RU2113812C1 - Photoprotective device - Google Patents

Abstract

FIELD: inorganic chemistry. SUBSTANCE: device has carcass and cover fitted on its. Cover is made of material transforming UV-radiation to red one. Cover has a matrix and at least one composite compound of the general formula MxM $\genfrac{}{}{0ex}{}{\text{I}}{\text{y}}$ R_z where M - metal taken from the group involving lanthanum, gadolinium, yttrium, erbium, praseodymium, dysprosium, neodymium, cerium, ytterbium; M^I - metal taken from the group involving europium, samarium, terbium; R - element taken from the group involving phosphorus, oxygen, boron, sulfur, fluorine, chlorine, bromine, vanadium and/or phosphorus, boron oxides and/or their compounds each with other. Device ensures to increase working life of light-transforming capability to at least 400 days. Invention can be used in for protection from environment and UV-radiation in agriculture and medicine. EFFECT: enhanced effectiveness, broadened photoprotective materials. 13 cl, 6 dwg

Description

 The invention relates to environmental protection, mainly ultraviolet radiation, and can be used in industry, agriculture, animal husbandry and medicine. It can also be used to protect against solar radiation and adverse weather.

 In connection with a decrease in the thickness of the ozone layer in the atmosphere and the appearance of so-called ozone holes in it, the task is to protect humans, animals and plants from the ultraviolet radiation of the sun, as well as technogenic ultraviolet radiation (hereinafter UV radiation), which is known to cause skin burns and stimulates the occurrence of cancer, including skin melanoma. At the same time, the importance of such materials that modify the spectrum of light radiation increases.

 A device for protection against solar radiation (WO, application 93/01733, A 54 B 25/18), made in the form of an awning and containing a frame, a support for the frame and a coating fixed to the frame, is known. Moreover, the coating is made of burlap, in which holes of various configurations are provided, randomly distributed over the coating web and providing modulated transmission of solar radiation.

 Such a coating reduces the intensity of solar radiation and accordingly proportionally reduces its UV component. However, the spectrum of radiation transmitted through the coating remains unchanged.

A device is known that can also serve to protect against the ultraviolet radiation of the sun (SU, ed. St., 1381128, C 08 K 5/07; CH, patent, 667463, C 08 K 5/07) containing a frame on which is fixed covering, and representing a greenhouse frame. The coating is made in the form of a polymer film into which the europium compound selected from the group consisting of Eu (NO ₃ ) ₃ Phen, EuCl _{3 3} TOPO, Eu (HFA) ₃ Phen, Eu (TTA) ₃ DP, Eu (TTA) ₃ Phen, Eu (WTPA) ₃ Phen, Eu (DVM) _{3 2} DGCO, Eu (NO ₃ ) ₃ TBP, EuCl ₃ 3HCO, EuCl _{3 3} DGCO, where Phen - 1.10 phenanthroline, TOFO - trioctylphosphine oxide, HFPA - hexafluoroacetylacetone, TTA - tenoyl trifluoroacetone, DP - 2,2-dipyridyl, BTFA - benzoyltrifluoroacetone, DBM - dibenzoylmethane, DHCO - dihexyl sulfoxide, TBP-tributyl phosphate, HCO - petroleum sulfoxides of the formula RSO, where R is a hydrocarbon radical.

 Such a coating not only absorbs the UV part of the spectrum of the light source, but also converts the UV component of the spectrum into red radiation, thereby increasing the proportion of the red component of the spectrum of the light source.

 However, such a coating retains the light-transforming property for no more than 60 days, since the compounds of rare-earth metals used for its manufacture belong to coordinate compounds. These compounds decompose rapidly under the influence of light. And thus, after 1 - 1.5 months of use, a light-protective device made of such material ceases to fulfill its function.

