CN220232467U

CN220232467U - Interference-reducing active electronic tag

Info

Publication number: CN220232467U
Application number: CN202321504545.7U
Authority: CN
Inventors: 尤锦荣; 王哲; 尤永灿
Original assignee: Fujian Paifang Information Technology Co ltd
Current assignee: Fujian Paifang Information Technology Co ltd
Priority date: 2023-06-13
Filing date: 2023-06-13
Publication date: 2023-12-22
Anticipated expiration: 2033-06-13

Abstract

The utility model relates to the field of electronic tags, in particular to an interference-reducing active electronic tag, which comprises an electronic tag substrate, a mounting groove, an RFID antenna, a chip, a sealing structure, an anti-counterfeiting structure, a wave absorbing plate and the like. According to the utility model, the anti-counterfeiting structure is arranged on the electronic tag substrate, the integrity degree of the point broken line is observed through the transparent film, if the point broken line is damaged, the electronic tag can be judged to be possible to be detached, then the possibility of replacing or maintaining parts in the electronic tag, such as an RFID antenna and a chip, can be further judged, meanwhile, special patterns or marks of brands can be sprayed or printed in a trademark area, and a purchaser can further judge the authenticity of the brands through the patterns or marks, so that the phenomenon that the counterfeit products impersonate the electronic tag of the corresponding brands to influence the brand image is reduced, and the practicability of the electronic tag is improved.

Description

Interference-reducing active electronic tag

Technical Field

The utility model relates to the field of electronic tags, in particular to an interference-reducing active electronic tag.

Background

The electronic tag is a special tag, can be used for identifying articles, can automatically identify and read information under specific application scenes, can be realized through Bluetooth, RFID, NFC and other technologies, can be used for managing, tracking, anti-counterfeiting and other application scenes, is generally realized by adopting electromagnetic interference and signal transmission principles, has the characteristics of wear resistance, long service life, high safety and the like, can be reused, does not need to worry about the problem of information leakage, and is widely applied to the fields of intelligent transportation, logistics management, identity recognition and the like.

The prior patent: CN211044296U discloses an electronic tag, which has strong application environment adaptability to various scenes, and does not need to specially design the number and placement of antennas, so that the hardware input cost and the environment construction cost are reduced.

The existing electronic tag has the following problems when in use: the electronic tag is inconvenient to provide anti-counterfeiting protection, when the chip in the electronic tag is replaced manually, the non-original chip is easy to use, so that electronic tag purchasers are difficult to intuitively and rapidly find out the conditions of replacement and maintenance of the chip, the stability of the electronic tag after the replacement and maintenance of the chip is difficult to be ensured, the brand image is easily influenced, and the practicability of the electronic tag is reduced.

Disclosure of Invention

Therefore, in order to solve the above-mentioned shortcomings, the present utility model provides a tamper-reducing active electronic tag to solve the above-mentioned technical problems.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the anti-counterfeiting structure comprises a sealing groove, a PET sealing sheet horizontally arranged on the inner end surface of the sealing groove and calibration paper pressed and fixed at the bottom of the PET sealing sheet;

the seal groove is arranged at the top of the electronic tag substrate and is communicated with the inner side of the mounting groove, the PET sealing piece is provided with a transparent film, the proofreading paper is adhered to the bottom end face of the inner side of the mounting groove, the proofreading paper completely covers the top end face of the wave absorbing plate, the top end face of the proofreading paper is provided with a point broken line, and the point broken line is positioned vertically below the transparent film.

Preferably, a trademark area is arranged on the calibration paper, and the mark area is divided into two parts by a broken line, and the trademark area is positioned at the upper right of the mounting groove.

Preferably, the bottom free end of the PET sealing sheet is connected with the bottom edge of the inner side of the mounting groove and the top right end of the calibration paper.

Preferably, the transparent film is arranged on the PET sealing sheet in a fixed embedded mode, and the thickness of the PET sealing sheet is consistent with that of the transparent film.

Preferably, the PET sealing sheet is flush with the side surface of the electronic tag substrate.

