CN117542268A - Anti-counterfeit label, anti-counterfeit label manufacturing system and anti-counterfeit management and control system - Google Patents

Abstract

The invention discloses an anti-counterfeiting label, an anti-counterfeiting label manufacturing system and an anti-counterfeiting management and control system, wherein the anti-counterfeiting label comprises a basal layer adhered to a bag opening of an anti-counterfeiting file bag, and a plurality of accommodating grooves are arrayed on the top surface of the basal layer; each containing groove is internally provided with first particles, second particles or third particles, the first particles and the second particles are made of particles which can be heated by induction, the resistivity of the first particles is larger than that of the second particles, and the third particles are made of particles which can not be heated by induction; the bottom of the accommodating groove is coated with an adhesive layer capable of adhering the fixed particles, and the wall of the accommodating groove is made of a material with good heat insulation property; the top surface of the basal layer is covered with a thermal shrinkage film, and the thermal shrinkage film seals and positions the particles in the accommodating groove; the invention can achieve the effect of sealing the file pocket and has anti-counterfeiting effect, thereby improving the security of the confidential file, effectively preventing the confidential file from being copied and replaced, and being beneficial to ensuring the uniqueness and the integrity of the confidential file.

Description

Anti-counterfeit label, anti-counterfeit label manufacturing system and anti-counterfeit management and control system

Technical Field

The invention relates to the technical field of file information security processing, in particular to an anti-counterfeit label, an anti-counterfeit label manufacturing system and an anti-counterfeit management and control system.

Background

The confidential files are often required to be filled into file bags for clamping and sealing in the management process so as to facilitate the management of the confidential files. At present, the sealing and storing of the confidential documents are mostly realized by sticking bar codes, two-dimensional codes, RFID and the like at the bag mouth, and the structural mode easily causes copying and replacing of the confidential documents in the document bag, thereby causing the occurrence of disclosure.

Therefore, in order to meet the uniqueness and integrity of clamping and sealing of the confidential documents, a more reliable document bag sealing mode is needed to be provided, so that the security of the confidential documents is improved.

Disclosure of Invention

The invention aims to overcome the defects and provide an anti-counterfeiting label, an anti-counterfeiting label manufacturing system and an anti-counterfeiting management and control system.

In order to achieve the above object, the present invention is specifically as follows:

the first aspect of the invention provides an anti-counterfeiting label for an anti-counterfeiting file bag, which comprises a basal layer adhered to a bag opening of the anti-counterfeiting file bag, wherein a plurality of accommodating grooves are arrayed on the top surface of the basal layer;

each containing groove is internally provided with first particles, second particles or third particles, the first particles and the second particles are made of particles which can be heated by induction, the resistivity of the first particles is larger than that of the second particles, and the third particles are made of particles which can not be heated by induction;

the bottom of the accommodating groove is coated with an adhesive layer capable of adhering and fixing particles, and the groove wall of the accommodating groove is made of a material with good heat insulation property, so that the particles in different accommodating grooves can not transfer heat during induction heating;

the top surface of the basal layer is covered with a thermal shrinkage film, and the thermal shrinkage film seals and positions the particles in the accommodating groove.

Optionally, a plurality of detection grooves are distributed on the top surface of the substrate layer outside the containing groove, and the bottom of each detection groove is coated with a metal coating capable of being heated by induction.

The second aspect of the invention provides an anti-counterfeit label manufacturing system of the anti-counterfeit label, which comprises a first box body with a throwing port, wherein a guide workbench is arranged in the first box body, the guide workbench is provided with a bearing component for supporting an anti-counterfeit file bag sliding down from the throwing port along the guide workbench, the bearing component is connected with a first driving component, and the first driving component is connected with a blanking mechanism positioned above the bearing component;

the first driving component drives the blanking mechanism to convey the mixed first particles, second particles and third particles into the accommodating grooves of the basal layer of the anti-counterfeiting file bag when the anti-counterfeiting file bag is supported on the bearing component;

a film covering mechanism is arranged on one side, far away from the input port, of the first box body; the guide workbench is provided with a first conveying mechanism between the film covering mechanism and the bearing assembly, and the film covering mechanism covers the heat shrinkage film on the top surface of the basal layer of the anti-counterfeiting file bag.

Optionally, the guiding workbench is provided with an inclined part and a horizontal part, one end of the inclined part extends to the lower end position of the input port, two baffle plates which are vertically arranged are arranged at intervals on the guiding workbench, the two baffle plates form a slideway, one end of the horizontal part is connected with the other end of the inclined part, and the other end of the horizontal part extends to the inner side wall of the first box body;

an avoidance gap is formed at one end of the horizontal part, and the bearing assembly is elastically and floatingly arranged at the avoidance gap;

the support block is arranged in the avoidance notch, and two elastic baffle plates are oppositely arranged on one side of the avoidance notch away from the inclined part.

