DE102008033019A1 - Incandescent lamp with emission adapted to a brightness sensitivity curve of the human eye - Google Patents

Abstract

Disclosed is a coating for vehicle headlights, wherein the coating is adapted to adapt the emission spectrum of the lamp by means of absorption and / or interference to a brightness sensitivity curve of the human eye, and such a lamp and a method for producing such a lamp.

Description

Technical area

This The invention relates to a coating for a lamp with a determinable light emission spectrum, wherein the coating is designed to reduce the emission spectrum of the lamp by means of absorption and / or interference affecting a lamp with such a Coating and a method for producing such a lamp.

State of the art

From the prior art, a number of coatings for lamps are known, for example, the document US 6,369,510 discloses a blue-colored lamp which has improved night vision characteristics due to the blue coloration and, for example, the document DE 4039948 describes a lamp whose coating is designed so that the lamp emits light in the yellow emission spectrum.

Furthermore, the problems of adhesion of the coating on the lamp envelope, for example, by the application of an additional SiO ₂ layer, as in the document EP 0371553 described, improved.

Furthermore, the document discloses WO 98/18736 a high-temperature and UV-stable absorption coating, which on the one hand makes it possible to apply a coating to the lamp envelope in just a single coating step. In addition, the coating is inexpensive and can be exposed to high temperatures up to 900 ° C. The coating can have any desired colorations.

adversely However, in these known coatings, in particular For lamps with blue piston coating, higher color temperatures be achieved and thus receive a light that is more similar to daylight is, however, the spectral intensity distribution of the emission not the brightness sensitivity curve of the human eye equivalent. On the contrary, especially with colored example blue or red coating removes the spectral weight the emission from the maximum of the brightness sensitivity curve.

Lies however, the weight of the emission at larger or smaller wavelengths, the photosensitivity is lower. But that also means that, to give an "equally bright" impression to get a larger radiant power needed becomes.

Presentation of the invention

task Therefore, it is a coating for To provide a lamp that with low radiant power provides a good brightness illumination.

These Task is solved by a coating for a lamp, in particular a vehicle headlight, with a definable light emission spectrum, wherein the coating is designed to control the emission spectrum the lamp by means of absorption and / or interference to a brightness curve of the human eye, as well as a lamp with such a Coating and a method for producing such a lamp.

This Invention is based on the knowledge that, since the eye for Radiation in the green range at 555 nm most sensitive is, at wavelengths larger or smaller, a greater radiant power is needed to get an equally bright impression. This can, for example, in lamps that are provided with a blue coating are cause the radiant power of a blue colored lamp must be increased significantly to evoke the same sense of brightness in a person like a lamp without a coating. If you try against it, instead Daylight simulates the emission spectrum of the lamp to the Adjust brightness sensitivity curve of the human eye can with the same or even reduced light output of the lamp provided a good sense of brightness of the people.

there can, as another embodiment shows, either the brightness sensitivity curve for the photopic Eyesight, so-called daytime vision, as the basis for the brightness sensitivity curve is used, it is however also possible, the emission spectrum of the lamp to the scotopic See how to adjust what the brightness perception of the human Eye at night corresponds.

Especially the adaptation to the night vision has advantages, as vehicle headlights preferably to be used at twilight or night, so that through this customization improved driver's vision can be reached at night. The use of a coated according to the invention Lamp as a vehicle headlamp generally has the advantage that through the better adaptation of the emission to the brightness perception of the human Eye, the traffic safety for a driver and others Road users can be increased.

A such approximation of the emission spectrum to the brightness sensitivity curve of the For example, a human eye can have a green one Coating of the lamp bulb can be achieved. It can be a Such coating of a combination of absorption and interference layers but it is also possible to use pure absorption or to use interference coatings.

Especially advantageous is an embodiment in which a yellow Interference coating with a blue absorption coating is combined to form such a green coating.

When more borderline must be such a lamp of course Emit light within the ECE white field when used as Vehicle headlight is used.

Further Advantages and advantageous embodiments are in the Subclaims of the description and the figures defined.

Brief description of the figures

in the The invention is based on the figures shown Embodiments will be described in more detail.

It demonstrate:

1 : A schematic representation of a vehicle lamp with coating according to the invention;

2 a schematic representation of the spectral brightness sensitivity curve;

3 FIG. 4 is a graphical representation of the measurement of color locations of a first embodiment of the present invention. FIG.

Preferred embodiment the invention

1 shows a schematic representation of a headlight bulb 1 holding a glass flask 2 in which a main or high-beam thread 3 and a minor or low beam filament 4 are arranged, which both extend parallel to the optical axis or the axis of the glass bulb. The high beam thread 3 can behind the dipped beam 4 to be back. Below the dipped beam 4 is a cap 5 arranged. The front, socket facing away from the end of the glass bulb 2 is with an opaque film 6 coated, while at the rear end a pedestal 7 is provided. The glass bulb 2 has a coating 8th on, which is designed according to the invention, the absorption spectrum of the Abblendlichtfaden via absorption and / or interference 4 or the high-beam thread 3 emitted light to adapt to the brightness sensitivity curve of the human eye.

