RU2009128649A - FUNCTIONAL FIBER FOR PROTECTION FROM FALSE - Google Patents

Abstract

1. An anti-counterfeiting fiber, which is a dual-type composite fiber of two interconnected components, is obtained as a monofilament thread and is introduced during the papermaking procedure! wherein said anti-counterfeiting fiber is obtained by heating and mixing the first ingredient and the second ingredient in the form of a crumb made of a high molecular weight synthetic material for melt spinning, followed by the addition of a special pigment using a dyeing method. ! 2. An anti-counterfeiting fiber, which is a dual-type composite fiber of two interconnected components, is obtained as a monofilament thread and is introduced during the papermaking procedure,! wherein said anti-counterfeiting fiber is obtained by preparing a melt-spun masterbatch, which is obtained by adding a special pigment to any of the first ingredient and the second ingredient in the form of a crumb made from a high molecular weight synthetic material, followed by heating and stirring, and by heating and mixing said masterbatch with another melt-molding ingredient, followed by adding a special pigment by a dyeing method. ! 3. An anti-counterfeiting fiber according to any one of claims 1 or 2, characterized in that said high molecular weight synthetic material of the first ingredient and the second ingredient of which the composite fibers are composed is selected from polyester, nylon, polypropylene, polyethylene and polyurethane, which can melt

Claims (18)

