CN102376006A - Manufacturing method of radio frequency identification electronic label - Google Patents

Abstract

The invention discloses a manufacturing method of a radio frequency identification electronic label. The manufacturing method comprises the following steps of: forming an antenna pattern layer and a conductive ink layer on a base material in sequence and mounting a radio frequency identification chip on the conductive ink layer so as to form a radio frequency identification electronic label, wherein the radio frequency identification electronic label includes the base material, the antenna pattern layer, the conductive ink layer and the radio frequency identification chip; attaching an adhesive layer and a laminated base material on the radio frequency identification chip in sequence to form a composition including the radio frequency identification electronic label, the adhesive layer and the laminated base material; and finally, placing the composition with the radio frequency identification function into a casting mold and injecting a plastic material into the casting mold to form a target object, wherein the composition and the target object are integrally combined with each other at the same time. Therefore, the whole structure is much firmer; and the radio frequency identification electronic label is uneasy to fall off so that the reliability in use is improved.

Description

The manufacturing approach of radio frequency identification electronic tag

Technical field

The present invention relates to a kind of manufacturing approach of radio frequency identification electronic tag, especially mat gluing layer and applying base material make the manufacturing approach of the radio frequency identification electronic tag that the radio frequency identification electronic tag just is combined into one with destination object simultaneously when destination object forms in mold.

Background technology

Radio frequency identification (Radio Frequency Identification; RFID) electronic tag is a kind of electronic installation that utilizes the chips incorporate antenna; But the outside inductor (Reader) of mat reads data stored in the RFID electronic tag, thereby forms rfid system, and because the volume of RFID electronic tag is very little; Can easily be placed on article or the permit identification, and justice is used in the material handling of warehousing system widely or the personnel of general control place or office space pass in and out control.

The general method that the RFID electronic tag is placed on the destination object is; To be placed in the die casting by the preformed destination object of polymkeric substance earlier; Again the RFID electronic tag is placed in this die casting, then utilizes type of heating or coating bonding agent, the RFID electronic tag is fixed on the destination object; The electronic identification function to be provided, checking out, keeping accounts such as the logistics path.

Generally speaking; Making the RFID electronic tag sustain damage or break away from for fear of receiving the influence of external force in the process of transporting or in usual the use drops; Can between RFID electronic tag and destination object, increase the applying glued membrane; And applying glued membrane and destination object belong to identical material, make RFID electronic tag, applying glued membrane and destination object in die casting through the heating after and be combined into one.Yet in above-mentioned heating process, the fusing point of unlike material is easy to generate fold or not closely connected, makes the lip-deep symbol of RFID electronic tag damage easily or the generation out-of-flatness, and then influences the function of RFID.

In addition, it is to adopt suspending way and hang on goods article that present stage has only a spot of RFID electronic tag, thus electronic tag drop or follow after out-of-flatness, warpage, can increase the puzzlement of logistics operation, the convenience of the logistics of goods is not had contribution.

Therefore, need a kind of manufacturing approach of radio frequency identification electronic tag, radio frequency identification electronic tag and destination object like goods are combined into one putting forward the fastness of carefully and neatly done body structure, thereby solve above-mentioned prior art problems.

Summary of the invention

Fundamental purpose of the present invention comprises in the manufacturing approach that a kind of radio frequency identification electronic tag is provided: on base material, utilize conductive material to form the antenna pattern layer; Electrically conductive ink is coated on the antenna pattern layer forms conductive ink layer; Settle the radio frequency identification chip on conductive ink layer; Make radio frequency identification chip mat conductive ink layer be electrically connected to antenna pattern, form the radio frequency identification electronic tag that comprises base material, antenna pattern layer, conductive ink layer and radio frequency identification chip; The gluing laminating of thermotolerance and solvent resistance is invested on the radio frequency identification chip; Utilize the applying base material to cover on the gluing layer, form the composition that comprises radio frequency identification electronic tag, gluing layer and applying base material; At last the composition of tool wireless radio-frequency discriminating function is inserted in the mold, and plastic material is injected mold forming destination object, and composition and destination object are combined into one simultaneously.

