CN106295773A - Paperboard and production technology with RFID antenna - Google Patents

Abstract

The present invention relates to a kind of paperboard with RFID antenna and production technology.Paperboard with RFID antenna includes paper substrate and metal level, and metal level includes that RFID antenna, RFID antenna are located at the surface of paper substrate.The mode that this metal level directly utilizing paperboard surface makes RFID antenna can not only save the metal material producing RFID tag, additionally it is possible to avoids metal level that electromagnetic wave is produced interference, improves the serviceability of RFID antenna.

Description

Paperboard and production technology with RFID antenna

Technical field

The present invention relates to technical field of RFID, particularly relate to a kind of paperboard with RFID antenna and produce work Skill.

Background technology

RF identification (RFID, Radio Frequency Identification) label, is commonly called as electronic tag or intelligence Label, storage has the information of destination object.Each RFID label tag has unique electronic code, is attached on object identify target Object.RF identification is a kind of contactless automatic identification technology, and it can automatically be identified by radiofrequency signal and be attached to mesh Marking the RFID label tag on object and obtain the related data being stored in RFID label tag, identification work is without manual intervention, very Convenient.

RFID label tag mainly includes RFID antenna and RFID chip, by the electromagnetic induction in far field realize energy supply and Communication.At present, the surface of a lot of paperboards is plated with metal level, when RFID label tag fits to be coated with the paperboard surface of metal level Time, metal level can produce reflection to electromagnetic wave, makes RFID antenna cannot sense the magnetic field of change to produce supply RFID core The electric current of sheet communication, and the radio wave generation interference that RFID antenna also can be sent by metal level, so that RFID label tag It is difficult to be identified and follow the trail of.

Summary of the invention

Based on this, it is necessary to provide a kind of can anti-metal interference the paperboard with RFID antenna and produce work Skill.

A kind of paperboard with RFID antenna, including paper substrate and metal level, also includes RFID antenna, described in penetrate Frequency identifies that antenna is located at the surface of described paper substrate and is formed by after described metal level removal part-structure.

Wherein in an embodiment, described metal level also includes that original module, described original module are located at described paper substrate Surface, and and described RFID antenna be spaced.

Wherein in an embodiment, described paperboard is radium-shine paperboard, and described metal level is aluminium lamination.

A kind of technique producing the paperboard with RFID antenna, comprises the following steps:

Remove partial metal layers to form RFID antenna.

Wherein in an embodiment, before removing the partial metal layers step with formation RFID antenna, also wrap Include step:

Paper substrate is provided；

Forming metal layer on surface at paper substrate.

Wherein in an embodiment, before removing the partial metal layers step with formation RFID antenna, also wrap Include step:

Paperboard is unreeled.

Wherein in an embodiment, after removing the partial metal layers step with formation RFID antenna, also wrap Include step:

Paperboard is carried out rolling.

The above-mentioned paperboard with RFID antenna and production technology, be directly arranged in the table of paper substrate by RFID antenna Face.The mode that this metal level directly utilizing paperboard surface makes RFID antenna can not only save production RF identification The metal material of label, additionally it is possible to avoid metal level that electromagnetic wave is produced interference, improve the serviceability of RFID antenna.

Accompanying drawing explanation

Fig. 1 is the structural representation of the process units of the RFID tag of an embodiment；

Fig. 2 is the structural representation of the paperboard in Fig. 1；

Fig. 3 is the schematic cross-section of the paperboard with RFID tag of an embodiment；

Fig. 4 is the flow chart of the production technology of the RFID tag of an embodiment.

Detailed description of the invention

As shown in Figures 1 and 2, RF identification (RFID, the Radio Frequency of an embodiment Identification) process units 10 of label, for automatically producing RFID label tag in paperboard 20.RFID label tag is mainly wrapped Include RFID antenna and RFID chip, realize energy supply by the electromagnetic induction in far field and communicate.Paperboard 20 includes paper substrate 22 And metal level 24.In the present embodiment, paperboard 20 is radium-shine paperboard, is mainly used on packing box, and metal level 24 is aluminium lamination. In other embodiments, paperboard 20 can also be coated with the paperboard of metal level for other surfaces such as vacuum aluminizing paperboards.Metal level 24 can also be layers of copper, layers of chrome etc..