1. The anti-counterfeit fiber, which is a dual-type composite fiber of two components connected to each other, is obtained as a monofilament yarn and is introduced during the paper manufacturing procedure, where said anti-counterfeiting fiber is obtained by heating and mixing the first ingredient and the second ingredient in the form of crumbs, made of high molecular weight synthetic material, for molding from the melt, followed by the introduction of a special pigment using the dyeing method. 2. The anti-counterfeit fiber, which is a dual-type composite fiber of two components connected to each other, is obtained as a monofilament yarn and introduced during the paper manufacturing process, where said anti-counterfeiting fiber is obtained by preparing a masterbatch for melt molding, which is obtained by adding a special pigment to any of the first ingredient and the second ingredient in the form of crumbs made from high molecular weight synthetic material, followed by heating and stirring, and by heating and mixing said masterbatch with another melt forming ingredient, followed by applying special pigment using a dyeing method. 3. Fiber for counterfeiting according to any one of claims 1 or 2, characterized in that said high molecular weight synthetic material of the first ingredient and the second ingredient of which the composite fibers are composed is selected from polyester, nylon, polypropylene, polyethylene and polyurethane, which can melt and undergo molding. 4. Fiber for counterfeiting according to any one of claims 1 or 2, characterized in that in the aforementioned high molecular weight synthetic material of the first ingredient and the second ingredient that make up the composite fibers, a high molecular weight synthetic material is used in which the first ingredient and the second ingredient are the same or different depending on the nature of the mixing of a special pigment. 5. Fiber for counterfeiting according to any one of claims 1 or 2, characterized in that the said special pigment mixed with the high molecular weight synthetic material of the first ingredient and the second ingredient of which the composite fibers are composed is colored pigments, fluorescent pigments, infrared pigments and the like, and a monofilament yarn can have a different effect in visible rays, ultraviolet rays, infrared rays, and the like due to mixing with high molecular weight synthetic material the first- ingredient and the second ingredient different special pigment. 6. The anti-counterfeit fiber, which is a dual-type composite fiber of two connected components, is obtained as a monofilament yarn and is introduced during the paper manufacturing procedure, where said anti-counterfeiting fiber can be obtained in such a way that half of the side surface reproduces blue and the other half of the side surface reproduces yellow by loading each masterbatch of the first ingredient and the second ingredient, taken in a ratio of 50:50 by weight, in extruder for molding with subsequent molding from the melt so that the fiber diameter is 30 D (9 denier), where the aforementioned first ingredient is prepared in the form of a master mixture for molding from the melt, adding 5% by m asse colored pigment phthalocyanine blue (CI 74160), having a blue color, to 95% by weight of polyester chips from high molecular weight synthetic material, followed by heating and stirring, and said second ingredient is prepared in the form of a masterbatch for molding from the melt, adding 7% by weight the colored pigment is a yellow diazo dye (CI 21096) having a yellow color, to 93% by weight of polyester chips from high molecular weight synthetic material, followed by heating and stirring. 7. The anti-counterfeit fiber, which is a dual-type composite fiber of two connected components, is obtained as a monofilament yarn and is introduced during the paper manufacturing process, where said anti-counterfeiting fiber can be obtained in such a way that red is visible in visible rays, a fluorescent red is reproduced in long-wave ultraviolet, and a fluorescent green is reproduced in short-wave ultraviolet by loading each masterbatch of the first ingredient and the second ingredient taken at a ratio of 50:50 by weight into an extruder for molding followed by melt spinning so that the fiber diameter was 30D (9 denier), where the aforementioned first ingredient was prepared as a masterbatch for melt molding, adding 5% by weight of the colored and fluorescent pigment rhodamine B (CI Basic Violet 10), having a red color, to 95% by weight of polyamide ( Nylon 6, melting point: 250 ° C) crumbs of high molecular weight synthetic material, followed by heating and stirring, and the second ingredient is prepared in the form of a masterbatch for molding from the melt, adding 5% by weight of a fluorescent pigment with a white external color, which reproduces fluorescent green color at ultraviolet ray of short range to 95% by weight of high-molecular polyamide crumb from synthetic material, followed by heating and stirring. 8. The anti-counterfeit fiber, which is a dual-type composite fiber of two connected components, is obtained as a monofilament yarn and is introduced during the paper manufacturing process, where said anti-counterfeiting fiber can be obtained so that white is reproduced in visible rays, red is reproduced in short-wave ultraviolet, and a fluorescent green is reproduced in long-wave ultraviolet, by loading each masterbatch of the first ingredient and the second ingredient taken at a ratio of 50:50 by weight into an extruder for molding followed by molding from a melt so that the fiber diameter is 30D (9 den f), where the first ingredient mentioned is prepared in the form of a masterbatch for melt molding, adding 5% by weight of a fluorescent pigment with a white external color, which reproduces the fluorescent blue color in the ultraviolet rays of the short wavelength range, to 95% by weight of the polyamide (Nylon 6, melting point: 250 ° C) crumbs of high molecular weight synthetic material, followed by heating and stirring; and said second ingredient is prepared in the form of a masterbatch for melt molding, adding 5% by weight of a fluorescent pigment with a white external color that reproduces the fluorescent green color in the ultraviolet rays of the long wavelength range, to 95% by weight of polyester chips from high molecular weight synthetic material, followed by heating and stirring. 9. The anti-counterfeit fiber, which is a dual-type composite fiber of two connected components, is obtained as a monofilament yarn and is introduced during the paper manufacturing process, where the aforementioned anti-counterfeiting fiber can be obtained in such a way that an off-white color is reproduced in visible rays, a red color is reproduced in the ultraviolet rays of the long-wave range, and a black color is reproduced in the infrared range by loading each of the masterbatch mixtures of the first ingredient and the second ingredient, taken in a ratio of 50:50 by weight, into an extruder for molding, followed by molding from a melt so that the fiber diameter is 30 D (9 denier), where the aforementioned first the ingredient is prepared in the form of a masterbatch for melt molding, adding 3% by weight of a fluorescent pigment with a white external color, which reproduces the fluorescent red color in the ultraviolet rays of the short and long wavelength ranges, to 97% by weight of polyester chips from high molecular weight synthetic material, followed by heating and stirring; and said second ingredient is prepared in the form of a masterbatch for melt molding, adding 5% by weight of an infrared brown pigment that absorbs infrared rays in the near infrared range to 95% by weight of high molecular weight polyamide chips, followed by heating and by stirring. 10. The anti-counterfeiting fiber, which is a dual-type composite fiber of two connected components, is obtained as a monofilament yarn and is introduced during the paper manufacturing process, where said anti-counterfeiting fiber can be obtained so that red is visible in visible rays, red is reproduced in ultraviolet, and black is reproduced in the infrared range by loading each masterbatch of the first ingredient and the second ingredient taken in relation to 50:50 by weight into a molding extruder, followed by melt spinning so that the fiber diameter is 30 D (9 denier), where the first ingredient is prepared in the form of a uterine cm This is for melt spinning by adding 5% by weight of the colored and fluorescent pigment rhodamine B, having a red color, to 95% by weight of polyamide chips from high molecular weight synthetic material, followed by heating and stirring; and said second ingredient is prepared in the form of a masterbatch for melt spinning, adding 5% by weight of a green colored infrared pigment that absorbs infrared rays in the near infrared range to 95% by weight of high molecular weight polyamide chips, followed by heating and by stirring. 11. Functional fiber for anti-counterfeiting, characterized in that it is produced by producing composite fibers with a double cross-section by melting and molding a masterbatch of at least two types obtained by mixing functional pigment with resins that are different from each other melting point, followed by heat treatment at the temperature of thermal deformation of the mentioned resins. 12. The anti-counterfeiting fiber according to claim 11, characterized in that at least one of said functional pigments is selected from colored pigments, fluorescent pigments, infrared pigments so that it reproduces a different color depending on the wavelength of light. 13. The anti-counterfeiting fiber of claim 12, wherein at least one of said resins suitable for use is selected from polyester, nylon, polypropylene, polyethylene and polyurethane. 14. The anti-counterfeiting fiber according to claim 13, wherein said masterbatch consists of two types: a first masterbatch and a second masterbatch, differing in melting temperature, and said first masterbatch and said second masterbatch can be prepared, applying the same resin or different resin. 15. The fiber for counterfeiting according to claim 11, characterized in that the said composite fiber is obtained in such a way that it has a double type cross section by loading the masterbatch of two or more kinds into each extruder for molding and by melting and molding it through one nozzle. 16. The anti-counterfeiting fiber of claim 14, wherein said first masterbatch and said second masterbatch are loaded into each extruder for molding and then melted and molded through one nozzle to obtain a fiber with a double cross-sectional type. 17. Fiber for counterfeiting according to any one of paragraphs.15 or 16, characterized in that said functional fiber for counterfeiting has a special profile by producing a monofilament yarn by stapling said composite fiber, subjected to fusion and molding, followed by heat treatment at temperature of thermal deformation of said resins, or by molding a mixture of said composite fibers with twisting at a constant length and heat treatment at a temperature of thermal deformation of the mentioned resins with subsequent stapling of the fiber and obtaining a monofilament yarn. 18. The anti-counterfeiting fiber of claim 17, wherein said special profile is a “C” type, an “O” type, or an “S” type.