CN106903981A - RFID label tag process units and method - Google Patents
RFID label tag process units and method Download PDFInfo
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- CN106903981A CN106903981A CN201710114398.5A CN201710114398A CN106903981A CN 106903981 A CN106903981 A CN 106903981A CN 201710114398 A CN201710114398 A CN 201710114398A CN 106903981 A CN106903981 A CN 106903981A
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- Prior art keywords
- rfid label
- label tag
- printing mechanism
- layer
- paper
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B41—PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
- B41F—PRINTING MACHINES OR PRESSES
- B41F17/00—Printing apparatus or machines of special types or for particular purposes, not otherwise provided for
Abstract
The present invention relates to a kind of RFID label tag process units and method.Light oil reservoir can be formed in the side of paper substrates by gloss oil printing mechanism.Further, then by electrically conductive ink printing mechanism, insulation print mechanism and ink jet printing mechanism conductive ink layer, insulating medium layer and logic circuit layer are sequentially formed, just can obtain the centreless RFID label tag of paper substrate.Because light oil reservoir can isolate conductive ink layer and paper substrates, therefore can prevent electrically conductive ink from being absorbed by paper substrates, from the function without influenceing RFID label tag.Therefore, above-mentioned RFID label tag process units and method can directly form centreless RFID label tag on paper substrates, so as to effectively expand the range of application of centreless RFID label tag.
Description
Technical field
The present invention relates to technical field of electronic devices, more particularly to a kind of RFID label tag process units and method.
Background technology
Radio frequency identification, RFID (Radio Frequency Identification) technology is now widely used for application drawing
In the fields such as book shop, gate control system, food security are traced to the source, indoor positioning.And RFID label tag is used as core component therein, full generation
The annual usage amount in boundary has reached 10,000,000,000,000 ranks.
Silicon is important part in traditional RFID label tag.Because the cost of silicon is high, therefore conventional RFID tag
Production cost is higher.For cost-effective, centreless RFID tag technology is rapidly developed.So-called centreless RFID label tag, refers to
The RFID tag of silicon is not contained., directly can be imprinted on RFID label tag on product and packaging by centreless RFID label tag.
However, because paper has the characteristic for absorbing ink, the ink being printed on paper can be caused to be absorbed, Jin Erying
Pilot is electrical.Therefore, existing centreless RFID label tag production is all by printing realization on film.But, product outsourcing
Dress is mostly papery, which limits the range of application of centreless RFID label tag.
The content of the invention
Based on this, it is necessary to provide the RFID label tag process units that a kind of energy directly forms RFID label tag on paper substrates
And method.
A kind of RFID label tag process units, for forming RFID label tag, the RFID label tag production dress on paper substrates
Put including:
Gloss oil printing mechanism, for receiving the paper substrates, and forms light oil reservoir in the side of the paper substrates;
The electrically conductive ink printing mechanism connected with the gloss oil printing mechanism, the institute of the light oil reservoir is formed with for receiving
State paper substrates, and conductive ink layer is formed on the surface of the light oil reservoir dorsad paper substrates;
The insulation print mechanism connected with the electrically conductive ink printing mechanism, the conductive ink layer is formed with for receiving
The paper substrates, and the conductive ink layer dorsad the light oil reservoir surface formed insulating medium layer;And
With the ink jet printing mechanism of the insulation print mechanism connection, the institute of the insulating medium layer is formed with for receiving
State paper substrates, and logic circuit layer is formed on the surface of the insulating medium layer dorsad conductive ink layer.
Wherein in one embodiment, also including the localised application mechanism connected with the ink jet printing mechanism, for connecing
Receive shape described in paper substrates, and the logic circuit layer dorsad the insulating medium layer surface formed protection film layer.
Wherein in one embodiment, also include:
Paper guide, connects with the gloss oil printing mechanism, and the paper guide is used to provide institute to the gloss oil printing mechanism
State paper substrates;
Paper collecting machine, and the localised application mechanism connection for receiving and is received and is formed with described in the protection film layer
Paper substrates.
Wherein in one embodiment, the gloss oil printing mechanism, the electrically conductive ink printing mechanism, the insulation print
Drying channel connection is passed sequentially through between mechanism, the ink jet printing mechanism, the localised application mechanism and the paper collecting machine.
Wherein in one embodiment, the length of the drying channel is 2.5 to 3 meters.
