SE532178C2 - Lighting fixture including LEDs and reflector - Google Patents

Description

532 'I '78 is treated so that the surface is uneven so that it corresponds to a blasted surface.

The invention is described in more detail below, partly in connection with exemplary embodiments shown in the accompanying drawing, in which - figure 1a shows a first luminaire where the invention is applied in cross section - figure 1b shows the luminaire according to figure 1a from the right in figure 1a - figure 2 shows a rod in a cross section figure 3 shows a lens arranged for the luminaire in cross section - figure 4 shows said lens in a plan view - figure 5 illustrates a first embodiment of said lens - figure 6 illustrates a second embodiment of said lens - figure 7 shows a second luminaire according to the invention in cross-section - figure 8 shows the luminaire in figure 7 in a longitudinal section.

Figure 1 shows a lighting fixture, suitable, in which the invention comprises LEDs and a reflector.

Two or more LEDs 1, 2, 3 placed on a rod 4.

The rod 4 is placed along the optical axis of the reflector 5. Furthermore, at least one LED 1 - 3 is placed on at least two of the longitudinal side surfaces 6, 7, 8 of the rod 4 are directed away from each other.

LEDs 1 Rod 4 is a triangular cross-section. Furthermore, at least one LED 1-3 is placed on each side surface 6 ~ 8, where the reflector 5 is a three-dimensional parabolic reflector.

LEDs 1-3 are placed in the longitudinal direction of the rod 4 at the focal point of the reflector 5.

According to another embodiment shown in Figures 7 and 8, the rod 9 has a rectangular cross-section. In this case, at least one light emitting diode 10, 11 is placed on two mutually facing side surfaces of the rod 9. It is preferred that the reflector 12 is a two-dimensional parabolic reflector.

Furthermore, the reflector is 5; 14 provided with a lens 18, is written below in a preferred embodiment. According to the invention, the inside of the reflector 5 is uneven. This is achieved by a mold mandrel, which is used in pressure turning or a deep drawing device, having a blasted surface.

The inside of the reflector is thus designed in a corresponding way.

This means that the evenness of the light image is considerably improved compared with the luminaire according to the above-mentioned Swedish patent.

This effect is probably due to a more diffused light scattering through the lenses.

Rod 4; 9 is hollow and forms a channel 13; 14 arranged for cooling the rod by means of air, either by natural draft or by forced air flow.

According to a preferred embodiment, the rod is attached to the reflector so that good heat conduction can take place between the rod and the reflector and by the reflector being provided with a hole, corresponding to the hollow channel of the rod, at the point of attachment of the rod.

LEDs of a suitable type are substantially flat and are supported by a support plate, which is also provided with terminals for the power supply of the LED. Such LEDs are provided by the company OSRAM and are marketed under the OSTAR® brand. It is hereby preferred that the support plate of the LEDs is arranged so that the support plates abut against the respective side surface of the rod 4; 9.

However, the present invention is not limited to any particular LED. By such an arrangement, the heat generated in the LED will be conducted into the rod 4; 9. Preferably the rod is 4; 9 made of a metal material with a high thermal conductivity, such as copper or aluminum.

By allowing air to be conducted in the duct 13; away from the rod 12; 13. outer free surfaces. 14 the heat can be conducted Of course, heat is emitted from the LEDs of the rod of the type provided by OSRAM emits light out of the diode with a spread angle of, for example, approximately 120 degrees. This is illustrated in Figure 1b with sectors 15, 16, 2, 3. towards the inside of the reflector and passes out to the right in Figure 1a. 17 for each LED 1, The light is reflected According to one embodiment, the LEDs are 1-3; 10, ll arranged to emit light of different color. For example, the LEDs can be designed to emit red light, green light and blue light, respectively. In this case, the number and intensity of the LEDs can be adjusted so that the lighting fixture emits white light.

As mentioned, the reflector is 5; 14 provided with a lens 18. may be a cover glass 24, The lens which is indicated by dashed lines in Figures 1a and 8.

The surface of the coverslip 24 comprises a plurality of lenses, arranged to refract the light asymmetrically so that on a surface perpendicular to the optical axis of each lens a rectangular or square area is illuminated.