The closest to the achieved result is the device taken by us for the prototype (RU, patent, 2059999, C 08 L 23/02, published. 05/10/96), containing the frame of the greenhouse on which the coating is fixed. The coating is made in the form of a polymer film into which a composite compound of the general formula
[La _1-x Eu _x ) O] _m (Lig) _n ,
Where
Lig = F, Cl, Br, O, S, Se.

 Such a coating, as well as an analogue (SU, auth. St. 1381128, CH, 667463), converts the UV component of the spectrum of the light source into red radiation, however, such a coating retains this property only for 300 days.

 The main task to which the invention is directed is to increase the duration of preservation of the light-transforming property of the conversion of UV radiation of a light source into red radiation.

 Another objective is to expand the arsenal of materials for the manufacture of light-protective devices.

 The technical result of the invention consists in increasing the duration of preservation of light-transforming properties to at least 400 days.

где
M - металл, выбранный из группы: лантан, гадолиний, иттрий, эрбий, празеодим, диспрозий, неодим, церий, иттербий;
M - металл, выбранный из группы: европий, самарий, тербий;
R - элемент, выбранный из группы: фосфор, кислород, сера, бор, фтор, хлор, бром, ванадий и/или оксиды фосфора, бора и/или их соединения друг с другом;
x - 0,001 - 2,0;
y - 0,001 - 2,0;
z - 0,006 - 12,0.The specified technical result is achieved by the fact that a light-protective device is proposed, comprising a frame and a coating fixed to the frame, made of a material that converts UV radiation into red, in which according to the invention the coating is made of a material containing a matrix and at least one composite compound containing inside and / or on the surface of a matrix of the general formula

Where
M is a metal selected from the group: lanthanum, gadolinium, yttrium, erbium, praseodymium, dysprosium, neodymium, cerium, ytterbium;
M is a metal selected from the group: europium, samarium, terbium;
R is an element selected from the group: phosphorus, oxygen, sulfur, boron, fluorine, chlorine, bromine, vanadium and / or oxides of phosphorus, boron and / or their compounds with each other;
x is 0.001 to 2.0;
y is 0.001 to 2.0;
z - 0.006 - 12.0.

фен, где Тер - терефталевая кислота, при этом M'- металл, выбранный из группы по п.1.The coating may additionally contain a chemical additive - M '(NO ₃ ) ₃ (hair dryer), where hair dryer - 1,10-phenanthroline, and / or M' (HFAA) ₃ hair dryer, where HFAA - hexafluoroacetylacetone, and / or M '(TTA ) ₃ DP, where TTA is tenoyl trifluoroacetone, DP is 2,2'-dipyridyl, and / or M '(TTA) ₃ phen, and / or M' (BTFA) ₃ phen, where BTFA is benzoyltrifluoroacetone, and / or M ' (DBM) ₃ 2 (DHCO), where DVM is dibenzoylmethane, DHCO is dihexyl sulfoxide, and / or M '(NO ₃ ) ₃ 3 (TBP), where TBP is tributyl phosphate, and / or M'Cl ₃ (TOPO), where TOPO is trioctylphosphine oxide, and / or M'Cl ₃ 3 (DCO), and / or M'Cl ₃ 3 (HCO), where HCO is petroleum sulfoxides of the formula R'SO, where R 'is a carbon radical, and / or

hair dryer, where Ter is terephthalic acid, while M'is a metal selected from the group according to claim 1.

 As a matrix, the coating material contains thermoplastic polymers and / or varnish compositions, and / or inorganic glass, and / or natural and / or artificial fibers, and / or fabric materials from them, and / or their compositions.

 As thermoplastic polymers, the material contains polyesters, for example polymethyl methacrylate, polybutyl methacrylate, polycarbonate, polyethylene terephthalate and / or their derivatives, polyolefins, for example polypropylene, polyvinyl chloride, polystyrene, polyethylene and / or their derivatives, polyamides, for example capron and / or their derivatives, and or their copolymers and mixtures.

