HUE034690T2 - High security paper and process of manufacture - Google Patents

Abstract

The invention relates to high security paper wherein the security feature(s) is/are incorporated into the paper during the manufacturing process using a polymeric film as a carrier for the security feature(s). The invention enables the security feature(s) to be delivered at precise places into security paper used for such diverse applications as bank notes, passport paper, visa paper, security documents, etc. The polymeric film may be a cold water soluble film or hot water soluble film or water insoluble hydrophilic film or a or a non soluble non hydrophilic film or a combination of these films or slit strips of any of these woven or intertwined offline and incorporated into the paper during the paper making process. Alternatively the polymeric film may comprise zone coating or discreet printing or zone extrusion striping or formation of hot water soluble film on preformed cold water soluble film which is then inserted into paper during the paper making process. The combination of polymeric films may be plain or wholly or partially perforated. The security features may be light source readable or machine readable or both.

Description

(12) Date of publication and mention (51) Int Cl .: of the grant of the patent: D21H 27136 <200601> D21H 21148 <2006 01> 13.09.2017 Bulletin 2017/37 D21H 21I40 <2006 01> (21) Application number: 06766259.3 (86) International application number: PCT / IN2006 / 000100 (22) Date of filing: 22.03.2006 (87) International publication number: WO 2006/117804 (09.11.2006 Gazette 2006/45 )

(54) HIGH SECURITY PAPER AND PROCESS OF MANUFACTURE

HOCHSICHERES PAPIER UND HERSTELLUNGSVERFAHREN PAPIER HAUTE SECURITE ET PROCEDE DE FABRICATION ASSOCIE (84) Designated Contracting States: (74) Representative: Kent, Josephine

AT BE BG CH CY CH DE DK EE ES GB GB BG Barker Brettell LLP HU IE IS IT LU LU EN MC NL PL PT RO SE SI 100 Hagley Road SK TR Edgbaston

(43) Date of publication of application: EP-A1-0 019 191 EP-A2-1 365 069 02.01.2008 Bulletin 2008 / 01 WO-A-2004/076198 WO-A1-03 / 031637 WO-A1-2006 / 066431 DE-A1- 19 809 085 (73) Proprietor: Arrow Greentech Limited US-A-4 552 617

Mumbai 400 093 (IN) (72) Inventor: PATEL, Shilpan Pravinchandra Mumbai 400 053,

Maharashtra State (IN)

Description FIELD OF INVENTION

[0001] BACKGROUND OF INVENTION

The technology of machine reading features expensive chemicals, pigments and DNAs. Being machine readable and invisible to the naked eye; Precise delivery of these chemicals.

Vending / distribution costs to the end user. High currency currency is necessary and 100% polymer currency, also known as "currency". This "plastic" currency has inherent disadvantages. For example they cannot have a watermark. Deadfold is not like paper, special inks are needed for a polymer substrate, as well as a method of securing these types of "currency". Many Reserve Banks are ready to accept the phenomenal strength that this "plastic" currency can impart. Banknotes with lower denominations having been promoted as targets for these "plastic" currency notes.

Several patents have been filed on delivering security features.

[0005] One such patent is US 4552617, which is a thin strips of soluble in water. The thin strips of dissolve during the dewatering and drying of the microprinted indicia will remain in the paper. Problems arising for accurately locating individual strips on the paper web. Also, it is not possible to deliver high quality using very thin strips.

[0006] It is an object of the present invention.

[0007] According to the present invention, there is provided a process for delivering one or more of the following documents: passport paper, visa paper, security documents, etc. using polymeric film (s) as a carrier for the security feature (s).

This is a pre-formed polymeric film containing the security feature (s). making process.

[0009] The preferred embodiment is a web of polymeric film that is incorporated in the paper during the papermaking process. Web of polymeric film at the end of the web. This is a method that allows you to use a wide range of features. Also, multi-colored multi-colored security features.

[0010] In this way, several types of security features are provided.

[0012] WSF (water soluble film): By definition shall mean Water Soluble film (s) of all types. Extrusion machines, or by extrusion via T-die extrusion, by casting on a detachable liner, by casting on a detachable liner. The WSF shall be the dissolution of the WSF. This range of water temperature varies between 5 ° C and 100 ° C. WSF film forming resins WSF film forming resins.

Which is tacky, break and finally dissolve in temperature ranging from 5 ° C to 40 ° C, preferably from 10 ° C to 40 ° C, more at 20 ° C to 40 ° C. The time of tack, break and dissolution is 1 second to 3 minutes after contact with water / water pulp slurry. However, the CWSF formulation.

Similarly, it is tacky, break and finally dissolve in temperature ranging from 40 ° C to 100 ° C, preferably from 45 ° C to 90 ° C ° C, more preferably from 50 ° C to 85 ° C. 5 hours to 5 minutes to contact with hot water / water pulp slurry. However, the HWSF formulation.

Similarly, it is a non-soluble hydrophilic film, which is a non-soluble hydrophilic film. The tack and break time range is 7 seconds to 10 minutes.

Polyvinyl alcohol homopolymer, non-ionomeric poly vinyl alcohol polymer, polymethacrylate., Polyvinyl alchohol, polyacrylamide, polymethacrylamide, polyacrylic. acid, polymethacrylic acid, polyurethane, polyethyleneglycol, polyvinylpyrrolidone, proteinaceous binders such as gelatine, polysaccharides such as starch, gum Arabic, pullulan and dextrin and water soluble cellulose derivatives or combination agents. The cellulose derivatives are methyl cellulose, hydroxy propyl methyl cellulose, hydroxy propyl cellulose, hydroxy ethyl cellulose, carboxy methyl cellulose. However, these are by no means limiting.

Addition and inclusion of ammonium chloride and other such alkaline chemicals will render the film to be non-soluble hydrophilic film.

NSNHF: This is a non-soluble non hydrophilic type of film. Polyethylene (PE), LDPE (Low density polyethylene), HDPE (Linear low density polyethylene), LLPE (Linear low density polyethylene), High impact polystyrene (HIPS), BOPP (Biaxially oriented poly propylene). However, these are by no means limiting. This non soluble non hydrophilic film can also be made of PLA (Poly Lactic Acid), or PHO (polyhydroxyalkanoic acid) or thermoplastic starch materials or biodegradable polyesters such as ecoflex. NSNHF is also a layer of CWSF polyme on one or both sides, depending upon its end use.

