SELF-DESTRUCTIVE IRREVERSIBLE SECURITY PACKAGING FILM

Abstract

An irreversibly self-destructive security packaging water soluble film and method for manufacturing the same. The water soluble packaging film is embedded with various security elements, which will get irreversibly destroyed upon final usage as the whole package along with its contents will dissolve in water. This process of self-destruction will control the duplication of the package or alteration of the product inside the package.

Claims

1. A self-destructive in final usage, water soluble package comprising an irreversibly self-destructive security packaging water soluble film (WSF) arranged such that the self-destructive security packaging water soluble film dissolves or disperses in water so as to destroy the package irreversibly during final usage, the packaging water soluble film comprising one or more layers of WSF and at least one inbuilt security element which is embedded in or entrapped in at least one layer of the WSF and wherein said at least one layer of WSF is formed from a water soluble polymer; wherein said security element is in the form of a pattern, image, logo, barcode, digital information, taggant or tracer, said security element being formed of a material selected from the group consisting of optically variable pigments, multi-layer thin-film interference pigments, liquid crystal pigments, holographic pigments, interference coated particles, thermochromic pigments, photochromic pigments, luminescent compounds, infrared-absorbing compounds, UV-absorbing compounds, micro-engraved or microtextured flake pigments, forensic marking compounds, dyes, RFID taggants, nano-particles, nano-tracers, security markers printed security features, active molecules, and DNA taggants; the printed security features being selected from the group consisting of barcodes, metallized fibers, metallized/demetallized texts, and combinations thereof.

2. The water soluble package according to claim 1, wherein more than one security elements of similar and/or dissimilar properties are embedded/entrapped or imparted in one or more layers of the WSF.

3. The water soluble package according to claim 1, wherein said at least one inbuilt security element is of overt nature or of covert nature.

4. The water soluble package according to claim 1, wherein the WSF is single layered or multi-layered and is made of raw materials selected from polyvinyl alcohol copolymer ionomers, polyvinyl alcohol homopolymer, non-ionomeric polyvinyl alcohol polymer, polymethacrylate, polyvinyl alcohol, polyacrylamide, polymethacrylamide, polyacrylic acid, polymethacrylic acid, polyurethane, polyethyleneglycol, polyvinylpyrrolidone, proteinaceous binders, polysaccharides, and water-soluble cellulose derivatives either alone or combinations thereof.

5. The water soluble package according to claim 1, wherein the said WSF is cold water soluble, warm water soluble, or hot water soluble.

6. The water soluble package according to claim 1, wherein said at least one inbuilt security element is light source readable, machine readable PCR, or otherwise readable by any mechanical, electrical or digital device.

7. The water soluble package according to claim 1, wherein the at least one inbuilt security element is printed or embossed on WSF forming a part of it.

8. The water soluble package according to claim 7 wherein the at least one inbuilt security element is a hologram, barcode, or microtext.

9. The water soluble package according to claim 4 wherein said proteinaceous binders are selected from the group consisting of gelatin, modified gelatins such as phthaloyl gelatin, and combinations thereof; or wherein the polysaccharides are selected from the group consisting of starch, gum Arabic, pullulan and dextrin, and combinations thereof; or wherein the water-soluble cellulose derivatives are selected from the group consisting of methyl cellulose, hydroxy propyl cellulose, hydroxy propyl methyl cellulose, hydroxy propyl ethyl cellulose, hydroxy ethyl cellulose, carboxy methyl cellulose, and combinations thereof.

10. An irreversibly self-destructive security packaging water soluble film (WSF) for packages, comprising at least a first security element and a second security element embedded/entrapped or imparted in one or more layers of the WSF wherein first and second layers of WSF are each formed from a water soluble polymer such that the self-destructive security packaging water soluble film dissolves or disperses in water so as to destroy itself irreversibly during final usage and wherein the first and second security elements are different and wherein the first security element is overt and the second security element is covert.