 As lacquer compositions, it contains compositions based on polyester or polyepoxy resins, or mixtures thereof.

 As inorganic glass, the material contains silicate or modified silicate glass.

 As natural fibers, it contains silk fibers, hemp cotton, and as artificial fibers, nylon, nylon, triacetate, polyester, polyamide and / or fabrics thereof, and / or mixed fabrics and fibers thereof.

 The coating material contains a composite compound and / or a chemical additive in an amount of at least 0.001 wt.%. The frame of the device is made in the form of a frame of a geometric contour. The device further comprises at least one support attached to the frame.

 The device can be made in the form of an umbrella, while the frame is made in the form of spokes fixed at one end to a support. The frame can be made in the form of a frame of glasses. The coating may be in the form of lenses and / or films, and / or plates of geometric shapes, and / or combinations thereof.

до 400 дн.The technical result of the invention consists in increasing the duration of preservation of light-transforming properties by a coating made of a material containing a matrix and at least a composite compound of the general formula

up to 400 days

и вышеупомянутую химическую добавку, увеличивается интенсивность (яркость) люминесцентного свечения и продолжительность люминесценции до 500 - 600 дн. Это происходит за счет того, что используемое в качестве химической добавки координационное соединение поглощает УФ-излучение в первую очередь, сохраняя тем самым композитное соединение от действия ультрафиолета и продлевая его способность к трансформации света. Кроме того, обеспечивается расширение арсенала материалов, пригодных для изготовления светозащитных устройств.When performing a coating of a material containing a matrix, a composite compound of the general formula

and the aforementioned chemical additive, the intensity (brightness) of the luminescent glow and the luminescence duration are increased to 500-600 days. This is due to the fact that the coordination compound used as a chemical additive absorbs UV radiation in the first place, thereby preserving the composite compound from ultraviolet radiation and prolonging its ability to transform light. In addition, the expansion of the arsenal of materials suitable for the manufacture of light-protective devices is provided.

 In FIG. 1 shows a manual umbrella; in FIG. 2 - stationary umbrella (beach); in FIG. 3 - awning; in FIG. 4 - solarium (greenhouse); figure 5 - glasses; in FIG. 6 - visor on the cap.

 The light-protective device made according to the invention comprises (Fig. 1-6) a frame 1 and a cover 2 fixed to the frame 1. The device may also comprise a support 3 (Fig. 1-5), at least one (Figs. 1 and 2 ) or more, for example two (Fig. 5) or four (Fig. 3).

 The device (Fig. 1), made in the form of an umbrella, contains as a support a cane 3 (Fig. 1), to the top of which are attached spokes that form the frame 1, on which the coating 2 is stretched, which in turn forms a dome when the umbrella is opened. The coating 2 can be cut in the form of triangular flaps that are interconnected, or can be made from one piece.

 The device (Fig. 2), also made in the form of an umbrella, but stationary, contains as a pillar 3 a pillar (Fig. 2), to the top of which are attached radially diverging crossbeams forming a frame 1, on which the coating 2 is stretched.

In the device of FIG. 1 and 2, coating 2 contains a matrix in the form of a film from lavsan, into which the composite compound YEu (VO ₄ ) ₂ (where x = 1.0, y = 1.0, z = 2.0) and the chemical additive Eu ( TTA) ₃ hair dryer in an amount of 0.01 wt.% Of each compound. Such a coating provides a luminescence duration of 400 days.

The composite compound YEu (VO ₄ ) ₂ to obtain such a coating was synthesized by the well-known method of high-temperature synthesis (Kustov, E.F. et al., Electronic spectra of compounds of rare-earth elements, edited by I.V. Tananaev, Moscow: Nauka, 1981), For to obtain YEu (VO ₄ ) _2, 22.6 g of yttrium oxide and 35.2 g of europium oxide were mixed. Then, 47.0 g of ammonium vanadate was introduced into this charge and mixed. The resulting mixture was loaded into a container of glassy carbon and calcined at a temperature of 900 - 11100 ^o C for 4 hours. Then the container was slowly cooled and unloaded. The cake was leached with deionized water and fractionated to an average dispersed composition of 5 μm. The composition of the obtained composite compound corresponds to the formula YEu (VO ₄ ) ₂ .

