CN216249296U - RFID nylon electronic tags - Google Patents

Abstract

The utility model relates to the field of electronic tags, and discloses an RFID nylon electronic tag. It includes: first nylon layer, first glue film, drive antenna layer, second glue film and second nylon layer, the lower surface on first nylon layer is equipped with first glue film, and the upper surface on second nylon layer is equipped with the second glue film, the first glue film of upper surface connection on drive antenna layer, the second glue film is connected to the lower surface on drive antenna layer, and first glue film and second glue film cover drive antenna layer. Through adopting first nylon layer and second nylon layer, this nylon layer chooses nylon suppression encapsulation of environmental protection material for use, adopt the drive antenna layer, radio frequency signal and receiving and dispatching signal are discerned better, adopt the PET aluminium membrane, combine the etching aluminium technique, can make PET aluminium membrane antenna according to the design drawing better, adopt the ultrasonic cutting technique again, can make the electronic tags corner accomplish fine integration, improve electronic tags's leakproofness, bending resistance, dust resistance, wear resistance, the environmental protection, radio frequency identification effect and waterproof nature etc.

Description

RFID nylon electronic tags

Technical Field

The utility model relates to the technical field of electronic tags, in particular to an RFID nylon electronic tag.

Background

At present, with rapid development of science and technology, electronic radio frequency products are increasingly applied to the lives of people. People can feel the convenience brought by the electronic radio frequency products in life and work. Among them, the RFID product is an important product in electronic radio frequency products. RFID radio frequency identification is a non-contact automatic identification technology that automatically identifies a target object and obtains related data through a radio frequency signal. The RFID technology can identify static and moving objects and can identify a plurality of labels simultaneously, the operation is fast and convenient, and the RFID technology is applied to the clothing and packaging industries. However, the clothes and the packaging are easy-to-deform objects, and can deform to different degrees according to the action of the demand, so that higher requirements are placed on the RFID radio frequency electronic tags arranged on the clothes and the packaging. The existing electronic tags are installed on clothes and packages, and are often wet or wrinkled, so that the functions of the electronic tags are easily lost, and the electronic tags have some defects, such as: the sealing performance is poor, the bending damage is easy, dust is easy to adsorb, the wear resistance is poor, the environment is polluted, the radio frequency identification effect is poor, the waterproofness is poor, and the like.

Therefore, in view of the above problems, the existing electronic tags are to be further improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of poor sealing property, easy bending damage, easy dust adsorption, poor wear resistance, environmental pollution, poor radio frequency identification effect, poor waterproofness and the like of the conventional electronic tag. Through the design of the electronic tag, a nylon layer, a glue layer and a driving antenna layer are adopted, a first glue layer is coated on the lower surface of the first nylon layer, a second glue layer is coated on the upper surface of the second nylon layer, the upper surface of the driving antenna layer is connected with the first glue layer, the lower surface of the driving antenna layer is connected with the second glue layer, and the first glue layer and the second glue layer cover the driving antenna layer, so that the sealing property, the bending resistance, the dust resistance, the wear resistance, the environmental protection property, the radio frequency identification effect, the waterproof property and the like of the electronic tag can be effectively improved; the first nylon layer and the second nylon layer are adopted, and the nylon layer is pressed and packaged by nylon made of environment-friendly materials, so that the sealing effect, the dustproof effect, the wear-resisting effect and the like are good; the driving antenna layer is adopted, radio frequency signals can be better identified, signals can be better received and sent, and the PET aluminum film antenna can be better manufactured according to a design drawing by adopting the PET aluminum film and combining an aluminum etching technology; and the ultrasonic cutting technology is adopted, so that the corners of the electronic tag can be effectively fused, the electronic tag is not subjected to edge opening after being washed, and the electronic tag is non-toxic and harmless to a human body and durable.

The technical scheme of the utility model is as follows:

an RFID nylon electronic tag, the electronic tag comprising: first nylon layer, first glue film, drive antenna layer, second glue film and second nylon layer, the lower surface on first nylon layer is equipped with first glue film, the upper surface on second nylon layer is equipped with the second glue film, the upper surface connection on drive antenna layer first glue film, the lower surface connection on drive antenna layer the second glue film, the first nylon layer that has first glue film with the second nylon layer that has the second glue film covers drive antenna layer.

Further, the driving antenna layer comprises a first antenna board, a first S-shaped antenna, a first chip interface, a driving chip, a second antenna board, a second S-shaped antenna and a second chip interface, one end of the first antenna board is connected with one end of the first S-shaped antenna, the other end of the first S-shaped antenna is connected with one end of the first chip interface, the other end of the first chip interface is connected with one end of the driving chip and one end of the second chip interface respectively, one end of the second chip interface is connected with the other end of the driving chip, the other end of the second chip interface is connected with one end of the second S-shaped antenna, and the other end of the second S-shaped antenna is connected with one end of the second antenna board.