Optionally, the bearing assembly includes the backup pad, the backup pad is connected with first spring with the inner bottom of first box, one side that the backup pad is close to the tilting portion slides and sets up the transition board, be connected with the second spring along anti-fake file bag direction of delivery between transition board and the backup pad, the transition board flushes with the top surface of backup pad, one side that the tilting portion was kept away from to the backup pad sets up the notch to in the partial embedding notch of first transport mechanism.

Optionally, first drive assembly includes the guide holder, the one end of guide holder is fixed on the interior roof of first box, the other end of guide holder slides and sets up the rack piece, the rack piece is connected with unloading mechanism transmission, be connected with the third spring between the upper end of rack piece and the guide holder, the lower extreme of rack piece is connected with first connecting rod, the lower extreme of first connecting rod articulates there is the second connecting rod, the second connecting rod articulates with the backup pad.

Optionally, the unloading mechanism includes the feed bin, the feed bin is connected with the branch material seat, divide the material seat to set up inlet pipe and discharging pipe, the inlet pipe is connected with the discharge spout of feed bin, divide material seat one side to set up branch silo, divide the silo rotation to set up the tripper, the tripper interval sets up two at least material storage mouths, one side of tripper sets up one-way ratchet subassembly, one-way ratchet subassembly coaxial coupling has the transmission shaft, transmission shaft coaxial coupling has the gear, gear and rack block meshing, through rack block drive gear rotation, through the transmission shaft transmission, drive one-way ratchet subassembly drives the tripper unidirectional rotation, makes the position of material storage mouth and inlet pipe and discharging pipe correspond in turn.

Optionally, the tectorial membrane mechanism is including fixing the tectorial membrane support at the internal roof of first box, the tectorial membrane support interval rotates and sets up two roller, two transmission connection between the roller, one of them roller sets up the film and rolls up, and another roller sets up the recovery rolling, the position that the tectorial membrane support corresponds two roller sets up the rotor respectively, the pyrocondensation film wrap-around that the film was rolled up and is released is at the rotor, the tectorial membrane support still installs first motor, first motor output is connected with one of them roller, the tectorial membrane support is fixed with the push rod, the output of push rod is connected with the hot stamping head.

Optionally, set up waste recovery subassembly in the first box between unloading mechanism and tectorial membrane mechanism, waste recovery subassembly is including setting up the recovery storehouse and the adsorption tube of connection on retrieving the storehouse at the press mold support.

The third aspect of the invention provides an anti-counterfeiting management and control system, which comprises an anti-counterfeiting identification storage system and the anti-counterfeiting label manufacturing system;

the anti-counterfeiting identification storage system comprises a second box body communicated with the first box body, wherein the second box body is provided with a supporting plate, an infrared scanning mechanism is arranged above the supporting plate, the infrared scanning mechanism is provided with an induction heating unit which generates alternating magnetic fields to heat first particles, second particles and a metal coating, and the supporting plate is provided with a second conveying mechanism;

the anti-counterfeiting identification storage system also comprises a terminal server which is arranged in the second box body and is in communication connection with the infrared scanning mechanism, a management module which is used for storing file information in the anti-counterfeiting file bag, an image analysis module which is in communication connection with the management module and the terminal server, and a communication module which is in communication connection with the image analysis module.

The beneficial effects of the invention are as follows: according to the file bag sealing method, the file bag is sealed in an anti-counterfeiting label mode, and the anti-counterfeiting label generates unique images through the brightness difference and the brightness difference of the luminous areas through the different heating values of the first particles, the second particles and the third particles, so that the file bag sealing effect can be achieved, the anti-counterfeiting effect is achieved, the security of the confidential file is improved, the confidential file can be effectively prevented from being copied and replaced, and the uniqueness and the integrity of the confidential file are guaranteed.

Drawings

FIG. 1 is a schematic diagram of the anti-counterfeit identification storage system of the present invention;

FIG. 2 is a cross-sectional view of the anti-counterfeiting identification storage system of the present invention;

FIG. 3 is a schematic diagram of a portion of the structure of the anti-counterfeit identification storage system of the present invention;

FIG. 4 is a schematic structural view of a security document pouch having a security tag;

FIG. 5 is a schematic view of the structure of the guide table of the present invention;

FIG. 6 is a schematic view of the structure of the load bearing assembly of the present invention;

FIG. 7 is a schematic view of the first drive assembly of the present invention;

FIG. 8 is a schematic structural view of the blanking mechanism of the present invention;

FIG. 9 is a schematic view of the construction of the film laminating mechanism and the waste recycling assembly of the present invention;