Film combinations: The films used for increasing the strength of the paper may be cold or hot water soluble non-hydrophilic film or non-soluble non-hydrophilic film or a combination of these films as mentioned below: 1. CWSF + HWSF : This is a hot and cold water soluble film. 2. CWSF + HWSF + CWSF: CWSF + HWSF + CWSF. 3. CWSF + NSHF: The CWSF / CSHF / NSHF film is cast / coated / laminated on the CWSF / NSHF film. 4. CWSF + NSHF + CWSF: CWSF + NSHF + CWSF. 5. CWSF + NSNHF: The NSNHF / CWSF is a cast / coated / laminated on the CWSF / NSNHF film. 6. CWSF + NSNHF + CWSF: Non-hydrophilic / cold water soluble films. 7. Machine direction strips matrix: Strips of polymeric films inserted / cast / coated onto another polymeric film. This is a polymeric film that is used in a paper making process. 8. Woven tape matrix: Strips of polymeric films or PVA threads inter-woven by a warp and weft method. 3 mm to 15 mm, 4 mm to 10 mm, more 5 mm to 7 mm. However, this range is by no means limiting. However, this range is by no means limiting. 150 deniers to 700 deniers, more from 300 deniers to 500 deniers. However, this range is by no means limiting. These tapes or threads are woven offline into a warp and weft, as can be seen in a roll form. These tapes can be inserted into a combination of MD (machine direction) and CD (cross direction). 9. Films With Perforations: Any of the above-mentioned films or combination of films. mechanical perforation machines etc. However, these methods are by no means limiting.

Paper pulp: The paper pulp used for the production of high-strength paper, such as cotton linters and cotton rags, linen, flax, jute, hemp, kozo, mitsumata, gamps, grass fibers such as esparto, bamboo, giant nettle, rice straw and rattan; and wood pulp. However, these are by no means limiting.

Security features: bar-codes, watermarks, nano-particles which may be machine readable, micro-printed text, logos, metallic / demetallic particles / fibers micro-taggants, DNA (synthetic, natural), UV, PCR, computer, machine readable, RFID devices, etc.

Cold water soluble films or cold water or hot water soluble films or cold water + hot water soluble films or cold + hot water soluble films or cold water no soluble hydrophilic + cold soluble non-hydrophilic + cold soluble non-hydrophilic + cold soluble non-hydrophilic polymeric films inserted / cast / coated onto another polymeric film and process.

The term "polymeric film" is to be construed in accordance with the purpose of this invention.

Preferably, perforations are used for HWSF or NSHF or NSNHF types of polymeric films or their combinations, but not all types of polymeric films and their combinations are concerned.

The polymeric film may be plain or perforated wholly, partially or randomly.

[0024] One of the films of the invention is a film or non soluble non-hydrophilic film or non-hydrophilic film or a combination of these films.

[0025] The present invention relates to the use of a cold water soluble film. The cold water soluble film will be solubilized within the pulp fibers of the desired location.

[0026] It is also a matter of the present invention that is perforated in the form of a hot water soluble film. The hot water soluble film (s) is the ultimate source of information about the micro-text words or the logos floating within. the matrix of the paper pulp which can happen when using a CWSF, or strips of CWSF. It will also give added strength to the final product.

[0027] The security feature (s) is / are embedded / printed within / on the non-soluble hydrophilic film. soluble hydrophilic film. This is not the only way to get rid of the pulp. Hence the film will remain intact and deliver the desired location. It will also give added strength to the final product. This is a movie that can be used only when the water is a little higher. It will also give added strength to the final product.

[0028] The present invention is also directed to a method for the detection of infectious diseases. The non soluble non-hydrophilic film will not dissolve into the pulp fibers and will not be tackled, but it will be perforated.

The HWSF is optional, and is embedded. / embossed / printed within / on the hot water soluble film. The cold water soluble film will be solubilized into the pulp fibers of the paper. It will also give added strength to the final product.

Another feature of the HWSF is optional perforated selective and security feature (s) is / are embedded / embossed / printed within / on the hot water soluble film. The hot water soluble movie of the hot water soluble in the pulp of the pulp. the desired place and give added strength to the final produce.

NSHF is also perforated selectively and the security feature (s) is / are embedded / embossed / printed within / on the non soluble hydrophilic film. The cold water soluble film will be solubilized into the pulp fibers of the pulp. Hence the film will remain intact and deliverable at the desired place. It will also give added strength to the final product.

Another feature of the NSHF is the optional feature and the security feature (s). is / are embedded / embossed / printed within / on the non soluble hydrophilic film. The Soluble Hydrophilic Films The Soluble Hydrophilic Films of the Soluble Hydrophilic Films of pulp. Hence the film will remain intact and deliverable at the desired place. It will also give added strength to the final product.

[0033] Another feature of the invention is that the NSNHF is optional perforated and the security feature (s) is / are embedded / embossed / printed within / on the non soluble non hydrophilic film. The cold water soluble film will be solubilized into the pulp fibers. The film will not dissolve into the pulp fibers. Hence the film will remain intact and deliverable at the desired place. It will also give added strength to the final product.

Another feature of the invention is the use of non-soluble non-hydrophilic + cold water soluble films. ) is an embedded / embossed / printed within / on the non soluble non hydrophilic film. The Cold Water Soluble Films of the Pulp Fibers is a non-soluble non-hydrophilic film. Hence the film will remain intact and deliverable at the desired place. It will also give added strength to the final product.

This film is also a feature of the film. embedded / printed within / on the film strips. Sky. strips of HWSF featuring a cold water soluble film. The cold water soluble film will be solubilized in the pulp of the paper. logos floating within the matrix of CWSF, or strips of CWSF.

Another feature of the invention is that the film is made of a film-based matrix. warp and weft method. Sky. The strips may be a combination of cold water or hot water soluble strips or non-soluble hydrophilic strips. The HWSF or NSHF used to be perforated selectively The cold water soluble strips will be soluble in the pulp. desired place. It will also give added strength to the final product.

[0037] According to a second aspect, the present invention provides a method of proofing the invention.

Embodiments of the invention will now be described in more detail, with reference to the accompanying drawings,

Figure 1 shows the first process of the invention; and Figure 2 shows a second process for the invention of the invention.

Referring to Figure 1, the process of making a polymeric film embedded / embossed / printed with a paper making method is as follows: 1. Filling the vat (2) with the pulp-water slurry at (3), the pulp content ranging from 5 to 7%. 2. Formation of the paper body on the outside of the rotating cylinder (1) covered with a wire cloth. The cylinder rotates are formed on the outside of the cylinder. This is a couch roll (7), which squeezes more water away. The couch roll also peels the wet paper cleanly off the cylinder (3). 3. Layering of a preformed polymeric film (8), which is embedded / embossed / printed with security features, onto the pulp fiber at the couch roll as shown in the figure. 4. Passing the construction through the vacuum boxes (9) to remove excess water from the pulp bed. The fiber content in the pulp increases to 30 to 40%. 5. Passing the construction through press roll (10) to remove excess water. 6. Sending the construction of dryers for further evaporation of moisture from the paper web.

Similarly, the polymeric film containing the fourdrinier process of paper making.

During the step 3, if the film is the CWSF embedded / embossed / printed with security features, then the film will start dissolving as soon as it comes in. vacuum boxes will remain intact in the pulp bed.

