CN211180861U - RFID anti-counterfeiting vehicle sticker label - Google Patents

Abstract

The utility model relates to a RFID car sticker that guards against falsification belongs to anti-fake technical field. The adhesive comprises a base paper layer, an adhesive layer A, a dielectric film layer, an adhesive layer B, a laser icon, an adhesive layer C, a composite layer, an adhesive layer D, a chip, an electronic tag inlay layer, an adhesive layer E and a surface layer which are sequentially arranged from top to bottom; the medium film layer is a laser holographic medium film layer, and a special image is printed on the laser holographic medium film layer; the base paper layer is provided with an information printing area corresponding to the information printing area, and the adhesive layer A, the adhesive layer B, the adhesive layer C, the adhesive layer D and the adhesive layer E are empty. The utility model discloses there is readable printing information, has the electronic tags inlay layer and the chip of storage information, through special read write line instrument, can conveniently read information, carries out information verification and discernment to the vehicle, can play the effect of management vehicle, has compounded laser icon and laser holographic medium rete, has unique anti-fake function.

Description

RFID anti-counterfeiting vehicle sticker label

Technical Field

The utility model relates to a RFID car sticker that guards against falsification belongs to anti-fake technical field.

Background

RFID radio frequency identification technology: the full English name of the RFID is Radio Frequency identification RFID, which is simply a non-contact automatic identification technology, and the RFID automatically identifies a target object and acquires related data through a Radio Frequency signal, so that the whole identification work does not need manual intervention and can work in various severe environments. RFID technology can identify objects moving at high speeds and a single very specific object, and can identify multiple tags simultaneously. Because it adopts radio frequency, can see through the outside material and read data, can discern a plurality of objects simultaneously moreover, so, more convenient and fast, except these, still have a biggest characteristic to store the information volume very big. As early as the second war, RFID was used by the army to identify aircraft from home and allied forces. Later, this technology has been applied mainly to limited fields such as wildlife tracking, highway and parking tolling, and is therefore not known. However, the technology is now increasingly widely used in the fields of industrial automation, commercial automation, and transportation control management. With the progress of large scale integrated circuit technology and the continuous enlargement of production scale, the cost of radio frequency identification products will be reduced continuously, and the application thereof will be more and more extensive. It is mainly composed of electronic label with chip, reader-writer and communication system. The main working principle is as follows: after entering a magnetic field of electromagnetic waves emitted by the reader-writer, the electronic tag receives a wireless radio frequency signal, and sends data information stored in the chip by virtue of energy obtained by the induced current, and the reader-writer reads and decodes the information and sends the information to the central information system for related data processing.

Technical background of RFID on vehicle management: the packaging application forms of the RFID tags in the market at present are many, the RFID tags are special tags which are combined with a shell for injection molding and a fixed support, dripping plastic tags which are adhered by foam adhesive tapes, common self-adhesive tags, modes of making single tags for suspension use and the like, and the packaging forms of the RFID tags are flexible and various in any word, and the purposes of using objects, materials and achieving are mainly considered. Whatever packaging form is adopted, for the production of the RFID label, materials are selected and proper processes are designed to complete the personalized production of products.

3. Besides the ETC system adopts the active electronic tag of 5.8GHZ according to the national standard requirements, the working frequency of the electronic tag used by the RFID in the vehicle management is mainly as follows: high-frequency passive electronic tags of 13.56MHZ and 915 MHZ.

4. The information loading technology comprises the following steps: various data information can be printed on the packaging surface of the RFID electronic tag, or a data association relation is established between the RFID electronic tag and the ID number of the RFID chip, so that data loading is completed.

5. The laser holographic anti-counterfeiting technology comprises the following steps: laser anti-counterfeiting is also called laser anti-counterfeiting, or laser holographic anti-counterfeiting. The laser anti-counterfeiting technology comprises three aspects of laser holographic image anti-counterfeiting, encrypted laser holographic image anti-counterfeiting and laser photoetching anti-counterfeiting technology. The laser holography technology is a stereographic technology which is rapidly developed after the appearance of a laser in the sixties of the twentieth century. "holographic" means "all information", i.e. laser holography is also capable of recording spatial variations of an object, as opposed to the mere brightness variations of an object recorded by ordinary photography.

6. The label composite processing technology comprises the following steps: the compounding is a very common process in the production process of label products, and comprises adhesive sticker coating compounding and curing adhesive coating compounding; common compounding, contraposition compounding and other different technological requirements. The label composite processing technology mainly determines the composite processing technological process of the label according to the structural design of the label.

