NL8403064A - LIGHTING UNIT. - Google Patents

Description

c EHN 11,164 1 N.V. Philips * Incandescent lamp factories in Eindhoven.

"Lighting unit",

The invention relates to a lighting unit with a light source which is at least partly surrounded by a transparent wall part with a prismatic refraction profile, the refracting ribs of which run parallel to each other.

Such an illumination unit is generally known and is used, for example, as a luminaire for illuminating roads, streets and the like, the refraction profile serving to spread the light emitted by the light source (such as a lamp), for example, in sideways directions.

A lighting unit is also known known as a low-pressure mercury discharge lamp, which serves as an alternative to an incandescent lamp for general lighting purposes, in which a luminescent discharge tube, bent in a number of places, is surrounded by a one-sided, almost cylindrical envelope. The outer wall of the casing is provided with a refraction profile, the refracting ribs of which on the cylindrical part run parallel to the longitudinal axis of the casing. Such a lamp is described in NL-Laid-open Patent Application 80.01.833 (EHN 9723).

In the known lamp, the light originating from the discharge tube is refracted by means of the said refraction profile. scattered, as a result of which the luminescent part of the lamp shows a fairly uniform brightness. It has been found, however, that in particular when using a light source with a high luminance (such as the discharge tube of the above-mentioned lamp) the brightness is still too unevenly distributed over the surface of the envelope and the light can be dazzling for a viewer.

The object of the invention is to provide an illumination unit with a refraction profile with which the light originating from the light source is refracted in such a way that the outer surface of the wall part which at least partly surrounds the light source has a uniform brightness, while also the light being less dazzling is then with the known lighting unit.

According to the invention, a lighting unit of the type mentioned in the preamble 8403364 ΡΗΝ 11.164 2 έ4 jrü is characterized in that the refraction profile is formed as grooves arranged in the surface of the wall part and consisting of intersecting side walls with a curved cross-section. the walls of adjacent grooves intersect at the location of the ribs.

Due to the presence of the refraction profile mentioned, the light from the light source is refracted and diffused considerably more strongly by the wall part (which preferably consists of a transparent plastic) than with the known lighting unit. It has been found that the wall part in the lighting unit according to the invention has a surprisingly uniform brightness over almost its entire surface. It has furthermore been found that the strongly refractive effect of the refraction profile does not influence the intensity of the exiting light.

The degree of curvature of the two side walls of the grooves 15 and the shape (concave and convex, respectively), the angle that the two side walls of a groove make near their cutting line, the angle that two adjacent curved walls make at the location of a rib as well as the combination of the said groove forks in a profile determine the magnitude of the refraction and the degree of spread of the light. These 20 quantities strongly depend on the application of the lighting unit.

When the lighting unit is designed as a luminaire for tubular discharge lamps (such as luminescent low-pressure mercury discharge lamps), the wall part is formed as a substantially flat transparent plate which serves to close off an elongated housing in which the said light sources are located. The ribs of the profile preferably run parallel to the longitudinal axes of those lamps. In another embodiment, the lighting unit is part of a road lighting fixture, the light source being, for example, a high pressure sodium dan discharge lamp around which the wall part is placed in the form of a plastic cylinder. The ribs of the wall part thereby run parallel to the longitudinal axis of the cylinder. The refraction profile is preferably situated on the surface of the wall part remote from the lamp in order to obtain an optimum light distribution.

In a preferred embodiment, the lighting unit is a low-pressure mercury vapor discharge lamp with a vacuum-tight, at least one-place bent tubular discharge vessel, on the inner wall of which there is a luminescent layer, which discharge vessel is 8403064 EHN 11.164 3 (

V

-¾ if given by a transparent envelope, the outer surface of which is provided with a refraction profile according to the invention. The discharge vessel acts as a light source. It has been found that in particular with highly loadable lamps of such a type such an advantageous refraction of the light is obtained that glare is prevented. The use of a diffusely diffusing scattering layer on the inner wall of the lamp envelope which is detrimental to the light output and which is used for this purpose in the known lamps has been avoided.

Preferably, the casing has a cylindrical shape 10 according to the aforementioned NL laid-open specification 80.01.833. In another embodiment, the envelope is spherical, the ribs of which. the top of the housing should point towards the lamp cap.

In a special embodiment of the illuminance according to the invention, the grooves in the wall part are alternately deep and shallow, the curvature of the walls of the deep grooves being smaller than the curvature of the shallow grooves.

The advantage of this embodiment is that in particular when placed around a light source (the wall part then has the shape of a cylinder) an optimum light distribution is obtained. This embodiment is preferably used as part of a road lighting luminaire, in which the light from the wall part is hardly dazzling.

The invention will be further elucidated with reference to a drawing, in which embodiments of the illuminance according to the invention are explained. In the drawing, figure 1 shows a low-pressure mercury vapor discharge lamp according to the invention partly in view, partly cut-away; Figure 2 shows a luminaire according to the invention, also in elevation, and Figure 3 shows a cross-section of a part of the outer wall of the transparent wall part of the lamp according to Figure 1.