In a preferred embodiment of the lenses 25 in the cover glass, these parallel projecting cams 27 formed by two opposite side surfaces 28, 29 comprise at an angle to each other, see Figures 3 - 6. Such a cover glass is described in more detail in Swedish patent no. 0600675-3. 10 15 20 25 30 35 532 178 Each cam 27 has a wave shape in the longitudinal direction of the cam such that the height of the cam varies. The bottom between two adjacent ridges also has a corresponding wave shape so that the height of the bottom varies. The width of the cam 27 at its base 210 is constant or variable, causing the side surfaces 28, 29 of the cams 27 to have a waveform corresponding to the height variations of the cam.

Each wave section of a cam 27 constitutes a prism for refracting light incident from a reflector, the top angle of the cams 27 giving light scattering in a first direction and the waveform of the side surfaces 28, 29 of the cams 27 giving light scattering in a second direction perpendicular to said first. direction, where the light from each prism illuminates part of the illuminated surface.

According to a preferred embodiment of the cover glass 24, each of said side surfaces 28, 29 in each wave section of a comb is outwardly convex, so that said side surfaces 28, 29 form a double-curved surface.

According to a first embodiment, illustrated in Figure 5, the inclination of the side surfaces 28, 29 of the cams varies towards the surface 211, from which they project, along the longitudinal direction of the cams, over said surface 211 from the center of the surface and outwards towards the periphery 212 of the surface.

Figure 5 shows in solid lines a cross-section of a ridge 27, where it is at most 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 having a height h.

According to a second embodiment, illustrated in Figure 6, the width of the cams 27 at their said base 210 varies over the surface 211, and outwards towards the periphery 212 of the surface, from which the cams 27 project, from the center of the surface. cross-section of a ridge 27 where it is at its highest, with a height H. Dashed lines of the same ridge show a section along the ridge from the position where the ridge is at its highest, the ridge having a height h.

Above, a number of embodiments have been described. However, it is obvious that the detailed design of the rod can be varied, as well as that the LEDs and the position of the LEDs in relation to the design of the LEDs can be varied.

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

Claims (4)

10 15 20 25 30 35 532 178 Patent claims 1. A lighting fixture comprising LEDs and a reflector, wherein two or more LEDs (1-3; 10, 11) on a rod (4; 9), wherein the rod (4; 9) (5; 12) 3; 10, 11) are located at least on two of the longitudinal side surfaces (6,7,8) of the rod, (1-3; 10, 11) are directed away from each other, where the rod (4) has a triangular shape. placed along the optical axis of the reflector, where at least one LED (1- where the LEDs are cut, where at least one LED (1-3) is placed on each side surface (6-8), where the reflector (5) is a three-dimensional parabolic reflector and wherein the reflector (5; l2) is provided with one that the reflector (5) is then treated so that the surface is uneven so that it corresponds to a blasted surface. Lighting fixture according to Claim 1, characterized (4; 9) (13, 14) arranged for cooling the rod by means of air and in that the support plate of the LEDs is arranged so that the support plates abut against the respective side surface of the rod being hollow and forms a channel (6-8) of the rod and of the rod being attached to the reflector so that good heat conduction can take place between the rod and the reflector and of the reflector being provided with a hole, corresponding to the hollow channel of the rod, at the point of attachment of the rod. Lighting fixture according to Claim 1 or 2, characterized in that the LEDs (1-3; 10, 11) are located in the longitudinal direction of the rod (4; 9) at the focal point of the reflector (5; 12). Lighting device according to claim 1, 2 or 3, characterized (4), formed by two opposite side surfaces (27) (27) in that said lens is integrated in a cover glass (27) against each other, which comprises parallel projecting cams (28,29) have a waveform in the cam at an angle that each cam longitudinally such that the height of the cam varies, in that the bottom between two adjacent cams has a corresponding wave shape so that the height of the bottom varies, of that the width of the cam (27) at its base (210) is constant or variable, causing the side surfaces (28, 29) of the cams (27) to have a waveform corresponding to the height variations of the cam, each wave section of a cam (27) ) is a prism for refracting from the top angle of the reflector (5; 12) (27) gives light scattering in a first direction and where the second direction of the side surfaces (28, 29) of the chambers perpendicular to said first direction and that the light from each prism illuminates a part of the illuminated surface. incident light, whereby the waveform of the combs provides light scattering in a