The coordination compound Eu (TTA) ₃ phen, used as an additive, was synthesized in a known manner (CH, patent, 667463 and SU, ed. St. 138128).

 The device (Fig. 3), made in the form of an awning, contains as a support 3 four racks to which the frame 1 is attached, on which the coating 2 is stretched.

In the device of FIG. 3 and 4, coating 2 contains as a matrix a polyethylene film into which the composite compound La _1.9 Eu _0.1 (BO ₂ ) ₂ (MO ₄ ) ₂ is introduced in an amount of 0.2 wt.% By weight of the material.

The composite compound La _1.9 Eu _0.1 (BO ₂ ) ₂ (MO ₄ ) ₂ (where x = 1.9, y = 0.1, z = 4.0) was obtained by the high-temperature synthesis method (Dzhurinsky B.F. et al., Spectra and structure of borate-tungstates (molybdates) of lanthanides activated by europium, WF “Inorganic materials”, 1987, v.23, N 9, p. 1525).

A polyethylene film containing a composite additive of La _1.9 Eu _0.1 (BO ₂ ) ₂ (MO ₄ ) _{2 was} prepared as follows.

 100 kg of granular polyethylene and 0.2 kg of the corresponding compound were taken in the form of a fine powder, loaded into a mixer and mixed thoroughly. The resulting mixture was loaded into an extruder and with its help was processed into a film with a thickness of 100 - 150 microns. Such a film ensures the preservation of light-transforming properties for 400 days.

 In the same manner, the above-described lavsan film was obtained.

In the device shown in Figs. 5 and 6, coating 2 contains a matrix in the form of a plate (Fig. 5) or lens (Fig. 6) made of polymethylmethacrylate, on the surface of which, with the use of a varnish composition based on polyester-polymethacrylate, composite compound La _{1 is} applied ₉₅ Eu _0.05 (BO ₂ ) ₂ (WO ₄ ) ₂ and the chemical additive Eu (NO ₃ ) ₃ (Phen) ₂ in an amount of 0.15 wt.% Of each substance.

The composite compound La _1.95 Eu _0.05 (BO ₂ ) ₂ (WO ₄ ) ₂ (where x = 1.95, y = 0.05, z = 4.0) was also obtained by high-temperature synthesis (B. Dzhurinsky . and others. Spectra and structure of borate-tungstates (molybdates) of lanthanides activated by europium, WF "Inorganic materials", 1987, v. 23, No. 9, p. 1525).

The chemical additive Eu (NO ₃ ) ₃ (Phen) _{2 was} prepared as follows:
4.46 g of europium nitrate were dissolved in 50 ml of hot water. 3.4 g of 1,10-phenanthroline in 10 ml of ethanol was added to the resulting solution. The precipitate thus formed was filtered on a porous glass filter. The composition of the obtained compound corresponds to the formula Eu (NO ₃ ) ₃ (Phen) ₂ .

 A polymethyl methacrylate plate as a matrix was obtained by extrusion, as described above to obtain a polyethylene film.

 Such a coating ensures the preservation of light-transforming properties for 400 days.

являются нетоксичными соединениями, они известны и их синтез описан (Кустов Е.Ф. и др. Электронные спектры соединений редкоземельных элементов под ред. И.В.Тананаева, М.: Наука, 1981; Соединения редкоземельных элементов, силикаты, германаты, фосфаты, арсенаты, ванадаты, серия Химия редких элементов, М.: Наука, 1983).Composite compounds of the general formula

are non-toxic compounds, they are known and their synthesis is described (Kustov E.F. et al. Electronic spectra of compounds of rare-earth elements under the editorship of I.V. Tananaev, Moscow: Nauka, 1981; Compounds of rare-earth elements, silicates, germanates, phosphates, arsenates, vanadates, series Chemistry of Rare Elements, Moscow: Nauka, 1983).