If the film is HWSF or NSHF or NSNFIF or any of the combination having atleast one layer or strip of FIWSF / NSFIF / NSNHF, then the film will not dissolve capacity of the vacuum suction box. Hence, if a HWSF or NSHF or NSNHF or any other combinations of films included, HWSF / NSHF / NSNHF have been included in the pulp bed, the Twin former process may be required.

As shown in FIG. 2, the first one (13) is the continuous-moving belt (11) by the first former (13). 15 ° C to 40 ° C, more preferably from 25 ° C to 30 ° C. The pulp-water slurry in the stock approach box is 5% to 7%. The first paper of the final paper is 80% of the final paper. (15) as a polymeric film (16), shown in the figure. The second pile of wet paper is formed by the second film (14). The cylinder (14) covered with a wire cloth (17) containing pulp-water slurry. As the cylinder rotates, a layer of pulp fibers is formed on the outside. Which is squeezes more water away. The couch roll also peels the wet paper cleanly off the cylinder. The second piece of paper is the second one of 20% of the final paper.

More on the press section of the paper (19)

The polymeric film or the combination of polymeric films containing the features of the film is the most important feature of the film. in the final paper.

The following experiments were carried out in the lab to a paper that increases the strength of the paper:

The following experiments were conducted in the lab:

Forming Paper: 1. We got some dehydrated virgin pulp from a paper mill and cut the pulp matrix into the large tub overnight. 2. We filled the blender halfway with warm water, then added a handful of the soaked pulp pieces. We blended the pieces until no pieces of pulp sheet were seen. This formed into the pulp-water slurry. 3. We poured the blended mixture into the large tub and then filled the tub with warm water until the ingredients were evenly dispersed. 4. We slide a screen / sieve into the tub and allowed some pulp to settle onto the screen and still get the screen underwater. 5. We lifted the screen out of the slurry. 6. We have a dry paper with the help of a hairdryer. 7. When the paper was dry, we gently peeled it off the screen to form a hand made paper. We weighed the paper which was 110 GSM. 8. We test the tensile strength of this paper as per standard D 882 is a universal testing machine (UTM). Forming Paper with CWSF: 1. We dipped a screen into the tub with pulp-water slurry, and some other pulp to settle onto the screen an even layer of fibers on the screen. 2. We lifted the screen, keeping it flat and allowed to the screen. 3. We layered the top of the wet paper with 30 microns CWSF. As soon as the CWSF came into contact with wet paper, it started dissolving and after some time. 4. Wipe out the wet paper + CWSF with the help of a hair dryer. 5. When the paper + CWSF was dry, we gently peeled it off the screen to form a high strength paper. The thickness of this construction was 110 GSM. 6. We test the tensile strength of this paper + CWSF as per standard D 882 is a universal testing machine (UTM).

Forming paper embedded with HWSF: 1. We dipped a screen into the tub with pulp-water slurry and formed some of the pulp to settle onto the screen and still holding the screen underwater an even layer of fibers on the screen. 2. We lifted the screen, keeping it flat and allowed to the screen. 3. We layered the top of the wet paper with 20 microns HWSF. As soon as the HWSF came into contact with wet paper, it became tacky but did not dissolve. 4. We dried the wet paper + \ t HWSF + paper with the help of a hair dryer and then left over to remove excess water. 6. When the paper + HWSF + paper was dry, we gently peeled it off the screen to form a high strength paper. 7. We test the tensile strength of this paper + HWSF + paper as per standard D 882 is a universal testing machine (UTM).

The Simila Rly, a C-H combi nation of WSF (20 micro ns) was incorporated into the paper as per the above process.

Care was taken with a polymeric film was kept constant.

We tested the HWSF film and zone coated using the HWSF. CWSF lines with CWSF lines. 2. We inserted this matrix as formed in 1, into pulp mix by the paper making process as described in the experiments done earlier. 3. We inspected the sheet of paper.

For example, the Bank Note. Experiment of Security "Printed" is a zone cast film using a combination of CWSF and HWSF methods. 4. CWSF lines, CWSF lines, and CWSF lines. 5. We printed an indicia, using a hard gravity cylinder and security inks, which can be used with a UV lamp for facilitating print registration. 6. We inserted this matrix as formed in 1, into pulp mix as mentioned earlier. 7. We were inspired by the fact that we were able to do so.

Experiment of Security "Printed" is a zone cast film using a combination of CWSF and HWSF methods. 8. We cast a CWSF film, and coated with time delay, as a coating, as well as a UV-resistant coating, as well as an UV-resistant coating. of coated and uncoated HWSF lines. 9. We printed an indicia, using a dedicated gravure cylinder station and security inks. It can be seen at multiple locations within the area. 10. We inserted this matrix as formed in 1, into pulp mix as mentioned above. 11. We were inspired by the fact that we were in a state of affairs. There was a noticeable addition to the paper, using this method.

Similarly, by varying combinations of Cold and Hot water soluble films and "Print Coating", or "Print Casting" or zone coating, desired areas to be identified. Subsequently, the company is involved in the development and implementation of the European Union.

This is a process that can be used in the field of the present invention.

As will be appreciated, the present invention is a process for making a paper for the security of the security feature (s). during the manufacturing process. The polymeric film may be in the water soluble at the paper substrate, which is applied during the process. In this way we include water soluble films, non soluble non-hydrophilic films and non-soluble non-hydrophilic films.

[0053] The water soluble film may be solubilized and absorbed into the web. Alternatively, the water soluble film may not be the same.

[0054] The carrier film may be two or more films, which may be used for the purposes of the paper making process. For example, in the case of the film, a solo film, non soluble non-hydrophilic film and non soluble non-hydrophilic film. The security feature (s) may be included in the films.

Polymeric film strips, polymeric strips, polymeric strips, polymeric film strips, polymeric film strips, polymeric film strips inter-woven into a matrix, warp and weft method, polymeric threads inter-woven into a matrix.

