Hand-Tearing Texture Anti-fake Method and Product and Material Thereof

Abstract

The present invention provides a hand-tearing texture anti-fake method and a product and a material thereof Fancy yarn is embedded in a printed matter and a printing material, and the fancy yarn and personalized elements thereof are flattened and shaped into a flat texture string; and the personalized feature information of the flat texture string is collected and stored in an anti-fake check system database as a texture information file. The present invention overcomes the disadvantages of needle-picking fibers (texture) and achieves the purpose of checking the texture by hand, facilitates the public to discriminate true textures from false ones by hand, avoids the trouble of anti-fake application of needle-picking texture, simplifies the production of texture paper, and avoids the contamination of the workshop environment of ordinary white paper by residual fibers.

Claims

1. A hand-tearing texture anti-fake method, comprising that at least one unique code (4) for each printed matter (3) is compiled and printed, and the feature information of a random structural texture (1) on each printed matter (3) is collected and stored in correspondence to the code (4) in an anti-fake check system database as a texture information file of the printed matter (3) for the public to check the authenticity; and characterized by comprising the following steps: {circle around (1)} embedding fancy yarn (5) under a transparent surface layer (8) on the printed matter (3); flattening and shaping the fancy yarn (5) and personalized elements (10) thereon, and thereby forming a line string of the random structural texture (1) with a flat and stable shape throughout the whole printed matter (3)a flat texture string (9); and making the thickness of the area where the flat texture string (9) is located on the printed matter (3) greater than the surrounding area by 0-80 m, 20-75 m, 30-73 m, 40-70 m or 50-68 m; {circle around (2)} collecting the feature information of the flat texture string (9) in each printed matter (3), and storing the collected feature information in an anti-fake check system database as a texture information file; {circle around (3)} the public uses smart phones to check by an anti-fake check system whether the features of the flat texture string (9) in the printed matter (3) are consistent with the texture information file thereof; {circle around (4)} making a public announcement that if the flat texture string (9) is a real object that can be torn out and/or toggled, the printed matter (3) checked is true; otherwise, the printed matter (3) checked is false.

2. The hand-tearing texture anti-fake method according to claim 1, characterized by comprising at least one of the following: {circle around (1)} a hand-tearing line/opening (6) is formed by die cutting beside the flat texture string (9) on the printed matter (3); {circle around (2)} at least one hand-tearing handle (7) or one exposed line segment (20) which can be toggled is arranged in the area where the flat texture string (9) is located on the printed matter (3): {circle around (3)} the back of the hand-tearing handle (7) is provided with an adhesive-free layer; {circle around (4)} the fancy yarn (5) is swung continually left and right during the embedding process to make the embedding position shifted left and right within a predetermined range of 10 mm, 5 mm, 2 mm, 1 mm, 0.5 mm or 0.3 mm; {circle around (5)} the printed matter (3) is a product package (12); {circle around (6)} First, the fancy yarn (5) in the printed matter (3) is rolled to make the yarn randomly deform into a flat texture string (9) with a flat shape and a thickness of 10-80 m, 15-60 m, 20-45 m, 25-35 m or 40-70 m; and then the feature information of the flat texture string (9) is collected as a texture information file; {circle around (7)} the fancy yarn (5) is heated and flattened at the temperature close to the softening point thereof; {circle around (8)} the fancy yarn (5) is applied with static electricity by an electrostatic generator or blown during the embedding process to make the included angle (11) between the length direction of the fancy yarn (5) and the personalized elements (10) thereof increase under the action of electrostatic repulsive force/wind force; {circle around (9)} the included angle (11) between the length direction of the fancy yarn (5) and a plurality of personalized elements (10) is greater than or equal to 15 or 30 and less than 90; {circle around (10)} the flat texture string (9) is pasted on the back of the transparent self-adhesive printed matter (3), pasted on the front of the printed matter (3) and covered and protected by a printed transparent varnish layer, pasted on the front of the printed matter (3) and covered and protected by a transparent transfer printing layer (13), or embedded in the sandwich layer of a composite package (14); {circle around (11)} the surface layer (8) of the printed matter (3) is provided with a transparent extinction layer; {circle around (12)} The fancy yarn (5) is wrapped yarn, core-spun yarn, slub yarn, big-belly yarn, speck yarn, onde yarn, pigtail yarn, towel yarn, loop yarn, knot yarn, feather yarn, toothbrush yarn, pine yarn, oblique yarn, neckline yarn, track yarn, spiral yarn, centipede yarn, tape yarn, fiber yarn, chain yarn, metallic yarn, wired yarn, heather yarn, chine yarn, rainbow yarn, folded yarn, textured yarn or combination yarn; {circle around (13)} the feature information of one or a plurality of segments with a length of L of the flat texture string (9) on the printed matter (3) is collected as a texture information file, wherein L is 3-30 mm, 3-90 mm or 3-300 mm; {circle around (14)} the feature information of the flat texture string (9) in a viewing area (15) on the printed matter (3) is collected as a texture information file; {circle around (15)} the printing material (2) required for the printed matter (3) and embedded with the hot melt fancy yarn (5) tis heated to the temperature close to the melting point of the hot melt fancy yarn (5) and super-rolled to make the hot melt fancy yarn (5) randomly deform into the flat texture string (9) with a flat shape and a thickness of 10-45 m or 25-35 m, and after the shape of the flat texture string (9) is stable, the feature information of the flat texture string (9) with a flat shape is collected as a texture information file; {circle around (16)} the information made public comprises that: a product of which the personalized elements (10) remain on the printed matter (3) after the main stem of the fancy yarn (5) is torn out is false.

