NL1009136C2 - Light housing provided with an afterglowing coating, the coating used for this purpose and the coating method used for this. - Google Patents

Description

LIGHT HOUSE FURNISHED WITH AN ILLUMINATED COVERING, HERE

FOR CLOTHING USED AND THEIR USE

5 COATING METHOD

The invention relates to a light housing, such as a light box or a light source, of an at least partially transparent material.

A light source in the description given below is meant, for example, an incandescent lamp or a tube lamp, and a light box generally refers to a light box, a lampshade and other devices which at least partially enclose a light source.

In normal operation and under current, a light source generally emits "white" light. When the power to the light source is interrupted, for example in the event of a power failure due to calamities such as blown fuse, fire or the like or simply when part of the light source breaks, such as burning a filament or just when the light source is switched off, a darkening occurs. When such an eclipse is undesirable, numerous problems can arise. For example, persons who exercised a certain activity in such a space can generally only resume this activity when the light source emits light again. Particularly in an emergency, such a darkening generally leads to panic reactions and it is difficult for the persons to orient themselves in the dark, especially when they have to leave these spaces. In such situations, one will usually have to resort to light sources independent of a power supply, such as flashlights and candles.

It is an object of the present invention to overcome the drawbacks mentioned above. To this end, the invention provides a light housing which is at least partly provided with an illuminating coating.

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When the power supply to a light house according to the present invention is interrupted, the action of the illuminating pigments will still emit visible light at positions where one expects such a light effect, namely by the light source itself or by a light box surrounding the light source. It is thus not necessary that the persons present in such a room should immediately solve the calamity, since sufficient light is still being emitted to complete the normal activities. In case of danger such as fire situations, the room can then be without problems

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as it is still sufficiently lit. Potential panic reactions are thereby suppressed.

Thus, the invention provides a safe and secure solution to the problems arising from an unintentional darkening.

In the description, an afterglowing pigment is understood to mean a fluorescent and / or a phosphorescent pigment. Fluorescence is the process by which radiation is emitted by a transition between two molecular energy levels with the same spin state, whereas in phosphorescence radiation is emitted by a transition between two molecular energy levels with different spin states. The duration of fluorescence is very short, and this generally only occurs perceptibly when a fluorescent pigment is exposed to light. However, phosphorescent pigments, after being exposed to light, can emit light for a much longer time. A further advantage of both a fluorescent and a phosphorescent pigment is that it can emit light having a different wavelength or a different wavelength range than the light being irradiated or initially irradiated. For example, such a pigment can emit light of a particular color or of a hue upon or after irradiation, for example by "white light".

Illuminating pigments are activated by natural light or other light sources. In the dark, for example in the event of a power failure, the absorbed light is immediately emitted. In the context of passive safety, these photo-5 illuminating light houses can hereby be used as a signal generator in the above-mentioned calamities such as power failure. The additional advantage of such light houses is that the light from the light source is directly absorbed by the photo-illuminating pigment. When the natural light decreases or whether the light sources are extinguished or not, the pigment will emit the absorbed light.

A light house according to the invention is in particular provided with a coating of a dispersion based on cellulose, acrylate, epoxy or polyurethane or a film, for example a shrink film which is provided with an afterglowing pigment of an alkaline earth metal-containing aluminate, which has been dipped with one or more transition metals. In particular when it concerns a pigment with an alkaline earth metal-containing aluminate, which has been doped with one or more transition metals.

Such a coating can be applied thinly since these illuminating pigments have a small grain size of about 7-10 microns.

The afterglowing or illuminating pigment can be excited with light having a wavelength trace of about 350 to 50nm, preferably about 380 and 400nm. The afterglowing pigment preferably emits light, the wavelength maximum being about 520 nm and the wavelength range of the emitted light being about 475 to 575 nm.

The afterglow time and afterglow intensity according to DIN 67510, part 4 (1995) of the afterglow pigment is at least 1,350 minutes, preferably at least 2,000 ml-3, at a visibility limit of 0.3 med / m2. The light intensity of the light emitted by the afterglowing pigment is at least 170, after 3 minutes at least 170, preferably at least 400 mcd / m2, after 30 minutes at least 25, preferably at least at least 65 mcd / m2 and after 120 minutes has at least 5, preferably at least 11 mcd / m2.

The light house according to the invention is preferably a coating with a degree of loading of the afterglowing pigment between 10 and 80% and preferably between 20 and 50%. In such a way, a light intensity becomes perceptible for at least 8 hours, so that, when it gets dark or if the light fails due to an emergency, the 10 outputs can be found.

A light house according to the invention is preferably provided with a coating with a layer thickness between 10 and 100 microns, for example 50 microns.

A coating according to the invention is particularly suitable for being applied as an outer layer on an already manufactured air housing. In addition, this gives the advantage of protection against breakage, for example in the event of glass breakage of a light source, in which any broken glass fragments are trapped.

Such a thin layer will not perceptibly disturb the light emitted by the light source, so that the transparency remains guaranteed.

Preferably, with an interruption of the current, the initial light output of the light house according to the invention is at least higher than 3,000 mcd / m2 and preferably at least 5,000 mcd / m2.

