RU2609801C2 - Polymer composition for production of greenhouse covering material (versions) - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to a polymer composition for the production of covering materials for greenhouses used for growing plants in protected grounds. The composition comprises a polymer, preferably a polycarbonate, a luminescent filler - luminophor with blue emission color in the spectral region of 380-510 nm and the excitation region of 250-380 nm, for example, FK-1 and/or red emission color in the spectral region of 580-710 nm and the excitation region of 200-600 nm, for example FL-626. The composition may contain a light-scattering additive regulating the growth and photosynthetic response of plants. As the light-scattering additive the composition comprises a colored master-batch, which is a mixture of a polymer, preferably a polycarbonate with a dye, which contains one of the groups of colors as per RAL 4001 or 4006, or 4012, RAL 3000 or 3016, or 3033, RAL 2000 or 2005, or 2012, with a certain weight ratio of the components.

EFFECT: invention provides a covering material with a luminescence light of the required wavelength to obtain the most favorable conditions for development of plants in the greenhouse for the entire growing and maturing season while increasing the productivity of plants, such as tomatoes, increasing the number and average weight of fruits per plant and therefore marketable yield of fruits.

15 cl, 12 dwg, 7 tbl

Description

The invention relates to polymeric structural sheet covering materials of greenhouses used for growing plants in sheltered soil.

It is known that under the influence of sunlight in the leaves of plants various photobiochemical reactions occur (photosynthesis). The leaves of plants absorb light of various spectral ranges, which performs substrate (synthesis of substances) and regulatory (morphogenesis) functions. The spectral ranges of light have the following physiological values:

- 280-320 nm: has a harmful effect;

- 320-400 nm (UV): regulatory role, several percent are needed;

- 400-500 nm ("blue"): necessary for photosynthesis and regulation;

- 500-600 nm ("green"): due to its high penetrating ability it is useful for photosynthesis of optically dense leaves, lower tier leaves, dense plant crops;

- 600-700 nm (“red”): pronounced effect on photosynthesis, development and regulation of processes;

- 700-750 nm (“far red”): pronounced regulatory action, a few percent in the total spectrum are sufficient;

- 1200-2000 nm (PC): absorbed by intracellular and intercellular water, increases the rate of thermal biochemical reactions.

(Tikhomirov A.A., Sharupich V.P., Lisovsky G.M. “Light culture of plants”, ed. SB RAS, Novosibirsk, 2000, http://greenhouses.ru/svetokultura).

At the same time, despite the very complex picture of the effect of the spectral composition of light on plant growth, it has now been established that orange-red and blue-violet rays have the highest activity within physiological radiation. To a lesser extent, yellow-green and distant red rays affect. Plants in the red region of the spectrum have the highest absorption. Hard ultraviolet radiation sharply suppresses photosynthesis and is dangerous for chlorophyll leaf grains (IA Shulgin. Plant and the sun. L., "Hydrometeoizdat", 1973, p. 142-145).

A new stage in the development of agricultural production, associated with increasing plant productivity when adapting to solar radiation, is due to the appearance of polyethylene greenhouse films. However, along with the obvious advantages of these films, there were also disadvantages associated with their destruction under the influence of solar ultraviolet radiation, and therefore a large number of various organic additives appeared in the form of dyes, which, when introduced into polyethylene, absorbed the ultraviolet study, preventing the destruction of the films, and at the same time, plants were irradiated with additional red color, creating favorable conditions for their growth.

At the same time, in spite of the high initial efficiency of converting UV radiation to red, films with organic light-converting additives were not found to be of real use because of the rapid destruction of additives under the influence of ultraviolet radiation with the loss of the necessary light-converting properties and mechanical strength (V.A. Vorobev, abstract of the project "Development of a technology for the production of red photoluminophore with a submicron particle size for greenhouse films based on polyethylene", http://stavintech.ru/proposals/w inner201.html).