3. A hand-tearing texture anti-fake product, comprising a printed matter (3) and a random structural texture (1) thereof, wherein a unique code (4) is printed on the printed matter (3), and the feature information of the random structural texture (1) is collected and stored in correspondence to the code (4) in an anti-fake check system database as an anti-fake feature information file of the printed matter (3); and characterized in that: fancy yarn (5) is embedded under a transparent surface layer (8) on the printed matter (3); the fancy yarn (5) and personalized elements (10) thereon are flattened and shaped, thereby forming a line string of the random structural texture (1) with a flat and stable shape throughout the whole printed matter (3)a flat texture string (9); the thickness of the area where the flat texture string (9) is located on the printed matter (3) is greater than the surrounding area by 0-80 m, 20-75 m, 30-73 m, 40-70 m or 50-68 m; and the feature information of the flat texture string (9) is collected as an anti-fake feature information file of the printed matter (3).

4. The hand-tearing texture anti-fake product according to claim 3, characterized by comprising at least one of the following: {circle around (1)} a hand-tearing line/opening (6) is formed by die cutting beside the flat texture string (9) on the printed matter (3); {circle around (2)} at least one hand-tearing handle (7) or one exposed line segment (20) which can be toggled is arranged in the area where the flat texture string (9) is located on the printed matter (3); {circle around (3)} the back of the hand-tearing handle (7) is provided with an adhesive-free layer; {circle around (4)} the flat texture string (9) is embedded within a predetermined range of 10 mm, 5 mm, 2 mm, 1 mm, 0.5 mm or 0.3 mm; the printed matter (3) is a product package (12); {circle around (5)} the flat texture string (9) is flattened to a thickness of 10-80 m, 15-60 m, 20-45 m, 25-35 m or 40-70 m; and the width M of the flat texture string (9) is greater than or equal to 200 m, 500 m or 1200 m; {circle around (7)} the included angle (11) between the length direction of the fancy yarn (5) and a plurality of personalized elements (10) thereon is greater than or equal to 15 or 30 and less than 90; {circle around (8)} the flat texture string (9) is pasted on the back of the transparent self-adhesive printed matter (3), pasted on the front of the printed matter (3) and covered and protected by a printed transparent varnish layer (13), pasted on the front of the printed matter (3) and covered and protected by a transparent transfer printing layer (13), or embedded in the sandwich layer of a composite package (14); {circle around (9)} when the shape of the personalized elements (10) is a circle or point, the diameter of the circle or point is 0.1-3 mm, 0.2-2 mm or 1-2 mm; or when the shape of the personalized elements (10) is a line the width of the line is greater than or equal to 0.03 mm, 0.05 mm, 0.07 mm or 0.10 mm, and the length of the line is 0.3-0.7 mm, 0.3-1.2 mm, 0.3-1.8 rum, 0.3-3 mm or 0.3-5 mm; the fancy yarn (5) is loop yarn with a loop diameter of 0.1-3 mm, 0.2-2 mm or 1-2 mm, and a loop density of 2-20 loops/cm; {circle around (10)} the fancy yarn (5) is wrapped yarn, core-spun yarn, slub yarn, big-belly yarn, speck yarn, onde yarn, pigtail yarn, towel yarn, loop yarn, knot yarn, feather yarn, toothbrush yarn, pine yarn, oblique yarn, neckline yarn, track yarn, spiral yarn, centipede yarn, tape yarn, fiber yarn, chain yarn, metallic yarn, wired yarn, heather yarn, chine yarn, rainbow yarn, folded yarn, textured yarn or combination yarn; {circle around (12)} the flat texture string (9) and the surface layer (8) are not bonded by adhesive; or the flat texture string (9) and a bottom layer (19) are not bonded by adhesive.

5. The hand-tearing texture anti-fake product according to claim 4, characterized in that: the loop yarn is three-strand yarn, wherein at least two strands of yarn have different colors; single yarn constituting the same strand of yarn is formed by twisting at least two fiber bundles with different colors in the loop yarn; or, the exposed line segment (20) which can be toggled is not flattened on the printed matter (3).

6. A hand-tearing texture anti-fake material, comprising a printing material (2) and a random structural texture (1) thereof, and characterized in that: fancy yarn (5) is embedded under a transparent surface layer (8) on the printing material (2); the fancy yarn (5) and personalized elements (10) thereon are flattened and shaped, thereby forming a line string of the random structural texture (1) with a flat and stable shape throughout the whole printing material (2)a flat texture string (9); and the thickness of the area where the flat texture string (9) is located on the printing material (2) is greater than the surrounding area by 0-80 m, 20-75 m, 30-73 m, 40-70 m or 50-68 m.