When RFID label tag fits to the paperboard surface being coated with metal level, metal level can produce reflection to electromagnetic wave and make With, the electric current that RFID chip communicates is supplied, to produce, in the magnetic field making RFID antenna cannot sense change, and metal level also can be right The radio wave that RFID antenna sends produces interference, so that RFID label tag is difficult to be identified and follow the trail of.

At present, generally by increasing ferrite wave-absorbing material below RFID label tag to the electromagnetic wave through RFID label tag Absorb, or increase the distance (more than 3mm) of RFID label tag and metal surface, make RFID label tag evade away from metal surface The metal reflection to electromagnetic wave, thus realize the anti-metal interference of RFID label tag.

But in printing packaging industry, paperboard is coated with and inhales ripple figure layer or increase apart from all making production difficulty, Er Qiehui Make to pack the most attractive in appearance and do not accepted by consumer.

Unlike tradition anti-metal interference, the process units 10 of RFID label tag is provided with process equipment 100.Process equipment 100 are used for removing partial metal layers to form RFID antenna.Process equipment 100 selects laser to wash aluminum equipment.Laser washes aluminum equipment Using laser to wash aluminum technology, laser washes the laser head 110 of aluminum equipment can remove the partial metal layers on paperboard 20 surface.

Concrete, the process units 10 of RFID label tag includes control unit (not shown), control unit and process equipment 100 Connect, and the machining path of process equipment 100 can be controlled by setting program.Control unit can be external computer, it is possible to To be integrated in process equipment 100.In the present embodiment, laser head 110 under the control of the control unit can be by set Path directly processes the shape of RFID antenna in paperboard 20, is directly got rid of by unwanted metal level.

The process units 10 of the RFID label tag of present embodiment takes full advantage of the metal level 24 on paperboard 20 surface, directly will Metal level 24 makes RFID antenna, can not only save the metal material producing RFID label tag, additionally it is possible to avoid metal level 24 electricity Magnetic wave produces interference, improves the serviceability of RFID label tag.

Now, as it is shown on figure 3, the surface of paperboard 20 is with RFID antenna 26, other unprocessed regions are metal level 24 Original module 28, i.e. the partial metal layers that original module 28 is removed with RFID antenna 26 and process equipment 100 constitutes whole gold Belong to layer 24.Original module 28 and RFID antenna 26 interval are arranged, to prevent from producing the radio wave sending RFID antenna 26 Interference.Being appreciated that in other embodiments, original module 28 can also also be got rid of by process equipment 100, leaves behind RFID antenna 26.

As it is shown in figure 1, the process units 10 of RFID label tag also includes packaging mechanism 200.Packaging mechanism 200 is located at processing and is set The downstream of standby 100, and be used for encapsulating RFID chip and RFID chip being connected to RFID antenna.The effect of encapsulation predominantly peace Fill, fix, seal, protect chip and strengthen electric heating property etc..

At present, the production technology of RFID label tag is broadly divided into two big steps, first RFID antenna and RFID chip is given birth to respectively Output is come, then by labeling device, RFID antenna and RFID chip is invested paper surface to form RFID label tag.This production The speed of RFID label tag is relatively slow, inefficient, adds the production cost of RFID label tag.

And the process units 10 of the RFID label tag of present embodiment can directly be automatically performed the production of RFID label tag, significantly Improve the production efficiency of RFID label tag such that it is able to reduce the production cost of RFID label tag.Certainly, at other embodiments In, it is also possible to only utilize process equipment 100 RFID antenna to be produced, then will by the way of hand sticker RFID chip or other RFID chip is connected with RFID antenna, forms RFID label tag.

As it is shown in figure 1, the process units 10 of RFID label tag also includes glazing mechanism 300.Glazing mechanism 300 is located at packaging machine The downstream of structure 200, and for being coated with clear dope, such as gloss oil etc. in RFID antenna and RFID chip position.Glazing is not only The smoothness on paperboard 20 surface can be strengthened, additionally it is possible to protection RFID label tag.