Wherein in one embodiment, also including connecting gear, the connecting gear drives the paper substrates to lead to successively
Cross the gloss oil printing mechanism, the electrically conductive ink printing mechanism, the insulation print mechanism, the ink jet printing mechanism, institute
State localised application mechanism and the paper collecting machine.
Wherein in one embodiment, the gloss oil printing mechanism, the electrically conductive ink printing mechanism, the insulation print
Mechanism is sheet-fed multicolour rotogravure press.
A kind of RFID label tag production method, including:
Step 1:Light oil reservoir is formed in the side of the paper substrates;
Step 2:The light oil reservoir dorsad the paper substrates surface formed conductive ink layer;
Step 3:The conductive ink layer dorsad the light oil reservoir surface formed insulating medium layer;
Step 4:The insulating medium layer dorsad the conductive ink layer surface formed logic circuit layer.
Wherein in one embodiment, after the step 4, also including step 5:In logic circuit layer dorsad institute
The surface for stating insulating medium layer forms protection film layer.
Wherein in one embodiment, between the adjacent step of above-mentioned any two and after the step 5, also wrap
Include the step of being dried to the paper substrates.
Above-mentioned RFID label tag process units and method, gloss oil can be formed by gloss oil printing mechanism in the side of paper substrates
Layer.Further, then by electrically conductive ink printing mechanism, insulation print mechanism and ink jet printing mechanism electrically conductive ink is sequentially formed
Layer, insulating medium layer and logic circuit layer, just can obtain the centreless RFID label tag of paper substrate.Because light oil reservoir can isolate electrically conductive ink
Layer and paper substrates, therefore can prevent electrically conductive ink from being absorbed by paper substrates, from the function without influenceing RFID label tag.Therefore, on
Stating RFID label tag process units and method can directly form centreless RFID label tag on paper substrates, so as to effectively expand nothing
The range of application of core RFID label tag.
Brief description of the drawings
Fig. 1 is the structural representation of RFID label tag process units in present pre-ferred embodiments;
Fig. 2 is the internal structure schematic diagram of RFID label tag process units shown in Fig. 1;
Fig. 3 is the schematic flow sheet of RFID label tag production method in present pre-ferred embodiments.
Specific embodiment
For the ease of understanding the present invention, the present invention is described more fully below with reference to relevant drawings.In accompanying drawing
Give preferred embodiment of the invention.But, the present invention can be realized in many different forms, however it is not limited to herein
Described embodiment.On the contrary, the purpose for providing these embodiments is to make the understanding to the disclosure more saturating
It is thorough comprehensive.
It should be noted that when element is referred to as " being fixed on " another element, it can directly on another element
Or can also there is element placed in the middle.When an element is considered as " connection " another element, it can be directly connected to
To another element or may be simultaneously present centering elements.Term as used herein " vertical ", " level ", " left side ",
" right side " and similar statement are for illustrative purposes only.
Unless otherwise defined, all of technologies and scientific terms used here by the article with belong to technical field of the invention
The implication that technical staff is generally understood that is identical.The term for being used in the description of the invention herein is intended merely to description tool
The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term as used herein " and/or " include one or more phases
The arbitrary and all of combination of the Listed Items of pass.
Fig. 1 and Fig. 2 is referred to, the RFID label tag process units 100 in present pre-ferred embodiments includes gloss oil printing machine
Structure 110, electrically conductive ink printing mechanism 120, insulation print mechanism 130 and ink jet printing mechanism 140.
RFID label tag process units 100 is used to form RFID label tag on paper substrates.Paper substrates can be for outside product
The casing of packaging or single paper.
Gloss oil printing mechanism 110 is used to receive paper substrates, and forms light oil reservoir in the side of paper substrates.Light oil reservoir is used
In the surface characteristic for changing paper substrates, so that the surface compact of paper substrates, is difficult to absorb liquid material.
In the present embodiment, RFID label tag process units 100 also includes paper guide 150.Paper guide 150 and gloss oil printing machine
Structure 110 is connected, and for providing paper substrates to gloss oil printing mechanism 110.
Paper guide 150 can be carried and convey paper substrates, so as to realize the automatic charging of paper substrates.It is appreciated that
In other embodiment, paper guide 150 can be also substituted by way of artificial loading.