7. The hand-tearing texture anti-fake material according to claim 6, characterized by comprising at least one of the following: {circle around (1)} the flat texture string (9) is embedded within a predetermined range of 10 mm, 5 mm, 2 mm, 1 mm, 0.5 mm or 0.3 mm; {circle around (2)} the fancy yarn (5) and personalized elements (10) thereon are flattened and shaped into a flat texture string (9) with a thickness of 10-80 m, 15-60 m, 20-45 m, 25-35 m or 40-70 m; and the width M of the flat texture string (9) is greater than or equal to 200 m, 500 m, 1200 m or the thickness of the printing material (2); {circle around (3)} the included angle (11) between the length direction of the fancy yarn (5) and a plurality of personalized elements (10) thereon is greater than or equal to 15 or 30 and less than 90; {circle around (4)} the flat texture string (9) is embedded in the sandwich layer of the composite material; {circle around (5)} fancy yarn (5) randomly bending is embedded in the printing material (2); {circle around (6)} when the shape of the personalized elements (10) is a circle or point, the diameter of the circle or point is 0.1-3 mm, 0.2-2 mm or 1-2 mm; or when the shape of the personalized elements (10) is a line, the width of the line is greater than or equal to 0.03 mm, 0.05 mm, 0.07 mm or 0.10 mm, and the length of the line is 0.3-0.7 mm, 0.3-1.2 mm, 0.3-1.8 mm, 0.3-3 mm or 0.3-5 mm; {circle around (7)} the fancy yarn (5) is loop yarn with a loop diameter of 0.1-3 mm, 0.2-2 mm or 1-2 mm, and a loop density of 2-20 loops/cm; {circle around (8)} the fancy yarn (5) is hot melt yarn with the melting point lower than 85 C. or 110 C.; {circle around (9)} the fancy yarn (5) is wrapped yarn, core-spun yarn, slub yarn, big-belly yarn, speck yarn, onde yarn, pigtail yarn, towel yarn, loop yarn, knot yarn, feather yarn, toothbrush yarn, pine yarn, oblique yarn, neckline yarn, track yarn, spiral yarn, centipede yarn, tape yarn, fiber yarn, chain yarn, metallic yarn, wired yarn, heather yarn, chine yarn, rainbow yarn, folded yarn, textured yarn or combination yarn; {circle around (10)} the flat texture string (9) and the surface layer (8) are not bonded by adhesive; or the flat texture string (9) and a bottom layer (19) are not bonded by adhesive.

8. The hand-tearing texture anti-fake material according to claim 7, characterized in that: the loop yarn is three-strand, yarn, wherein at least two strands of yarn have different colors; or single yarn constituting the same strand of yarn is formed by twisting at least two fiber bundles with different colors in the loop yarn.

9. The hand-tearing texture anti-fake material according to claim 7, characterized in that: a plurality of exposed line segments (20) which can be toggled are arranged on the surface of the printing material (2); or a plurality of exposed line segments (20) which are not flattened and can be toggled are arranged on the surface of the printing material (2).

Description

DESCRIPTION OF THE DRAWINGS

[0091] FIG. 1 is a schematic diagram of a printed matter (brushed yarn type) embodiment 1 of the present invention.

[0092] FIG. 2 is a schematic diagram of a printed matter (loop yarn type) in embodiment 2 of the present invention.

[0093] FIG. 3 is a schematic diagram of a printed matter wrapped toothbrush yarn type) in embodiment 3 of the present invention.

[0094] FIG. 4 is a schematic diagram of a printed matter (feather yarn type) in embodiment 4 of the present invention.

[0095] FIG. 5 is a schematic diagram of a printed matter (colorful braid yarn type) in embodiment 5 of the present invention.

[0096] FIG. 6 is a schematic diagram of a printed matter (cotton-bamboo fiber iceland yarn type) in embodiment 6 of the present invention.

[0097] FIG. 7 is a schematic diagram of a printed matter (two-color wrapped yarn type) in embodiment 7 of the present invention.

[0098] FIG. 8 is a schematic diagram of a printed matter multi-yarn type) in embodiment 8 of the present invention.

[0099] FIG. 9 is a schematic diagram of a printed matter towel yarn type) in embodiment 9 of the present invention.

[0100] FIG. 10 is a segmental view of positions of dotted lines in FIG. 9.

[0101] FIG. 11 is a schematic diagram of an anti-fake material (brushed yarn type) used in embodiment 1 of the present invention.

[0102] FIG. 12 is a schematic diagram of an anti-fake material (loop yarn type/textured yarn type) used in embodiment 2 of the present invention.

[0103] FIG. 13 is a schematic diagram of an anti-fake material (wrapped, toothbrush yarn type) used in embodiment 3 of the present invention.

[0104] FIG. 14 is a schematic diagram of an anti-fake material (feather yarn type) used in embodiment 4 of the present invention.

[0105] FIG. 15 is a schematic diagram of an anti-fake material (colorful braid yarn type) used in embodiment 5 of the present invention.

[0106] FIG. 16 is a schematic diagram of an anti-fake material (cotton-bamboo fiber, iceland yarn type) used in embodiment 6 of the present invention.

[0107] FIG. 17 is a schematic diagram of an anti-fake material (two-color wrapped yarn type) used in embodiment 7 of the present invention.

[0108] FIG. 18 is a schematic diagram of integrated application of a printed matter and a product package (such as a medicine box) in embodiment 10 of the present invention.

[0109] FIG. 19 is a schematic diagram of a small angle between a main stem of a fancy yarn (5) and a personalized element in the present invention.

[0110] FIG. 20 is a schematic diagram after an angle between a main stem of a fancy yarn (5) and a personalized element of FIG. 19 is enlarged by an external force.