The coating 8th For example, it can be applied to the lamp by means of the SolGel method. However, it is also possible to color the glass of the glass envelope accordingly or to use any other technique for applying a filter or coating to a glass envelope.

2 schematically shows the spectral brightness sensitivity curve, wherein the wavelength λ is indicated on the x-axis and the spectral brightness sensitivity degree on the y-axis. With 10 referred curve corresponds to the spectral brightness sensitivity of the human eye for daytime vision, so photopic vision, while the with 12 Curve described the spectral brightness sensitivity in night vision, so scotopic vision describes.

about Comparing both curves is easy to see that the coating, around the emission spectrum of these brightness sensitivity curves adapt, must be relatively well defined and a simple green coating of the lamp bulb is not sufficient.

Preferably, the coating can be optimized so that the transmission maximum coincides with the maximum of the spectral brightness sensitivity curve. Depending on the application case, the transmission maximum at the maximum for scotopic vision 12 or photopic vision 10 be arranged.

For the application of a headlight bulb, the inventive Coating also fulfill that emission spectrum the lamp in the ECE white field prescribed for car headlights is, lies. This mandatory white field ensures that the basic coloring, so the basic emission spectrum, the one Viewer perceives not colored at sight of the headlight but white appears. A purely green coated Lamp would not meet such a requirement.

3 shows a schematic representation of the color locus, wherein the with the lines 14 limited area 16 represents the ECE white field within which the emission of the lamp must lie. With the limits 18 is another area in the ECE white field characterized within which the emission spectrum of the matched to the brightness sensitivity curve lamp must be.

Further shows 3 readings 13 a vehicle lamp coated with an absorption coating according to the invention, wherein the coating was carried out by means of the SolGel method.

It However, it is also possible, an absorption coating over To provide coloring of the entire lamp envelope.

As 3 As can be seen, the emission spectra of two similarly coated lamps have been measured and, as can be seen, their emission levels are in that through the lines 18 limited mandatory area 20 So that the lamp apparently emits white light, but the emission spectrum is optimized for the brightness sensitivity curve of the human eye.

Instead of the pure absorption coating can of course a combination of absorption coating and interference coating be applied to the lamp envelope. For example, a yellow Interference coating and a blue absorption coating on the glass bulb are applied, with interference and absorption interact with each other so that the emission spectrum of the Brightness sensitivity curve of the human eye adapted is. It is advantageous if only the interference coating and on the interference coating the absorption coating is applied.

Disclosed will be a coating for vehicle headlights, where the coating is designed to reduce the emission spectrum of the lamp by absorption and / or interference to a brightness sensitivity curve to adapt to the human eye, as well as such a lamp and a Method for producing such a lamp.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - US 6369510 [0002]
• - DE 4039948 [0002]
• EP 0371553 [0003]
• WO 98/18736 [0004]

Claims (11)

Coating for a headlight bulb with a determinable light emission spectrum, wherein the coating is designed to reduce the emission spectrum of the lamp by means of absorption and / or interference to a brightness sensitivity curve of to adapt to the human eye. A coating according to claim 1, wherein the brightness sensitivity curve is scotopic or photopic. Coating according to claim 1 or 2, wherein the coating is a green coating whose transmission average corresponds to the maximum of the brightness sensitivity curve. A coating according to claim 3, wherein the green coating a combination of yellow and blue coating is. The coating of claim 4, wherein the yellow coating an interference coating and / or the blue coating one Absorbent coating is. A coating according to claim 3, wherein the green coating is a pure absorption coating. Lamp, in particular headlight bulb, with a translucent lamp bulb for emitting light with a determinable emission spectrum and one on the lamp envelope applied coating to change the emission spectrum the lamp, characterized in that the coating is an absorption and / or interference coating designed to control the emission spectrum the lamp by absorption and / or interference to a brightness sensitivity curve to adapt to the human eye. A lamp according to claim 7, wherein the lamp is a coating according to one of claims 1 to 6. Method for producing a lamp whose emission spectrum to a brightness sensitivity curve of the human eye is adapted, characterized by the step of applying a Coating on a lamp bulb enclosed by the lamp bulb, the Light of a given emission spectrum gives off, the coating by means of absorption and / or interference changes the emission spectrum to that the emission spectrum to the brightness sensitivity curve adapted to the human eye. The method of claim 9, wherein a coating according to one of claims 1 to 6 is applied. A method according to claim 9 or 10, wherein the coating by Solgelverfahrens and / or by coloring the glass bulb is applied.