The lamp according to Figure 1 comprises a cylindrical lamp cover 1, which is slightly spherically closed on one side, and which consists of a transparent plastic. Within this lamp envelope there is a vacuum-tight sealed relatively thin discharge tube 2 which is folded three times into the shape of a hook. At the ends of this tube there are two electrodes (not visible in the drawing) between which a discharge is maintained during operation of the lamp. On the inner wall of the discharge tube 2 there is a luminescent layer 3 which converts the ultraviolet radiation generated in the mercury discharge into visible light on the 8403064 I * PHN 11.164 4 ^ A5. The lamp further contains an electric stabilization ballast 4, a starter (not visible) and a thin-walled, slightly conical plastic lamp shell 5. This is attached to the lamp envelope 1 and is conical. tapering end provided with an edison lair sleeve 6, with which the lamp can be rotated in a holder intended for incandescent lamps. The outer wall of the lamp envelope is provided with a prismatic refraction profile, the breaking ribs (7a, 7b, etc.) of which extend parallel to the longitudinal axis (8) of the lairp. At the closed top end of the casing, said ribs are circular in relation to the longitudinal axis of the cylinder.

The refraction profile is formed as grooves formed in the surface of the envelope. This profile will be explained in more detail with reference to figure 3.

In Fig. 2, a road lighting fixture 10 according to the invention is mounted on a light tower 11. The fixture has a plastic housing 12, which at the bottom has a. dish-shaped transparent glass cap 13 is closed. Inside the housing there is an electric gas discharge lamp 14 (shown in broken lines) which functions as a light source and is surrounded by a cylindrical plastic wall part 15 which is provided with a refraction profile according to the invention on its surface remote from the light source. The refracting ribs (16a, '16b, etc.) 25 run parallel to the longitudinal axis of the cylinder and to the longitudinal axis of the luminescent part of said lamp. As a result of the presence of the said plastic cylinder, the light emanating from the lamp is refracted in such a way that, for a viewer who is some distance from the luminaire, it appears as if the light source has a format corresponding to the outer diameter of the cylinder. The light coming from the luminaire is then not dazzling.

Figure 3 shows a cross-section of the refraction profile in detail, as is present on the outer wall of the lamp 35 according to Figure 1. The profile consists of adjacent grooves 18a, 19a, 18b, 19b etc. Each groove consists of side walls whose surfaces are concave. The grooves are alternately shallow (18a, 18b) and deep (19a, 19b). The curvature of the walls (20,21) of the 8403064 css ί 11,164 5, deep grooves is smaller than the curvature of the walls (22, 23) of the shallow grooves. The walls of said grooves (20, 21 and 22, 23, respectively) merge discontinuously, i.e. they form a cutting line. This cutting line is indicated with 24 for groove 19a and with 25 for groove 18b. The curved side walls of groove 19a make a hcekCX of approximately 80 ° just together. Book β of groove 18b is approximately 150 °. The breaking ribs of the prismatic refraction profile are formed by the intersection of walls of two adjacent grooves, for example rib 26, which is formed by the walls 21 and 22 of neighboring grooves 19a and 18b.

In a practical embodiment of the road lighting fixture according to figure 2, the external diameter of the cylindrical wall part is 25 cm. The thickness of the wall is 5 mm. The depth of the grooves is 3 mm and 1.5 mm, respectively. The distance between the ribs running parallel to the longitudinal axis is 3 mti. Placed on top of a vertical mast with a length of approximately 4 m, an almost constant brightness was obtained throughout the entire structure by means of a high-pressure sodium discharge lamp with a power of 50 W (SCN-50W, 3300 lm) placed in the luminaire. size of the luminaire.

20 25 30 j 35 i [6403064 --- - - —------ - - '^

Claims (4)

1. Lighting unit with a light source at least partly surrounded by a transparent wall part with a prismatic refraction profile, the refracting ribs of which extend parallel to each other, characterized in that the refraction profile is formed as in the surface of the wall part grooves provided consisting of intersecting sidewalls of curved cross-sectional shape, the walls of adjacent grooves intersecting at the location of. the ribs. 2. Lighting unit according to claim 1, characterized in that the grooves are alternately deep and shallow, the curvature of the walls of the deep grooves being smaller than that of the shallow grooves. Lighting unit according to claim 1 or 2, characterized in that the grooves are arranged in the outer surface of the wall part. 4. Low-pressure mercury vapor discharge lamp with a vacuum-tightly sealed tubular discharge vessel at least in one place, the inner wall of which is provided with a luminescent layer, which discharge vessel is surrounded by a transparent envelope, the outer surface of which is provided with a refraction profile according to claim 1 or 2, of which the breaking ribs run parallel to the longitudinal axis of the enclosure. 20 25 30 35 8403064