[0111] FIG. 21 is a schematic diagram of a printed matter scanned/photoed and inspected using a smartphone in an embodiment of the present invention.

[0112] FIG. 22 is a schematic diagram of a printed matter (fiber cable type) in embodiment 11 of the present invention.

[0113] FIG. 23 is a schematic diagram of current full-version texture (fiber) paper.

[0114] FIG. 24 is a schematic diagram of a printed matter (back-yarn type) in embodiment 12 of the present invention.

[0115] FIG. 25 is a segmental view of positions of dotted lines in FIG. 24.

[0116] FIG. 26 is a schematic diagram of a printed matter (front-yarn type) in embodiment 13 of the present invention.

[0117] FIG. 27 is a segmental view of positions of dotted lines in FIG. 26.

[0118] FIG. 28 is a (partial) schematic diagram of a composite package in embodiment 14 of the present invention.

[0119] FIG. 29 is a segmental view of positions of dotted lines in FIG. 28.

[0120] FIG. 30 is a schematic diagram of a composite package (of a board of medicine) in embodiment 15 of the present invention.

[0121] FIG. 31 is a schematic diagram of a printed matter (randomly bent yarn type in embodiment 16 of the present invention.

[0122] FIG. 32 is a schematic diagram of an anti-fake material (textured yarn type) in an embodiment of the present invention.

[0123] FIG. 33 is a schematic diagram of a flattening and setting process in Embodiment 18 of the present invention.

[0124] FIG. 34 is a schematic diagram of a flattening and shaping technology in embodiment 19 of the present invention.

[0125] FIG. 35 is a schematic diagram of a printed matter with exposed line segments in embodiment 20 of the present invention.

[0126] FIG. 36 is a schematic diagram of another printed matter with exposed line segments in embodiment 20 of the present invention.

[0127] Description of reference numerals: 1random structural texture, 2printing material, 3printed matter, 4code, 5fancy yarn, 6hand-tearing line/opening, 7hand-tearing handle, 8surface layer, 9flat texture string, 10personalized element, 11angle , 12product package, 13transparent varnish layer, 13transparent transfer printing layer (also known as transfer layer/hot stamping layer), 14composite package, 15viewing area, 16hot pressing roller, 17bottom roller, 18composite roller, 19bottom layer, 20exposed line segment, and 21window.

DETAILED DESCRIPTION

[0128] In order to make the above purposes, features and advantages of the present invention more clear and easier to understand, the comprehensive preferred embodiments of the present invention are described below, and the accompanying drawing are also used for detailed description.

Embodiment 1

[0129] As shown in FIG. 11, by referring to the composite production technology of the utility model patent Laser Holographic Safety Line Composite Packaging Box (CN2399334Y), the surface layer of a transparent BOPP film is combined with a white PE bottom layer, and at the same time, a strand of 70.5 D black polyester brushed yarn-fancy yarn is pulled out from a spinning reel and buried between the two layers, and rolled to deform (flattened) by a supercalender to ensure that all the feathers thereon are stuck, clamped and fixed, so as to manufacture the printing material of the fancy yarn including the brushed yarn.

[0130] As shown in FIG. 1, the printed matter is printed using the above brushed yarn type printing material, and a unique sequence code (i.e., code) including a link address is printed for each printed matter by using a coding machine.

[0131] An industrial-grade digital camera is prepared. After the stress of a flat texture string, is released and the shape is completely set, each code and a segment of long and narrow (partial/non-full version) flat texture string in each printed matter in the vicinity which is composed of the fancy yarn and the feathers and other personalized elements with the length L and the width M and which runs through the entire printed matter are shot to obtain file photos; then, the shot file photos about a segment of flat texture string in each printed matter and the corresponding code information (i.e., index code information) are stored in an anti-fake inspection system database as a basis for authenticity verification-texture information file.

[0132] If the public wants to identify the authenticity, as shown in FIG. 21, a camera phone with a lens resolution of 5 million pixels can be used to take a photo of the code and the flat texture string nearby-the information to be inspected. The information to be inspected and the code information are uploaded together (including sending via SMS or WeChat) to the anti-fake inspection system database, and the anti-fake inspection system matches (identifies) the texture information of the flat texture string on the information to be inspected with the texture information file in the database. If matched, the information that the authentication conclusion is true is fed back to the camera phone; if not matched, the information that the authentication conclusion is false is fed back to the camera phone. Of course, the WeChat scanning software in the camera phone can also be used to scan the QR code (i.e., the code) shown in FIG. 11 to start the link, browse and view the photo file in the database, and check whether the features of a segment of flat texture string with the length L and the width M are consistent with the photo file, so as to identify the authenticity.

[0133] If the code is a copied fake logo, the fake flat texture string is inevitably unable to be extracted and verified like a real solid line because the fake flat texture string is ink. Thus, both the user and the anti-fake inspection system should announce to the public:If the flat texture string is not consistent with the texture information file, the printed matter inspected is false;If the flat texture string is consistent with the texture information file, and the flat texture string of the printed matter inspected is a real object that can be extracted (also called as torn out/pulled out, etc.), instead of printing ink, the printed matter inspected is true, otherwise is false.