A preferred form is a light house according to the invention as a fluorescent tube lamp. Due to the large surface of such a fluorescent tube lamp, a considerable afterglowing effect can be obtained due to the large coating surface.

For the same reasons, the well-known energy-saving lamps are also a preferred form of a light house according to the invention.

The invention also relates to an illuminating coating based on a dispersion, for example cellulose, acrylate, epoxy or polyurethane dispersion or a foil, provided with an afterglowing pigment of an alkaline earth metal-containing aluminate, comprising 1 0091 36 i 5 is doped with one or more transition metals, and to a method of applying such a coating to a light housing.

The coatings are, for example, based on a polyurethane dispersion or other plastic emulsion or dispersion applied directly to the glass of the light house, light source or light box by dipping or other application technique. These upholstered light sources can be installed in the usual light boxes or 10 fitting clamps.

A coating based on a film of, for example, LDPE or PE and preferably a shrink film, for example of modified vinyl acetate, can be applied subsequently to the production of a light housing as a later step in its finishing. The advantage of a shrink film is that a close-fitting, dust- and moisture-free illuminating coating is obtained.

The light housings can first of all be subjected to a pre-treatment, for example an etching or other mechanical processing such as blasting and sanding. The provision of an adhesive primer may no longer necessitate such a pretreatment.

By means of dipping, a uniform coating with a layer thickness of about 10-100 microns is applied to the glass, then dried and cured. Preferably a layer thickness of 20 - 70 microns. Such a thin coating layer only disturbs the normal light effect minimally. Two-way dipping is possible for a homogeneous coating. Another technique is by rotating the light source such as tube, lamp, etc. horizontally in the coating, after which a uniform coating is obtained in one operation. This coating can also be applied by means of brushes, ironing or spraying technique. The coating can optionally be provided with a colorless cover layer.

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Claims (13)

Light house, such as a light box or a light source, of an at least partially transparent material, characterized in that at least part of the light house is provided with an illuminating coating. Light house according to claim 1, characterized in that the coating is a dispersion based on cellulose, acrylate, epoxy or polyurethane or a foil provided with an afterglowing pigment of an alkaline earth metal-containing aluminate, which has been dipped with one or more 10 transition metals. Light housing according to claim 1 or 2, characterized in that the coating has a degree of loading of the afterglowing pigment between 10 and 80%. Light housing according to claim 3, characterized in that the coating has a degree of loading of the afterglowing pigment between 20 and 50%. Light house according to any one of the preceding claims 1-4, characterized in that the coating has a layer thickness of 10 to 100 microns. Light house according to claim 1, characterized in that the illuminating coating is provided as an outer layer on the light house. Light house according to any one of the preceding claims 1-6, characterized in that when the current 25 is interrupted, the initial light output is at least higher than 3000 mcd / m2. Light house according to any one of the preceding claims 1-7, characterized in that the light house is a fluorescent tube lamp. 9. Illuminating coating, apparently suitable for coating a light house according to any one of the preceding claims, on the basis of a cellulose, acrylate, epoxy or polyurethane dispersion or a foil provided with an afterglowing pigment of an alkaline earth metal-containing aluminate, which is doped with one or more transition metals. : 'C 0 9 -y 36 ^' 4 I Illuminating clothing according to claim 9, characterized in that the film is a shrink film. Coating according to claims 8-10, characterized in that the pigment has a degree of loading between 20 and 50%. Method for coating a light house with a coating according to claims 9-11, characterized in that the light house is pretreated by a chemical agent, such as HF, or by a mechanical operation, such as blasting, sanding, etc., or provided with an adhesive primer, whereby a coating is applied to the light housing in a layer thickness between 10-100 microns. 13. Method according to claim 12, characterized in that a colorless cover layer is provided on the coating. 100 91 36 ^ - 4. COOPERATION TREATY (PCT) REPORT ON NEWNESS RESEARCH OF INTERNATIONAL TYPE IDENTIFICATION OF NATIONAL APPLICATION Characteristics of the applicant ol van oe gemaenugoe j _Q.TI61 / 8 ____! NeOenanase application no. Inaieongsiaejm 1009136 May 12, 1998 Priority invoked, _____I Applicant (Name) | 3EELE ENGINEERING B.V. j Oaajm of net Verzoex for a Urozoex of intemaaaiai type Ooor oe tnsanae for Tnemaaonaai Onoerzoex (ISai on net: Verzoex for an Urozoex of mtemaoonaaj type segexeno nr. i SN 31724 NL ί I. CLASSIFICATION OF THE SUBJECT (btj) dassificaoes. specify all dassificane symbols) According to Insmaoonate dassilicaoe (IPC) (Int.Cl.6: F 21 V 9/16, C 09 K 11/02 II. RESEARCHED AREAS OF TECHNIQUE I ---- (_Information Minimum Documentation____ Classification system _Classification frials _'_ Int.Cl.6: F 21 V, C 09 KO noerzocnie an cere cocumentaoe at oe minimum dccumenaoe insofar as airy documents included a mea rznote n & r a rnn & n ij ί "NEXT RESEARCH. CONCLUSIONS (Oomerxingen CD Supplementary Sheet! IV.'_ LACK OF UNITY OF INVENTION fccmerxir.ger.Co Supplementary Sheet) / ^. -OrmRCTiSa / :: t: a C3 'SÜ