11. An irreversibly self-destructive security packaging water soluble film (WSF) for packages, comprising one or more layer(s) of water soluble film and at least one inbuilt security element forming a part of the security package, wherein said at least one layer of WSF is formed from a water soluble polymer such that the self-destructive security packaging water soluble film dissolves or disperses in water so as to destroy itself irreversibly during final usage and wherein the security element is incorporated by one of: spraying onto the at least one layer of WSF; embossing on the WSF; imprinting/imparting on the WSF with hot stamping foil method or by adhesive transfer; embedding in the WSF by printing methods; mixing of security element(s) in printing inks and printing letters or graphics on WSF with the printing inks consisting of the security elements; dispensing or entrapping between the at least first and second WSFs.

12. An irreversible self-destructive security packaging water soluble film (WSF) comprising at least one layer of a water soluble film and at least one inbuilt security element which is embedded in or entrapped in or imparted on said at least one layer of WSF, the WSF being formed from a water soluble polymer such that the water soluble film dissolves or disperses in water so as to destroy itself irreversibly during final usage, said at least one inbuilt security element being printed or embossed on the water soluble film, and the security element being a hologram, barcode, or metallized/demetallized microtext.

13. The security packaging WSF according to claim 12 wherein the security packaging film adapted to be converted into a self-adhesive web and further converted into a printed seal with a barcode including a 2D or 3D barcode forming a self-adhesive label/seal used for securing the openings of a package or a bottle.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0071] FIG. 1 is a schematic drawing of a method in accordance with the present invention.

[0072] FIG. 2 is a schematic drawing of an alternative method in accordance with the present invention.

[0073] FIG. 3 is a schematic drawing of another alternative method in accordance with the present invention.

DETAILED DESCRIPTION OF THE INVENTION

[0074] The invention will now be described in detail with reference to accompanying drawings showing various embodiments:

[0075] The materials of the WSF formulation is taken in the batch reactor and mixed intimately to ensure complete dissolution in the desired solvent.

[0076] The raw materials used for making the water soluble film are selected from polyvinyl alcohol copolymer ionomers, polyvinyl alcohol homopolymer, non-ionomeric poly vinyl alcohol polymer, polymethacrylate, polyvinyl alcohol, polyacrylamide, polymethacrylamide, polyacrylic acid, polymethacrylic acid, polyurethane, polyethyleneglycol, polyvinylpyrrolidone, proteinaceous binders such as gelatin, modified gelatins such as phthaloyl gelatin, polysaccharides such as starch, gum Arabic, pullulan and dextrin and water-soluble cellulose derivatives such as methyl cellulose, hydroxy propyl cellulose, hydroxy propyl methyl cellulose, hydroxy propyl ethyl cellulose, hydroxy ethyl cellulose, carboxy methyl cellulose either alone or combinations thereof. However, these raw materials are by no means limiting. The water soluble films can be cold water soluble, warm water soluble, hot water soluble or non-soluble depending upon the formulation.

[0077] The preformed WSF used in the present invention can be a cast film or an extruded film depending upon the end application.

[0078] The security elements to be embedded into the WSF can be selected from optically variable pigments, multi-layer thin-film interference pigments, liquid crystal pigments, holographic pigments, interference coated particles, thermochromic pigments, photochromic pigments, luminescent compounds, magnetic compounds, infrared-absorbing compounds, UV-absorbing compounds, magnetic compounds, micro-engraved or microtextured flake pigments, forensic marking compounds, dyes, RFID taggants, nano particles, nano tracers, security markers printed security features like barcodes, metallized fibers, metallized/demetallized texts, active molecules, DNA taggants and the like.

[0079] Some of these security elements are of overt nature or of covert nature which can be identified on the shelf or off the shelf depending upon the security elements embedded in the WSF.

[0080] Covert security elements are ones that are not visible and will require a particular instrument for verifying the same, e.g., pigments, dyes, nano-particles, nano-tracers, active molecules DNA taggants, and the like.

