Illumination – Modifier mountable on light source envelope – With additional modifier
Reexamination Certificate
2000-11-17
2002-06-11
O'Shea, Sandra (Department: 2875)
Illumination
Modifier mountable on light source envelope
With additional modifier
C362S311040, C362S260000
Reexamination Certificate
active
06402343
ABSTRACT:
BACKGROUND INFORMATION
The present invention relates to a lighting device equipped with an electric lamp running an aperture and an optical system. The invention also relates to a method for directing light rays of an aperture lamp.
The lamp used for the lighting device is provided with a tubular lamp vessel closed at both ends. To increase the brightness of the lamp, the lamp vessel is covered on the inside or outside with a reflector for visible light, except for a well-defined uncovered region along the longitudinal axis. In this way there is created an aperture, through which light of the lamp travels outward (aperture lamp) The reflector can also include a phosphor layer of appropriate thickness. These lamps are also known as fluorescent aperture lamps.
By virtue of their light-directing function, lighting devices of the cited type are suitable among other purposes for effect lighting and for workplace lighting.
Such lighting devices, supplemented by an optical guide plate, are also useful for purposes such as backlighting of displays, especially liquid crystal displays (LCD), as well as large area billboards. Liquid crystal displays have diverse uses, such as in control rooms, aircraft cockpits and increasingly also motor vehicles, in consumer as well as communications electronics, and as monitors for personal computers (PC).
In this case the lamp, the optical system and the optical guide plate are sufficiently matched to one another that the light of the lamp can be coupled into the optical guide plate through at least one narrow side (edge) thereof, in what is known as the edge light technique. By means of reflection at a reflecting layer which, for example, can be diffuse and which is applied on the underside of the optical guide plate, this light travels outward through the front side of the optical guide plate, over the entire extent of this front side, and thus acts as a flat extended light source corresponding to the dimensions of the optical guide plate.
The lamp vessel can be either rod-shaped or angled, such as L-shaped or U-shaped. In the latter case the light of the lamp is coupled into the optical guide plate via two or three of the edges thereof. Obviously two or more lamps, each including an optical system, can be used for coupling light into an optical guide plate.
As already mentioned in the introduction, the lighting device in question is a device equipped with a tubular aperture lamp. The lamp cross section is curved, especially circular or also elliptical, drop-shaped, etc. To a good approximation, any sufficiently small area element of the aperture surface of this lamp then emits light with a relatively broad angular distribution, especially a lambertian or at least quasi-lambertian distribution. For the lighting tasks mentioned in the introduction, this angular distribution must be appropriately shaped, especially narrowed, in order to achieve the necessary illuminance and/or to improve the true overall efficiency of the lighting device. By virtue of the tubular geometry of the aperture lamp, substantially only the angular distribution in a section plane perpendicular to the lamp's longitudinal axis is then an important factor. In other words, the angular distribution of the radiation in the direction of the lamp's longitudinal axis is of minor importance at best. The problem of distributing or directing light rays, which in this case is actually a cylindrical problem, can therefore be reduced approximately to analyses in a section plane perpendicular to the lamp's longitudinal axis.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a lighting device which is improved in its ability to direct or bundle the light exiting the aperture.
This object is achieved, in a device having the features of the present invention.
A further aspect of the invention relates to the coupling of the light of the lamp exiting the aperture into an optical guide plate.
What is desired is that a maximum of the light exiting the aperture be coupled appropriately into the optical guide by means of an optical system. This is made more difficult by the fact that the aperture surface is inherently curved, since it is part of the tubular lamp surface.
It is also an object of the present invention to provide a method for influencing the light of a tubular aperture lamp.
The basic idea of the present invention includes providing two optical means disposed in series, the first means being curved in a section plane viewed perpendicular to the lamp's longitudinal axis. In this first means, the broad light-ray distribution emitted from each area element in the region of the aperture is bundled toward the normal to the respective area element. The second means deflects at least some of the light bundles arriving from the first means by a deflection angle, the deflection angles of at least some of the light bundles having different values. In this way the light emitted by the curved aperture surface can be directed in a specific manner, such as “parallelized”, or convergent light rays can be produced.
The term “bundling” as used herein means that the originally broad angular distribution of the light rays is transformed into a narrower angular distribution. In other words, light rays having large angles relative to the main radiating direction of the respective area element are represented with much smaller relative weight after bundling. In the present context, the main radiating direction of an area element means the direction of that light-ray vector of the light-ray distribution of the area element in question which has the greatest value (=intensity).
The deflection angle is defined as the angle between the original main radiating direction and the deflected main radiating direction of the respective light bundle.
The curvature of the first optical means is preferably matched to the lamp curvature in the aperture region. Thereby a major part of the light exiting the aperture with broad light-ray distribution is coupled into the first means, which it exits in the form of numerous relatively narrow light bundles, at least some of which are deflected by the second means. Moreover, in order to minimize coupling losses, the first means is preferably mounted substantially directly on the exterior surface of the aperture.
The basic idea of the invention will be better understood by referring to
FIG. 1
, which illustrates the situation in highly schematic and abstract form.
FIG. 1
schematically shows a cross section through a tubular lamp
1
with circular cross section. For clarity, further details of lamp
1
and of the optical system are not illustrated here. What is shown are first and second edges
2
,
3
of an aperture, central ray
4
of the aperture and vectors S and
6
of the main radiating direction of an edge light bundle without and with, respectively, the inventive optical system (not illustrated). As is clearly evident from
FIG. 1
, the value of the projection (P
2
) of light vector
6
of the deflected main radiating direction on a line
7
parallel to central ray
4
is larger than that (P
1
) of light vector
5
of the original (non-deflected) main direction. According to the invention, this is true analogously for substantially all main radiating directions of all surface elements. Central ray
4
is then formed by the main radiating direction of the central area element of the aperture.
In this way there can be obtained, for example, a “quasi-parallel” light bundle (not illustrated). For this purpose the second optical means is designed such that deflection angles &dgr; of the individual light bundles increase with angular distance from central ray
4
of the aperture.
The inventive means can be achieved by suitable optical structures, such as microprism structures and/or holographic structures or the like.
As regards light coupling into an optical guide plate, the advantageous effect of the invention is particularly pronounced if the diameter of the tubular vessel of the lamp is relatively large, especially as
Hitzschke Lothar
Vollkommer Frank
Frishauf, Holtz Goodman, Langer & Chick, P.C.
O'Shea Sandra
Patent-Treuhand-Gesellschaft für Elektrische Glühlampen mbH
Ward John Anthony
LandOfFree
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