[0134] After the public sees the announcement (also known as a warning), the public can tear the main stem of fancy yarn and bring out the personalized element with hands. The true and false textures can be identified to judge whether the fancy yarn and the personalized element can be torn out and whether all the personalized elements remain in the printed matter. In other words, if the personalized elements are faked by printing, after the real main stem is torn out, all the ink mark of the faked personalized elements inevitably remain on the printed matter.

[0135] According to the specific requirements of the user, the fancy yarn of some printed matters is allowed to be thicker. In this way, the fancy yarn can be touched by hands to perceive the existence of the fancy yarn and the flat texture string without the need for hand tearing for inspection.

[0136] The personalized elements such as feathers described in the present embodiment are equivalent to the fibers that form a random structural texture in the Structural Texture Anti-fake Method (CN1074563C).

Embodiment 2

[0137] As shown in FIG. 12, the first and second strands are loop yarn and the third is textured yarn, both of which are fancy yarn. The yarn is pulled out of the spinning reel, embedded between two layers of paper pulp at a certain spacing, and rolled to deform (flattened) by using a supercalender, so as to manufacture a fancy yarn printing material embedded with the loop yarn and the textured yarn. The printing material can be used to print the printed matter shown in FIG. 2. Other steps can be the same as those of embodiment 1.

Embodiment 3

[0138] As shown in FIG. 13, bunches of colored wrapped toothbrush yarn-fancy yarn are pulled out from the spinning reel, embedded between two layers of paper pulp at a certain spacing, and rolled to deform (flattened) by using a supercalender, with the flattened flat texture string having a thickness of preferably 25-35 m, so as to manufacture a fancy yarn printing material embedded with the wrapped toothbrush yarn. The printing material can be used to print the printed matter shown in FIG. 3. Other steps can be the same as those of embodiment 1.

Embodiment 4

[0139] As shown in FIG. 14, by referring to the composite production technology of the Chinese utility model Laser Holographic Safety Line Composite Packaging Box (CN2399334Y), bunches of black polyester feather yarn-fancy yarn are pulled out from the spinning reel, embedded between two layers at a certain spacing, and rolled to deform (flattened), with the flattened flat texture string having a thickness of preferably 10-25 m, to ensure that all the feathers thereon are stuck, clamped and fixed, so as to manufacture a fancy yarn printing material embedded with the feather yarn.

[0140] As shown in FIG. 4, the printed matter is printed using the above printing material embedded with the feather yarn, and a unique sequence code (i.e., code) including a link address is printed for each printed matter by using a coding machine.

[0141] Preferably, as shown in FIG. 19 and FIG. 20, in the process of embedding the fancy yarn into the printing material, an electrostatic generator is used to apply static electricity to the fancy yarn or the fancy yarn is blown with side wind to increase the angle between the main stem of the fancy yarn in the printing material and the personalized elements such as feathers by the action of an external force. The angle between the main stem of the fancy yarn in the printing material and 20% or 30% or 50% or more of feather-type personalized elements is preferably 15 or 30 or 45. In this way, the feather-type personalized elements can be prevented from being rubbed and smoothed and completely stuck to the main stem of fancy yarn and shrunk into a strand without losing randomness and personalized features of the fancy yarn in the embedding process.

[0142] An industrial-grade digital camera is prepared. Each code and a segment of fancy yarn (flat texture string) in each printed matter nearby are shot to obtain file photos; then, the shot file photos about a segment of flat texture string in each printed matter and the corresponding code information (i.e., index code information) are stored in an anti-fake inspection system database as a basis for authenticity verification so that the public can check the authenticity.

[0143] If the public wants to identify the authenticity, as shown in FIG. 21, a camera phone with a lens resolution of 5 million pixels can be used to take a photo of the code and the flat texture string nearby-the information to be inspected. The information to be inspected and the code information are uploaded together (including sending via SMS or WeChat) to the anti-fake inspection system database, and the anti-fake inspection system matches (identifies) the texture information of the flat texture string on the information to be inspected with the texture information file in the database. If matched, the information that the authentication conclusion is true is fed back to the camera phone; if not matched, the information that the authentication conclusion is false is fed back to the camera phone. Of course, the WeChat scanning software in the camera phone can also be used to scan the QR code (i.e., the code) shown in FIG. 11 to start the link, browse and view the photo file in the database, and check whether the personalized features of a segment of flat texture string with the length L and the width M are consistent with the photo file, so as to identify the authenticity.

[0144] If the code is a copied fake logo, the fake flat texture string is inevitably unable to be extracted and verified like a real solid line because the fake flat texture string is ink. Thus, both the user and the anti-fake inspection system should announce to the public:If the flat texture string is not consistent with the texture information file, the printed matter inspected is false;If the flat texture string is consistent with the texture information file, and the flat texture string of the printed matter inspected is a real object that can be extracted (also called as torn out/pulled out, etc.), instead of printing ink, the printed matter inspected is true, otherwise is false.

[0145] After the public sees the announcement (also known as a warning), most people take actions: tear out the flat texture string with hands, destructively check whether a flat texture string exists in the printed matter, and finally determine the authenticity. The personalized elements such as feathers described in the present embodiment are equivalent to the fibers that form a random structural texture in the Structural Texture Anti-fake Method (CN1074563C).