Claims 1. A method of making a security paper (8) containing the security the polymeric film (8), the polymeric film (8),. \ t the following steps: a. filling a vat (2) with a pulp-water slurry; b. forming a wet paper pulp bed (1) covered with a wire cloth; c. layering a continuous web of preformed polymeric film (8) embedded / embossed / printed with security feature (s) on the surface of the wet paper pulp bed; d. passing through the vacuum boxes (9) to remove excess water from the wet paper pulp bed; e. passing the press roll (10) to remove excess water wand then to dryers for further evaporation of the web. 2. A method of making a paper with one of the features of the paper (8) containing the security feature (8) containing the security feature a polymeric film (8) making the following steps: a. forming a first line of wet paper (11); b. layering a continuous web of preformed polymeric film (8) embedded / embossed / printed with security feature ^); c. forming a second ply of a paper web (1); d. passing through a press section (19) to remove excess water and then to dryers. 3. The method of claim 1 is a polymeric film which is a cold water soluble film that is a cold water soluble film. process. 4. the method of claim 1 or claim 2 is the one which is a hot water soluble film. 5. A method of claim 1 is a non-limiting example of a method for claiming the present invention. 6. The method of claim 1 or claim 2 is a non-hydrophilic film that is non-soluble. 7. The method of claim 1 or claim 2 the security feature (s) is also a polymeric film which is a combination of cold and hot water soluble films. the paper web and the hot water soluble film is still intact and adheres to the paper web. 8. A method of claiming the security of the hot water soluble film. 9. The method of claim 1 or claim 2, which is a combination of cold and non-soluble hydrophilic films. the web of the web and the non-soluble hydrophilic film is still intact and adheres to the paper web. 10. The method of claim 9 is the non-soluble hydrophilic film. 11. The method of claim 1 is a non-hydrophilic film of the cold water. pulp fibers of the paper web and the non-soluble non-hydrophilic film remain intact in the paper web. 12. A method of claim 11 is the non-hydrophilic film. 13. The method of claim 1 or claim 2 is also a polymeric film which is a cold water soluble film strips or non-soluble hydrophilic film strips; vice versa. 14. A method for claiming a matrix of a matrix of one or more polymeric films. by warp and weft method. 15. A method for the protection of the environment is provided by the film industry. are embedded / printed within / on the film strips. 16. A method of claim 13 or 14 is from 4 mm to 10 mm, more from 5 mm to 7 mm. 17, 150 deniers to 700 deniers, more from 300 deniers to 500 deniers. 18. The method of claim 1 or 2 is the one containing the film feature of the paper making process. 19. The method of claim 1 or 2 is the polymeric film of the first and / or second paper webs. 20. The method according to claim 1 or 2 is the polymeric film of the two films at least one film. 21. The method used to claim 1 or 2 is the one-time cold water soluble film. 22. The method according to the claims 1 to 20 is one or more polymeric films perforated. 23. Security paper made by the method. 24. Security paper according to claim 23 is the carrier polymeric film of the paper making. 25. Security paper according to the claim 23 Polyvinyl alcohol copolymer ionomers, polyvinyl alcohol homopolymer, non - ionomeric poly vinyl alcohol polymer, polymethacrylate., Polyvinyl alcohol, polyacrylamide, polymethacrylamide, polyacrylic acid, polymethacrylic acid, polyurethane and edible film forming polyethyleneglycol, polyvinylpyrrolidone, proteinaceous binders such as gelatine, polysaccharides such as starch, gum Arabic, pullulan and dextrin and water + soluble cellulose derivatives or combination. The cellulose derivatives are methyl cellulose, hydroxy propyl methyl cellulose, hydroxy propyl cellulose, hydroxy ethyl cellulose, carboxy methyl cellulose. 27. The paper is also a non-soluble non-hydrophilic film selected from PP (Poly propylene), PE (Poly ethylene), LDPE (Low density poly ethylene), HDPE (high density). polyethylene), LLDPE (Linear low density polyethylene), HIPS (High impact polystyrene), HMHDPE (Biaxially oriented poly propylene). 28th Polyethylene Acid, PHA (polyhydroxyalkanoic acid), thermoplastic starch materials or biodegradable polyesters as ecoflex. 29 microns to 35 microns, more from 15 microns to 35 microns. 30. Security paper according to claim 25 by the paper at least two plies. 31. Security paper according to claim 25 having a security feature (s) between the plies. 32. security paper according to the requirements of the group of micro-printed text, logos, metallised / demetallized particles / fibers, bar-codes, watermarks, nano-parti , micro-taggants, DNA (synthetic, natural), UV, PCR, computer, machine readable, RFID devices.