Recent years have shown the promise of using fundamentally new light-transmitting additives in polyethylene films in the form of inorganic phosphors.

The prior art polymer compositions for the production of film covering materials for greenhouses based on various polymers with phosphors (activators, including those from rare earths) as fillers, with the addition of various additives as stabilizers, plasticizers, etc., for example:

- SU No. 1381128: polymer and phosphor (europium tenoyl trifluoroacetonate with 1.10 phenanthroline);

- SU No. 1443737: polymer, phosphor (same) and europium benzoyl benzoate with 4.4 dipyridyl;

- RU No. 1552616: polymer, phosphor (based on europium), stabilizer (barium or gadolinium stearate), plasticizer (DAP, ESM, DFT);

- RU No. 2053247: polymer, filler (kaolin or aluminum), pigment, phosphor (complex compound based on europium and anthranilic acid);

- RU No. 2127511: polymer, stabilizer (phenosan 23), phosphor (strontium or calcium sulfide activated by europium, dysprosium or terbium);

- RU №2125069: polymer, a mixture of phosphors with a blue glow (aluminate of barium, magnesium activated by europium divalent and / or strontium chlorophosphate, barium activated by europium divalent and / or orthoborate magnesium activated by titanium and tin), red-orange glow (metallocrystalline yttrium oxysulfide activated by europium with an optimized emission spectrum and / or lanthanum oxysulfide activated by europium with an optimized emission spectrum) and an additional phosphor (magnesium orthophosphate, st tin activated ronium).

A common disadvantage of the known analogues is that their constituent components are expensive, while the material into which the additives are added is inexpensive. It is not reliable in conditions of long-term operation, and also has low mechanical properties and does not provide the proper heat capacity in the conditions of modern production of new generation greenhouses - having a high-strength frame made of profile metal. Thus, the introduction of additives in the film material significantly increases its cost without improving its strength characteristics, and the use of such a material becomes economically impractical.

Cellular polycarbonate is a durable, durable material with high impact resistance, withstanding significant snow and wind loads, well retaining heat. Ease of cutting and drilling ensure the safety and ease of assembly of structures made of cellular polycarbonate, including modern prefabricated structures of the greenhouse. Polycarbonate sheets used as a coating for such structures can be easily bent without heating, and it will not break.

The production technology of a polycarbonate sheet of a honeycomb structure is known. It includes the extrusion of the melt of the starting components using the head, forming the structure of the sheet and containing holes for the passage of air, which is fed into the chamber profile, having at the end of the slot-channels for the melt forming the honeycomb structure (RU No. 2422275).

The objective of the claimed invention is to create a polymer composition for the production of a covering material that is reliable under conditions of long-term operation and for protected soil, the composition of which includes a minimum of necessary but sufficient ingredients for its production, with effective absorption of UV radiation both on the surface and inside the polymer matrix, preventing its destruction, and at the same time transforming the incoming luminous flux, changing the percentage of colors in the light beam so that it is the best favorable for the growth and development of crops grown, as well as additionally scattering rays useful for plants in order to increase the area of their contact with plants and more uniform illumination of all crops inside the greenhouse.

The technical result of the invention is to obtain the most favorable conditions for the development of plants in the greenhouse during the entire growing season and ripening of the crop through the use of a polymer composition as a covering material, including special fillers (phosphor activators) and a light-scattering additive that regulate the growth and photosynthetic reactions of plants.

The task can be achieved, and its technical result can be achieved by the claimed invention - a polymer composition for the production of greenhouse covering material, based on a polymer, mainly polycarbonate, including a luminescent filler, a mixture of phosphors with blue, for example FC-1, and / or red, for example ФЛ-626, the color of the glow in a certain region of the spectrum and the excitation region and / or a light-scattering additive, which is used as a color masterbatch, which is a mixture polymer, mainly polycarbonate, with a dye according to one of the following color groups according to RAL: (4001, or 4006, or 4012), RAL (3000, or 3016, or 3033), RAL (2000, or 2005, or 2012), including including the following compositional options.