Embodiment 5

[0146] As shown in FIG. 15, bunches of colored braided yarn-fancy yarn are pulled out from the spinning reel, and embedded between two layers of paper pulp at a certain spacing, so as to manufacture a fancy yarn printing material embedded with the colored braided yarn. The printing material can be used to print the printed matter shown in FIG. 5. Other steps can be the same as those of embodiment 1.

Embodiment 6

[0147] As shown in FIG. 16, bunches of cotton-bamboo fiber icelandic yarn-fancy yarn are pulled out from the spinning reel, and embedded between two layers of paper pulp at a certain spacing, so as to manufacture a fancy yarn printing material embedded with the cotton-bamboo fiber icelandic yarn. The printing material can be used to print the printed matter shown in FIG. 6. In order to facilitate the public to observe and verify the authenticity, it is best to print a viewing area on the printed matter to circle a flat texture string from the fancy yarn, only collect the feature information of the flat texture string in the viewing area and store the information as the texture information file into the anti-fake inspection system database (computer connected to the Internet). Other steps can be the same as those of embodiment 1.

Embodiment 7

[0148] As shown in FIG. 17, bunches of two-color wrapped yarn-fancy yarn are pulled out from the spinning reel, and embedded between two layers of paper pulp at a certain spacing, so as to manufacture a fancy yarn printing material embedded with the two-color wrapped yarn. The printing material can be used to print the printed matter shown in FIG. 7. In order to facilitate the public to observe and verify the authenticity, it is best to print a viewing area on the printed matter to circle a flat texture string from the fancy yarn, only collect the feature information of the flat texture string in the viewing area and store the information as the texture information file into the anti-fake inspection system database (computer connected to the Internet). Other steps can be the same as those of embodiment 1.

Embodiment 8

[0149] As shown in FIG. 17, bunches of fancy yarn are pulled out from the spinning reel, and embedded between two layers of paper pulp at a certain spacing, so as to manufacture a printing material embedded with the fancy yarn. The printing material can be used to print the printed matter shown in FIG. 8, and the printed matter has a plurality strands of fancy yarn. Other steps can be the same as those of embodiment 1.

Embodiment 9

[0150] As shown in FIG. 9 and FIG. 10, the printed matter is printed with 80 g/m.sup.2 white coated paper sticker material. Firstly, a unique two-dimensional code (i.e., code) is printed on the front surface. Then, bunches of towel yarn-fancy yarn are pulled out from the spinning reel, and put beside the two-dimensional code of the coated paper according to the spacing of the printed matter. Then, a laminating unit is used to coat the matte transparent BOPP prepared in advance to serve as the surface layer of the printed matter. Finally, the surface layer is die-cut and discarded, so as to manufacture pieces of printed matter sandwiched with the towel yarn. The thickness of the flattened towel yarn flat texture string is preferably 30-40 m, and other steps are the same as above.

Embodiment 10

[0151] As shown in FIG. 18, 230 g/m.sup.2 white cardboard is used to print a medicine box. Firstly, a unique two-dimensional code (i.e., code) is printed on the front surface. Then, bunches of textured yarn-fancy yarn are pulled out from the spinning reel, and put beside the two-dimensional code of the white cardboard according to the spacing of the medicine box. Then, a laminating unit is used to coat the matte transparent BOPP prepared in advance to serve as the surface layer of the medicine box. Finally, the surface layer is die-cut and discarded, so as to manufacture pieces of anti-fake medicine boxes with textured yarn and personalized elements. In order to facilitate the public to observe and verify the authenticity, it is best to print a viewing area on the medicine box to circle a flat texture string from the fancy yarn, only collect the feature information of the flat texture string in the viewing area and store the information as the texture information file into the anti-fake inspection system database. Other steps are the same as above.

Embodiment 11

[0152] As shown in FIG. 22, 80 g/m.sup.2 white coated paper sticker material is used to print the printed matter. Firstly, a unique two-dimensional code (i.e., code) is printed on the front surface. Then, bunches of film yarn (fiber yarn for short)-fancy yarn including random fibers are pulled out from the spinning reel, and put beside the two-dimensional code of the coated paper according to the spacing of the printed matters. Then, a laminating unit is used to coat the matte transparent BOPP prepared in advance to serve as the surface layer of the medicine box. Finally, the surface layer is die-cut and discarded, so as to manufacture pieces of printed matters sandwiched with fiber yarn (also known as safety yarn). Other steps can be the same as those of embodiment 1.

Embodiment 12

[0153] As shown in FIG. 24 and FIG. 25, 80 g/m.sup.2 white coated paper sticker material is used to print a lubricating oil bottle label of a certain brand-product package. Firstly, a unique two-dimensional code (i.e., code) is printed on the front surface. Then, the fancy yarn with hot melting at 85 C. (low melting point) is pulled out of the spinning reel, put in a position 2-8 mm away from the two-dimensional code on the front surface of the sticker coated paper according to the layout spacing of the bottle labels, and hot-pressed, softened and pasted on the coated paper by a hot roller at 83 C. Then, partial transparent varnish layers are printed on the two-dimensional code and the fancy yarn to serve as partial surface layers of the bottle labels. Finally, the surface layers are die-cut and discarded, so as to manufacture pieces of product packages of the flat texture string stuck with a segment of fancy yarn and the personalized elements on the front surface. Other steps can be the same as those of embodiment 1.