As it is shown in figure 1, in order to make paperboard 20 at the uniform velocity advance and neat carry out folding and unfolding, the process units 10 of RFID label tag is also Including unreeling structure 400 and rolling-up mechanism 500.Unreeling structure 400 and the most synchronized rotation of rolling-up mechanism 500.

Unreeling structure 400 is located at the upstream of process equipment 100, and for paperboard 20 is unreeled.

Rolling-up mechanism 500 is located at the downstream of packaging mechanism 200, and for paperboard 20 is carried out rolling.In present embodiment In, rolling-up mechanism 500 is positioned at the downstream of glazing mechanism 300.

As shown in Figure 4, use the process units 10 of RFID label tag to produce the technique of RFID label tag, comprise the following steps:

Step S110, it is provided that paper substrate 22.

Step S120, at the forming metal layer on surface 24 of paper substrate.

Step S130, unreels paperboard 20.

Step S140, removes partial metal layers to form RFID antenna 26.

Step S150, is encapsulated into the correspondence position of RFID antenna 26 by RF identification chip.

Step S160, is coated with clear dope at RFID antenna 26 and RF identification chip position.

Step S170, carries out rolling to paperboard 20.

The technique of this production RFID label tag achieves the line automated production of RFID label tag, substantially increases RFID label tag Production efficiency.Meanwhile, overcome the metal level interference to electromagnetic wave on paperboard surface, improve the usability of RFID label tag Energy.

It is pointed out that in other embodiments, can directly the paperboard 20 with metal level 24 be processed, Metal level 24 need not be formed in advance, i.e. step S110 can be omitted with step S120 on paper substrate 22.

Separately, in other embodiments, it is also possible to first pass through process equipment 100 and produce RFID antenna, then pass through hand sticker RFID chip is coupled together by RFID chip or other mode with RFID antenna, forms RFID label tag.Now, step S130 with Step S140 can be omitted.

Each technical characteristic of embodiment described above can combine arbitrarily, for making description succinct, not to above-mentioned reality The all possible combination of each technical characteristic executed in example is all described, but, as long as the combination of these technical characteristics is not deposited In contradiction, all it is considered to be the scope that this specification is recorded.

Embodiment described above only have expressed the several embodiments of the present invention, and it describes more concrete and detailed, but also Can not therefore be construed as limiting the scope of the patent.It should be pointed out that, come for those of ordinary skill in the art Saying, without departing from the inventive concept of the premise, it is also possible to make some deformation and improvement, these broadly fall into the protection of the present invention Scope.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (7)

1. with a paperboard for RFID antenna, including paper substrate and metal level, it is characterised in that also include RF identification sky Line, described RFID antenna is located at the surface of described paper substrate and is formed by after described metal level removal part-structure.

Paperboard with RFID antenna the most according to claim 1, it is characterised in that described metal level also includes former Beginning module, described original module is located at the surface of described paper substrate, and and described RFID antenna be spaced.

Paperboard with RFID antenna the most according to claim 1, it is characterised in that described paperboard is laser card Paper, described metal level is aluminium lamination.

4. the technique producing the paperboard with RFID antenna, it is characterised in that comprise the following steps:

Remove partial metal layers to form RFID antenna.

Production the most according to claim 4 is with the technique of the paperboard of RFID antenna, it is characterised in that in removal portion Before dividing the metal level step with formation RFID antenna, further comprise the steps of:

Paper substrate is provided；

Forming metal layer on surface at paper substrate.

Production the most according to claim 4 is with the technique of the paperboard of RFID antenna, it is characterised in that in removal portion Before dividing the metal level step with formation RFID antenna, further comprise the steps of:

Paperboard is unreeled.

Production the most according to claim 4 is with the technique of the paperboard of RFID antenna, it is characterised in that in removal portion After dividing the metal level step with formation RFID antenna, further comprise the steps of:

Paperboard is carried out rolling.