The existing RFID vehicle label has the following defects:

the existing RFID vehicle sticker electronic tag has a simple structure, uses common materials, and cannot play a real and reliable role in vehicle management due to the poor anti-counterfeiting grade.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: the RFID anti-counterfeiting vehicle sticker label overcomes the defects of the prior art, has readable printing information, an electronic label inlay layer and a chip with storage information, can conveniently read the information through a special reader-writer tool, checks and identifies the information of a vehicle, can play a role in managing the vehicle, is compounded with a laser icon and a laser holographic medium film layer, and has a unique anti-counterfeiting function.

The RFID anti-counterfeiting vehicle label comprises a bottom paper layer, an adhesive layer A, a medium film layer, an adhesive layer B, a laser icon, an adhesive layer C, a composite layer, an adhesive layer D, a chip, an electronic label inlay layer, an adhesive layer E and a surface layer which are sequentially arranged from top to bottom;

the medium film layer is a laser holographic medium film layer, and a special image is printed on the laser holographic medium film layer;

the base paper layer is provided with an information printing area corresponding to the information printing area, and the adhesive layer A, the adhesive layer B, the adhesive layer C, the adhesive layer D and the adhesive layer E are empty.

The composite layer is a layer of printable composite material, can be a film or a paper, and is mainly used for printing L OGO and a positioning cursor, wherein the laser icon 7 is transferred by referring to the positioning cursor, and in addition, the positioning composite with other layer structures can be completed through the tracking of the cursor.

The special image can be an image randomly generated by a computer; and a new identification technology is brought to label anti-counterfeiting.

And the information printing area is used for printing vehicle information, any glue layer cannot be arranged in the area, and the glue layer is arranged on the periphery of the area completely, so that a printing area without glue is formed locally. The information printing area is specially used for printing vehicle information, such as fixed information of license plate numbers or engine numbers and the like, so that managers can conveniently check whether the visible information of the labels is consistent with the actual information of the vehicles, and prevent the shouldering luggage from being worn and falsified.

When in use, the release paper of the base paper layer is taken down and adhered to the inner side surface of the windshield.

Further preferably, the surface layer is a positioning composite electronic tag inlay layer, a chip is arranged on the other surface of the electronic tag inlay layer, and the surface layer, the electronic tag inlay layer and the chip are compounded into a composite layer A through an adhesive layer E.

Preferably, the cursor is printed on the composite layer, the laser icon is pasted in a positioning and pasting mode, and the side, pasted on the laser icon, of the composite layer forms a composite layer B through a glue layer B and a dielectric film layer.

Further preferably, the base paper layer is a double-sided adhesive tape with heavy release silicone oil paper and light release silicone oil paper, and a cursor is printed on the back of the heavy release silicone oil paper; and the back of the heavy release silicone oil paper and the composite layer B are positioned and compounded to form a composite layer C.

Further preferably, the composite layer A is positioned and compounded with the composite layer C.

Further preferably, the adhesive layer a, the adhesive layer B, the adhesive layer C, the adhesive layer D and the adhesive layer E are all pressure-sensitive adhesive layers.

The preparation method of the RFID anti-counterfeiting car sticker label comprises the following steps:

(1) the surface layer is positioned and compounded with the electronic tag inlay layer in an alignment compounding mode, a chip is arranged on the other surface of the electronic tag inlay layer, and the surface layer, the electronic tag inlay layer and the chip are compounded into a compound layer A through an adhesive layer E;

(2) printing a cursor on the composite layer, pasting a laser icon by adopting a positioning and transferring mode, pasting the laser icon on the composite layer through an adhesive layer C, and manufacturing the laser icon by laser holography, plate making, mould pressing, glue coating and mould cutting;

(3) the laser icon is adhered to one surface of the composite layer, and the composite layer B is formed by compounding the adhesive layer B and the dielectric film layer;

(4) the bottom paper layer is a double-sided adhesive tape with heavy release silicone oil paper and light release silicone oil paper, and a cursor is printed on the back of the heavy release silicone oil paper; the back of the heavy release silicone oil paper and the dielectric film layer of the composite layer B are positioned and compounded to form a composite layer C, and the cursor positions of the upper layer and the lower layer are overlapped;

(5) the composite layer A and the composite layer C are compounded according to the cursor alignment;

(6) die-cutting to obtain the product of the vehicle sticker,

(7) printing vehicle information; and obtaining the RFID vehicle sticker label.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a set up information printing area, do not establish the glue film in the information printing area, the periphery is the glue film entirely, can print regional printing vehicle information at the information to whether the manager checks the unanimity of the actual information of the visible information of label and vehicle, prevent to open the hat and wear, make false, realize anti-fake function.