Option 1. A polymer composition for the production of greenhouse covering material, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler, a mixture of phosphors with a blue glow in the spectral region of 380-510 nm and an excitation region of 250-380 nm, for example FC-1 , the red glow in the spectral region of 580-710 nm and the excitation region of 200-600 nm, for example, FL-626, in the following ratio of components, wt.%:

phosphor FC-1 0.01-1 phosphor FL-626 0.01-1 polycarbonate rest

Option 2. A polymer composition for the production of greenhouse covering material, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler, a phosphor with a blue glow in the spectral region of 380-510 nm and an excitation region of 250-380 nm, for example FC-1, in the following ratio of components, mass,%:

phosphor FC-1 0.01-1 polycarbonate rest

Option 3. A polymer composition for the production of greenhouse covering material, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler, a phosphor with a red glow in the spectral region of 580-710 nm and an excitation region of 200-600 nm, for example, FL-626, in the following ratio of components, wt.%:

phosphor FL-626 0.01-1 polycarbonate rest

Option 4. The polymer composition for the production of covering material for greenhouses according to option 1, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler - a mixture of phosphors with a blue glow in the spectral region of 380-510 nm and an excitation region of 250-380 nm, for example FC -1, the red color of the glow in the spectral region of 580-710 nm and the excitation region of 200-600 nm, for example, FL-626 and a light scattering additive, which is used as a color masterbatch, which is a mixture of a polymer, mainly poly . Bonate, the dye of RAL 2000 and RAL 2005, RAL 2012 or the following component ratio, wt%:

phosphor FC-1 0.01-1 phosphor FL-626 0.01-1 color masterbatch according to RAL 2000, or RAL 2005, or RAL 2012 0.01-5 polycarbonate rest

Option 5. The polymer composition for the production of covering material for greenhouses according to option 1, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler, a mixture of phosphors with a blue glow in the spectral region of 380-510 nm and an excitation region of 250-380 nm, for example FC-1, with a red glow in the spectral region 580-710 nm and an excitation region of 200-600 nm, for example FL-626, and a light-scattering additive, which is used as a color masterbatch, which is a polymer mixture, mainly poly rbonata, a dye of RAL 3000 or RAL 3016, RAL 3033 or the following component ratio, wt.%:

phosphor FC-1 0.01-1 phosphor FL-626 0.01-1 color masterbatch according to RAL 3000, or RAL 3016, or RAL 3033 0.01-5 polycarbonate rest

Option 6. The polymer composition for the production of covering material for greenhouses according to option 1, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler - a mixture of phosphors with a blue glow in the spectral region of 380-510 nm and an excitation region of 250-380 nm, for example FC -1, the red color of the glow in the spectral region of 580-710 nm and the excitation region of 200-600 nm, for example, FL-626 and a light scattering additive, which is used as a color masterbatch, which is a mixture of a polymer, mainly poly Bonate, the dye of RAL 4001 or RAL 4006, RAL 4012 or the following component ratio, wt. %:

phosphor FC-1 0.01-1 phosphor FL-626 0.01-1 color masterbatch according to RAL 4001, or RAL 4006, or RAL 4012 0.01-5 polycarbonate rest

Option 7. The polymer composition for the production of covering material of greenhouses according to option 2, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler - a phosphor with a blue glow in the spectral region of 380-510 nm and an excitation region of 250-380 nm, for example FC- 1, a light scattering additive, which is used color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with a dye according to RAL 2000, or RAL 2005, or RAL 2012 in the following ratio of components, wt.%:

phosphor FC-1 0.01-1

color masterbatch

according to RAL 2000, or RAL 2005, or RAL 2012, 0.01-5  polycarbonate rest

Option 8. The polymer composition for the production of covering material for greenhouses according to option 2, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler - a phosphor with a blue glow in the spectral region of 380-510 nm and an excitation region of 250-380 nm, for example FC- 1, a light-scattering additive, which is used color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with a dye according to RAL 3000, or RAL 3016, or RAL 3033 in the following ratio of components, wt.%:

phosphor FC-1 0.01-1

color masterbatch

according to RAL3000, or RAL 3016, or RAL 3033, 0.01-5 polycarbonate rest

Option 9. The polymer composition for the production of covering material of greenhouses according to option 2, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler - a phosphor with a blue glow in the spectral region of 380-510 nm and an excitation region of 250-380 nm, for example FC- 1, a light-scattering additive, which is used color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with a dye according to RAL 4001, or RAL 4006, or RAL 4012 in the following ratio of components, wt.%:

phosphor FC-1 0.01-1

color masterbatch

according to RAL 4001, or RAL 4006, or RAL 4012, 0.01-5 polycarbonate rest

Option 10. The polymer composition for the production of covering material for greenhouses according to option 3, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler - a phosphor with a red glow in the spectral region of 580-710 nm and an excitation region of 200-600 nm, for example, PL- 626, a light-scattering additive, which is used as a color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with a dye according to RAL 2000, or RAL 2005, or RAL 2012 in the following ratio of components, wt.%:

phosphor FL-626 0.01-1

color masterbatch

according to RAL 2000, or RAL 2005, or RAL 2012 0.01-5 polycarbonate rest

Option 11. The polymer composition for the production of covering material of greenhouses according to option 3, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler - a phosphor with a red glow in the spectral region of 580-710 nm and an excitation region of 200-600 nm, for example, PL- 626, light-scattering additive, which is used color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with a dye according to RAL 3000, or RAL 3016, or RAL 3033 in the following ratio of components, wt.%:

phosphor FL-626 0.01-1

color masterbatch

according to RAL3000, or RAL 3016, or RAL 3033 0.01-5 polycarbonate rest

Option 12. The polymer composition for the production of covering material of greenhouses according to option 3, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler, a phosphor with a red glow in the spectral region of 580-710 nm and an excitation region of 200-600 nm, for example, PL -626, light-scattering additive, which is used color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with a dye according to RAL 4001, or RAL 4006, or RAL 4012 in the following ratio of components, wt. %:

phosphor FL-626 0.01-1 color masterbatch according to RAL 4001, or RAL 4006, or RAL 4012 0.01-5 polycarbonate rest

Option 13. A polymer composition for the production of covering materials for greenhouses, characterized in that it contains a polymer, mainly polycarbonate, and a light-scattering additive, which is used as a color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with a dye according to RAL 2000, or RAL 2005, or RAL 2012, with the following ratio of components, masses,%:

- color masterbatch according to RAL 2000, or RAL 2005, or RAL 2012, - 0.01-5 - polycarbonate - the rest

Option 14. A polymer composition for the production of covering materials for greenhouses, characterized in that it contains a polymer, mainly polycarbonate, and a light-scattering additive, which is used as a color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with a dye according to RAL 3000, or RAL 3016, or RAL 3033, in the following ratio of components, mass,%:

- color masterbatch according to RAL 3000, or RAL 3016, or RAL 3033, - 0.01-5 - polycarbonate - the rest

Option 15. A polymer composition for the production of greenhouse covering material, characterized in that it contains a polymer, mainly polycarbonate, and a light-scattering additive, which is used as a color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with a dye according to RAL 4001, or RAL 4006, or RAL 4012, in the following ratio, wt.%:

color masterbatch according to RAL 4001, or RAL 4006, or RAL 4012, - 0.01-5 polycarbonate - the rest

In this case, the phosphor with a blue glow FC-1 represents the base of zinc sulfide or a mixture of zinc sulfide and cadmium activated by heavy metals, such as silver (see Zh. "Young Technician", No. 3, 1974, p. 59), and the phosphor with a red glow, FL-626 is a complex substance (Y _0.92 Gd _0.07 Ce _0.01 ) Al ₅ O ₁₂ with a particle size distribution of crystals (see TU 2661-001-73679028-2006).