1) Verfahren zur Herstellung eines Sicherheitspapiers, das ein oder Mehrere Sicherheitsmerkmale an exakten, unter Verwendung einer Polymerfolie (8) als Träger für das (die) Sicherheitsmerk (e), durch Einarbeiten der Polymerfolie (8) , das (die) sicherheitsmerkmal (e) enthält, während des Papierherstellungsprozesses, dadurch gekennzeichnet, dass eine continentaler (Bahn aus einer Polymerfolie (8) mit dem (den) sicherheitsmerkal (en) bereitgestellt wird, wobei die Polymerfolie -Papier-herstellungsprozesses auf die Oberfläche einer Papierzellstoffbahn aufgetragen wird, die folgenden Schritte umfassend: a. Troges (2) mit einer Zellstoff-Wasser-Suspension; b. Ausbilden eines nassen Papierzellstoffbettes auf einer Außenfläche eu rotierenden Zylinders (1), das mit einem Drahtgewebe bedeckt ist; c. Schichten einer continentallichen Bahn aus vorgeformter Polymerfolie (8), in bzw. auf die ein (mehrere) with Si-cherheit (e) eingebettet / geprägt / gedruckt you, auf die deförche des nassen Papillzellstoffbettes an einer Gautschwalze (7); d. Leiten des Aufbaus durch Warmer aus dem nassen Papierzellstoffbett zu entfernen (9); e. Bleeds Aufbaus durch eine Presswalze (10), U.S. Chol . 2. Verfahren zur Herstellung eines Sicherheitspapiers, das ein oder mehrere Sicherheitsmerkmale an exakten, unter Verwendung einer Polymerfolie (8) als Träger für das (die) Sicherheitsmerk (e), durch Einarbeiten der Polymerfolie (8), die das (die) sicherheitsmerkal (e) enthält, während des Papierherstellungsprozesses, dadurch gekennzeichnet, dass eine continentalerhei Bahn aus einer Polymerfolie (8) mit dem (den) Sicherheitsmerkmal (en) bereitgestellt wird, wobei die Polymerfolie während eines Doppelsieb-Papier-herstellungsprozessesauf die Oberfläche einer nassen Papierzellstoffbahn aufgetragen wird, diefolgenden Schritte umfassend: a. Ausbilden einer ersten Lage aus einer nassen Eggs anhand ein g erste Formers auf einem Endlosförderband (11); b. Schichten einer continentallichen Bahn aus vorgeformter Polymerfolie (8), in bzw. auf die ein (mehrere) with Si-cherheit (e) eingebettet / geprägt / gedruckt you, auf die lage aus der nassen Papierbahn mithilfe einer Führungsrolle (16); c. Ausbilden einer zweiten Lage aus nasser Papierbahn auf der Seite der Polymerfolie (8); e. The Leit des Aufbaus durch eine Pressenabschnitt (19), U.S. Patent Application Wasser zu entfernen, und dann zu Trocknern, U noch Mehr Feuchtigkeit aus der Papierbahn zu entfernen, um eine e e e e e e e (e) e (e) e. . 3. Verfahren nach Anspruch 1 or Anspruch 2, wobei das (die) Sicherheitsmerk (e) von einer Polymerfolie bereitgestellt wird (werden), in der Wasser lösliche Folie handel, die sich während des Papierherstellungsprozesses auflöst und in den Zellstoffasern der Papierbahn absorberert wird. 4. Verfahren nach Anspruch 1 or Anspruch 2, wobei das (die) Sicherheitsmerkal (e) von einer Polymerfolie bereitgestellt wird (werden), der der sich um eine in warmem Welser lösliche Folie handel, die während des Papierherstellungsprozesses intakt bleibt und an der Papierbahn haftet. 5. Verfahren nach Anspruch 1 oder Anspruch 2, wobei das (die) Sicherheitsmerk (e) von einer Polymerfolie bereitgestellt wird (werden), and in the form of a dermal stigmatization. der Papierbahn haftet. 6. Verfahren nach Anspruch 1 or Anspruch 2, wo, dic (s) Sicherheitsmark (e) von einer Polymerfolie bereitgestellt wird (werden), in the form of a dermal stigmatization, dehydration of the papillherstellungsprozesses in der Papierbahn intact bleibt. 7. Verfahren nach Anspruch 1 oder Anspruch 2, wobei das (die) Sicherheitsmark (e) von einer Polymerfolie bereitgestellt wird (werden), and derem sine um in the warmem Wasser löslichen Folien handel, wobei sich die in wasser lösliche Folie auflöd und den ZellstoffFasern der Papierbahn absorber wird, and die in warm wasser lösliche Folie intact bleibt und an der Papierbahn. 8. Verfahren nach Anspruch 7, wobei das (die) Sicherheitsmerkmal (e) in der in warmem Wasser löslichen Folie enthalten ist (you). 9. Verfahren nach Anspruch 1 oder Anspruch 2, wobei das (die) Sicherheitsmerk (e) von einer Polymerfolie bereitgestellt wird (werden), der der sys um eine Kombination aus in the wasser löslichen und nicht löslichen hydrophilen Folien handelt, wobei sich die in the wasser lösliche Folie auflöde and in the Zellstofffasern der Papierbahn absorber wird, and dehydration of the folie intact bleibt und an der Papierbahn. 10. Verfahren nach Anspruch 9, wigei das (die) Sicherheitsmerkmal (e) in der nicht löslichen hydrophilen Folie enthalten ist (you). 11. Verfahren nach Anspruch 1 or Anspruch 2, wo, dc (s) Sicherheitsmark (e) von einer Polymerfolie bereitgestellt wird (werden), and Winser löslichen und weder löslichen noch hydrophilen Folien handelt, wobei sich The inoculum is absorbed into the dermis and is absorbed into the intestine by an intact bleib of the folie in der Papierbahn. 12. Verfahren nach Anspruch 11, wobei das (die) Sicherheitsmerkmal (e) in der weder löslichen noch hydrophilen Folie enthalten ist (you). 