[0081] A WSF package embedded with covert security elements, such as invisible inks or dyes, can be identified on the shelf under an ultra violet (UV) (long wave) fluorescing light source.

[0082] A WSF package embedded with covert security elements, such as nano-particles, can be identified on the shelf with the help of a 100 magnifying glass.

[0083] Some covert security elements can be identified off the shelf only as the package has to be taken to a laboratory having elaborate instruments and machines so as to read the embedded covert security elements. There may be a need to destroy the package in some cases. E.g., certain pigments which are infra-red light readable with an algorithm of software chain designed to read the reflected light and confirm the presence of such pigments/dyes/security elements or magnetic field readable pigments embedded in nano-particles which give an audible beep when the machine reader reaches the precise proximity etc.

[0084] Overt security elements are the ones that are visible and can be identified on the shelf almost instantaneously without need of an elaborate laboratory instruments or machines, e.g., holograms, barcodes, metallized/demetallized micro texts, RFID tags and the like. These kind of security elements are printed or embossed on the WSF and will form a part of WSF.

[0085] In one of the embodiments of this invention, the security elements to be embedded in the WSF are added to the batch solution and mixed thoroughly before feeding it to the casting head for further processing. The materials that can be taken into the batch mixing are selected from those that are water-soluble, sheer insensitive, temperature resistant, like certain UV security dyes, or machine readable pigments.

[0086] In another embodiment of this invention the security elements to be embedded in the WSF may optionally be introduced at the primary, secondary, tertiary and subsequent sprayers and/or at the second or subsequent casting heads fed from second and/or subsequent batch mixers.

[0087] In another embodiment of the present invention the security elements to be embedded is/are dispensed in between incoming cured or uncured WSFs.

[0088] In yet another embodiment of the present invention the security elements of overt nature, such as holograms, barcodes, are printed or embossed on the WSF.

[0089] Casting on the liner for manufacturing WSF embedded with security features by Batch Mix Method shown in FIG. 1 comprising of the following steps: [0090] i. unwinding of the liner (1) at the unwinder (2) for the formation of a WSF. The liner can be optionally treated or untreated and coated or uncoated. The liners can be of paper, film, foil or fabric, preferably of film, more preferably of polyester film. The film can be in the range of 2 microns to 500 microns, preferably in the range of 10 microns-300 microns, more preferably in the range of 12 microns-250 microns. The film liner may be plain, embossed, gloss, matt, extrusion coated laminated or release coated depending on the desired characteristics of the end product. The paper liner that accepts temperatures needed for production of WSF, may be in the range of around 7 gms to around 500 gms, preferably a range of around 20 gm to around 300 gms, more preferably in the range of around 60 gm to around 180 gms. The paper liner may be plain, embossed, gloss, matt, extrusion coated laminated or release coated depending on the desired characteristics of the end product. The fabric liner can be made of cotton or synthetic yarns and solution coated, plain, embossed, gloss, matte, extrusion coated or laminated based on the desired end product properties. [0091] ii. Optional coating of the liner with a primer via a primer coating station (3). [0092] iii. Casting of WSF on the liner at primary casting head (5) with embedded security elements in the batch mix (4). The temperature of the batch solution ranging from 10 C. to 95 C., preferably from 13 C. to 90 C., more preferably from 15 C. to 85 C. [0093] iv. Metering of the cast film at the primary casting head (5). [0094] v. Smoothening of the film by passing it through smoothening rolls (7) with the embedded security elements at primary station. [0095] vi. Drying of the WSF from step iii in the primary dryer section (8). The temperature in the dryer section ranging from 50 C. to 250 C., preferably from 60 C. to 200 C., more preferably 75 C. to 170 C. [0096] vii. Casting of another layer of WSF with or without the security elements to be embedded at secondary casting head (12). [0097] viii. Drying of the WSF from step vii in the secondary dryer section (13). The temperature in the secondary dryer section ranging from 50 C. to 200 C., preferably 60 C. to 160 C., more preferably 75 C. to 170 C. [0098] ix. The multi-layered WSF of step viii is guided through hot/chilled cylinder (20) for rewinding or splitting at rewinder (21).