Preferably, the sealing structure comprises a sealing piece and a positioning piece arranged at the bottom of the sealing piece, the sealing piece is arranged at the bottom of the wave absorbing plate, the bottom of the sealing piece completely covers the RFID antenna and the chip, hot melt adhesive is filled between the sealing piece and the upper and lower opposite surfaces of the wave absorbing plate, the positioning piece movably stretches into the inner side of the positioning groove, and the positioning groove is formed in the edge of the inner bottom of the mounting groove.

Preferably, the locating plate is formed by combining four plate bodies in an end-to-end mode, and the inner side of a square frame formed by surrounding the four plate bodies can completely cover the RFID antenna and the outer side of the chip.

Preferably, the bottom end surface of the sealing sheet and the side surface of the positioning sheet are coated with a ceramic layer, and the ceramic layer synchronously enters the inner side of the positioning groove along with the positioning sheet.

The utility model has the beneficial effects that:

according to the utility model, the anti-counterfeiting structure is arranged on the electronic tag substrate, the integrity degree of the point broken line is observed through the transparent film, if the point broken line is damaged, the electronic tag can be judged to be possible to be detached, then the possibility of replacing or maintaining parts in the electronic tag, such as an RFID antenna and a chip, can be further judged, meanwhile, special patterns or marks of brands can be sprayed or printed in a trademark area, and a purchaser can further judge the authenticity of the brands through the patterns or marks, so that the phenomenon that the counterfeit products impersonate the electronic tag of the corresponding brands to influence the brand image is reduced, and the practicability of the electronic tag is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of the structure of the security device of the present utility model;

FIG. 3 is a schematic view of a point-to-break overhead connection structure of the present utility model;

FIG. 4 is an enlarged schematic view of the structure of FIG. 1A in accordance with the present utility model;

fig. 5 is a schematic view of a spacer connecting structure according to the present utility model.

Wherein: the electronic tag comprises an electronic tag substrate-1, an installation groove-2, an RFID antenna-3, a chip-4, an anti-counterfeiting structure-5, a sealing structure-6, a wave absorbing plate-7, a sealing groove-51, a PET sealing sheet-52, a transparent film-53, calibration paper-54, a point broken line-55, a trademark area-56, a sealing sheet-61, a positioning sheet-62, a positioning groove-63, a ceramic layer-64 and a hot melt adhesive-65.

Detailed Description

In order to further explain the technical scheme of the utility model, the following is explained in detail through specific examples.

As shown in fig. 1, the utility model provides an interference-reducing active electronic tag, which comprises an electronic tag substrate 1, a mounting groove 2 arranged on the top end surface of the electronic tag substrate 1, an RFID antenna 3 and a chip 4 arranged at the bottom of the inner side of the mounting groove 2, and a wave absorbing plate 7 connected with the top of the inner side of the mounting groove 2, wherein electromagnetic interference is inhibited;

specifically, the electronic tag substrate 1 is mounted at a designated position, and the power input of the electronic tag substrate 1 is electrically connected to an external power input device, so that power is introduced to the electronic components in the electronic tag substrate 1 through the external power input device;

when the electronic tag is used, the chip 4 can be used for storing data of the corresponding article in advance, the tag uses special data reading equipment to read data information about the article in the chip 4 in cooperation with the RFID antenna 3, and when the electronic tag is used, the electromagnetic wave absorbing plate 7 is arranged to absorb external interference electromagnetic waves, so that the influence of the interference electromagnetic waves on the electronic tag is reduced.

As shown in fig. 2 and 3, the embodiment further includes an anti-counterfeiting structure 5 and a sealing structure 6 which are disposed on the electronic tag substrate 1, wherein the sealing structure 6 is disposed inside the mounting groove 2 and is used for fixing the RFID antenna 3 and the chip 4, the anti-counterfeiting structure 5 includes a sealing groove 51 and a PET sealing sheet 52 horizontally disposed on an inner end surface of the sealing groove 51, the PET sealing sheet 52 is fixedly connected with the electronic tag substrate 1, and is used for protecting a bottom calibration paper 54 and the calibration paper 54 is tightly fixed on the bottom of the PET sealing sheet 52;

