces 8, 9 of the cams 7 to have a waveform which corresponds to the height variations of the cam. Each wave section of a cam 7 constitutes a prism for refracting light incident from the reflector 3, the top angle of the cams 7 giving light scattering in a first direction and the waveform of the side surfaces 8, 9 of the cams 7 giving light scattering in a second direction perpendicular to said first direction, where the light from each prism illuminates a part of the illuminated surface.

According to a preferred embodiment, each of said side surfaces 8, 9 in each wave section of a comb is outwardly convex so that said side surfaces 8, 9 form a double-curved surface.

According to a first embodiment, illustrated in Figure 4, the inclination of the side surfaces 8, 9 of the cams varies towards the surface 11 from which they project, along the longitudinal direction of the cams, over said surface 11 from the center of the surface and outwards towards the periphery 12 of the surface.

Figure 4 shows in solid lines a cross-section of a ridge 7 where it is at most with a height H. With dashed lines a cross-section of the same ridge is shown a distance along the ridge from the position where the ridge is at its highest, the ridge having a height h .

According to a second embodiment, illustrated in Figure 5, the width of the cams 7 at their said base 10 varies over the surface 11 from which the cams 7 project, from the center of the surface and outwards towards the periphery of the surface 12. x fi L l Figure 5 shows in solid lines a cross-section of a ridge 7 where it is at its highest, with a height H. In broken lines a cross-section of the same ridge is shown a distance along the ridge from the position where the ridge is at its highest, the ridge has a height h.

It should be noted that according to a further embodiment, the height of both combs varies along their length while the base of the combs varies along the length of the combs.

According to a preferred embodiment, the cams 7 are made inclined so that they form an angle to said surface 11 from which the cams project, and thus to the optical axis of the luminaire, as illustrated in figure 7.

According to a preferred embodiment, said inclination varies over the surface of the cover glass 4.

According to a preferred embodiment, the lenses 5 are formed by indentations in the coverslip 4.

According to a further embodiment, the reflector 3 is parabolic, as illustrated in Figure 1, so that the outgoing light leaving the reflector is parallel when it hits the coverslip.

When the parallel light hits the coverslip, the scattering angle of the light is given in a direction of the inclination of the combs towards the light incident from the reflector. The scattering angle of the light in a direction perpendicular to the direction just mentioned is given by the waveform of the chambers.

According to a first embodiment, the cams 7 are formed on the surface of the coverslip 4 facing the light source 2. In this case, the combs 7 are preferably formed in the manner indicated above as the second embodiment of the invention and as an illusion. is shown in Figure 5. The advantage of this design is that the combs are kept protected from dirt while the outside of the cover glass is smooth so that it is easily cleaned by weather and wind.

According to a second embodiment, the cams 7 are formed on the surface of the coverslip 4 facing from the light source 2. In this case, the cams 7 are preferably designed in the manner indicated above as the first embodiment of the invention and illustrated in figure 4.

The advantage of the first embodiment is that the scattering angle of the light becomes larger than in the embodiment according to the second embodiment. This is because the parallel light coming from the reflector passes through the flat inside of the coverslip, like parallel light, and is then reflected towards the chambers.

In the second embodiment, on the other hand, light reflected towards the combs passes through an additional volume of glass before the light is emitted from the flat outside of the cover glass 4.

The scattering angles V in the first embodiment can amount to about +/- 75 degrees to the optical axis of the luminaire.

The spreading angles V in the second embodiment can amount to Around +/- 81 degrees towards the luminaire's optical axis.

The invention provides an illumination with very high efficiency, in the optical system consisting of the lenses 5 in the form of the chambers 7 directing the light to the surface which is actually intended to be illuminated and thereby avoiding waste in the form of uncontrolled scattering light.

Such a luminaire can be used for all kinds of purposes. Examples of use are facade lighting, sign lighting, lighting in camera studios, greenhouse lighting, etc.

With regard to street lighting, the great advantage is that you can avoid “black holes” between the luminaires by designing the luminaire so that it illuminates a rectangular surface of the street. Thus, the total lighting effect can also be reduced without losing visibility.

The present invention thus obviates the disadvantages mentioned in the introduction.

The luminaire shown can of course be given a different shape than circular.

The present invention should therefore not be construed as limited to the above embodiments but may be varied within the scope of the appended claims.

Claims (8)

70 15 20 25 30 CH RJ G3 ~ J u3 Patent claim Lighting luminaire (1) for lighting comprising a light source (2), a reflector (3) the source (2) is substantially point-shaped, the cover glass (4) and a cover glass <4), the light surface comprising a plurality of lenses (5), arranged to refract the light asymmetrically so that on a surface perpendicular to the optical axis of the lens (5) a rectangular or square area is illuminated, characterized in that the cover glass (4) comprises parallel projecting cams (7). ) formed by two opposite side surfaces (8,9) at an angle to each other, in that each cam (7) has a wave shape in the longitudinal direction of the cam such that the height of the cam (7) varies, in that the bottom between two adjacent cams has a corresponding waveform so that the height of the bottom varies in width at its base (10) or varies, causing the ridges (7) to be constant (8,9) because the side surfaces of the cam (7) have a waveform corresponding to the height variations of the cam, each wave section of a cam (7) constituting a prism for refracting from a reflector n (3) incident light, whereby the top angle of the cams (7) gives light scattering in a first direction and where the waveform of the side surfaces (8,9) of the cams gives light scattering in a second direction perpendicular to said first direction, and by the light from each prism illuminates a part of the illuminated surface. Lighting luminaire according to claim 1, characterized in that each said side surface (8,9) in each wall section of a cam (7) is outwardly convex so that said side surfaces form a double-curved surface. Lighting luminaire according to claim 1, characterized in that Vr (II) from which they project varies, along the inclination of the side surfaces of the cams (7) towards the longitudinal direction of the cams (7), over said surface from the center of the surface and outwards towards surface periphery (12). 3. A lighting fixture according to claim 1 or 2, characterized in that the width of the cams (7) at said base (10) varies over the surface (II) from which the cams project from the center of the surface and outwards towards the periphery of the surface (12). . Lighting fixture according to claim 1, 2 or 3, k n e n e - are formed on the counter (4). t e c k n a d a v, that the combs (7) the light source (2) facing the surface of the coverslip feel - Lighting luminaire according to Claim 1, 2 or 3, characterized in that the cams (7) are formed on the surface of the coverslip (4) facing the light source (2). Lighting luminaire according to any one of the preceding claims, characterized by inclined (ll) n e t e c k n a d a v a, that the cams (7) so as to form an angle to said surface from which the cams project. Lighting fixture according to claim 6, characterized in that said inclination varies over the surface of the cover glass (4). Lighting luminaire according to one of the preceding claims, characterized in that the reflector (3) is parabolic so that the outgoing light leaving the reflector is parallel.