Luminescence spectra for compounds La _1.9 Eu _0.1 (BO ₂ ) ₂ (MO ₄ ) ₂ and La _1.95 Eu _0.05 (BO ₂ ) ₂ (WO ₄ ) _{2 are} known and published (Dzhurinsky B.F. et al. Spectra and structure of borate-tungstates (molybdates) of lanthanides activated by europium, Zh. "Inorganic materials", 1987, v. 2Z, N 9, p. 1525).

The luminescence spectrum for YEu (VO ₄ ) _{2 was} published (E.F. Kustov et al. Electronic spectra of rare-earth element compounds, edited by I.V. Tananaev, Moscow: Nauka, 1981).

 The coordination compounds of the general formula M'ABL used as a chemical additive are also known, their synthesis and properties are described (CH, patent 667463 and SU, ed. St. 1381128, C 08 K 5/07; Melby LR et all, Synthesis and Fluorescence of some Trivalent Lanthanide Complexes, J. Amer. Chem. Soc., 1964, v. 86, N 23, p. 5117).

 The material for the manufacture of coatings based on thermoplastic polymers is obtained by pressing under pressure or by extrusion of polymer granules previously powdered with one of the aforementioned composite compounds (or a composite compound together with the aforementioned chemical additive) into a film or plate (depending on the properties of the polymer) (CH Patent 667463 and SU, Aut. St. 1381128).

 In this case, the light-transforming substance (composite compound or composite compound together with a chemical additive) is inside the film. Such a film made on the basis of polyethylene is transparent. The preparation of such films is described (CH, patent 667463 and SU, ed. St. 1381128). Or, such a material is obtained by applying to a film or plate, for example by spraying, a mixture of a solution of a light-transforming substance (composite compound or composite compound together with a chemical additive) in a suitable solvent, for example in acetone, with a suitable binder, for example, a solution of the same polymer in acetone.

 To obtain a material containing a matrix woven from natural and artificial fibers, it is impregnated with a solution of a light-transforming substance, for example acetone, into which, for example, polymethyl methacrylate is introduced. Or the surface of the finished fabric is treated, for example, by spraying a solution of the light-transforming substance in acetone with the addition of, for example, polymethylmethacrylate or polystyrene.

 Upon receipt of the material from artificial fibers, the light-transforming substance can be introduced directly into the polymer mass upon receipt of the fiber from it.

 In FIG. 1 to 6, only some of the possible specific designs of the proposed light-protective device are presented, made, for example, in the form of an umbrella, awning or screen, a solarium, or a similar device, the coating of which can be made of a material that converts ultraviolet into red radiation.

 Making a coating for devices that protect against UV radiation from a material that converts UV radiation to red is as simple as making it from known materials.

 The proposed light-protective device provides absorption of UV radiation by at least 80% and an increase in the proportion of red radiation by 70% compared with known devices of a similar purpose, the coating of which does not have a light-transforming property.

 In addition, the proposed device provides an increase in the duration of preservation of light-transforming properties, namely, the duration of the ability to luminescence by 200 days compared with the analogue (CH, patent 667463, SU, ed. St. 1381128) and by 50 days compared with the prototype (RU Patent 2059999).

 The present invention can be used in agriculture for growing living organisms, including plants and animals, as well as for drying, for example, tobacco and medicinal plants.

 It can be used in medicine for the treatment of, for example, burns, as well as for the equipment of beaches. The proposed device can be used in microbiology to ensure microbiological synthesis. The device can also be used to shield windows of residential premises.