The effectiveness of the claimed polymer composition is to achieve the following results:

- approximation of the spectral composition of light inside the greenhouse to the most favorable for plants: phosphor compositions work to convert the wavelengths of sunlight in such a way that the rays useful to the plant prevail in the spectrum of the light flux entering the greenhouse, while changing the proportions of phosphors with different radiation , you can adjust the proportions of the colors in the spectrum, creating materials for plants with different life cycles;

- increase the service life of polycarbonate: the phosphor absorbs hard ultraviolet, which destroys polycarbonate, as a result of which the material degrades less;

- conversion of light flux intensity: cutting off harmful and useless rays to plants, thereby minimizing the loss of plant turgor, moisture evaporation from the soil surface in the greenhouse is reduced, which reduces labor costs for irrigation and improves soil fertility, and also reduces the likelihood of condensation on the inside the surface of the greenhouse, which, falling on the leaves of the plant, works like a lens, burning plants under the influence of light;

- increased light scattering: the addition of a masterbatch gives the effect of redirecting the light wave of the flux of the corresponding color, which in turn increases the contact area of the red rays, matching the color of the color introduced into the material of the masterbatch, with the plant, accelerating the processes regulated by light of a given wavelength;

At the processing plant, raw materials for polycarbonate (polycarbonate granulate) arrive packaged in multi-layer moisture-proof bags. The granulate is weighed and loaded for storage in silos - high warehouses with a conical funnel-shaped bottom through which the raw materials are easy to take. From silos through a pneumatic conveyor, the granules are loaded into a cyclone - a centrifuge designed to clean the raw materials from dust.

A mixture of polycarbonate with a filler and an additive in the form of a phosphor composition and / or light-scattering masterbatch is mixed in a hopper and, heating to 250-290 ° C, gradually melts in it, turning into a homogeneous mass. The gases emitted in this case are led out.

Next, the molten mixture enters the extruder, where the corresponding sheet structure is formed - monolithic or honeycomb. The use of an extruder is explained by the fact that polycarbonate, even in a liquid state, remains a highly viscous substance, and it is most efficient to form even sheets out of it by pressing (extrusion) through a special die. So it turns out the product of the desired profile. In addition to the main process of extrusion of the polycarbonate mass, coextrusion of a thin film designed to absorb ultraviolet radiation, which may also contain a light-converting and / or light-scattering additive, simultaneously occurs. Such protection ensures the sheet unchanged optical properties for many years and retains its strength. Then the formed polycarbonate tape falls under the press, which gives it the desired thickness and smoothness. Moving further along the conveyor, the tape relaxes, that is, it is released from internal stresses during cooling. When the polycarbonate tape has cooled and taken its natural shape, it is cut into standard sheets, which pass the control of the parameters and quality of the material obtained.

By this technology, the above variants of the polymer composition are obtained.

The invention is illustrated by examples, confirming the possibility of its industrial implementation with the achievement of the necessary technical result obtained as a result of the experiment.

The claimed polymer composition is a sheet material obtained from granular polycarbonate by extrusion (thickness 4 mm, density 620 g / m ² , pinkish, light transmittance 81%), including phosphors with blue and / or red glow and / or color masterbatch in various combination and ratio of components.

The measurement of the normalized excitation and emission spectra of the applied phosphors (graph 1), as well as the measurement of the luminescence intensity of the claimed composition (conversion of the spectrum of the light flux of polycarbonate with these phosphors), graph 2, was carried out using a Hitachi-850 luminescent spectrometer.

The conversion of the spectrum of the light flux by polycarbonate with the addition of a masterbatch according to RAL: (4001, or 4006, or 4012), RAL (3000, or 3016, or 3033), RAL (2000, or 2005, or 2012), (chart 3) was performed with using a double-beam spectrophotometer PE-6100.