13. Verfahren nach Anspruch 1 or Anspruch 2, wobei das (die) Sicherheitsmerk (e) von einer Polymerfolie bereitgestellt wird (werden), der der sys um eine in cortis Wasser lösliche Folie handelt, in bzw. auf die in warmem Wasser lösliche Folienstreifen oder nicht lösliche Folienstreifen eingefügt / gegossen / geschichtet sind oder umgekehrt. 14. Verfahren nach Anspruch 1 or Anspruch 2, w / w (s) Sicherheitsmachine (e) von einer Polymerfolie bereitgestell wird (werden), die in Form einer Matrix sputtering, and Ket-Schuss anhand eines Kette-Schuss -Verfahrens zu einer Matrix verwoben you. 15. Verfahren nach Anspruch 1, or Anspruch 2, wobei das (die) Sicherheitsmerk (e) Durch eine Kombination aus Polymerfolien, die Streifen aus Folien beinhalten, geliefert werden, wobei die Streifen in bzw. auf eine ande Folie eingefügt / gegossen / geschichtet you, sicherheitsmerkmale zu liefern, die in / auf die Folienstreifen eingebet-tet / gedruckt you. 16. Verfahren nach Anspruch 13 or 14, wobei die Breite / Größe der Polymerfolienstreifen im Bereich von 3 mm bis 15 mm, vorzugsweise 4 mm bis 10 mm, starger coated with 5 mm bis 7 mm barrier. 17. Verfahren nach Anspruch 14, wobei die Größe des PVA-Fadens im Bereich von 50 Denier bis 1000 Denier, Denier 150 Denier bis 700 Denier, Starker, 300 denier bis 500 Denier denied. 18. Verfahren nach Anspruch 1 or 2, wobei die Polymerfolie mindestens et al Folie beinhaltet, das (d) with Sicher wort (e) enthält und die während des Papierherstellungsprozesses zwischen einer ersten und einer zweiten Papierbahn intact bleibt. 19. Verfahren nach Anspruch 1 or 2, Wobei die Polymerfolie Mindestens et al., Folie beinhaltet, die sich auflöst and in zellstofffen der erste und oder der zweiten Papierbahn auflöst. 20. Verfahren nach Anspruch 1 or 2, Wobei die Polymerfolie eine Kombination aus mindestens zwei Folien umfas, Wobei Mindestens et al. 21. Verfahren nach Anspruch 1 or 2, wobei die in Wasser lösliche Folie Mindestens Eating in Warmer Welser Lysliche Folie umfas, wobei das (die) Sicherheitsmerkal (e) von der in warmem Wasser löslichen Folie bereitgestellt wird (werden). 22. Verfahren nach Anspruch 1 bis 20, wobei eine oder mehrere Polymerfolien perforiert you. 23. Sicherheitspapier, das anhand des Verfahrens nach einem der vorangehenden Ansprüche hergestellt worden ist. 24. Sicherheitspapier nach Anspruch 23, wobei der Träger aus Polymerfolie während des Rundsieb-Papierherstellungsprozesses in die Fasern des Papiers eingearbeitet worden ist. 25. Sicherheitspapier nach Anspruch 23, wobei der Träger aus Polymerfolie während des Doppelsieb-Papierherstellungsprozesses zwischen zwei Bahnen des Papiers eingearbeitet worden ist. 26. Sicherheitspapier nach einem der Ansprüche 22 bis 25, Wobei die Polymerfolie ein in Wasser lösliche Folie ist, aus der gesen, Best of the Polyvinyl alcohol, polyvinyl alcohol homopolymer, nichtionomerem Polyvinyl alcoholpolymer, Polymethacrylat, Polyvinyl alcohol, Polyacrylamides, Polymethacrylamid , Polyacrylage, Polymethacrylage, Polyurethane und Materials, die essbare Folie picture, Polyethylenglycol, Polyvinylpyrrolidone, Protein Haltig Bindemittel wie Gelatine, Modifizierten Gelatine whey Phthaloylgelatine, Polysaccharide wax, Gummi arabicum, Pullulan und Dextrin und wasserlichen Cellulosederivaten oder Kombinationen davon. Die verwendeten Cellulosederivate sind Methylcellulose, Hydroxypropylcellulose, Hydroxypropylmethylcellulose, Hydroxypropylethylcellulose, Hydroxyethylcellulose, Carb-oxymethylcellulose. 27. Sicherheitspapier nach einem der Ansprüche 23 bis, wobei die Polymerfolie eine nicht lösliche, nicht hydrophile Folie, die ausgewählt aus PP (Polypropylen), PE (Polyethylene), LDPE (Polyethylene niediger Dichte), HDPE (Polyethylen Hoher Dichte) , LLDPE (linearem Polyethylen niedriger Dichte), HIPS (Schlagfestem Polystyrol), HM-HDPE (Hochmolecular Polyethylene Hoher Dichte), BOPP (biaxial orientiertem Polypropylen). 28. Sicherheitspapier nach einem der Ansprüche 23 bis, wobei die Polymerfolie eine nicht lösliche, nicht hydrophile Folie isten, Materialien wie PLA (Polymilchsäure); PHA (Polyhydroxyalkansäure), thermoplastischen Stärkemateriali oder biologisch abbaubaren Polyestern wie Ecoflex besteht. 29. Sicherheitspapier nach einem der Ansprüche 23 bis 28, wobei die Polymerfolie ein Dicke im Bereich von 5 micrometers bis 150 micrometers, vorzugsweise 10 micrometers bis 70 micrometers, shredded 15 micrometers 35 micrometers aufweist. 30. Sicherheitspapier nach Anspruch 25, wobei das Papier mindestens zwei Lagen umfasst. 31. Sicherheitspapier nach Anspruch 25, which is e. G. Polymerfolie, das (die) Sicherheitsmerkmal (e) zwischen den Lagen enthält. 32. Sicherheitspapier nach einem der Ansprüche 23 bis 31, wobei das (die) Sicherheitsmark (e) ausgewählt ist (aus der Gruppe bestehend aus mikrogedrucktem Text, Logos, metallic cerebellum / demetallisert Teilchen / Fasern, Strichcodes, Wasserzeichen, Nanoteilchen, Microtaggants, DNA (synthetisch, natürlich), UV, PCR, computer, maschinenlesbaren, RFID-Vorrichtungen.