the seal groove 51 is arranged at the top of the electronic tag substrate 1 and is communicated with the inner side of the mounting groove 2, and the PET sealing sheet 52 is provided with a transparent film 53 in a fixed embedding mode so as to observe the state of the calibration paper 54 through the transparent film 53 and preliminarily judge the integrity of the inside of the electronic tag;

the calibration paper 54 is adhered to the bottom end surface of the inner side of the mounting groove 2, the top end surface of the wave absorbing plate 7 is completely covered by the calibration paper 54, and a point broken line 55 is arranged on the top end surface of the calibration paper 54, so that whether the electronic tag is opened by a person can be primarily judged through the integrity of the point broken line 55, and the point broken line 55 is positioned vertically below the transparent film 53;

in this embodiment, a trademark area 56 is disposed on the calibration paper 54, and the broken line 55 divides the trademark area 56 into two parts, and the trademark area 56 is located at the upper right of the mounting groove 2, so that trademarks of corresponding brands are printed on the trademark area 56, so that the purchaser can conveniently determine the authenticity of the electronic tag;

in this embodiment, the bottom free end of the PET sealing sheet 52 is connected to the bottom edge of the inner side of the mounting groove 2 and the top right end of the calibration paper 54, so that the right end of the calibration paper 54 is conveniently opened when the PET sealing sheet 52 is opened, so that the calibration paper 54 is damaged when the PET sealing sheet 52 is opened, and whether the electronic tag is opened or not is conveniently judged according to the damaged position;

the transparent film 53 is arranged on the PET sealing sheet 52 in a fixed embedding way, and the thickness of the PET sealing sheet 52 is consistent with that of the transparent film 53, so that the aesthetic property of the PET sealing sheet 52 connected with the transparent film 53 is improved;

the PET sealing piece 52 is flush with the side surface of the electronic tag substrate 1, so that the aesthetic property of the PET sealing piece 52 connected with the electronic tag substrate 1 is improved;

specifically, when the electronic tag substrate 1 needs to be opened, the PET sealing sheet 52 can be pulled to separate from the electronic tag substrate 1, the PET sealing sheet 52 drives the right end of the calibration paper 54 to break at the point breaking line 55 when separating from the electronic tag substrate 1, then pulls the left end of the calibration paper 54 to separate from the electronic tag substrate 1, at this time, the hot melt adhesive 65 is heated to open the mounting groove 2 to take out the sealing sheet 61, and then the RFID antenna 3 and the chip 4 are maintained or replaced;

when the electronic tag is used or purchased, the integrity of the broken line 55 on the calibration paper 54 can be observed through the transparent film 53 to preliminarily judge whether the electronic tag is started, so that whether the parts in the electronic tag are maintained or replaced can be preliminarily judged, and the purchased damaged electronic tag is reduced;

the matching degree of the pattern in the trademark area 56 and the electronic label brand can be observed through the transparent film 53, so that the authenticity of the electronic label can be judged again, and the comfort degree in the using process is prevented from being reduced due to the fact that the counterfeit electronic label is purchased.

As shown in fig. 4 and 5, in this embodiment, the sealing structure 6 includes a sealing sheet 61 and a positioning sheet 62 disposed at the bottom of the sealing sheet 61, where the sealing sheet 61 is disposed at the bottom of the wave absorbing sheet 7, and the bottom of the sealing sheet 61 completely covers the RFID antenna 3 and the chip 4, so as to facilitate the coverage protection of the RFID antenna 3 and the chip 4, and prevent the hot melt adhesive 65 from directly acting on the RFID antenna 3 and the chip 4 to affect the later cleaning work;

the hot melt adhesive 65 is filled between the upper and lower opposite surfaces of the sealing sheet 61 and the wave absorbing plate 7, the position of the sealing sheet 61 is fixed conveniently through the hot melt adhesive 65, so that the position of the RFID antenna 3 and the position of the chip 4 are fixed indirectly, the positioning sheet 62 extends into the inner side of the positioning groove 63 in a movable manner, the sealing of the top hot melt adhesive 65 is improved through the matching of the positioning sheet 62 with the positioning groove 63, the influence of the hot melt adhesive 65 on the RFID antenna 3 and the chip 4 is reduced, and the positioning groove 63 is formed in the bottom edge of the inner side of the mounting groove 2;