2. The electronic tag inlay layer and the chip are arranged, tag information can be conveniently read through a special reading and writing tool, and vehicle information can be checked and identified;

3. the laser icon and the laser holographic medium film layer are compounded, and the special image and the laser icon on the laser holographic medium film layer have a unique anti-counterfeiting function.

Drawings

Figure 1 is a schematic structural view of an embodiment of the present invention,

figure 2 is a schematic view of the structure of composite layer a,

figure 3 is a schematic view of a laser icon and a composite layer structure,

figure 4 is a schematic view of a laser icon and a dielectric film layer structure,

figure 5 is a schematic view of a laser icon and a base paper layer structure,

fig. 6 is a diagram of the printing effect according to an embodiment of the present invention.

In the figure: 1. surface course 2, electronic tags inlay layer 3, chip 4, glue film E5, glue film D6, composite bed 7, glue film C8, laser icon 9, glue film B10, medium film layer 11, glue film A12, ground paper layer 13, information printing area.

Detailed Description

The technical solution in the embodiments of the present invention will be further clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention:

example 1

As shown in fig. 1-6, the RFID anti-counterfeit vehicle sticker of the present invention includes a base paper layer 12, an adhesive layer a11, a dielectric film layer 10, an adhesive layer B9, a laser icon 8, an adhesive layer C7, a composite layer 6, an adhesive layer D5, a chip 3, an electronic tag inlay layer 2, an adhesive layer E4, and a surface layer 1, which are sequentially disposed from top to bottom;

the medium film layer 10 is a laser holographic medium film layer, and a special image is printed on the laser holographic medium film layer;

the base paper layer 12 is provided with an information printing area 13 corresponding to the information printing area 13, and the glue layer A11, the glue layer B9, the glue layer C7, the glue layer D5 and the glue layer E4 are empty.

The surface layer 1 is used for positioning the composite electronic tag inlay layer 2, the chip 3 is arranged on the other surface of the electronic tag inlay layer 2, and the surface layer 1, the electronic tag inlay layer 2 and the chip 3 are compounded into a composite layer A through an adhesive layer E4.

Printing a cursor on the composite layer 6, pasting the laser icon 8 by adopting a positioning and pasting mode, and forming a composite layer B on one surface, pasted on the laser icon 8, of the composite layer 6 through a glue layer B9 composite medium film layer 10. The laser icon 8 is glued to the composite layer 6 by means of a glue layer C7.

The base paper layer 12 is a double-sided adhesive tape with heavy release silicone oil paper and light release silicone oil paper, and a cursor is printed on the back of the heavy release silicone oil paper; and the back of the heavy release silicone oil paper and the composite layer B are positioned and compounded to form a composite layer C.

The composite layer A and the composite layer C are positioned and compounded.

The adhesive layer A11, the adhesive layer B9, the adhesive layer C7, the adhesive layer D5 and the adhesive layer E4 are all pressure-sensitive adhesive layers.

The preparation method of the RFID anti-counterfeiting car sticker label comprises the following steps:

(1) the surface layer 1 positions and compounds the electronic label inlay layer 2 in an alignment compounding way, a chip 3 is arranged on the other surface of the electronic label inlay layer 2, and the surface layer 1, the electronic label inlay layer 2 and the chip 3 are compounded into a compound layer A through an adhesive layer E4;

(2) printing a cursor on the composite layer 6, pasting a laser icon 8 by adopting a positioning transfer mode, pasting the laser icon 8 on the composite layer 6 through a glue layer C7, and making the laser icon by laser holography, plate making, mould pressing, glue coating and mould cutting;

(3) one side of the composite layer 6, which is stuck with the laser icon 8, is compounded with the dielectric film layer 10 through the glue layer B9 to form a composite layer B;

(4) the base paper layer 12 is a double-sided adhesive tape with heavy release silicone oil paper and light release silicone oil paper, and a cursor is printed on the back of the heavy release silicone oil paper; the back of the heavy release silicone oil paper and the dielectric film layer of the composite layer B are positioned and compounded to form a composite layer C, and the cursor positions of the upper layer and the lower layer are overlapped;

(5) the composite layer A and the composite layer C are compounded according to the cursor alignment;

(6) die-cutting to obtain the product of the vehicle sticker,

(7) printing vehicle information; and (4) mounting the vehicle sticker product prepared in the step (6) on a carbon ribbon printer, adjusting a photoelectric eye recognition device, accurately tracking the position of a cursor, and printing license plate information to finish the manufacture of the whole vehicle sticker label. License plate information of a vehicle can be printed in general; and obtaining the RFID vehicle sticker label.