Claims (13)

A light-protective device comprising a frame and a coating fixed to the frame made of a material that converts UV radiation to red, characterized in that the coating is made of a material containing a matrix and at least one composite compound contained inside and / or on the surface of the matrix, general formula

Where
M is a metal selected from the group: lanthanum, gadolinium, yttrium, erbium, praseodymium, dysprosium, neodymium, cerium, ytterbium;
M ¹ is a metal selected from the group: europium, samarium, terbium;
R is an element selected from the group: phosphorus, oxygen, boron, sulfur, fluorine, chlorine, bromine, vanadium and / or oxides of phosphorus, boron, and / or their compounds with each other;
x - 0.0001 - 2.0;
y is 0.001 to 2.0;
z - 0.0006 - 12.0. 2. The device according to p. 1, characterized in that the coating further comprises a chemical additive M ¹ (NO ₃ ) ₃ (phen) ₂ , where the phen is 1,10-phenanthroline and / or M ¹ (HFAA) ₃ phen, where HFAA - hexafluoroacetylacetone, and / or M ¹ (TTA) ₃ DP, where TTA is tenoyl trifluoroacetone, DP is 2,2'-dipyridyl, and / or M ¹ (TTA) ₃ phen and / or M ¹ (BTPA) ₃ phen, where BTFA is benzoyl trifluoroacetone, and / or M ¹ (DBM) ₃ 2 (DHSO), where DBM is dibenzoylmethane, DHSO is dihexyl sulfoxide, and / or M ¹ (NO ₃ ) ₃ 3 (TBP), where TBP is tributyl phosphate, and / or M ¹ CI ₃ 3 (TOPO), where TOPO is trioctylphosphine oxide, and / or M ¹ CI ₃ 3 (DGSO), and / or M ¹ CI ₃ 3 (HCO), where HCO is petroleum sulfoxide ph R ¹ SO formula, where R ¹ is a carbon radical, and / or M $\genfrac{}{}{0ex}{}{\text{1}}{\text{2}}$ (Tep) ₃ hair dryer, where Tep is terephthalic acid, where M ¹ is a metal selected from the group according to claim 1.  3. The device according to claim 1, characterized in that, as a matrix, the coating material contains thermoplastic polymers, and / or varnish compositions, and / or inorganic glass, and / or natural and / or artificial fibers, and / or fabric materials from them , and / or compositions thereof.  4. The device according to p. 3, characterized in that as thermoplastic polymers it contains polyesters, for example polymethyl methacrylate, polybutyl methacrylate, polycarbonate, polyethylene terephthalate, and / or their derivatives, polyolefins, for example, polypropylene, polyvinyl chloride, polystyrene, polyethylene, and / or their derivatives, polyamides, for example capron, and / or their derivatives, and / or their copolymers and mixtures.  5. The device according to p. 3, characterized in that as varnish compositions it contains compositions based on polyester, polyepoxy resins and / or mixtures thereof.  6. The device according to p. 3, characterized in that as inorganic glass it contains silicate or modified silicate glass.  7. The device according to p. 3, characterized in that as natural fibers it contains fibers of silk, cotton, hemp, and as artificial fibers - nylon, nylon, triacetate, polyester, polyamide and / or fabrics thereof, and / or mixed fabrics and fibers from them.  8. The device according to paragraphs. 1 and 2, characterized in that the coating material contains a composite compound and / or chemical additive in an amount of not less than 0.001 wt.%.  9. The device according to claim 1, characterized in that the frame is made in the form of a frame of a geometric contour.  10. The device according to p. 1, characterized in that it further comprises at least one support attached to the frame.  11. The device according to p. 1 and 10, characterized in that the frame is made in the form of spokes fixed at one end to a support, for example in the form of an umbrella.  12. The device according to p. 1, characterized in that the frame is made in the form of a frame of glasses.  13. The device according to claim 1, characterized in that the coating is made in the form of lenses and / or film and / or plates of geometric shape and / or combinations thereof.

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