Because radio frequency identification electronic tag mat gluing layer and applying base material and when destination object forms in mold, just be combined into one with destination object; Make destination object have wireless radio-frequency discriminating function; Therefore; The quite firm and radio frequency identification electronic tag difficult drop-off of one-piece construction is used the fiduciary level that improves wireless radio-frequency discriminating function.

Description of drawings

Fig. 1 is the synoptic diagram of the manufacturing approach of first embodiment of the invention radio frequency identification electronic tag.

Fig. 2 is the synoptic diagram of the manufacturing approach of second embodiment of the invention radio frequency identification electronic tag.

Fig. 3 is the synoptic diagram of the manufacturing approach of third embodiment of the invention radio frequency identification electronic tag.

Fig. 4 is the synoptic diagram of the manufacturing approach of fourth embodiment of the invention radio frequency identification electronic tag.

Fig. 5 is the synoptic diagram of the manufacturing approach of fifth embodiment of the invention radio frequency identification electronic tag.

Embodiment

Those skilled in the art below cooperate Figure of description that embodiment of the present invention is done more detailed explanation, so that can implement after studying this instructions carefully according to this.

Consult Fig. 1, be the synoptic diagram of the manufacturing approach of first embodiment of the invention radio frequency identification electronic tag.As shown in Figure 1, the manufacturing approach of first embodiment of the invention comprises: on base material 12, utilize conductive material to form antenna pattern layer 14; Electrically conductive ink is coated on formation conductive ink layer 16 on the antenna pattern layer 14; Settle radio frequency identification chip 18 on conductive ink layer 16; Make radio frequency identification chip 18 mat conductive ink layers 16 and be electrically connected to antenna pattern layer 14, and form and to comprise that base material 12, antenna pattern layer 14, conductive ink layer 16 and less radio-frequency distinguish the radio frequency identification electronic tag 20 of chip 18; The gluing layer 30 of thermotolerance and solvent resistance is attached on the radio frequency identification chip 18; Utilize applying base material 32 to cover on the gluing layer 30, form the composition 40 that comprises radio frequency identification electronic tag 20, gluing layer 30 and applying base material 32; At last the composition 40 of tool wireless radio-frequency discriminating function is inserted in the mold (not shown), and plastic material is injected mold with formation destination object 50, and composition 40 is combined into one in mold with destination object 50 simultaneously.

Above-mentioned base material 12 can comprise mylar like polyethylene terephthalate (PET), like the polypropylene film of extended polypropylene (OPP) or biaxial stretched polypropylene (BOPP), like the polyamide (PA) film of anti-grand (NYLON) and one of them of tygon (PE) film.

The conductive material that forms antenna pattern layer 14 can comprise the conducting metal like copper or aldary, or comprises the conducting resinl of good metallic particles of electric conductivity or powder, such as elargol.The electrically conductive ink that forms conductive ink layer 16 can be processed by " carbon ".

The gluing layer 30 of thermotolerance and solvent resistance is made up of the viscose agent; Be that processing poach (boil) or transparent high-temperature sterilization (Retort) tool are fitted the good high-performance dry type applying solid of property, can be in the process of follow-up decals can Yin Gaore and produce closely connected bad formation bubble.

The plastic material that forms destination object 50 can comprise polypropylene and poly one of them; And applying base material 32 can be the material identical with destination object 50; Make when destination object 50 forms in mold; Can form with applying base material 32 and combine more closely or be fused into one, further improve the fastness of structure.

Consult Fig. 2, be the synoptic diagram of the manufacturing approach of second embodiment of the invention radio frequency identification electronic tag.As shown in Figure 2; Second embodiment is similar to first embodiment; Wherein form and comprise that base material 12, antenna pattern layer 14, conductive ink layer 16 and less radio-frequency distinguish that the manufacturing step of radio frequency identification electronic tag 20 of chip 18 is identical with first embodiment, repeat no more at this.The difference of second embodiment and first embodiment is; The manufacturing approach of second embodiment further comprises distinguishes that with the less radio-frequency of radio frequency identification electronic tag 20 chip 18 is pasted on the gluing layer 30, comprises the composition 41 of radio frequency identification electronic tag 20 and gluing layer 30 with formation; Mode with heating or coating bonding agent directly is linked to composition 41 on the heat-sealing film 52 again, forms the commodity bundle pack with wireless radio-frequency discriminating function, but the storage of convenience goods or peddle management.