[0099] Optionally the above steps may also be carried out on a rolling conveyor instead of a liner.

[0100] Casting on the Liner for manufacturing WSF Embedded with security features by Application of Spraying Method shown in FIG. 1 comprising of the following steps: [0101] i. Unwinding of the liner (1) at unwinder (2) for the formation of WSF. Optionally a conveyor can be used instead of a liner. [0102] ii. Optional coating of a primer on the liner via a primer coating station (3). [0103] iii. Casting of WSF with/without security elements to be embedded at primary casting head (5). [0104] iv. Metering of the cast film at primary casting head (5). [0105] v. Spraying of pre-measured quantity of security elements to be embedded by primary sprayer (6). [0106] vi. Smoothening of the film with the embedded security elements at primary station by passing it through smoothening rolls (7). [0107] vii. Drying of the WSF of the above step v at the primary dryer section (8). The temperature in the dryer section ranging from 50 C. to 250 C., preferably from 60 C. to 200 C., more preferably from 75 C. to 170 C. [0108] viii. Casting of WSF with or without security elements to be embedded at secondary casting head (12). [0109] ix. Drying of the WSF from step viii in the secondary dryer section (13). The temperature in the secondary dryer section ranging from 50 C. to 200 C., preferably from 60 C. to 160 C., more preferably from 75 C. to 170 C. [0110] x. The multi-layered WSF of step viii is guided through hot/chilled cylinder (20) for rewinding or splitting at the rewinder.

[0111] Similarly, one or more security elements can be embedded into the WSF by the secondary, tertiary sprayers to form a multi-layered WSF embedded with security elements.

[0112] Casting on the Liner for manufacturing WSF embedded with security features by Online Entrapment Method as shown in FIG. 1 comprising of the following steps: [0113] i. Unwinding of the liner (1) at the unwinder (2) for the formation of WSF, optionally a conveyor can be used. [0114] ii. Optional coating of primer on the liner via a primer coating station (3). [0115] iii. Casting of WSF with/without security elements to be embedded at primary casting head (5). [0116] iv. Metering of the cast film at casting head (5). [0117] v. Smoothening of the film with/without the embedded security elements at primary station by passing it through smoothening rolls (7). [0118] vi. Drying of the WSF from step v in the primary dryer section (8). The temperature in the dryers ranging from 50 C. to 250 C., preferably from 60 C. to 200 C., more preferably from 75 C. to 170 C. [0119] vii. Casting of WSF with or without the security elements to be embedded at secondary casting head (12). [0120] viii. Drying of the WSF from step vii in the secondary dryer section (13). The temperature in the dryers ranging from 50 C. to 200 C., preferably from 60 C. to 160 C., more preferably from 75 C. to 140 C. [0121] ix. Unwinding of a pre-formed WSF with or without liner from an unwinder (18) and guiding it through the guide rolls (17) to meet the WSF from step 8 for entrapping of security elements to be embedded. Both the liners along with WSF film, which may be semi-cured WSF and the entrapments, may remain in the roll form or sheet form in its original construction, stripping from casting liner can be done immediately or after a self-curing ageing period ranging from around 1 hrs. to around 720 hrs., prior to splitting the liners so as to deliver the final WSF product with entrapped materials. The preformed WSF used here can be a WSF formed by the extrusion process. [0122] The preformed WSF used here can be a WSF made by a cast process or by extrusion process. [0123] x. The multi-layered WSF of step ix may be guided through hot/chill cylinder (20) for rewinding or splitting at the rewinder (21). Optionally offline or online splitting between the WSF film and the liner can be done.