FIG. 10 is a schematic diagram of the structure of the infrared scanning mechanism of the present invention;

reference numerals illustrate: 11. a base layer; 12. a receiving groove; 13. a detection groove; 21. a first case; 211. a charging port; 22. a guide workbench; 221. an inclined portion; 222. a horizontal portion; 223. a baffle; 224. a slideway; 225. avoiding the notch; 226. a support block; 227. an elastic baffle; 231. a support plate; 232. a first spring; 233. a transition plate; 234. a second spring; 235. a notch; 241. a guide seat; 242. a rack block; 243. a third spring; 244. a first link; 245. a second link; 251. a storage bin; 252. a material distributing seat; 2521. a feed pipe; 2522. a discharge pipe; 2523. a material dividing groove; 253. a distributor; 2531. a material storage port; 2541. ratchet tooth slot; 2542. a turntable; 2543. a pawl; 2544. a spring plate; 255. a transmission shaft; 256. a gear; 261. a film pressing bracket; 262. a roll of film; 263. recovering the coil; 264. a rotating roller; 265. a first motor; 266. a push rod; 267. a hot stamping head; 27. a first conveying mechanism; 281. a recycling bin; 282. an adsorption tube; 31. a second case; 32. a supporting plate; 33. an infrared scanning mechanism; 331. an induction heating unit; 34. a second conveying mechanism; 35. a terminal server; 36. a management module; 37. an image analysis module; 38. a communication module; 4. the terminal is identified.

Detailed Description

The invention will now be described in further detail with reference to the drawings and the specific embodiments, without limiting the scope of the invention.

As shown in fig. 1 to 10, the anti-counterfeiting management and control system according to the embodiment seals the opening of the anti-counterfeiting file bag by using the anti-counterfeiting label so as to achieve the security management and control of the file in the anti-counterfeiting file bag. Forming an anti-counterfeiting label at the mouth of the anti-counterfeiting file bag through an anti-counterfeiting label manufacturing system; the anti-fake identification storage system scans the anti-fake label and stores the obtained label information.

The anti-counterfeiting label comprises a basal layer 11 adhered to the mouth of the anti-counterfeiting file bag, wherein a plurality of accommodating grooves 12 are arrayed on the top surface of the basal layer 11;

each of the accommodating grooves 12 is provided with first particles, second particles or third particles, which are not shown in the figure, namely, the accommodating groove 12 can accommodate only one particle, the first particles and the second particles are made of metal particles which can be heated by induction, such as iron particles or aluminum particles, the resistivity of the first particles is larger than that of the second particles, and the third particles are made of particles which can not be heated by induction, such as silicon dioxide and ceramic particles;

the bottom of the accommodating groove 12 is coated with a self-adhesive layer (not shown in the figure) capable of adhering and fixing particles, and the groove wall of the accommodating groove 12 is made of a material with good heat insulation property, so that the particles in different accommodating grooves 12 can not transfer heat during induction heating;

the top surface of the substrate layer 11 is covered with a heat shrink film (not shown) that seals the particles into the receiving groove 12.

Further, the top surface of the substrate layer 11 is provided with a plurality of detection grooves 13 on the outer side of the receiving groove 12, and the bottom of the detection grooves 13 is coated with a metal coating (not shown in the figure) capable of being inductively heated.

The anti-counterfeiting label manufacturing system comprises a first box body 21 with an input port 211, wherein a guide workbench 22 is arranged in the first box body 21, the guide workbench 22 is provided with a bearing component for supporting an anti-counterfeiting file bag sliding down from the input port 211 along the guide workbench 22, the bearing component is connected with a first driving component, and the first driving component is connected with a blanking mechanism positioned above the bearing component;

the blanking mechanism stores uniformly mixed first particles, second particles and third particles, and when the anti-counterfeiting file bag is supported on the bearing assembly, the first driving assembly drives the blanking mechanism to convey the mixed first particles, second particles and third particles into the accommodating grooves 12 of the basal layer 11 of the anti-counterfeiting file bag;

a film coating mechanism is arranged on one side of the first box body 21 far from the input port 211; the guiding workbench 22 is provided with a first conveying mechanism 27 between the film covering mechanism and the bearing component, and the film covering mechanism covers the heat shrinkage film on the top surface of the basal layer 11 of the anti-counterfeiting file bag, so that each first particle, each second particle or each third particle is positioned in the accommodating groove 12 in a sealing way, and an anti-counterfeiting label for sealing the file bag is formed on the opening of the file bag.