The data obtained are shown in tables 1, 2.

Comparing the wavelengths at which the luminescence peaks of the luminophores themselves and the polycarbonate sheet are observed with the corresponding luminophore introduced into it, we see that they luminesce at the same wavelengths. The addition of various combinations of phosphors to a polycarbonate sheet results in a material with the luminescence of light of the desired wavelength, and a change in their concentration leads to a proportional change in the necessary amount of light of the necessary light waves of the incoming flux.

Comparing the transmittance of different spectra for polycarbonate with the RAL 4006 color masterbatch introduced into it, we see that it changes the composition of the spectrum of the incoming stream, reducing to a greater extent the amount of green light. Adding masterbatches of different colors to a polycarbonate sheet allows you to obtain material that works on the principle of a spectral circle according to the well-known principle of other translucent materials (such as colored glass, which is widely used in photography), damping the colors that are opposite in the spectral circle to the color of the input masterbatch . Also, the rays of one with the masterbatch of light are redirected, which increases the area illuminated by them. Increasing or decreasing the content of a color masterbatch in a sheet increases or decreases the total light transmission of the latter, as well as the transmission of rays of individual colors according to the indicated principle.

Prototypes of the polymer composition with the obtained parameters of balanced luminous flux were tested at the Bryansk State Agricultural Academy, in the spring and summer of 2014, under the conditions of an experimental collapsible greenhouse of an arched type, 2 m high, 3 × 6 m in area.

The control greenhouses were covered with ordinary sheets of cellular polycarbonate without luminescent filler and light-scattering additives.

The test culture is tomato hybrids: Eupator F1, La-la-fa F1, Slot F1, Verlioka plus F1.

Tomato seedlings were planted in the experimental greenhouse on April 16, 2014, the plants had 6-8 real leaves and the first flower brush.

Plant care consisted of watering, top dressing and cultivation with hilling, in maintaining the temperature and humidity conditions. During the research, phenological observations were carried out and biometric and biochemical parameters of vegetable crops were noted. A comparative assessment of the indicators of cultivated crops in an experimental greenhouse is also given with averaged data for the Central region of Russia obtained when grown in sheltered soil in spring greenhouses with conventional polycarbonate coating.

The results of the studies are presented in tabular form, which reflects:

- in table 3 - the duration of the growing season;

- table 4 - assessment of the mass of the fruit;

- in table 5 - the productivity of one plant;

- in table 6 - the productivity of hybrids;

- table 7 - assessment of the quality of the fruit.

An analysis of the studies indicates the following.

1. When cultivating seedlings of tomato in an experimental greenhouse coated with a polymer composition, the duration of the growing season for the studied hybrids was 110-116 days. The most precocious was the Verlioc hybrid plus F1, the fruiting duration was 43 days, and the growing season was 100 days. The longest growing season was observed in the hybrid La-la-fa F1 - 116 days. The ripening of fruits in tomato plants in the experimental greenhouse occurred 2-10 days faster.

2. The greenhouse coating with the polymer composition had a significant effect on the weight of the fetus. In an experimental greenhouse, the average weight of the fetus is +2 - + 23% higher than according to average data. The highest yield was obtained for the Eupator F1 hybrid - 23.3 kg / m ² , the lowest for the F1 Slot hybrid - 18.7% / m ² .

3. All tomato hybrids grown in an experimental greenhouse showed high productivity per plant.

4. Cultivated hybrids formed a high crop of tomatoes. In the experimental greenhouse, a high yield increase from +6.2 to +9 kg / m ^{2 was} obtained, which is up to 50% compared with the average yield data.