Heat-sealing film 52 can be mylar like polyethylene terephthalate, as the polypropylene of extended polypropylene or biaxial stretched polypropylene, as anti-grand polyamide and poly one of them.

Consult Fig. 3, be the synoptic diagram of the manufacturing approach of third embodiment of the invention radio frequency identification electronic tag.As shown in Figure 3; The 3rd embodiment is similar to first embodiment; Wherein form and comprise that base material 12, antenna pattern layer 14, conductive ink layer 16 and less radio-frequency distinguish that the manufacturing step of radio frequency identification electronic tag 20 of chip 18 is identical with first embodiment, repeat no more at this.

Then; The manufacturing approach of the 3rd embodiment further comprises: applying base material 32, gluing layer 30 and commodity patterned layer 34 are stacked into the soft packaging material 54 of commodity in regular turn; Wherein commodity patterned layer 34 can be the thin polymer film with printed patterns; And preferably the base material 12 with radio frequency identification electronic tag 20 is identical material, such as polypropylene or tygon; And the base material 12 mat bonding agents of radio frequency identification electronic tag 20 or heating be pasted on the commodity patterned layer 34 of the soft packaging material 54 of commodity, form and have the kinds of goods lamination bag of commodity pattern, thereby make kinds of goods lamination bag have wireless radio-frequency discriminating function.

Consult Fig. 4, be the synoptic diagram of the manufacturing approach of fourth embodiment of the invention radio frequency identification electronic tag.As shown in Figure 4; The 4th embodiment is similar to first embodiment; Wherein form and comprise that base material 12, antenna pattern layer 14, conductive ink layer 16 and less radio-frequency distinguish that the manufacturing step of radio frequency identification electronic tag 20 of chip 18 is identical with first embodiment, repeat no more at this.

The manufacturing approach of the 4th embodiment further comprises: the applying base material 32 and the gluing layer 30 of tool light transmission are stacked into transparent soft packaging material 56; And with the base material 12 mat bonding agents of radio frequency identification electronic tag 20 or heating and be pasted on the gluing layer 30 of transparent soft packaging material 56, form another kind of kinds of goods lamination bag.

Consult Fig. 5, be the synoptic diagram of the manufacturing approach of fifth embodiment of the invention radio frequency identification electronic tag.As shown in Figure 5, the manufacturing approach of the 5th embodiment comprises: on heat-sealing film 52, utilize conductive material to form antenna pattern layer 14; Electrically conductive ink is coated on formation conductive ink layer 16 on the antenna pattern layer 14; And settle radio frequency identification chip 18 on conductive ink layer 16; Make radio frequency identification chip 18 mat conductive ink layers 16 and be electrically connected to antenna pattern layer 14; Formation comprises that heat-sealing film 52, antenna pattern layer 14, conductive ink layer 16 and less radio-frequency distinguish the commodity bundle pack of chip 18; So that this commodity packaging has wireless radio-frequency discriminating function

The above is merely in order to explain preferred embodiment of the present invention; Be not that attempt is done any pro forma restriction to the present invention according to this; Therefore, all have in that identical creation spirit is following do relevant any modification of the present invention or change, all must be included in the category that the invention is intended to protect.

Claims (25)

1. the manufacturing approach of a radio frequency identification electronic tag is characterized in that, comprising:

On a base material, utilize conductive material to form an antenna pattern layer;

Electrically conductive ink is coated on this antenna pattern layer to form a conductive ink layer;

Settle a radio frequency identification chip on this conductive ink layer; Make this this conductive ink layer of radio frequency identification chip mat and be electrically connected to this antenna pattern layer, and form and to comprise that this base material, this antenna pattern layer, this conductive ink layer and this less radio-frequency distinguish a radio frequency identification electronic tag of chip;

One gluing laminating is invested on this radio frequency identification chip, and this gluing layer tool thermotolerance and solvent resistance;

Utilize an applying base material to cover on this gluing layer, comprise a composition of this radio frequency identification electronic tag, this gluing layer and this applying base material with formation; And

Said composition is inserted in the mold, and plastic material is injected this mold forming a destination object, and said composition and this destination object are combined into one in this mold simultaneously.