The anti-counterfeiting identification storage system comprises a second box body 31 communicated with a first box body 21, so that a first conveying mechanism 27 conveys anti-counterfeiting file bags with anti-counterfeiting labels into the second box body 31, the second box body 31 is provided with a supporting plate 32, the supporting plate 32 is used for supporting the anti-counterfeiting file bags, an infrared scanning mechanism 33 is arranged above the supporting plate 32, the infrared scanning mechanism 33 is provided with an induction heating unit 331 for heating first particles, second particles and a metal coating by generating an alternating magnetic field, the supporting plate 32 is provided with a second conveying mechanism 34, and the anti-counterfeiting file bags scanned by the infrared scanning mechanism 33 are conveyed to a storage area of the second box body 31 by the second conveying mechanism 34;

the anti-counterfeiting identification storage system further comprises a terminal server 35, a management module 36, an image analysis module 37 and a communication module 38, wherein the terminal server 35 is arranged in the second box body 31 and is in communication connection with the infrared scanning mechanism 33, the management module 36 is used for storing file information in an anti-counterfeiting file bag, the image analysis module 37 is in communication connection with the management module 36 and the terminal server 35, and the communication module 38 is in communication connection with the image analysis module 37.

When a confidential document needs to be sealed, the confidential document is filled into a security document bag, the opening of the security document bag is sealed by a substrate layer 11 with an adhesive security label, then the sealed security document bag is put into the first box 21 from a feeding port 211 of the first box 21 in an upward posture of the substrate layer 11, the security document bag slides along a guide workbench 22 and is then supported on a bearing component, then a first driving component drives a blanking mechanism to work, the blanking mechanism conveys uniformly mixed first particles, second particles and third particles into each accommodating groove 12 of the substrate layer 11, the first particles, the second particles or the third particles randomly fall into the accommodating grooves 12, particle feeding is realized, the first particles, the second particles or the third particles are adhered and fixed by self-adhesive in the accommodating grooves 12, then the first driving mechanism drives the security document bag to move to the lower part of a film covering mechanism, the film covering mechanism covers a layer of heat shrinkage film on the substrate layer 11, and the heat shrinkage film tightly seals the first particles, the second particles and the third particles, so that the security label is manufactured in the accommodating grooves 12;

then the first conveying mechanism 27 conveys the anti-counterfeiting file bag with the anti-counterfeiting label into the second box 31, the second conveying mechanism 34 in the second box 31 conveys the anti-counterfeiting file bag to the lower part of the infrared scanning mechanism, at the moment, the induction heating unit 331 generates an alternating magnetic field to perform induction heating on the first particles, the second particles and the metal coating on the anti-counterfeiting label, the heating temperature of the first particles, the second particles and the metal coating is lower than the temperature at which the heat shrinkage film is subjected to heat shrinkage, the resistivity of the first particles and the resistivity of the second particles are different under the same induction heating condition, the heating values of the first particles and the second particles are different, so that a luminous area with brightness difference can be formed in the process of performing heat imaging on the anti-counterfeiting label by the infrared scanning mechanism 33, a dark area can be formed in the process of performing induction heating on the third particles, the fixed positions of the falling points of the first particles, the second particles and the third particles are different in the position, the brightness difference of the luminous area and the bright-dark position difference can be formed, so that the infrared scanning mechanism 33 generates a unique thermal imaging image, and the infrared scanning mechanism 33 performs photographing on the generated thermal imaging image to obtain a first recorded image;

the infrared scanning mechanism 33 sends the first image to the terminal server 35, the document manager inputs the file information of the confidential file into the management module 36, the file information comprises names, categories, filing time and filing people, then the terminal server 35 sends the first image to the image analysis module 37, the management module 36 sends the file information to the image analysis module 37, the image analysis module 37 carries out analysis, matching and binding on the file information and the first image, and the purpose that one anti-counterfeiting label is matched with one confidential file is achieved;

when a manager needs to borrow the sealed secret-related file, the identification terminal 4 is used for scanning the anti-counterfeiting label of the anti-counterfeiting file bag, the scanning is performed to generate a second image, the second image is sent to the image analysis module 37 through the communication module 38, the image analysis module 37 compares and identifies the first image and the second image, the metal coating light shadows of the first image and the second image are overlapped, the offset generated in the scanning process of the first image and the second image is corrected, then the comparison is performed, if the imaging characteristics of the first image and the second image are consistent, the anti-counterfeiting label is finished, the secret-related file is not leaked, the image analysis module 37 sends a file perfect signal to the identification terminal 4 through the communication module 38, and the manager is informed that the file is real and the secret is not leaked; if the imaging characteristics of the two are inconsistent, the anti-counterfeit label is possibly damaged and replaced, the authenticity of the confidential document is doubtful, and the communication module 38 sends an alarm signal to the identification terminal 4 to prompt a manager that the confidential document lacks integrity and possibly has been compromised.