By adopting the first S-shaped antenna and the second S-shaped antenna, the linear antenna can be integrated, and the span of the antenna is reduced, wherein the span is the distance between two end points of the antenna; by adopting a reasonable S-shaped antenna, the radio frequency interference between lines can be prevented, and the receiving and transmitting efficiency of electromagnetic waves is improved; adopt first antenna panel and second antenna panel, can receive and dispatch the signal effectively.

Further, the first chip interface and the second chip interface enclose an open square frame.

Further, the driving chip is arranged at the opening of the opening square frame.

Furthermore, the first antenna board, the first S-shaped antenna, the first chip interface, the second antenna board, the second S-shaped antenna and the second chip interface are all PET aluminum films.

Furthermore, the first antenna board, the first S-shaped antenna, the first chip interface, the second antenna board, the second S-shaped antenna and the second chip interface are all aluminum etched antennas.

Furthermore, the first antenna board, the first S-shaped antenna, the first chip interface, the second antenna board, the second S-shaped antenna and the second chip interface are integrally formed antennas.

Further, the driving chip is disposed at a center line of a long axis of the driving antenna layer.

Furthermore, the first antenna board, the first S-shaped antenna and the first chip interface are symmetrical to the second antenna board, the second S-shaped antenna and the second chip interface by taking the central line of the driving chip as a symmetry axis.

Further, the first antenna board and the second antenna board are rectangular boards.

Further, the widths of the first antenna board and the second antenna board are larger than the line widths of the first S-shaped antenna and the second S-shaped antenna.

Further, the length of the first antenna board is equal to the width of the first S-shaped antenna, the width of the first chip interface, the length of the second antenna board, the width of the second S-shaped antenna and the width of the second chip interface.

By adopting the arrangement, the first antenna board and the second antenna board which are symmetrical by taking the driving chip as a symmetry axis, the first S-shaped antenna and the second S-shaped antenna, and the first chip interface and the second chip interface are adopted, so that the receiving and the transmitting of signals can be effectively balanced, and the synchronization of the receiving and the transmitting of the signals is ensured; and the antenna plate with a large area is adopted, so that the receiving and transmitting efficiency of signals can be effectively improved.

Further, the driving chip is a high-frequency or ultrahigh-frequency chip.

Further, the model of the driving chip is a NXP UCODE8 chip.

Further, the electronic tag is an ultrasonic cutting electronic tag.

So set up, adopt ultrasonic cutting electronic tags for electronic tags has specifications such as required shape, can make electronic tags's corner accomplish fine integration simultaneously.

Advantageous effects

According to the electronic tag, the electronic tag is reasonably designed, the lower surface of the first nylon layer is coated with the first glue layer, the upper surface of the second nylon layer is coated with the second glue layer, the upper surface of the driving antenna layer is connected with the first glue layer, the lower surface of the driving antenna layer is connected with the second glue layer, and the first glue layer and the second glue layer cover the driving antenna layer, so that the sealing property, the bending resistance, the dust resistance, the wear resistance, the environmental protection property, the radio frequency identification effect, the waterproof property and the like of the electronic tag can be effectively improved; the first nylon layer and the second nylon layer are adopted, and the nylon layer is pressed and packaged by nylon made of environment-friendly materials, so that the sealing effect, the dustproof effect, the wear-resisting effect and the like are good; the driving antenna layer is adopted, radio frequency signals can be better identified, signals can be better received and sent, and the PET aluminum film antenna can be better manufactured according to a design drawing by adopting the PET aluminum film and combining an aluminum etching technology; and the ultrasonic cutting technology is adopted, so that the corners of the electronic tag can be effectively fused, the electronic tag is not subjected to edge opening after being washed, and the electronic tag is non-toxic and harmless to a human body and durable.

Drawings

Fig. 1 is a schematic structural diagram of an RFID nylon electronic tag of the present invention.

Fig. 2 is a schematic cross-sectional structure diagram of an RFID nylon electronic tag of the present invention.

Fig. 3 is a schematic structural diagram of a driving antenna layer of an RFID nylon electronic tag of the present invention.

