WO2013165321A1 - Fluorescent materials - Google Patents

Description

Fluorescent materials

Field of the invention

Technical solution deals with fluorescent materials based on commonly used materials or products with traditional features which are transfered to materials or products with fluorescent attributes in low visibility conditions or in the dark.

State of the art

There is requirement for higher visibility of various important information in many cases, such as road traffic signs, or making visible information in advertising industry, signmaking of various objects, institutions, buildings. The visibility is especially important in low visibility conditions or in the dark.

The problem of visibility is currently often solved by reflex items, but in such case it is necessary to have contact to the source of light or the item needs to be illuminated by the source of light.

For instance there are nail polishes (such as nail polish by Acmellight) which shine after they are illuminated by UV light, and there are fluorescent puzzles or fluorescent home accesories.

The main disadvantage of known solutions is inevitable condition that there have to be the source of light.

Summary of the invention

The described solution overcomes limitations of existing materials.

The solution is based on materials which themselves are fluorescent and can be used as material base or as surface applications.

Fluorescence of the materials is achieved by absorption of daylight and consequently the light is emmited during dark. Intensity and the time period of illumination depends on the ratio of components which create the material, time of illumination is between 2 and 24 hours in dark and it is possible to select from various colors and color shades of light. ... . . . _

Base of technical solution are fluorescent materials which consists of base material mixture which stands for 50% to 90% of total material weight and phosphorogenic pigment which stands for 10% to 50% of material weight. The fluorescent material can be in a form of compact mass or in a form of surface coating. As a base mixture can be used materials used in building industry, such as gypsum, mosaic wall coating, joint substances based on anorganic materials or organic sealants or polyurethane (PUR) plasticized or nonplasticized, epoxide resins, transparent lackquers based on synthetic materials, synthetic and non-.synthetic cover color. Phosphorogenic pigment can be zinc sulphide and coper, or strontium aluminate.

Examples of realization of the invention

The examples illustrate how the technical solution can be used in practice, but they do not constrict the application area of the solution.

Example Nol

Material is prepared as a mixture of 75% of cement substance used for joints Ceresit (which can be used for setting of tiles) and 25% of phosphorogenic pigment which is zinc sulphide and coper.

Example No2

Material is prepared as a mixture of 50% of gypsum and 25% of phosphorogenic pigment which is strontium aluminate. The final material can be used for production various garden architecture accesories, such as sculptures, garden lights, garden benches, etc.

Example No3

For mosaic wall coat it is necessary to prepare mixture consisting of 75% of wall coat and 25% of phosphorogenic pigment which is zinc sulphide and copper.

Example No 4

To prepare colors which can be used as cover layer for finishing of banisters, direction pillarets, edge lines used for traffic roads and pavements, etc. the mixture consists of 70% of synthetic acryl color and 30% of phosphorogenic pigment strontium aluminate.

Example No5

Mixture consisting of 85% of nonplasticized polyurethane (PUR) (the material can be in form of boards) and 15% of phosphorogenic pigment which is zinc sulphide and coper. The final mixture can be used in production of different products, such as orientation boards, street identification boards, billboards, advertising and promotional boards, etc.

Example No6

Mixture consisting of 84% of epoxide lackquer and 16% of phosphorogenic pigment strontium aluminate can be used as a transparent lapkquer for surface finishing of various products, such as direction pillarets, edge lines used for traffic roads and pavements, etc.

Example No7

Mixture consisiting of 90% of base material which can be PVC and 10% of phosphorogenic pigment strontium aluminate can be used as organic coating, which are materials used, for surface finishings of decorative items, for instance for Christmas tree decorations.

Industrial applicability

Industial application of fluorescent materials prepared according to this invention is in various types of industries, in individual or mass production. Main advantage of the solution is based on the fact, that there is no need for additional source of light, the solution operates solely on the daylight energy.

Invention can be applied in traffic for zebra crossings, for road marking, for street identification boards used in urban areas, but also for orientation boards for turism purposes. Another field of application is garden architecture for production of various products (such as ballustrades, sculptures, pavements) with main advantage being better orientation at lower visibility conditions or after dark. Very important field of application is advertising, billboards and promotional boards made from fluorescent materials alow for more creativity and stronger impact.

Interesting field of application is surface finishing made from fluorescent materials, which is used in production of banisters, direction pillarets, edge lines used for traffic roads and pavements, etc. In building industry these materials can be used as joint substance and mosaic wall coating.

Material can also be used as paint coating in production of decorative items, such as Christmas decorations and printed decoration of textiles.

In transport, the material can be successfully used as cover finishing for vehicles, e.g. frame of bicycle wheels, etc.

Claims

Fluorescent materials characterized by the fact that they are created by the mixture of base material which amounts from 50% to 90% of the total weight and phosphorogenic pigment which amounts from 10% to 50% of the total weight, and the fluorescent material is in form of compact mass or in a form of surface coating material.

Fluorescent materials according to claim 1, characterized by the fact that the base material are materials used in building industry, such as gypsum, mosaic wall coating or sealant substance while all materials are based on anorganic raw materials and organic sealant.

Fluorescent materials according to claim 1, characterized by the fact that the base material is nonplasticized or plasticized polyurethane (PUR), epoxide resin, transparent lackquers based on synthetic substances, synthetic and non-synthetic cover coating.

Fluorescent materials characterized by the fact that the phosphorogenic pigment is zinc sulphide and coper or strontium alumiriate.