1. In the manufacturing process of the RFID anti-counterfeiting car sticker, multiple positioning and compounding are adopted. The electronic tag inlay layer and the surface layer are in contraposition compounding; the composite layer is positioned and compounded with the laser icon; the position of the information printing area and the whole label; both require bi-directional registration compounding.

2. An information printing area is set. RFID anti-fake car sticker put up on windshield's the medial surface, set up vehicle information printing area, can not have any glue film in this area, and the peripheral whole glue film that is, form local glueless printing area. And (3) the instant printing or jet printing technology of vehicle information. Personalized vehicle information, such as a license plate number, is printed or inkjet printed without error in a print area of a label that is attached to the windshield through which a user can view and check the vehicle information.

3. The laser holographic anti-counterfeiting technology is adopted, the laser icon is embedded into the label in a transfer mode, and meanwhile, the laser holographic medium film layer with the special image information is compounded through the compounding technology, so that a new identification technology is brought to the anti-counterfeiting of the label.

4. The chip has a unique ID number, and the stored information in the electronic tag inlay layer and the chip ID number establish a one-to-one correspondence.

Working process or working principle:

the light release silicone oil paper is taken off, the RFID anti-counterfeiting vehicle sticker is pasted on the inner side of the windshield of a vehicle, printed vehicle information can be seen, information stored in the electronic tag inlay layer 2 and the chip 3 is read through a special reading and writing tool, the vehicle information can be read, and the vehicle can be managed; the laser icon and the laser holographic medium film layer are printed with special images, and the anti-counterfeiting function is unique.

The utility model discloses in to the direction of structure and the description of relative position relation, it is right not to constitute like the description from top to bottom all around the utility model discloses a restriction only is the description convenient.

Claims (6)

1. An RFID anti-counterfeiting vehicle sticker is characterized by comprising a base paper layer (12), an adhesive layer A (11), a dielectric film layer (10), an adhesive layer B (9), a laser icon (8), an adhesive layer C (7), a composite layer (6), an adhesive layer D (5), a chip (3), an electronic tag inlay layer (2), an adhesive layer E (4) and a surface layer (1) which are sequentially arranged from top to bottom;

the medium film layer (10) is a laser holographic medium film layer, and a special image is printed on the laser holographic medium film layer;

the base paper layer (12) is provided with an information printing area (13) corresponding to the information printing area (13), and the glue layer A (11), the glue layer B (9), the glue layer C (7), the glue layer D (5) and the glue layer E (4) are empty.

2. The RFID anti-counterfeiting vehicle sticker label according to claim 1, wherein the surface layer (1) is used for positioning the composite electronic label inlay layer (2), the chip (3) is arranged on the other surface of the electronic label inlay layer (2), and the surface layer (1), the electronic label inlay layer (2) and the chip (3) are compounded into the composite layer A through the adhesive layer E (4).

3. The RFID anti-counterfeiting vehicle sticker label according to claim 2, wherein a cursor is printed on the composite layer (6), the laser icon (8) is pasted by adopting a positioning and pasting mode, and one surface, pasted with the laser icon (8), of the composite layer (6) forms a composite layer B through a glue layer B (9) and a composite medium film layer (10).

4. The RFID anti-counterfeiting vehicle sticker label according to claim 3, wherein the base paper layer (12) is a double-sided adhesive tape with heavy release silicone oil paper and light release silicone oil paper, and a cursor is printed on the back of the heavy release silicone oil paper; and the back of the heavy release silicone oil paper and the composite layer B are positioned and compounded to form a composite layer C.

5. The RFID anti-counterfeiting vehicle sticker label according to claim 4, wherein the composite layer A is compounded with the composite layer C in a positioning manner.

6. The RFID anti-counterfeiting vehicle sticker label according to any one of claims 1-5, wherein the adhesive layer A (11), the adhesive layer B (9), the adhesive layer C (7), the adhesive layer D (5) and the adhesive layer E (4) are all pressure-sensitive adhesive layers.

Images