Revendications 1. Procédé de fabrication d'un papier de sécurité doté d'une ou plusieurs caractéristiques de sécurité a des endroits précis dans le papier en utilisant du film polymérique (8) comme support la la ou les caractéristiques de sécurité et en incorporant le film Polymerque (8) contenant la ou les caractéristiques de sécurité pendant le processus de fabrication du papier, (a) dé le le le le de la ou des caractéristiques de sécurité, dans lequel le film polymérique ( 8) an appliqué sur la surface d'une nappe de pâte à papier pendant and processus de moulage for cylindre de fabrication de papier, comprenant les étapes suivantes: a. remplissage d'une cuve (2) avec une bouillie composée de pâte et d’eau; b. formate déun de pâte à papier sur une surface extérieure d'un cylindre rotatif (1) recouvert d? c. application en couche d'une nappe continue de film polymérique préformé (8) dans laquelle est ou sont noyées / gaufrées / im primées une ou des caractéristiques de sécurité sur la surface du lit de pâte à papier humide au niveau d'un rouleau de couchage (7); d. passage de la structure dans des caissons sous vide (9) pour éliminer l'excédent d’eau dans le lit de pâte à papier humide; e. (10) pour éliminer le rideau d'eau excédentaire puis dans des sécheurs pour continuer la faire de papier afin de produire de la nappe de papier afen de produire un nappe de papier contenant le film polymérique doté d 'une ou plusieurs caractéristiques de sécurité. 2. Procédé de fabrication d'un papier de sécurité doté d'une ou plusieurs caractéristiques de sécurité à des endroits précis dans le papier en utilisant du film polymerque (8) (8) (8) (8) (8) (8) (8) contenant la ou les caractéristiques de sécurité pendant le processus de fabrication du papier, dans lequel le filmen de sécurité, dans lequel le film polymerisque (8) est appliqué sur la surface d'une nappe de pâte à papier humor pendant and processus à double formeur de fabrication de papier, comprenant les étapes suivantes: a. formage d 'premier pli de la nappe de papier humide au moyen d'un premier formeur sur une bande se déplaçant en continu (11); b. application en couche d'une nappe continue de film polymérique préformé (8) noyée / gaufrée / imprimée de caractéristiques de sécurité sur le premier pli de la nappe de papier humide à l'aide d’un rouleau de guidage (16); c. formage d'un second pli de nappe de papier humide sur la face du film polymérique (8) distante du premier pli de nappe de papier humide par and second formeur; d. (19) pour éliminer l'excès d'eau et ensuite vers des sécheurs pour continuer à faire de la carte l'humidité de la nappe de papier pour produire une nappe de papier contenant le film polymérique doté d 'une ou plusieurs caractéristiques de sécurité. 3. Procédé selon la revendication 1 ou la revendication 2, dans lequel la ou les caractéristiques de sécurité sont apportées par un film, nappe en papier pendant le processus de fabrication du papier. 4. Procédé selon la revendication 1 ou la revendication 2, dans lequel la ou les caractéristiques de sécurité sont apportées par un film and film soluble dans l'eau chaude qui reste intact and ad dère à la nappe de papier pendant le processus de fabrication du papier. 5. Procédé selon la revendication 1 ou la revendication 2, dans lequel la ou les caractéristiques de sécurité sont apportées par and film hydrophile non soluble qui reste intact et ad a la nappe de papier pendant le processus de fabrication du papier . 6. Procédé selon la revolutions 1 ou la revendication 2, dans lequel la ou les caractéristiques de sécurité sont apportées par and film polymerisque qui est and film non hydrophilic. 7th procédé selon la revueication 1 ou la revendication 2, dans lequel la ou les caractéristiques de sécurité sont apportées par and film polymerque qui est une combinaison de films solubles dans l'eau froide et chaude, dans lequel le film soluble dans l'eau froide se dissoute et este dans les de la péte de la nappe de papier et le film de la l'eau chaude reste intact et adhère à la nappe de papier. 8. Procédé selon la revolutions 7, dans lequel la ou les caractéristiques de sécurité sont contenues dans le film soluble dans l’eau chaude. 9. Procédé selon la revolutions 1 ou la revendication 2, dans lequel la ou les caractéristiques de sécurité sont apportées par un film film hydrophile sols dans l'eau froide et de film hydrophile non soluble, dans lequel, le film soluble dans l'eau froide se dissoute et este dans les flee de la pepte de la nappe de papier et le film hydrophile non soluble reste intact et adhère à la nappe de papier. 10. Procédé selon la revendication 9, dans lequel la ou les caractéristiques de sécurité sont contenues dans le film hydrophile non soluble. 11. Procédé selon la revendication 1 ou 2, dans lequel la ou les caractéristiques de sécurité sont apportées par and film polymérique qui est une combinaison d'un film non hydrophile soluble dans l'eau froide et d'un film non hydrophile non soluble, dans lequel le film soluble dans l'eau froide se disso et la dé le le de dé les flee de la nappe de papier et le film non hydrophile non soluble reste intact dans la nappe de papier. 12. Procédé selon la revertication 11, dans lequel la ou les caractéristiques de sécurité sont contenues dans le film non hydrophile non soluble. 13. Procédé selon la revendication 1 ou la revendication 2, dans lequel la ou les caractéristiques de sécurité sont apportées par and film solér dans l'eau froide inséré / coulé / plaqué avec des bandes de film soluble dans l ' eau chaude ou des bandes de film hydrophile non soluble ou vice versa. 14. Procédé selon la revendication 1 ou la revendication 2, dans lequel la dé le le le le de cu sle de la dé le le le de lé de la dé le le le de lé sle de la dé le léleux, dans lequel un ou plusieurs films polymériques ou fils de PVA sont entrelacés en une matrice par and procédé de chaîne et trame. 15. Proceeding on the issue of the co-operatives of the co-operatives of the European Union for the production of films, dans lequel les bandes sont insérées / coulées / plaquées sur un autre film afin de créer des caractéristiques de sécurité qui sont noyées / im-primé dans / sur les bandes de films. 16. A process for the preparation of a process for the preparation of the present invention, comprising: 3 mm à 15 mm, but not more than 4 mm 10 mm, plus a 5 mm aperture of 7 mm. 17. Procédé selon la revendication 14, dans lequel la taille du fil de PVA de den de la deniere 1000 deniers, but the département de 150 deniers à 700 deniers, plus the premium dementers 300 deniers à 500 deniers. 18. Procédé selon la revendication 1 ou 2, dans lequel le film, and a film for the purpose of the present invention. 19. Procédé selon la revendication 1 ou 2, dans lequel le film, and film polymerque ques de dé ete et le o fe dle les de de pierte de père et / ou seconde papier de papier. 20. Film and film films and films for the purpose of the present invention. 21. Procédé selon la revendication 1 ou 2, dans lequel le film soluble dans l'eau froide et au moins and film soluble dans l'eau chaude, où la ou les caractéristiques de sécurité sont apportées par le film soluble dans l'eau chaude. 22. Procédé selon les revendications 1 20, dans lequel and ou plusieurs films polymériques sont perforés. 23. Papier de sécurité fabriqué par le procédé selon l'une quelconque des revendications précédentes. 24. Papier de sécurité selon la revendication 23, dans lequel le film le dé le dé le le dé le dé dé les dé les de papier pendant le processus de moulage for cylindre de la fabrication du papier. 25. Papier de sécurité selon la revendication 23, dans lequel le film de la papier pendant le processus à la foreur de la fabrication du papier. 26. Papier de sécurité selon l'une quelconque des revendications 22 à 25, dans lequel le film polymérique est and film soluble dans l'eau composé de matériaux sons de la groupe comprenant les ionomères de copolymère d'alcool de polyvinyle, l'homopolymère d'alcool de polyvinyl, le polymere d'alcool de polyvinyl non-ionomeric, l'alcool de polyvinyl, le-polymethacrylate, l'alcool de polyvinyl, polyacrylamide, le-polymethylacrylamide, l'acide polyacrylic, l'acide polyméthacrylique, le polyurethane et les matériaux de formage de film comestibles comme le polyéthylène glycol; de cellulose solubles dans l'eau ou leurs combinaisons. Cellulose, cellulose, cellulose, cellulose, cellulose, cellulose, cellulose, cellulose, cellulose, carboxy méthyle cellulose. 27. Papier de sécurité selon l'une quelconque des revendications 23 à 25, dans lequel le film polymérique est and film non hydrophilic non-soluble sélectionné parmix PP (polypropylenne), PE (polyethylene), LDPE (polyethylenne basse densité), HDPE (polyéthylène à haute densité), LLDPE (polyéthylène linéaire à basse densité), HIPS (polystyrene à haut impact), HMHDPE (polyethylenne densité hautement moléculaire), BOPP (polypropylne à orientation biaxiale). 28. Papier de sécurité selon l'une quelconque des revendications 23 à 25, dans lequel le film le polymeryque and film non hydrophilic non-soluble composite de bierebras, bi-radioscabe, PHA (acide polyhydroxyalkanoïque), matériaux thermoplastiques à base d'amidon ou les polyesters biodégradables comme l'ecoflex. 29. Papier de sécurité selon l 'a quelconque des revendications 23 à 28, dans lequel le film polymérique a un microns à 150 microns, but préference de 10 microns à 70 microns, plus préférentiellement de 15 microns à 35 microns. 30. Papier de sécurité selon la revendication 25, dans lequel le papier comprend au moins deux plis. 31. Papier de sécurité selon la revendication 25 comportant and film polymérique contenant la ou les caractéristiques de sécurité entre les plis. 32. Papier de sécurité selon l'une quelconque des revendications 23 à 31, dans lequel la ou les caractéristiques de sécurité sont sélectionnées dans le groupe comprenant and micro-texte imprimée, des logos / fibres métallisées / démétallisées, des codes- barres, des marques à l'eau, des nanoparticules, des marquesurs, l'ADN (synthétique, naturel), des UV, PCR, des dispositif RFID lisibles for UV, PCR, ordinateur ou machine.