Reference numerals: 1. a driving chip; 2. a first chip interface; 3. a first antenna board; 4. a first S-shaped antenna; 5. a second chip interface; 6. a second S-shaped antenna; 7. a second antenna plate; 11. a first nylon layer; 12. a first glue layer; 13. driving an antenna layer; 14. a second adhesive layer; 15. a second nylon layer.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to fig. 3, the present invention provides an RFID nylon electronic tag, which includes: the antenna comprises a first nylon layer 11, a first glue layer 12, a driving antenna layer 13, a second glue layer 14 and a second nylon layer 15, wherein the first glue layer 12 is arranged on the lower surface of the first nylon layer 11, the second glue layer 14 is arranged on the upper surface of the second nylon layer 15, the first glue layer 12 is connected to the upper surface of the driving antenna layer 13, the second glue layer 14 is connected to the lower surface of the driving antenna layer 13, and the driving antenna layer 13 is covered by the first glue layer 12 and the second glue layer 14; the driving antenna layer 13 comprises a first antenna board 3, a first S-shaped antenna 4, a first chip interface 2, a driving chip 1, a second antenna board 7, a second S-shaped antenna 6 and a second chip interface 5, the first antenna board 3, the first S-shaped antenna 4, the first chip interface 2, the second antenna board 7, the second S-shaped antenna 6 and the second chip interface 5 are all PET aluminum films, and both adopt antennas made of aluminum etching, the first antenna board 3 and the second antenna board 7 are rectangular boards, the width of the first antenna board 3 and the second antenna board 3 is larger than the line width of the first S-shaped antenna 4 and the second S-shaped antenna 6, the length of the first antenna 3 is equal to the width of the first S-shaped antenna 4, the width of the first chip interface 2, the length of the second antenna plate 7, the width of the second S-shaped antenna 6 and the width of the second chip interface 5; one end of the first antenna board 3 is connected with one end of the first S-shaped antenna 4, the other end of the first S-shaped antenna 4 is connected with one end of the first chip interface 2, the other end of the first chip interface 2 is respectively connected with one end of the driving chip 1 and one end of the second chip interface 5, one end of the second chip interface 5 is connected with the other end of the driving chip 1, the other end of the second chip interface 5 is connected with one end of the second S-shaped antenna 6, the other end of the second S-shaped antenna 6 is connected with one end of the second antenna board 7, and the first antenna board 3, the first S-shaped antenna 4, the first chip interface 2, the second antenna board 7, the second S-shaped antenna 6 and the second chip interface 5 are integrally formed antennas; the first chip interface 2 and the second chip interface 5 form an open square frame in a surrounding manner, the driving chip 1 is arranged at the opening of the open square frame, the driving chip 1 is arranged at the center line of the long axis of the driving antenna layer 13, and the first antenna board 3, the first S-shaped antenna 4, the first chip interface 2, the second antenna board 7, the second S-shaped antenna 6 and the second chip interface 5 are symmetrical by taking the center line of the driving chip 1 as a symmetry axis; the model of the driving chip is NXP UCODE 8.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. An RFID nylon electronic tag, characterized in that the electronic tag comprises: first nylon layer, first glue film, drive antenna layer, second glue film and second nylon layer, the lower surface on first nylon layer is equipped with first glue film, the upper surface on second nylon layer is equipped with the second glue film, the upper surface connection on drive antenna layer first glue film, the lower surface connection on drive antenna layer the second glue film, the first nylon layer that has first glue film with the second nylon layer that has the second glue film covers drive antenna layer.

2. The RFID nylon electronic tag of claim 1, wherein the driving antenna layer comprises a first antenna board, a first S-shaped antenna, a first chip interface, a driving chip, a second antenna board, a second S-shaped antenna and a second chip interface, one end of the first antenna board is connected with one end of the first S-shaped antenna, the other end of the first S-shaped antenna is connected with one end of the first chip interface, the other end of the first chip interface is respectively connected with one end of the driving chip and one end of the second chip interface, one end of the second chip interface is connected with the other end of the driving chip, the other end of the second chip interface is connected with one end of the second S-shaped antenna, and the other end of the second S-shaped antenna is connected with one end of the second antenna board.

3. The RFID nylon electronic tag of claim 2, wherein the first chip interface and the second chip interface enclose an open square frame.

4. The RFID nylon electronic tag of claim 3, wherein the driving chip is disposed at the opening of the open square frame.

5. The RFID nylon electronic tag of claim 2, wherein the first antenna board, the first S-shaped antenna, the first chip interface, the second antenna board, the second S-shaped antenna and the second chip interface are all PET aluminum films.

6. The RFID nylon electronic tag of claim 5, wherein the driving chip is disposed at the center of the long axis of the driving antenna layer.

7. The RFID nylon electronic tag of claim 6, wherein the first antenna board, the first S-shaped antenna and the first chip interface are symmetrical to the second antenna board, the second S-shaped antenna and the second chip interface by taking a center line of the driving chip as a symmetry axis.

8. The RFID nylon electronic tag of claim 2, wherein the first antenna board and the second antenna board are rectangular boards.

9. The RFID nylon electronic tag of claim 8, wherein the width of the first antenna board and the second antenna board is larger than the line width of the first S-shaped antenna and the second S-shaped antenna.

10. The RFID nylon electronic tag of claim 7, wherein the length of the first antenna board is equal to the width of the first S-shaped antenna, the width of the first chip interface, the length of the second antenna board, the width of the second S-shaped antenna and the width of the second chip interface.

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