According to the file bag sealing method, the file bag is sealed in an anti-counterfeiting label mode, and the anti-counterfeiting label is different in heating value through the first particles, the second particles and the third particles, so that an image with uniqueness is generated through brightness difference and brightness position difference of a light-emitting area, the file bag sealing effect can be achieved, the anti-counterfeiting effect is achieved, the security of the confidential file is improved, copying and replacement of the confidential file can be effectively prevented, and uniqueness and integrity of the confidential file are guaranteed.

According to the embodiment, the security of the confidential document is further improved by forming the anti-counterfeiting label in the storage process of the confidential document.

As shown in fig. 4, in this embodiment, the shapes of the first particles are different, the shapes of the second particles are different, and the shapes of the third particles are different, so that the anti-counterfeiting effect is further improved by using the shape difference of the particles.

In this embodiment, the shapes of the detection grooves 13 may be different, so that the shapes of the metal coatings have different shapes, and the anti-counterfeit effect of the anti-counterfeit label is further improved.

As shown in fig. 5, in one anti-counterfeiting control system of the present embodiment, in some embodiments, the guiding table 22 has an inclined portion 221 and a horizontal portion 222, one end of the inclined portion 221 extends to a lower end position of the input port 211, two vertically disposed baffles 223 are disposed on the guiding table 22 at intervals, the two baffles 223 form a slideway 224, one end of the horizontal portion 222 is connected with the other end of the inclined portion 221, and the other end of the horizontal portion 222 extends to an inner side wall of the first box 21;

an avoidance gap 225 is formed at one end of the horizontal portion 222, and the bearing assembly is elastically and floatingly arranged at the avoidance gap 225;

the avoidance notch 225 is internally provided with a support block 226, and one side of the avoidance notch 225 far away from the inclined part 221 is relatively provided with two elastic baffle plates 227. The number of the supporting blocks 226 is four, and the four supporting blocks 226 are distributed on two sides of the avoidance gap 225 in a rectangular shape so as to provide reliable support for the bearing assembly.

According to the embodiment, the inclined portion 221 is arranged, so that the anti-counterfeiting file bag can slide down under the dead weight, the slide way 224 is formed through the two baffles 223, the anti-counterfeiting file bag is limited, the first particles, the second particles and the third particles are reliably conveyed into the accommodating groove 12 by the discharging mechanism, the anti-counterfeiting file bag slides to the bearing component, the anti-counterfeiting file bag is blocked by the two elastic baffle plates 227, the anti-counterfeiting file bag is prevented from being separated from the bearing component, the position of the anti-counterfeiting file bag after sliding down is ensured, the bearing component drives the anti-counterfeiting file bag to move downwards under the action of gravity until the bearing component abuts against the supporting block 226, and the supporting block 226 limits and supports the bearing component.

As shown in fig. 2, 3 and 6, in some embodiments, the carrying assembly includes a supporting plate 231, the supporting plate 231 is connected with a first spring 232 with an inner bottom of the first box 21, a transition plate 233 is slidably disposed on a side of the supporting plate 231 near the inclined portion 221, a second spring 234 is connected between the transition plate 233 and the supporting plate 231 along a conveying direction of the anti-counterfeiting file bag, the transition plate 233 is flush with a top surface of the supporting plate 231, and a notch 235 is disposed on a side of the supporting plate 231 far from the inclined portion 221, so that a part of the first conveying mechanism 27 is embedded in the notch 235. In this embodiment, the transition plate 233 is provided, so that when the anti-counterfeit document bag slides down from the inclined portion 221, the anti-counterfeit document bag can be smoothly transited to the supporting plate 231 through the transition plate 233, after the anti-counterfeit document bag slides down to the supporting plate 231, the first spring 232 is compressed under the action of gravity until the bottom surface of the supporting plate 231 contacts with the supporting block 226, meanwhile, the second spring 234 keeps the transition plate 233 abutting against the inclined portion 221 all the time, so as to ensure smooth transition of the anti-counterfeit document bag, and the notch 235 is provided, so that the anti-counterfeit document bag supported on the supporting plate 231 can be moved out of the supporting plate 231 to be conveyed by overcoming the elastic force of the elastic baffle 227 through the first conveying mechanism 27.

