CZ308324B6 - Process for producing a light-active part of a luminaire with a protective layer of nanopolymers - Google Patents

Abstract

The method of manufacturing the light-active part of the luminaire consists of applying a protective layer of nanopolymers to the luminous part of the luminaire, where the luminaire is used mainly as illumination of areas with increased dustiness, in areas with increased incidence of bacteria and infections, with increased fire or explosion risk. The method of producing the light-active part of the luminaire with a protective layer of nanopolymers consists of the following steps, i.e. cleaning the outer surface of the luminous part of the luminaire perfectly with cold plasma, uniform application of the protective layer of nanopolymers on the outer surface of the luminous part of the luminaire in a layer thickness of 75 nm, depositing the luminous part of the luminaire with a protective layer of nanopolymers so that the protective layer of nanopolymers is free of contact with other bodies; allowing the protective layer of nanopolymers to cure for up to 48 hours and finally polishing the protective layer of nanopolymers.

Description

Method of manufacturing a light-active part of a luminaire with a protective layer of nanopolymers

Field of technology

The invention relates to a method of manufacturing a light-active part of a luminaire, which consists in applying a protective layer of nanopolymers to the light-active part of the luminaire. Specifically, this solution is used in all areas where it is necessary to use artificial lighting to perform the visual task, especially lighting areas with increased dust, or areas with increased incidence of bacteria and infections or lighting areas where there is an increased possibility of fire or explosion. For the purposes of the present invention, the luminous active part of a luminaire means in particular covers, shades, lenses, reflectors, refractors, gratings, diffusers, etc. of own luminaires, which are made in various shapes and sizes depending on the type, size and purpose of own luminaire. .

Prior art

Until now, the light-active parts of the luminaires have not been surface-treated in any way. Thanks to this, dirt from air or from dusty operations settles on the surface of the light-active parts of the luminaires. The removal of impurities from the surface currently takes place by mechanical removal, eg by abrasion, washing or spraying. In case of insufficient or late mechanical removal of impurities from the light-active parts of the luminaires, there is a significant reduction in the luminous flux of the luminaire and thus a deterioration in the illumination of the visual task. The high financial demands associated with the removal of impurities from the surface of light-operated parts of luminaires and the possible need for a short-term shutdown of illuminated operations and premises during the removal of dirt from the surface of light-active parts of luminaires are also significant.

The essence of the invention

The object of the present invention is to eliminate said drawbacks by applying a protective layer of nanopolymers to the outer surface of the light-active part of the luminaire. The essence of the technical solution of the invention of applying a protective layer of nanopolymers on the outer surface of the light-active part of the luminaire lies in the technological process of applying a protective layer of nanopolymers, consisting of the following steps:

1) Perfect cleaning of the outer surface of the light-active part of the luminaire with an ionized gas stream, ie eg cold plasma. The ionized gas stream is applied by a suitable means, eg by means of a plasma nozzle.

2) Even application of a protective layer of nanopolymers on the outer surface of the light-active part of the luminaire. The protective nanopolymer layer is applied at a strength of 50 to 100 nm. The optimal strength of the protective layer of nanopolymers is 75 nm. The protective layer of nanopolymers is applied by means of a nozzle. The composition of the mixture of nanoparticles, of which the layer of nanopolymers consists, is variable, ie. that a mixture with a primary effect on repelling dust particles, or a mixture which is antibacterial, or a mixture which reduces the flammability of the surface of the light-active part of the luminaire on which it is applied, may be used.

3) Curing of the protective layer of nanopolymers. Full cure occurs within 48 hours after application. For proper curing, it is necessary to keep the ambient temperature in the range of 25 to 30 ° C, the relative humidity of the environment in the range of 40 to 60%, store the products in a dust-free space with atmospheric air pressure. For this purpose, the luminous parts of the luminaires shall, during this time, be placed in racks which are suitable for the shape and size of the luminous active part of the luminaire or otherwise suitably positioned to prevent contact with that part of the object on which the protective layer has been applied. i.e. the protective layer is free of contact with other bodies.

- 1 CZ 308324 B6

4) Polishing of the protective layer of nanopolymers, eg with a soft cloth. In this step, the excess from step 2 is removed and the outer surface of the light-active part of the luminaire is finalized and it acquires its final properties.

The protective layer of nanopolymers is hydrophobic, ie. that it repels water, in which dust particles are most often bound. By repelling (outflowing) polluted water, dust particles that are bound in the water are also removed. Furthermore, the protective layer of nanopolymers has antistatic effects, thanks to which dust particles are repelled. Thanks to this treatment of the luminous part of the luminaire, there is a significant reduction in the presence of dust particles from the air or dust on the surface of the luminous part of the luminaire or in the amount of bacteria and other undesirable microorganisms in the luminous part of the luminaire.

Thanks to the reduction of the amount of deposited dust or bacterial particles on the surface of the light-active part of the luminaire, the frequency of the need to clean the light-active parts of the luminaires is reduced. Thanks to the smaller deposition of dust and bacterial particles on the surface of the light-active part of the luminaire, there is also a significantly smaller decrease in the luminous flux of the luminaire. The advantage of lower numbers of installed luminaires in the illuminated space, as well as the advantage of longer intervals of the need to clean the surfaces of the light-active parts of the luminaires, is also not negligible.

Examples of embodiments of the invention

Example 1

The method of manufacturing the light-active part of a luminaire with a protective layer of nanopolymers consists of the following steps:

- perfect cleaning of the outer surface of the light-active part of the luminaire with cold plasma, where cold plasma is applied by means of a plasma nozzle;

- uniform application of a protective layer of nanopolymers on the outer surface of the light-active part of the luminaire;

- placing the light-active part of the luminaire with a protective layer of nanopolymers in stands suitable for the given shape and size of the light-active part of the luminaire;

- curing of the protective layer of nanopolymers for up to 48 hours;

- polishing of the protective layer of nanopolymers.

Example 2

The light-active part of the luminaire with a protective layer of nanopolymers modified according to Example 1, wherein the layer of protective nanopolymers has a thickness of 50 to 100 nm, preferably 75 nm. The nanopolymer layer contains a mixture with a primary effect on repelling dust particles and / or a mixture with antibacterial properties and / or a mixture reducing the flammability of the surface of the light-active part of the luminaire on which it is applied.

Industrial applicability

The invention is industrially applicable in all areas where it is necessary to use artificial room lighting to perform a visual task, in particular lighting of areas with increased dust, or

-2GB 308324 B6 areas with an increased incidence of bacteria and infections or lighting of areas where there is a risk of increased fire or explosion.

Claims (1)

PATENT CLAIMS A method of manufacturing a light-active part of a luminaire with a protective layer of nanopolymers, comprising the following steps: - perfect cleaning of the outer surface of the light-active part of the luminaire with cold plasma; - uniform application of a protective layer of nanopolymers on the outer surface of the light-active part of the luminaire; - placing the light-active part of the luminaire with a protective layer of nanopolymers so that the protective layer of nanopolymers is free of contact with other bodies; - allowing the protective layer of nanopolymers to cure; and - polishing of the protective layer of nanopolymers, characterized in that the uniform application of the protective layer of nanopolymers on the outer surface of the luminous active part of the luminaire is performed by means of a plasma nozzle in a layer thickness of 75 nm and leaving the protective layer of nanopolymers ambient temperature in the range of 25 to 30 ° C and relative humidity in the range of 40 to 60% for up to 48 hours.