Embodiment 13

[0154] As shown in FIG. 26 and FIG. 27, 30 m thick transparent PE sticker material is used to print a lubricating oil bottle label of a certain brand-product package. Firstly, a unique two-dimensional code (i.e., code) is printed on the front surface. Then, the fancy yarn is pulled out of the spinning reel, put and stuck in a position near the two-dimensional code on the back surface of the transparent PE sticker material according to the layout spacing of the bottle labels, and rolled and smoothed by a press roller. Finally, the fancy yarn is die-cut and discarded, so as to manufacture pieces of product packages of the flat texture string stuck with the fancy yarn and the personalized elements on the back surface. Other steps can be the same as those of embodiment 1.

Embodiment 14

[0155] As shown in FIG. 28 and FIG. 29, a 22-m thick BOPET as a transparent base layer is used to print a three-layer mask bag-composite package. Firstly, a unique two-dimensional code (i.e., code) is printed on the back surface. On the laminating machine, the fancy yarn is pulled out of the spinning reel, put in a position near the two-dimensional code between the BOPET bas layer and a VMPET barrier layer according to the layout spacing of the mask bags, attached with LDPE heat seal layers, and rolled and smoothed by a press roller to ensure that all the pimples thereon are flattened, clamped and fixed, thereby manufacturing a fancy yarn composite material embedded with pimple yarn. Finally, the fancy yarn composite material is cut and bagged, to manufacture a three-layer mask bag of the flat texture string-composite package sandwiched with a segment of pimple fancy yarn. In order to facilitate the public to observe and verify the authenticity, it is best to print a viewing area on the composite package to circle a flat texture string from the fancy yarn, only collect the feature information of the flat texture string in the viewing area and store the information as the texture information file into the anti-fake inspection system database (computer connected to the Internet). Other steps are the same as above. The transparent base layer in the present embodiment can also serve as the surface layer of the mask bag.

Embodiment 15

[0156] As shown in FIG. 30, a fancy yarn is embedded between a transparent plastic blister layer and a bottom plate layer of a board of medicine to manufacture boards of aluminum foil packaging medicine. Other steps can be the same as those of embodiment 1.

Embodiment 16

[0157] As shown in FIG. 31, randomly bent fancy yarn are embedded into the printed matter. Other steps can be the same as those of embodiment 1.

Embodiment 17

[0158] As shown in FIG. 32, in order to facilitate the use of typesetting, a common printed matter can also be manufactured to be shared by all users. For example, the monofilament textured fancy yarn in the printed matter is relatively evenly covered on the entire material, and the monofilament textured fancy yarn is flattened to 10-15 m. In this way, regardless of the size of the printed matter, the printed matter can be, typeset randomly, and has fancy yarn. At least 1-2 strands of fancy yarn exist in the printed matter with small area. 3-5 or more strands of fancy yarn may exist in the printed matter with large area. Studies show that feature information such as multiple textured fancy yarn and their relative positions in the same printed matter is collected as texture information file, so as to greatly increase the difficulty of faking by manual reproduction.

Embodiment 18

[0159] As shown in FIG. 33, in order to crush the fancy yarn and the personalized elements thereon to be very thin to manufacture an ultra-thin flat texture string to avoid affecting the post-processing procedure due to the convexity (thickening) of the region of the flat texture string on the printing material, a multi-roller super rolling technology can be used.

[0160] Firstly, 80 g/m.sup.2 white coated paper is selected as the bottom layer, and loop yarn with a melting point lower than 85 C. are applied to the coated paper in parallel according to a preset spacing. The loop yarn is preferably selected from three plies (red, green and blue plies) of loop yarn of 530 Denier. The loop diameter is preferably 1 mm and the loop density is preferably 7 pieces/cm.

[0161] Then, the coated paper and the loop yarn applied thereon are successively super-rolled through three hot rollers with temperatures of 80 C., 85 C. and 90 C.; and the loop yarn and the personalized elements (such as pimples/loops) on the loop yarn are softened (or even melted) and stuck to the coated paper. Tests show that the flat texture string formed by such multi-stage hot pressing can be as thin as about 12 m, but the pimples/loops and other personalized elements look very large and eye-catching, which meets the requirements of visual recognition of texture anti-fake technology.

[0162] Finally, in order to fix and protect the flat texture string and prevent manual moving (tampering) of the personalized elements, transparent surface layers must be coated on the coated paper and the flat texture string to completely shape the flat texture string. In this way, a hand-tear texture anti-fake material can be manufactured.

Embodiment 19

[0163] As shown in FIG. 34, in order to crush the fancy yarn and the personalized elements thereon to be very thin to manufacture an ultra-thin flat texture string to avoid affecting the post-processing procedure due to the convexity (thickening) of the region of the flat texture string on the printing material, a multi-roller super rolling technology can be used.

[0164] Firstly, 80 g/m.sup.2 white coated paper is selected as the bottom layer, and loop yarn with a melting point lower than 85 C. are applied to the coated paper in parallel according to a preset spacing. The loop yarn is preferably selected from three plies (red, green and blue plies) of loop yarn of 150 Denier. The loop diameter is preferably 1.5 mm and the loop density is preferably 5 pieces/cm.