5. According to the results of chemical analysis, it is clear that the hybrids Eupator F1 and Slot F1 form fruits with a high solids content of 5.18 and 5.22%, respectively. Most accumulated vitamin C in the hybrid Slot F1 - 20.24%, in terms of sugar content distinguished hybrid Evpator F1 - 4.0%. The accumulation of nitrates when grown in an experimental greenhouse in fruits is lower than the sensitivity of the method.

Thus, the use of the claimed polymer composition with improved characteristics of durability, light scattering, heat saving when growing tomatoes ensures the preservation of the main varietal characteristics, helps to increase the productivity of tomato plants, the number and average weight of fruits on the plant and, accordingly, marketable fruit yield. Yields increase, the nutritional value of fruits increases due to an increase in the content of solids and vitamin C.

Claims (32)

1. A polymer composition for the production of greenhouse covering material, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler — a mixture of phosphors with a blue glow in the spectral region of 380-510 nm and an excitation region of 250-380 nm, for example FC-1, and red glow in the spectral region 580-710 nm and the excitation region 200-600 nm, for example, FL-626, in the following ratio of components, wt.%: phosphor FC-1 0.01-1 phosphor FL-626 0.01-1 polycarbonate rest 2. A polymer composition for the production of covering materials for greenhouses, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler - a phosphor with a blue glow in the spectral region of 380-510 nm and an excitation region of 250-380 nm, for example FC-1, in the following the ratio of components, wt.%: phosphor FC-1 0.01-1 polycarbonate rest 3. A polymer composition for the production of greenhouse covering material, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler - a phosphor with a red glow in the spectral region of 580-710 nm and an excitation region of 200-600 nm, for example, FL-626, in the following the ratio of components, wt.%: phosphor FL-626 0.01-1 polycarbonate rest 4. The polymer composition for the production of covering material for greenhouses according to claim 1, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler - a mixture of phosphors with a blue glow in the spectral region of 380-510 nm and an excitation region of 250-380 nm, for example FC -1, red glow in the spectral region 580-710 nm and the excitation region 200-600 nm, for example, FL-626 and a light-scattering additive, which is used as a color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with color tel according to RAL 2000, or RAL 2005, or RAL 2012 in the following ratio of components, wt.%: phosphor FC-1 0.01-1 phosphor FL-626 0.01-1 color masterbatch according to RAL 2000, or RAL 2005, or RAL 2012 0.01-5 polycarbonate rest 5. The polymer composition for the production of covering material for greenhouses according to claim 1, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler - a mixture of phosphors with a blue glow in the spectral region of 380-510 nm and an excitation region of 250-380 nm, for example FC -1, the red glow in the spectral region 580-710 nm and the excitation region 200-600 nm, for example FL-626, and a light-scattering additive, which is used as a color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with red Telem of RAL 3000 or RAL 3016, RAL 3033 or the following component ratio, wt.%: phosphor FC-1 0.01-1 phosphor FL-626 0.01-1 color masterbatch according to RAL3000, or RAL 3016, or RAL 3033 0.01-5 polycarbonate rest 6. The polymer composition for the production of covering material of greenhouses according to claim 1, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler - a mixture of phosphors with a blue glow in the spectral region of 380-510 nm and an excitation region of 250-380 nm, for example FC -1, the red glow in the spectral region 580-710 nm and the excitation region 200-600 nm, for example FL-626, and a light-scattering additive, which is used as a color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with red Telem of RAL 4001 or RAL 4006, RAL 4012 or the following component ratio, wt. %: phosphor FC-1 0.01-1 phosphor FL-626 0.01-1 color masterbatch according to RAL 4001 or RAL 4006, or RAL 4012 0.01-5 polycarbonate rest 7. The polymer composition for the production of covering material for greenhouses according to claim 2, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler - a phosphor with a blue glow in the spectral region of 380-510 nm and an excitation region of 250-380 nm, for example FC- 1, a light scattering additive, which is used color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with a dye according to RAL 2000, or RAL 2005, or RAL 2012 in the following ratio of components, wt.