As shown in fig. 2, 3 and 7, in some embodiments, the first driving component includes a guide holder 241, one end of the guide holder 241 is fixed on the inner top wall of the first box 21, the other end of the guide holder 241 is slidably provided with a rack block 242, the rack block 242 is in transmission connection with the blanking mechanism, a third spring 243 is connected between the upper end of the rack block 242 and the guide holder 241, the lower end of the rack block 242 is connected with a first connecting rod 244, the lower end of the first connecting rod 244 is hinged with a second connecting rod 245, and the second connecting rod 245 is hinged with the supporting plate 231. Specifically, after the anti-counterfeiting file bag slides to the supporting plate 231, the supporting plate 231 drives the anti-counterfeiting belt to compress the first spring 232 to move downwards, in the process of moving downwards the supporting plate 231, the toothed bar block 242 is driven to slide relative to the guide seat 241 by the transmission of the first connecting rod 244 and the second connecting rod 245, the third spring 243 is stretched, so that the blanking mechanism is driven to work, the blanking mechanism conveys the first particles, the second particles and the third particles into each accommodating groove 12, the falling power of the anti-counterfeiting file bag is converted into the falling power of the toothed bar block 242 which slides downwards to drive the falling mechanism to feed, the linkage between blanking and the anti-counterfeiting file bag is realized, and the structure is more reliable; after the first conveying mechanism 27 moves the security document bag out of the supporting plate 231, the first spring 232 is reset to push the supporting plate 231 to move upwards, and the third spring 243 is reset, so that the rack block 242 is reset to facilitate the unloading operation of the next security document bag.

As shown in fig. 2, 3 and 8, in some embodiments, the feeding mechanism includes a bin 251, the bin 251 is connected with a distributing seat 252, the distributing seat 252 is provided with a feeding pipe 2521 and a discharging pipe 2522, the feeding pipe 2521 is connected with a discharge spout of the bin 251, one side of the distributing seat 252 is provided with a distributing groove 2523, the distributing groove 2523 is internally provided with a distributor 253 in a rotating manner, the distributor 253 is provided with at least two material storage ports 2531 at intervals, one side of the distributor 253 is provided with a unidirectional ratchet assembly, the unidirectional ratchet assembly is coaxially connected with a transmission shaft 255, the transmission shaft 255 is coaxially connected with a gear 256, the gear 256 is meshed with a rack block 242, the gear 256 is driven to rotate through the gear 242, and the unidirectional ratchet assembly is driven to drive the distributor 253 to rotate unidirectionally so that the material storage ports 2531 alternately correspond to positions of the feeding pipe 2521 and the discharging pipe 2522.

Specifically, the first particles, the second particles and the third particles which are uniformly mixed are stored in the bin 251, the first particles, the second particles and the third particles in the bin 251 enter the feeding pipe 2521 of the material distributing seat 252 through the discharge spout of the bin 251, then enter the material storage opening 2531 corresponding to the position of the feeding pipe 2521 from the feeding pipe 2521, when the anti-counterfeiting file bag is supported on the supporting plate 231, the rack block 242 slides under the drive of the first connecting rod 244 and the second connecting rod 245, so that the gear 256 is driven to rotate, the gear 256 drives the unidirectional ratchet assembly to work through the transmission shaft 255, the unidirectional ratchet assembly drives the distributor 253 to rotate, and the distributor 253 drives the material storage opening 2531 storing the first particles, the second particles and the third particles to rotate to correspond to the position of the discharging pipe 2522, so that the first particles, the second particles and the third particles in the material storage opening 2531 fall into the accommodating grooves 12 of the substrate layer 11 along the discharging pipe 2522, and feeding of the first particles, the second particles and the third particles is realized; simultaneously rotating the free stock port 2531 to correspond to the position of the feed pipe 2521; thus, whenever the anti-counterfeiting file bag slides to the supporting plate 231, the first particles, the second particles and the third particles are automatically conveyed into the accommodating groove 12 by the blanking mechanism under the drive of the first driving assembly, so that automatic feeding is realized.

As shown in fig. 8, in this embodiment, a ratchet groove 2541 is concavely formed on one side of the distributor 253 in the thickness direction, a turntable 2542 is rotatably disposed in the ratchet groove 2541, a pawl 2543 and a spring plate 2544 are hinged on the turntable 2542, one end of the spring plate 2544 is connected with the pawl 2543, and the pawl 2543 is meshed with the ratchet of the ratchet groove 2541; the ratchet slot 2541, dial 2542, pawl 2543, spring 2544 together comprise a unidirectional ratchet assembly. Therefore, when the transmission shaft 255 rotates, the transmission shaft 255 drives the turntable 2542 to rotate, and the turntable 2542 is matched with the ratchet groove 2541 through the pawl 2543 and the elastic sheet 2544 to drive the distributor 253 to rotate, so that feeding of particles is realized.

