NL9301557A - Transverse lamella for a light box - Google Patents

Abstract

Transverse lamella for a light box, wherein a number of transverse lamellae are arranged beneath the light source(s) accommodated in the light box, at least virtually parallel to one another and transversely with respect to the longitudinal direction of the box, a transverse lamella being delimited by lateral delimiting surfaces which run obliquely upwards from the bottom delimiting edge of the lamella, away from one another, and are connected to one another in the vicinity of their top edges by a top delimiting surface, in such a manner that the transverse lamella, as seen in cross section, is substantially triangular, and one delimiting surface extends over a greater height from the bottom delimiting edge of the transverse lamella than the other delimiting surface.

Description

Short designation: Cross blade for a light box

The invention relates to a transverse slat for a light box in which a number of transverse blades are arranged at least substantially parallel to each other under a light source (s) transverse to the longitudinal direction of the box and wherein the transverse slat is delimited by the lower boundary edge of the slat foam upwardly in a direction directed away from each other, lateral boundary surfaces which are interconnected near their upper edges by an upper boundary surface, such that the cross-blade, viewed in cross section, has a substantially triangular shape.

In the usual transverse slats of the above-mentioned type, the transverse slat has a symmetrical cross-section and the boundary surfaces of the lower boundary edge extend over the same height, so that the upper boundary surface of the transverse slat is parallel to the longitudinal direction of the light box, in which mostly fluorescent tubes whether such will be mounted above the transverse slats.

At least a part of the light from the light source (s) is blocked by these upper boundary surfaces of the slats and, in the case of a conventional horizontal arrangement of the light boxes, reflected in the vertical direction. On the one hand, this leads to a loss of the efficiency of the luminaire, as optimum use is not made of the light supplied by the light source (s), while on the other hand annoying reflections can also occur.

According to the invention, one lateral boundary surface now extends from the lower boundary edge of the transverse blade over a greater height than the other lateral boundary surface.

The application of the construction according to the invention reduces the width of the upper boundary surface, measured in the longitudinal direction of the light box, so that less light from the light source (s) will be blocked and the efficiency of the luminaire will increase.

Part of the luminous flux of the light source (s) is no longer bounced vertically back into the light box by the upper boundary surface, but directly by the deviation from the horizontal position of the upper boundary surface of the transverse beam, without glare in the light box located room irradiated.

The different angle of incidence and failure of the light emanating from the light source (s) obtained by the changed position of the boundary surface also appears to be considerably less the inconvenience of light reflection than with hitherto usual constructions.

The invention will be explained in more detail below with reference to the accompanying figures, schematically shown exemplary embodiments of the construction according to the invention.

Fig. 1 shows a side view of a transverse blade according to the invention.

Fig. 2 shows on a smaller scale a number of side-by-side transverse blades and in cross section.

Fig. 3 schematically shows a view of a light box.

Fig. 4 shows a side view of another embodiment of a transverse blade according to the invention.

The following description is based on a light box with one or more light sources arranged therein, in particular fluorescent tube (s), the light box, more in particular the fluorescent tube (s) extending (s) horizontally, although of course other arrangements of such a light box will also be conceivable.

As schematically indicated in Fig. 3, a number of transverse blades 2 running parallel to each other are arranged in the light box 1 below the light source (s) (not shown).

Each transverse blade has two transverse curved cross-section, in particular parabolic-shaped lateral boundary surfaces 4 and 5, which extend from a lower boundary edge 3 of the transverse blade 2 upwards and in opposite directions. the boundary surface 4 extends from the lower boundary edge 3 of the slat over a greater height than the boundary surface 5. The upper edges of the lateral boundary surfaces 4 and 5 are mutually connected by an upper boundary surface 6, which, starting from the horizontal position shown above, the light box 1, viewed in cross section, encloses an angle with horizontal. It will be clear that in this way the area measured in the longitudinal direction of the box, bounded by the upper boundary plane in the embodiment described above, is smaller than in the case that the boundary plane 5 would extend to the same height as the boundary surface 4 and the upper edges of the two boundary surfaces 4 and 5 would be mutually connected by a boundary surface extending horizontally as seen in cross section.

As already explained above, a higher efficiency of the light box with light source (s) arranged therein can be obtained as a result.

The asymmetrical shape of the slat also creates an asymmetry in the shielding angle for the light emission, as will be clear from the angles ol and β indicated in fig. 2. In order nevertheless to obtain an even distribution of the emitted light, the slats 2 in the box 1 are preferably arranged symmetrically with respect to the central transverse plane of the light box 1, as is shown for four slats in Fig. 2.

As shown in more detail for the exemplary embodiment in Fig. 4, the upper boundary surface 6, instead of being formed by a straight surface, can also have a curved course.

For further influencing of the light emission, the top surface 6 can be provided with corrugations extending transversely to the longitudinal direction of the slat, that is to say substantially in the longitudinal direction of the tray and / or of perforations and / or covered with foil with a prism structure with a slightly bending function.

Claims (9)

1. Transverse slat for a light box, in which a number of transverse slats are arranged at least substantially parallel to each other at the bottom of the light source (s) accommodated in the light box transverse to the longitudinal direction of the box, and wherein a transverse slat is delimited by the lower boundary edge of the slat obliquely upwardly extending in a direction away from each other, boundary surfaces which are mutually connected near their upper edges by an upper boundary surface, such that the cross-slat, viewed in cross section, has a substantially triangular shape, characterized in that the one lateral boundary surface extends from the lower boundary edge of the transverse blade over a greater height than the other lateral boundary surface. Cross blade according to claim 1, characterized in that the lower boundary edge of the cross blade has a rectilinear course. Transverse slat according to claim 1 or 2, characterized in that the upper boundary edges of the lateral boundary surfaces extend parallel to the lower boundary edge of the slat. Cross blade according to claim 1 or 2, characterized in that the upper boundary edges of the lateral boundary surfaces have a curved course. Cross blade according to any one of the preceding claims, characterized in that the upper boundary surface is provided with ridges extending transversely of the longitudinal direction of the cross blade. Cross blade according to any one of the preceding claims, characterized in that the upper boundary surface of the cross blade is provided with perforations. Cross blade according to any one of the preceding claims, characterized in that the upper boundary surface is covered with a foil with a prism structure with a light-bending function. 8. Light box provided with transverse slats according to any one of the preceding claims. Light box according to claim 8, characterized in that the transverse slats are arranged mirror-symmetrically with respect to the central transverse surface of the light box.