%: phosphor FC-1 0.01-1 color masterbatch according to RAL2000, or RAL 2005, or RAL 2012 0.01-5 polycarbonate rest 8. The polymer composition for the production of covering material for greenhouses according to claim 2, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler - a phosphor with a blue glow in the spectral region of 380-510 nm and an excitation region of 250-380 nm, for example FC- 1, a light-scattering additive, which is used color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with a dye according to RAL 3000, or RAL 3016, or RAL 3033 in the following ratio of components, wt.%: phosphor FC-1 0.01-1 color masterbatch according to RAL 3000 or RAL 3016, or RAL 3033 0.01-5 polycarbonate rest 9. The polymer composition for the production of covering material for greenhouses according to claim 2, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler - a phosphor with a blue glow in the spectral region of 380-510 nm and an excitation region of 250-380 nm, for example FC- 1, a light-scattering additive, which is used color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with a dye according to RAL 4001 or RAL 4006, or RAL 4012 in the following ratio of components, wt.%: phosphor FC-1 0.01-1 color masterbatch according to RAL 4001, or RAL 4006, or RAL 4012, 0.01-5 polycarbonate rest 10. The polymer composition for the production of covering material for greenhouses according to claim 3, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler - a phosphor with a red glow in the spectral region of 580-710 nm and an excitation region of 200-600 nm, for example, PL- 626, a light-scattering additive, which is used as a color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with a dye according to RAL 2000, or RAL 2005, or RAL 2012 in the following ratio of components, wt.%: phosphor FL-626 0.01-1 color masterbatch according to RAL 2000, or RAL 2005, or RAL 2012 0.01-5 polycarbonate rest 11. The polymer composition for the production of greenhouse covering material according to claim 3, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler - a phosphor with a red glow in the spectral region of 580-710 nm and an excitation region of 200-600 nm, for example, PL- 626, light-scattering additive, which is used color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with a dye according to RAL 3000, or RAL 3016, or RAL 3033 in the following ratio of components, wt.%: phosphor FL-626 0.01-1 color masterbatch according to RAL 3000, or RAL 3016, or RAL 3033 0.01-5 polycarbonate rest 12. The polymer composition for the production of covering material for greenhouses according to claim 3, characterized in that it contains a polymer, mainly polycarbonate, a luminescent filler - a phosphor with a red glow in the spectral region of 580-710 nm and an excitation region of 200-600 nm, for example, PL- 626, a light-scattering additive, which is used as a color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with a dye according to RAL 4001, or RAL 4006, or RAL 4012 in the following ratio, wt.%: phosphor FL-626 0.01-1 color masterbatch according to RAL 4001, or RAL 4006, or RAL 4012 0.01-5 polycarbonate rest 13. A polymer composition for the production of covering materials for greenhouses, characterized in that it contains a polymer, mainly polycarbonate, and a light-scattering additive, which is used as a color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with a dye according to RAL 2000, or RAL 2005, or RAL 2012 in the following ratio of components, wt.%: color masterbatch according to RAL 2000, or RAL 2005, or RAL 2012 0.01-5 polycarbonate rest 14. A polymer composition for the production of covering materials for greenhouses, characterized in that it contains a polymer, mainly polycarbonate, and a light-scattering additive, which is used as a color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with a dye according to RAL 3000, or RAL 3016, or RAL 3033 in the following ratio, wt.%: color masterbatch according to RAL 3000 or RAL 3016, or RAL 3033 0.01-5 polycarbonate rest 15. A polymer composition for the production of covering materials for greenhouses, characterized in that it contains a polymer, mainly polycarbonate, and a light-scattering additive, which is used as a color masterbatch, which is a mixture of a polymer, mainly polycarbonate, with a dye according to RAL 4001, or RAL 4006, or RAL 4012 in the following ratio, wt.%: color masterbatch according to RAL 4001, or RAL 4006, or RAL 4012 0.01-5 polycarbonate rest

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