As shown in fig. 2, 3 and 9, in some embodiments, the film laminating mechanism includes a film laminating bracket 261 fixed on an inner top wall of the first box 21, two rollers are rotatably disposed on the film laminating bracket 261 at intervals, two rollers are in transmission connection with each other, one of the rollers is provided with a film roll 262, the other roller is provided with a recovery roll 263, the positions of the film laminating bracket 261 corresponding to the two rollers are respectively provided with a rotating roller 264, a heat-shrinkable film released by the film roll 262 is wound on the rotating roller 264, the film laminating bracket 261 is further provided with a first motor 265, an output end of the first motor 265 is connected with one of the rollers, a push rod 266 is fixed on the film laminating bracket 261, and an output end of the push rod 266 is connected with a hot-press head 267. Specifically, a hot-melt ring is arranged on the hot-stamping head 267, and the two roll shafts are in transmission connection through a transmission belt, so that when one roll shaft is driven to rotate by the first motor 265, the other roll shaft is driven to rotate by the transmission belt, and the film roll 262 is driven to unwind and the recovery roll 263 is driven to wind; after the anti-counterfeiting file bag is moved in place under the drive of the first conveying mechanism 27, the push rod 266 drives the hot stamping head 267 to downwards extend to the anti-counterfeiting label, the hot melting ring fuses the part of the heat-shrinkable film, the fused heat-shrinkable film is tightly covered on the substrate layer 11, particles in the accommodating groove 12 are sealed, and running of the particles is avoided.

Further, a shielding layer (not shown in the figure) capable of isolating visible light is coated on the surface of the heat-shrinkable film, so as to ensure that the particles in the accommodating groove 12 are polluted by the visible light, and ensure the anti-counterfeiting property of the particles.

As shown in fig. 2, 3 and 9, in some embodiments, a waste recycling assembly is disposed between the blanking mechanism and the film covering mechanism in the first box 21, and the waste recycling assembly includes a recycling bin 281 disposed on the film pressing bracket 261 and an adsorption tube 282 connected to the recycling bin 281. In actual use, the first conveying mechanism 27 firstly conveys the anti-counterfeiting file bags to the positions corresponding to the positions of the waste recycling components, and then the adsorption tube 282 reliably absorbs the surplus non-adhered and fixed on the anti-counterfeiting label into the recycling bin 281, so that only one particle in each containing groove 12 is further ensured.

In this embodiment, the first conveying mechanism 27 and the second conveying mechanism 34 each include a second motor, two belt wheels rotatably arranged at intervals, and a driving belt, and the second motor is in transmission connection with one of the belt wheels, so that when the belt wheels are driven to rotate, the driving belt is driven to rotate, and conveying of the anti-counterfeiting document bags is performed.

The foregoing description is only one preferred embodiment of the invention, and therefore all changes and modifications that come within the meaning and range of equivalency of the structures, features and principles of the invention are intended to be embraced therein.

Claims (10)

1. An anti-counterfeiting label is characterized by comprising a basal layer (11) adhered to the mouth of an anti-counterfeiting file bag, wherein a plurality of accommodating grooves (12) are arrayed on the top surface of the basal layer (11);

each containing groove (12) is internally provided with first particles, second particles or third particles, the first particles and the second particles are made of particles which can be heated by induction, the resistivity of the first particles is larger than that of the second particles, and the third particles are made of particles which can not be heated by induction;

the bottom of the accommodating groove (12) is coated with a self-adhesive layer capable of adhering and fixing particles, and the groove wall of the accommodating groove (12) is made of a material with good heat insulation property, so that the particles in different accommodating grooves (12) can not transfer heat during induction heating;

the top surface of the basal layer (11) is covered with a heat-shrinkable film, and the particles are sealed and positioned in the accommodating groove (12) by the heat-shrinkable film.

2. An anti-counterfeit label according to claim 1, wherein the top surface of the substrate layer (11) is provided with a plurality of detection grooves (13) outside the containing groove (12), and the bottom of the detection grooves (13) is coated with a metal coating capable of being heated by induction.

3. A tamper-evident label producing system as claimed in claim 2, comprising a first housing (21) having a feed opening (211), a guide table (22) being provided in the first housing (21), the guide table (22) being provided with a carrier member for supporting the tamper-evident pouch after sliding down from the feed opening (211) along the guide table (22), the carrier member being connected with a first drive member, the first drive member being connected with a blanking mechanism located above the carrier member;

the blanking mechanism stores uniformly mixed first particles, second particles and third particles, and when the anti-counterfeiting file bag is supported on the bearing assembly, the first driving assembly drives the blanking mechanism to convey the mixed first particles, second particles and third particles into each accommodating groove (12) of the basal layer (11) of the anti-counterfeiting file bag;

a film covering mechanism is arranged at one side of the first box body (21) far from the input port (211); the guide workbench (22) is provided with a first conveying mechanism (27) between the film coating mechanism and the bearing assembly, and the film coating mechanism covers the heat shrinkage film on the top surface of the basal layer (11) of the anti-counterfeiting file bag.