the positioning sheet 62 is formed by combining four plate bodies in an end-to-end mode, and the inner side of a square frame formed by encircling the four plate bodies can completely cover the outer sides of the RFID antenna 3 and the chip 4, so that comprehensive protection is conveniently improved for the four sides of the RFID antenna 3 and the chip 4, and the RFID antenna 3 and the chip 4 are separated from the hot melt adhesive 65;

the bottom end surface of the sealing sheet 61 and the side surface of the positioning sheet 62 are coated with a ceramic layer 64, the ceramic layer 64 enters the inner side of the positioning groove 63 along with the positioning sheet 62 synchronously, the hot melt adhesive 65 is reduced to be adhered and fixed at the bottoms of the sealing sheet 61 and the positioning sheet 62, and the hot melt adhesive 65 is convenient to remain on the ceramic layer 64.

The utility model provides an interference-reducing active electronic tag, which is characterized in that the integrity degree of a point broken line 55 is observed through a transparent film 53, if the point broken line 55 is damaged, the electronic tag can be judged to be possible to be disassembled, then the possibility of replacing or maintaining parts in the electronic tag, such as an RFID antenna 3 and a chip 4, can be further judged, and meanwhile, special patterns or marks of brands can be sprayed or printed in a trademark area 56, so that a purchaser can further judge the authenticity of the brands through the patterns or marks, thereby reducing the influence on the image of the brands caused by the fact that a fake product is a counterfeited electronic tag of a corresponding brand, and improving the practicability of the electronic tag.

The foregoing is merely a preferred example of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims

1. An interference-reducing active electronic tag comprises an electronic tag substrate, an installation groove formed in the top end face of the electronic tag substrate, an RFID antenna and a chip which are arranged at the bottom of the inner side of the installation groove, and a wave absorbing plate connected with the top of the inner side of the installation groove;

the method is characterized in that: the anti-counterfeiting label comprises an electronic label substrate, an anti-counterfeiting structure and a sealing structure, wherein the anti-counterfeiting structure and the sealing structure are arranged on the electronic label substrate, the sealing structure is arranged on the inner side of a mounting groove and comprises a sealing groove, a PET sealing sheet horizontally arranged on the inner side end surface of the sealing groove and calibration paper pressed and fixed at the bottom of the PET sealing sheet;

2. The tamper-reducing active electronic tag of claim 1, wherein: the trade mark area is arranged on the calibration paper, the trade mark area is divided into two parts by the dotted line, and the trade mark area is positioned at the upper right of the mounting groove.

3. The tamper-reducing active electronic tag of claim 2, wherein: the free end at the bottom of the PET sealing piece is connected with the edge at the bottom of the inner side of the mounting groove and the right end at the top of the calibration paper.

4. A tamper-reducing active electronic tag as defined in claim 2 or 3, wherein: the transparent film is arranged on the PET sealing sheet in a fixed embedded mode, and the thickness of the PET sealing sheet is consistent with that of the transparent film.

5. The tamper-reducing active electronic tag of claim 1, wherein: the PET sealing piece is flush with the side surface of the electronic tag substrate.

6. The tamper-reducing active electronic tag of claim 1, wherein: the sealing structure comprises a sealing piece and a positioning piece arranged at the bottom of the sealing piece, the sealing piece is arranged at the bottom of the wave absorbing plate, the bottom of the sealing piece completely covers the RFID antenna and the chip, hot melt adhesive is filled between the sealing piece and the upper and lower opposite surfaces of the wave absorbing plate, the positioning piece movably stretches into the inner side of the positioning groove, and the positioning groove is formed in the edge of the bottom of the inner side of the mounting groove.

7. The tamper-reducing active electronic tag of claim 6, wherein: the locating plate is formed by combining four plate bodies in an end-to-end mode, and the inner side of a square frame formed by surrounding the four plate bodies can completely cover the RFID antenna and the outer side of the chip.

8. The tamper-reducing active electronic tag of claim 6, wherein: the bottom end surface of the sealing sheet and the side surface of the positioning sheet are coated with a ceramic layer, and the ceramic layer enters the inner side of the positioning groove along with the positioning sheet.