[0124] Offline Vertical Entrapment Method for manufacturing WSF embedded with security features as shown in FIG. 2 comprising of the following steps: [0125] i. Unwinding of two preformed water soluble films with or without liner at the unwinders (22 and 28). The preformed WSFs used here can be WSFs formed by the extrusion process. [0126] The preformed WSFs used here can be WSFs made by a cast process or by extrusion process. [0127] ii. Dispensing of the security elements (25) vertically in between the two WSFs at guide rollers (24 and 26). [0128] iii. Affixing of the two WSFs from step ii at the affixing rollers (23 and 27). [0129] iv. Rewinding the multilayered WSF with security elements of step (iii) in roll form or sheet form or fan-fold form. The casting liners can be stripped immediately or after aging period of around 1 to around 720 hours, or can be supplied all together and the end user may be informed to strip the casting liner before use.

[0130] Offline Horizontal Entrapment Method for manufacturing WSF embedded with security features as shown in FIG. 3 comprising of the following steps: [0131] i. Unwinding of two WSF films with or without liner at the unwinders (30 and 36). The preformed WSFs used here can be a WSF formed by the extrusion process. [0132] ii. Dispensing of the security elements (33) horizontally in between two WSFs at guide rollers (32 and 34). [0133] iii. Affixing of the two WSFs from step (ii) at the affixing rollers (31 and 35). [0134] iv. Rewinding the WSF with security elements, of step (iii) in roll form or sheet form or fan-fold form. The casting liners can be stripped immediately or after aging period of around 1 hour to around 720 hours or can be supplied all together and the end user may be informed to strip the casting liner before use.

[0135] The WSF embedded with security elements can be slit in ribbons, tapes, perforated sheets, perforated tapes, perforated ribbons or cut sheets of any size.

[0136] The WSF embedded with security elements slit into ribbons, tapes, etc. can be inserted into a package during the process of making pouch. The ribbons, tapes, etc. will be destroyed irreversibly during the final usage when the entire pouch along with its contents will dissolve in water.

[0137] Such methods offer various product options such as: [0138] 1. Entrapped security elements in WSF with or without liner/carrier. [0139] 2. Entrapped security elements in WSF in Roll form or pouch form. [0140] 3. Entrapped security elements in WSF in Roll form with perforations. [0141] 4. Entrapped security elements in WSF in Sheet form with multiple pouches. [0142] 5. All above Entrapped security elements in WSF with casting liner for the consumer to remove after aging period of around 1 hour to around 720 hours.

[0143] The WSF film in the entrapment may be pre-embedded by means of batch mix or sprayer method or any other method explained above.

[0144] The above sequence may be repeated in multiple layers as per the requirements of the end use of the multiple WSFs embedded with security elements. Further this method also allows the manufacture of multilayered WSFs embedded with security elements using combinations of Cold WSFs and Hot WSFs in various sequences. It also provides the options of using cured/uncured films of CWSFs and HWSFs in any desired sequences.

[0145] As per one of the embodiment, the overt security elements like holograms can be embedded into the WSF by directly embossing from a holographic plate/cylinder/shim on WSF. The WSF used for this purpose is preferably with a liner.

[0146] Holograms can also be embedded in the WSF with the hot stamping foil method or by transfer method, wherein the holographic film is coated with an adhesive and the adhesive side of the holographic film is laminated to the WSF.

[0147] Other overt security elements such as microtexts, barcodes can be embedded in the WSF by printing on the WSF itself. The printing of microtexts, barcodes can be done by known printing methods such as inkjet, gravure, flexo, web off-print and the like.

[0148] All security elements and WSF shall irreversibly destroy itself upon dissolution of package in water during final usage of the packed product.

[0149] As per the methods mentioned above one or more security elements having similar and/or dissimilar properties can be embedded into one or more layers of WSF to form a multi-layered WSF. Also, one or more security elements can be synthesized and can be added in the same layer of WSF, e.g., DNA taggants can be synthesized with florescent pigments for on-shelf checking of presence of fluorescent pigment DNA. Actual DNA presence has to be done off the shelf by a method of PCR readers.