4. A tamper-evident label producing system according to claim 3, wherein the guiding table (22) has an inclined portion (221) and a horizontal portion (222), one end of the inclined portion (221) extends to a lower end position of the input port (211), the guiding table (22) is provided with two vertically arranged baffles (223) at intervals, the two baffles (223) form a slideway (224), one end of the horizontal portion (222) is connected with the other end of the inclined portion (221), and the other end of the horizontal portion (222) extends to an inner side wall of the first case (21);

an avoidance gap (225) is formed at one end of the horizontal part (222), and the bearing assembly is elastically and floatingly arranged at the avoidance gap (225);

the avoidance notch (225) is internally provided with a supporting block (226), and one side of the avoidance notch (225) far away from the inclined part (221) is oppositely provided with two elastic baffle plates (227).

5. The anti-counterfeit label manufacturing system according to claim 4, wherein the bearing assembly comprises a supporting plate (231), the supporting plate (231) and the inner bottom of the first box body (21) are connected with a first spring (232), one side of the supporting plate (231) close to the inclined part (221) is slidably provided with a transition plate (233), a second spring (234) is connected between the transition plate (233) and the supporting plate (231) along the conveying direction of the anti-counterfeit file bag, the transition plate (233) is flush with the top surface of the supporting plate (231), and one side of the supporting plate (231) far away from the inclined part (221) is provided with a notch (235) so that a part of the first conveying mechanism (27) is embedded in the notch (235).

6. The anti-counterfeit label manufacturing system according to claim 5, wherein the first driving assembly comprises a guide seat (241), one end of the guide seat (241) is fixed on the inner top wall of the first box body (21), the other end of the guide seat (241) is slidably provided with a rack block (242), the rack block (242) is in transmission connection with the discharging mechanism, a third spring (243) is connected between the upper end of the rack block (242) and the guide seat (241), a first connecting rod (244) is connected with the lower end of the rack block (242), a second connecting rod (245) is hinged to the lower end of the first connecting rod (244), and the second connecting rod (245) is hinged to the supporting plate (231).

7. The anti-counterfeit label manufacturing system according to claim 6, wherein the discharging mechanism comprises a bin (251), the bin (251) is connected with a distributing seat (252), the distributing seat (252) is provided with a feeding pipe (2521) and a discharging pipe (2522), the feeding pipe (2521) is connected with a discharge spout of the bin (251), one side of the distributing seat (252) is provided with a distributing groove (2523), the distributing groove (2523) is rotationally provided with a distributor (253), the distributor (253) is provided with at least two material storage ports (2531) at intervals, one side of the distributor (253) is provided with a one-way ratchet assembly, the one-way ratchet assembly is coaxially connected with a transmission shaft (255), the transmission shaft (255) is coaxially connected with a gear (256), the gear (242) is meshed with a rack block (242), the gear (256) is driven to rotate through the transmission shaft (255), and the one-way ratchet assembly is driven to drive the distributor (253) to rotate in one direction, so that the material storage ports (2531) alternately correspond to the positions of the feeding pipe (2521) and the discharging pipe (2522).

8. The anti-counterfeit label manufacturing system according to claim 3, wherein the film laminating mechanism comprises a film laminating bracket (261) fixed on the inner top wall of the first box body (21), the film laminating bracket (261) is provided with two rollers in a rotating mode at intervals, the two rollers are in transmission connection, one roller is provided with a film roll (262), the other roller is provided with a recovery roll (263), the positions, corresponding to the two rollers, of the film laminating bracket (261) are respectively provided with a rotating roller (264), a heat-shrinkable film released by the film roll (262) is wound on the rotating rollers (264), the film laminating bracket (261) is further provided with a first motor (265), the output end of the first motor (265) is connected with one roller, the film laminating bracket (261) is fixedly provided with a push rod (266), and the output end of the push rod (266) is connected with a hot embossing head (267).

9. The anti-counterfeit label production system of claim 8, wherein a waste recycling assembly is arranged between the blanking mechanism and the film covering mechanism in the first box body (21), and comprises a recycling bin (281) arranged on the film pressing support (261) and an adsorption tube (282) connected to the recycling bin (281).

10. An anti-counterfeiting management and control system, comprising an anti-counterfeiting identification storage system and an anti-counterfeiting label making system according to any one of claims 3 to 9;

the anti-counterfeiting identification storage system comprises a second box body (31) communicated with a first box body (21), wherein the second box body (31) is provided with a supporting plate (32), an infrared scanning mechanism (33) is arranged above the supporting plate (32), the infrared scanning mechanism (33) is provided with an induction heating unit (331) which heats first particles, second particles and a metal coating by generating an alternating magnetic field, and the supporting plate (32) is provided with a second conveying mechanism (34);

the anti-counterfeiting identification storage system further comprises a terminal server (35) which is arranged in the second box body (31) and is in communication connection with the infrared scanning mechanism (33), a management module (36) which is used for storing file information in the anti-counterfeiting file bag, an image analysis module (37) which is in communication connection with the management module (36) and the terminal server (35), and a communication module (38) which is in communication connection with the image analysis module (37).