REFERENCES CITED IN THE DESCRIPTION

This is a list of references for the reader. It does not form part of the European patent document. Even though they have been taken in compiling the references, errors or omissions cannot be ruled out.

Patent documents cited in the description • US 4552617 A

Claims (9)

FOCUS0TT ': prMoMiTyOn paper and windmills mmmmM snapshots * make out on paper to produce precise paper beds or more security features with security features such as the use of polymer Ilim (8) as a carrier for: a polymer film (8) containing eHemz6 (s) is embedded in the papermaking process, comprising the step of providing a continuous tape of the polymer film (8) having the safety feature (features) which is a polymer film (8). applying to the surface of a paper pulp web during a cylindrical papermaking process which comprises the following steps; a) filling a bath (2) with a slurry of water; b) dripping a damp cloth bed on an outer surface of a rotating roller (i) covered with a slit; c) sealing a continuous strip of preformed polymer fflm (8) with an intrinsic embossing / cushioning safety feature (features) on the wet papper bed surface at a gancel grease gun (7); d | passed; constructing on cardiac cabinets to remove ff and excess water from the wet paper pulp bed; e) passing the construction through a press roll (10) to remove excess water, and then passing it to the driers for further purging of the moisture from the paper web: to produce a paper web containing the polymer film having the security feature [features], p. Method for: producing security paper at one of the exact locations within the paper with one or more security features so that it can have its security features) The use of polymeric grass ($) and the polymer containing the safety marker (s) Sy (ij of papermaking). Processed by the process' Characterizing that I am going to relocate: We release: a safety film (with characteristics) polymer film (8) ¾ of a continuous strip, which is applied to a surface of a papermaking belt during a papermaking process: the following steps (a) forming a first layer of wet paper web with a first and aft-like belt: an endless web (11); b) overlaying a continuous strip of preformed film (8) embedded in an embedded / dpmpornyomotf ^^ printed security device (feature) onto the first layer of wet paper web with the aid of a horsepower (horse); : £ § u u u u u u:: gy gy gy gy gy k gy ét the layer mimic strip is passed through the press section (ii) a to the polymeric film (Bj m first layer wet psprsMfegellide of the first layer wet tip guides d); redundant water is used for the further evaporation of moisture from the apex edge to produce a papaya agar which would expose the polymer film with the safety feature (s) to the prayer. The method of claim 1 or 2, wherein the security is; jeilemzé (s) is a polymer lyric type which is a cold water-soluble film which, during the papermaking process, is a semi-foil and is absorbed by the papillary. The method of claim 1 or claim 2, wherein the safety features are provided by a polymeric film which is a water-soluble broth which remains in the papermaking process: Sidorine intact; hpxx is a stick to the paper web. f, l. or the method according to claim 2, wherein the security tag {: secures olpb ipollmpr film: which is an insoluble, hydrophilic son that remains intact on the papermaking dijirl, and adheres to. the method of claim 1 or claim 2, wherein the security features of a film film are a nonwoven, non-hydrophilic film, which remains intact in the paper web at the aoron of the papermaking process: The method according to claim 1 or 2, wherein the security sheet is provided by a polymer film which is a combination of a hot water-soluble film, of which the film soluble in cold water dissolves and becomes abscissa into the paper web samples, the hot water-soluble film remains intact and adheres to the paper web; 8. The method of claim%, wherein the safety feature (s) includes a hot water soluble film; A method according to claim 1 or claim 2, wherein the security fusing finger is provided by a polymeric film which is a combination of a cold and non-soluble hydrophilic film, of which the cold water soluble film dissolves, and the film is deposited on the webs of the paper web. the insoluble, hydrophilic film remains intact and adheres to the paper web, according to the method of claim 1, wherein the safety signal (in the form of an insoluble hydrophilic film in the core, i. The safety signal (which is provided by a polymer Ifm which is a combination of a cold water soluble and an insoluble, non-ihidrohi, f | im, of which the cold water soluble film dissolves, and is absorbed into the paper webs of the absorbent material, not by the water). soluble non-hydrophilic film remains intact in the paper web, 12. The method of FIG. the safety characteristic (s) of the insoluble, non-hydrophilic film MftéMm-m,:; t3, :: fe 1 », or 3 2, tgénypmt sserindia,. ameslyplific · &amp; lithi ll sschiCiCiCe is a polymer film blasting fluid: which is a cool water soluble: fine% in water: soluble facial or insoluble * hydrophilic lymphatic mnmk vice Versa :. όΑ ,, Αζ1, or: claim 2, the method of which is provided by a polymeric probe in the form of a matrix, in which the brain or multiple polymer films or filaments are matrix Mm and yettpk: weave :,: IS, That t, or 2, demanded by a security company, which provides the following: film, which are the himesikam of my folders, who have a casting cast, applied to another film embedded in their fits. / providing security labels for printed floppy disks cipfeiL juice, A method according to claim 13 or 14, wherein the width / size of the polymeric film strips is 3 mm to 15 mm ~ 2, preferably 4 mm to 10 mm, more preferably S mm? up to rnm ~. The method of claim 14, wherein the PVA fiber has a size ranging from 50 denier to liQÖ denier, preferably 700 denier of ISO element, more preferably 300 denier to 500 daner. The method of claim 1 or claim 2, wherein the polymer film comprises at least one ,. a security label (a staple film which is a first and second paper web during the papermaking process) The method of claim 1 or claim 2, wherein; the polymeric handle comprises at least one film which is absorbed and absorbed by the first and / or the second plaster. The method according to claim 1 or claim 1, wherein the polymer film comprises a combination of at least one film with at least one film having a lower temperature than the other film. 21, The method of claim L or 2, wherein the water-soluble Oim is in at least one cold water: ohf.d # luminescence in the core, where the security label T ^ CN ^ »is soluble by a soluble layer. . 22, 1-20. a claim according to claim, wherein one or tdbb polymer §lm is perforated. <Safety paper produced by the method according to any one of the preceding claims, 24, A 2.3. A security paper according to claim 1, wherein the carrier polymer film is embedded in a bundle of papermaking paper production processes into the paper fibers 25, A 23; A security paper according to claim 1, wherein the ribbed polymer film is embedded in the paper kit process during the papermaking process. Safety paper according to any one of claims 22 to 25, wherein the polymer film is a water-soluble film prepared from the pseudo-polyvinyl alcohol / copolymer ionomers, polycarbonyl alcohol copolymer, non-lonomeric poly (water). polymers, polymethacrylics, polyvinyl alcohol, plylriamid, poilmethokamide, polyacrylic acid, gollmethacrylic acid, substances selected from the group consisting of pyrurethane, and modifying agents such as polyethylene glycol; gelatin such as; ftaoylzestine, diatomaceous powders such as starch, gum arabic puliois, or extracts of water-soluble cellulose or combinations thereof; hydroxyl ethyl cellulose and carboxymethyl cellulose. 27, A 273-25. Security paper according to any of the claims, wherein the polymer film is an insoluble, non-hydrophilic film of PP (polypropylene), Pb (polyethylene), LDPE (low density polyethylene), HDPE (high density polyethylene), ILOPE ( linear, densile polyethylene), HIPS (impact resistant polystyrene), HMHDFE (high molecular weight. high density polyethylene) and 80PP (baxyxisn oriented polypropylene). A security paper according to any one of claims 23 to 25, wherein the polymer film is a non-insoluble, non-hydrophilic film prepared from biodegradable materials such as PIA (pollenic acid), PHA (polyhydrocarboxylic acid). Thermal Starch is a material that is either biodegradable polyesters, such as ecotox. 29, &amp; A security paper according to any one of Claims 23 to 28, wherein the polymer film has a thickness from S micron to ISO micron, preferably from 10 microns to 78 microns, more preferably from 18 microns to 35 microns. The security paper of claim 25, comprising at least two layers of paper, 31, A security paper according to claim 25, comprising a polymeric molding comprising the layers of security means 32. 31st Security paper according to any one of claims 1 to 3, wherein the security is! token (s) microneormatic text ,, hangers, metal-coated / de-metallized grains / threads, barcodes, watermarks, nanoparticles, rhylazis, DNA (synthetic, natural), UV, PCR (polymer chain reaction), computer, machine readable and RHD elements selected for :,