[0150] Also, one or more security elements can be positioned at a prerequisite place so as to come up in the same place in the final package. This can be done by inserting a strip of HWSF/non-soluble hydrophilic film embedded with security elements into the web of WSF during the process of casting the WSF. The other way of doing this is zone coating of a WSF batch mix embedded with security features onto a preformed WSF.

[0151] All security elements and WSF shall irreversibly destroy itself upon dissolution of package in water during final usage of the packed product. Covert security features like DNA, can be traced even after usage, for proof of usage of materials, by checking its presence at the place where the security film was destroyed such as soil or laundered clothes.

[0152] Security elements can also be mixed with printing inks and then particular designs or letters can be printed on the WSF. Here, the security elements will be present in the printed designs only and can be identified on the shelf or off the shelf depending upon the security elements embedded in the printing ink.

Example 1

[0153] 10 ml of Tracetag DNA T7 TAG 1e*16 was added to 100 ml of fluorescent UV ink and mixed thoroughly. This synthesized mixture of security elements was then added to a 40 ltr batch-mix of WSF made out of the raw-materials mentioned herein before and mixed thoroughly. The batch mix comprising DNA and florescent UV ink was then cast on a liner as per the method described herein before to form a self-destructive irreversible security packaging WSF having thickness 45 microns. This security film can be used for various packaging purposes.

[0154] The presence of the fluorescent UV ink can be identified on the shelf under a UV reading lamp, but for identifying the DNA the package has to be carried to the laboratory and a separate process of covert forensic PCR checking is needed. The remnants of DNA taggants can also be checked after usage like in soil in case of agrochemicals and on washed clothes in case of a detergent package.

Example 2

[0155] 100 ml of florescent UV ink was added to a 40 ltr batch-mix of WSF made out of the raw-materials mentioned herein before and mixed thoroughly. The batch mix comprising florescent UV ink was then cast on a liner as per the above process to form an irreversibly self-destructive security packaging WSF having thickness 35 microns. The same WSF with florescent UV ink was embossed with holograms at prerequisite places. The holograms are visible instantaneously while the presence of the florescent UV ink can be identified under a UV reading lamp. Hence, here both the security features can be identified on the shelf. During the process of final usage of the package, the same shall dissolve, disintegrate and shall irreversibly be destroyed.

Example 3

[0156] RFID tags were printed at prerequisite places on a hot water soluble film. This HWSF printed with RFID tags was then accurately cut into thin strips of 20 mm width. A strip of HWSF printed with RFID was then positioned and inserted into a web of CWSF during the process of casting the CWSF. This security element can be read by RFID machine reader which has been specifically designed to read the outcome. During the process of final usage of the package, the same shall dissolve, disintegrate and shall irreversibly destroy itself.

[0157] It is now clear that the self-destructive security packaging film can be produced by methods mentioned herein before and that the same can be used to secure various types of packages to ensure that the rightful owner gets their earnings and the fraudsters are dealt with properly by the legal/Judiciary systems prevailing in respective countries.

[0158] Such security elements embedded WSFs are used for diverse applications, such as, but not limited to, embedding such WSF into a bed of pulp to make security paper, or to make a pouch or a web or a slit tape or any article from such a security film to deliver pesticides, seeds, drugs, veterinary products, agrochemicals, perfumes, softeners, flavors, detergents, etc., so as to identify the products while on the shelf as well as after consumption by reading the reactions of the security elements while the package is intact or reading the reactions of the security elements after the package has been dissolved and traces of such security elements can be observed on the used areas of the product which can be for example soil in case of agrochemicals/seeds or garments in case of detergents, softeners etc.

[0159] A security element embedded WSF can also be converted into self-adhesive web and subsequently converted into a printed seal with a barcode, including a 2D or 3D barcode. This self-adhesive label/seal can be applied for example to secure the opening of a package or a bottle with instructions to dissolve seal in water to open the package.