2. the manufacturing approach of radio frequency identification electronic tag as claimed in claim 1 is characterized in that, this base material comprises one of them of mylar, polypropylene film, polyamide film and polyethylene film.

3. the manufacturing approach of radio frequency identification electronic tag as claimed in claim 2; It is characterized in that; This mylar comprises polyethylene terephthalate thin film, and this polypropylene film comprises extended polypropylene film or biaxial stretched polypropylene film, and this polyamide film comprises anti-grand film.

4. the manufacturing approach of radio frequency identification electronic tag as claimed in claim 1; It is characterized in that; The conductive material of this antenna pattern layer comprises the conducting metal of copper or aldary; Or comprise the conducting resinl of conductive gold metal particles or powder, and this conducting resinl comprises elargol, the electrically conductive ink of this conductive ink layer comprises carbon.

5. the manufacturing approach of radio frequency identification electronic tag as claimed in claim 1 is characterized in that, this gluing layer tool thermotolerance and solvent resistance, and constitute by the viscose agent.

6. the manufacturing approach of radio frequency identification electronic tag as claimed in claim 1 is characterized in that, the plastic material of this destination object comprise polypropylene and poly one of them, and should be constituted by the material identical by the applying base material with this destination object.

7. the manufacturing approach of a radio frequency identification electronic tag is characterized in that, comprising:

On a base material, utilize conductive material to form an antenna pattern layer;

Electrically conductive ink is coated on this antenna pattern layer to form a conductive ink layer;

Settle a radio frequency identification chip on this conductive ink layer; Make this this conductive ink layer of radio frequency identification chip mat and be electrically connected to this antenna pattern layer, and form and to comprise that this base material, this antenna pattern layer, this conductive ink layer and this less radio-frequency distinguish a radio frequency identification electronic tag of chip;

The less radio-frequency of this radio frequency identification electronic tag is distinguished that chip is pasted on the gluing layer, comprises a composition of this radio frequency identification electronic tag and this gluing layer with formation; And

Mode with heating or coating bonding agent is linked to said composition on one heat-sealing film.

8. the manufacturing approach of radio frequency identification electronic tag as claimed in claim 7 is characterized in that, this base material comprises one of them of mylar, polypropylene film, polyamide film and polyethylene film.

9. the manufacturing approach of radio frequency identification electronic tag as claimed in claim 8; It is characterized in that; This mylar comprises polyethylene terephthalate thin film, and this polypropylene film comprises extended polypropylene film or biaxial stretched polypropylene film, and this polyamide film comprises anti-grand film.

10. the manufacturing approach of radio frequency identification electronic tag as claimed in claim 7; It is characterized in that; The conductive material of this antenna pattern layer comprises the conducting metal of copper or aldary; Or comprise the conducting resinl of conductive gold metal particles or powder, and this conducting resinl comprises elargol, the electrically conductive ink of this conductive ink layer comprises carbon.

11. the manufacturing approach of radio frequency identification electronic tag as claimed in claim 7 is characterized in that, this gluing layer tool thermotolerance and solvent resistance, and constitute by the viscose agent.

12. the manufacturing approach of radio frequency identification electronic tag as claimed in claim 7 is characterized in that, this applying base material comprise polypropylene and poly one of them.

13. the manufacturing approach of a radio frequency identification electronic tag is characterized in that, comprising:

On a base material, utilize conductive material to form an antenna pattern layer;

Electrically conductive ink is coated on this antenna pattern layer to form a conductive ink layer;

Settle a radio frequency identification chip on this conductive ink layer; Make this this conductive ink layer of radio frequency identification chip mat and be electrically connected to this antenna pattern layer, and form and to comprise that this base material, this antenna pattern layer, this conductive ink layer and this less radio-frequency distinguish a radio frequency identification electronic tag of chip;

One applying base material, a gluing layer and a commodity patterned layer are stacked into the soft packaging material of commodity in regular turn; And with the base material mat bonding agent of this radio frequency identification electronic tag or heating and be pasted on the commodity patterned layer of the soft packaging material of these commodity.

