Illumination – Elongated source light unit or support – With light modifier
Reexamination Certificate
2000-11-13
2003-12-02
O'Shea, Sandra (Department: 2875)
Illumination
Elongated source light unit or support
With light modifier
C362S224000, C362S367000, C040S564000
Reexamination Certificate
active
06655815
ABSTRACT:
FIELD OF THE INVENTION
The invention relates to a system of a first luminaire and a second luminaire for illuminating an object.
The invention further relates to a luminaire for use in said system.
The invention further relates to a method of presenting and/or selling an object.
BACKGROUND OF THE INVENTION
Such a system and such a luminaire are known per se. They are used inter alia in ceiling lighting and for illuminating objects such as, for example, objects in a shop window, in a shop, in an exhibition space, for example for the illumination of art objects, or in a showroom, for example for the illumination of comparatively large objects, for example vehicles. Such a system or luminaire is further used for wall illumination so as to illuminate objects from the side, or as floor illumination, for example on theatrical stages, for the illumination of objects or persons. Said system and luminaire are further used as backlights for, for example, (picture) display devices such as, for example, (PA)LC displays or video walls, and as office lighting, or as a luminaire for enhancing the appearance of an object. Usually, a system as mentioned in the opening paragraph comprises a plurality of luminaires mounted next to one another, often as a number of coupled squares.
A luminaire of the type mentioned above has a major disadvantage. The luminaire has a surface with a non-homogeneous light distribution. The object is not evenly lit as a result, which is undesirable. In addition, the system of a first luminaire and a second luminaire comprises a comparatively wide band between the luminaires which is comparatively dark.
SUMMARY OF THE INVENTION
The invention has for its object to counteract the above disadvantage.
According to the invention, this object is achieved with a system of a first luminaire and a second luminaire for illuminating an object,
wherein the first and the second luminaire each comprise a housing for accommodating at least one tubular lamp,
which housing is provided with a light emission window for illuminating the object and a side wall which is transverse to the light emission window,
wherein the first luminaire abuts the second luminaire by its side wall and/or by its light emission window,
wherein an edge of the light emission window of the first luminaire abuts an edge of the light emission window of the second luminaire in the system of the first and the second luminaire,
and wherein said light emission windows and said side wall are manufactured from an optically transparent material.
It was found that the two light emission windows in the system form a homogeneously illuminated plane during lamp operation. The expression “homogeneously illuminated” in the present invention is understood to mean that the light emission window has a light distribution over the surface of the light emission window which exhibits differences in intensity which are not or substantially not observable to the human eye during operation. The expression “homogeneously illuminated” applied to the system further means that especially the edges of the respective light emission windows and transitions between mutually adjoining luminaires exhibit differences in light intensity from the light emitted by the relevant light emission window as a whole which are not or substantially not perceivable. In other words, the light output of a light emission window including its edge has a dependence on the position in the light emission window which is not or substantially not observable.
Light emitted during operation by the tubular lamps reaches the light emission window of the luminaire and is emitted from there in the direction of the object. Such a luminaire usually comprises a plurality of tubular lamps, for example low-pressure mercury vapor discharge lamps. These light sources are usually provided in a certain regular distribution in the housing, the tubular lamps being arranged, for example, parallel to one another. To reduce a direct visibility of the tubular lamps in the housing, each of the housings of the luminaires is provided with an optically transparent light emission window manufactured, for example, from a glass or a synthetic resin which preferably scatters the light diffusely. The system is built up such that the light emission windows of mutually adjoining luminaires touch one another or at least substantially touch one another, so that a comparatively wide, comparatively dark band at the area of the abutting luminaires, as in the known system, is avoided. Since the side wall of the luminaire is manufactured from an optically transparent material, light emitted during operation by the tubular lamps is partly caught by this side wall, which absorbed light is transported by means of internal reflections in the direction of the light emission window, where it is emitted again. This achieves that the edge of the light emission window of the first luminaire has a luminance which is at least substantially equal to that of the rest of the light emission window. Given two or more luminaires which abut one another at the area of the edges of the light emission windows of the respective luminaires, a light emission window is thus obtained which is homogeneously illuminated up to and including the edge of the light emission window during operation, so that the system emits a homogeneous light. An observer will be incapable or substantially incapable of distinguishing the edges of the light emission windows of the respective luminaires on the basis of the light distribution as emitted by the system during operation.
In the known system of luminaires, the luminaires usually do not abut, so that a comparatively wide and dark band is present between the luminaires and is observed as such. These bands achieve that the known system has a checkered appearance and that in addition the object is not homogeneously illuminated. Since the object is integrally and homogeneously illuminated owing to the measure according to the invention, an observer's attention is not drawn from the object by irregularities in the illumination of the object. The use of the system according to the invention renders it possible to illuminate objects very homogeneously and uniformly. This has particular advantages for viewing, for example, art objects in museums, or motor vehicles, for example in dealer showrooms. Particularly in the case of objects which have reflecting properties, and preferably objects having specular reflection, the absence of visible edges in a reflection of the system on the object is perceived as an advantage by a viewer. The measure according to the invention enhances the attractiveness of objects which are presented, for example, with the aim of selling the objects.
An embodiment of the system according to the invention is characterized in that the light emission window of the respective luminaire is provided with a diffusor. A diffusor achieves that the uniformity of the light intensity distribution of the light emitted by the light emission window during operation is further enhanced. A combination of a light emission window made from a material which emits the light diffusely and a diffusor provided on the light emission window renders it possible to position the tubular lamps closer to the light emission window, so that the dimensions of the luminaire will be considerably more compact than those of the known luminaire, while nevertheless a more homogeneous light distribution is realized than with the known luminaire. It is in particular possible as a result of this to reduce the depth of the housing, which is a major advantage in mounting of the system.
The inventors have come to recognize that multiple reflections in the luminaire, especially caused in the diffusor, contribute to a very homogeneous distribution of the intensity of the light emerging from the light emission window. Preferably, the diffusor has a variation in layer thickness, the layer thickness of the diffusor being chosen to be greater immediately opposite the location where the tubular lamp is present during operati
Dicken Norbert
Fierloos Mark
Sools Franciscus Guillaume Peter
Keegan Frank
Koninklijke Philips Electronics , N.V.
O'Shea Sandra
Ward John Anthony
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