[0165] Then, a layer of 12 g/m.sup.2 transparent copy paper is compounded as a surface layer through a composite roller. The coated paper, the printed matter compounded by the transparent copy paper, and the loop yarn applied therein is successively super-rolled through three hot rollers with temperatures of 85 C., 90 C. and 95 C., so as to soften (or even melt) and stick the loop yarn and the personalized elements (such as pimples/loops) into the printed matter to manufacture the hand-tear texture anti-fake material. Tests show that the local convexity (i.e., thickening) caused by the flat texture string formed by such multi-stage hot pressing is about 28 m.

[0166] The above two embodiments illustrate a solution of flattening the fancy yarn and the personalized elements thereon and then conducting compounding shaping and protection, and also illustrate a solution of compounding the fancy yarn and the personalized elements thereon and then conducting flattening shaping and protection. The two solutions have respective advantages and disadvantages. The hand-tear texture anti-fake material produced in embodiment 18 has a very thin flat texture string, slight thickening, flat surface, is suitable for processing and production in various links after printing, and is suitable for being sold as raw material of anti-fake paper to other anti-fake enterprises. The hand-tear texture anti-fake material produced in embodiment 19 is seriously thickened, but is still within an allowable thickness range, is difficult to process and produce in each link after printing, but is a desirable technology for users who require a flat texture string with a strong hand feel (touchable by hand). It is best to set the thickness of the region of the flat texture string to be 50-68 m more than the surrounding region.

[0167] The reason why the present invention has a requirement of coating the transparent surface layers (instead of exposing the flat texture string on the coated paper) to completely shape the flat texture string is because: (1) to prevent the flat texture string from being warped/deformed by accidental friction, (2) to prevent fakers from manually moving (tampering) the personalized features of the flat texture string and (3) to prevent the fakers from faking with manually stucking and imitated flat texture strings. Studies show that the flat texture string can only be used as a reliable personalized anti-fake feature after the flat texture string coated with the transparent surface layer (preferably a translucent surface layer) is completely shaped. In other words, if the fakers tamper the flat texture string, the transparent surface layer is inevitably destroyed, obvious traces are inevitably left on the printed matter, and consumers inevitably find the traces to complain.

Embodiment 20

[0168] As shown in FIG. 35 and FIG. 36, a production technology similar to window safety thread paper or a partial transfer and covering technology is used to pull the fancy yarn from the spinning reel and intermittently embedded in the paper, so as to manufacture the printing material of the fancy yarn with brushed yarn-window fancy yarn paper. It is best not to squash the exposed line segment at the window to maintain a strong touch hand feeling.

[0169] The printed matter is printed using the above window fancy yarn paper, and a unique sequence code (i.e., code) including a link address is printed for each printed matter by using a coding machine.

[0170] An industrial-grade digital camera is prepared. After the stress of a flat texture string is released and the shape is completely set, each code and a nearby flat texture string in each printed matter which is composed of the fancy yarn and the feathers or loops and other personalized elements are shot to obtain file photos; then, the shot file photos about a segment of flat texture string in each printed matter and the corresponding code information (i.e., index code information) are stored in an anti-fake inspection system database as a basis for authenticity verification-texture information file.

[0171] If the public wants to identify the authenticity, a camera phone with a lens resolution of 5 million pixels can be used to take a photo of the code and the flat texture string nearby-the information to be inspected. The information to be inspected and the code information are uploaded together (including sending via SMS or WeChat) to the anti-fake inspection system database, and the anti-fake inspection system matches (identifies) the texture information of the flat texture string on the information to be inspected with the texture information file in the database. If matched, the information that the authentication conclusion is true is fed back to the camera phone; if not matched, the information that the authentication conclusion is false is fed back to the camera phone. Of course, the WeChat scanning software in the camera phone can also be used to scan the QR code (i.e., the code) to start the link, browse and view the photo file in the database, and check whether the features of the flat texture string are consistent with the photo file, so as to identify the authenticity.)

[0172] If the code is a copied fake logo, it is impossible to move the exposed line segment with fingers like the real solid line because the fake flat texture string is ink. Thus, both the user and the anti-fake inspection system should announce to the public:If the flat texture string is not consistent with the texture information file, the printed matter inspected is false;If the flat texture string is consistent with the texture information file, and the flat texture string of the printed matter inspected is a movable object, instead of unmovable printing ink, the printed matter inspected is true, otherwise is false.

[0173] After the public sees the announcement (also known as a warning), most people take actions: move the exposed line segment with hands, check whether a flat texture string exists in the printed matter, and finally determine the authenticity.

[0174] The above only discloses the preferred embodiments of the present invention, and of course, shall not be used to limit the scope of claims of the present invention. Therefore, equivalent changes made according to the claims of the present invention still belong to the scope of the present invention.

Hand-Tearing Texture Anti-fake Method and Product and Material Thereof

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B42D25/28

PERFORMING OPERATIONS; TRANSPORTING

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G07D7/20

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G09F3/02

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B41M3/14

PERFORMING OPERATIONS; TRANSPORTING

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G06K19/06037

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G06F16/901

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G06F18/00

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G06F16/9554

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B42D25/355

PERFORMING OPERATIONS; TRANSPORTING

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B41J3/407

PERFORMING OPERATIONS; TRANSPORTING

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G06K19/086

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G06K19/08

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B41J3/407

PERFORMING OPERATIONS; TRANSPORTING

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B41M3/14

PERFORMING OPERATIONS; TRANSPORTING

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G06F16/901

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G06K19/06

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G07D7/20

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Abstract

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