14. the manufacturing approach of radio frequency identification electronic tag as claimed in claim 13 is characterized in that, this base material comprises one of them of mylar, polypropylene film, polyamide film and polyethylene film.

15. the manufacturing approach of radio frequency identification electronic tag as claimed in claim 14; It is characterized in that; This mylar comprises polyethylene terephthalate thin film, and this polypropylene film comprises extended polypropylene film or biaxial stretched polypropylene film, and this polyamide film comprises anti-grand film.

16. the manufacturing approach of radio frequency identification electronic tag as claimed in claim 13; It is characterized in that; The conductive material of this antenna pattern layer comprises the conducting metal of copper or aldary; Or comprise the conducting resinl of conductive gold metal particles or powder, and this conducting resinl comprises elargol, the electrically conductive ink of this conductive ink layer comprises carbon.

17. the manufacturing approach of radio frequency identification electronic tag as claimed in claim 13 is characterized in that, this gluing layer tool thermotolerance and solvent resistance, and constitute by the viscose agent.

18. the manufacturing approach of a radio frequency identification electronic tag is characterized in that, comprising:

On a base material, utilize conductive material to form an antenna pattern layer;

Electrically conductive ink is coated on this antenna pattern layer to form a conductive ink layer;

Settle a radio frequency identification chip on this conductive ink layer; Make this this conductive ink layer of radio frequency identification chip mat and be electrically connected to this antenna pattern layer, and form and to comprise that this base material, this antenna pattern layer, this conductive ink layer and this less radio-frequency distinguish a radio frequency identification electronic tag of chip;

The one applying base material and a gluing layer stack of tool light transmission are become a transparent soft packaging material; And with the base material mat bonding agent of this radio frequency identification electronic tag or heating and be pasted on the gluing layer of this transparent soft packaging material.

19. the manufacturing approach of radio frequency identification electronic tag as claimed in claim 18 is characterized in that, this base material comprises one of them of mylar, polypropylene film, polyamide film and polyethylene film.

20. the manufacturing approach of radio frequency identification electronic tag as claimed in claim 19; It is characterized in that; This mylar comprises polyethylene terephthalate thin film, and this polypropylene film comprises extended polypropylene film or biaxial stretched polypropylene film, and this polyamide film comprises anti-grand film.

21. the manufacturing approach of radio frequency identification electronic tag as claimed in claim 18; It is characterized in that; The conductive material of this antenna pattern layer comprises the conducting metal of copper or aldary; Or comprise the conducting resinl of conductive gold metal particles or powder, and this conducting resinl comprises elargol, the electrically conductive ink of this conductive ink layer comprises carbon.

22. the manufacturing approach of radio frequency identification electronic tag as claimed in claim 18 is characterized in that, this gluing layer tool thermotolerance and solvent resistance, and constitute by the viscose agent.

23. the manufacturing approach of radio frequency identification electronic tag as claimed in claim 18 is characterized in that, this applying base material comprise polypropylene and poly one of them.

24. the manufacturing approach of a radio frequency identification electronic tag is characterized in that, comprising:

On a heat-sealing film, utilize conductive material to form an antenna pattern layer;

Electrically conductive ink is coated on this antenna pattern layer to form a conductive ink layer; And

Settle a radio frequency identification chip on this conductive ink layer, make this this conductive ink layer of radio frequency identification chip mat and be electrically connected to this antenna pattern layer.

25. the manufacturing approach of radio frequency identification electronic tag as claimed in claim 24; It is characterized in that; The conductive material of this antenna pattern layer comprises the conducting metal of copper or aldary; Or comprise the conducting resinl of conductive gold metal particles or powder, and this conducting resinl comprises elargol, the electrically conductive ink of this conductive ink layer comprises carbon.

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