Electrically conductive ink printing mechanism 120 connects with gloss oil printing mechanism 110.Electrically conductive ink printing mechanism 120 is used to receive
It is formed with the paper substrates of light oil reservoir, and conductive ink layer is formed on the surface of light oil reservoir dorsad paper substrates.
Specifically, paper substrates continue on to electrically conductive ink printing mechanism after printed by gloss oil printing mechanism 110
120 are processed.Wherein, conductive ink layer can be used as the antenna of RFID label tag.Being additionally, since light oil reservoir can isolate electrically conductive ink
Layer and paper substrates, therefore can prevent electrically conductive ink from being absorbed by paper substrates, so that the RFID label tag of the paper substrate for finally giving
Function is unaffected.
In the present embodiment, drying channel 101 is passed through between gloss oil printing mechanism 110 and electrically conductive ink printing mechanism 120
Connection.Specifically, the drying channel 101 between gloss oil printing mechanism 110 and electrically conductive ink printing mechanism 120 is infrared channel.
On the one hand, drying channel 101 can play isolation extraneous air, prevent from being mixed into the effect of impurity;On the other hand, by heat also
Light oil reservoir solidification can quickly be caused.
Insulation print mechanism 130 connects with electrically conductive ink printing mechanism 120.Insulation print mechanism 130 is used to receive and is formed
There are a paper substrates of conductive ink layer, and insulating medium layer is formed on the surface of conductive ink layer dorsad light oil reservoir.
Specifically, paper substrates continue on to insulation print mechanism after printed by electrically conductive ink printing mechanism 120
130 are processed, in the surface printing dielectric ink of conductive ink layer.Wherein, the insulating medium layer of formation can be used as capacitive junctions
The intermediate medium of structure.
In the present embodiment, drying channel 101 is passed through between insulation print mechanism 130 and electrically conductive ink printing mechanism 120
Connection.Further, the drying channel 101 between insulation print mechanism 130 and electrically conductive ink printing mechanism 120 is infrared logical
Road, can quickly cause that conductive ink layer solidifies, consequently facilitating forming insulating medium layer by heat.
Ink jet printing mechanism 140 is connected with insulation print mechanism 130.Ink jet printing mechanism 140 is formed with absolutely for reception
The paper substrates of edge dielectric layer, and insulating medium layer dorsad conductive ink layer surface formed logic circuit layer.
Specifically, paper substrates continue on to ink jet printing mechanism 140 and enter after printed by insulation print mechanism 130
Row processing.Wherein, ink jet printing mechanism 140 carries out inkjet printing according to preset design figure, so as to form patrolling for preset shape
Collect circuit layer.Logic circuit layer plays mark action as the core component of RFID label tag.After forming logic circuit layer, one
The centreless RFID label tag of simple type becomes type.
Specifically in the present embodiment, ink jet printing mechanism 140 is connected with the communication of host computer (not shown).Host computer can be obtained
Design instruction, so as to carry out inkjet printing according to default design configuration according to design instruction control ink jet printing mechanism 140, enters
And obtain the logic circuit layer of correspondingly-shaped.
In the present embodiment, insulation print mechanism 130 and being led connected by drying channel 101 between ink jet printing mechanism 140
It is logical.Further, insulation print mechanism 130 and the drying channel 101 led between ink jet printing mechanism 140 are infrared channel, are led to
Crossing heat can quickly cause insulating medium layer solidification, consequently facilitating logic circuit layer.
In the present embodiment, RFID label tag process units 100 also includes the localised application connected with ink jet printing mechanism 140
Mechanism 160.Localised application mechanism 160 is used to receive shape paper substrates, and on the surface of logic circuit layer dorsad insulating medium layer
Form protection film layer.
Specifically, localised application mechanism 160 can form protection film layer by the printing UV gloss oil on logic circuit layer.Protection
After film layer solidification, logic circuit can be played a protective role, so as to prevent RFID label tag to be worn during transport, storage
Fall.
Further, in the present embodiment, localised application mechanism 160 and lead between ink jet printing mechanism 140 by drying
Passage 101 is connected.Further, localised application mechanism 160 and the drying channel 101 led between ink jet printing mechanism 140 are red
Outer tunnel, can quickly cause logic circuit layer solidification, so as to prevent that logic circuit is damaged during localised application by heat
Layer.
In the present embodiment, RFID label tag process units 100 also includes paper collecting machine 170.Paper collecting machine 170 and localised application machine
Structure 160 is connected, and for receiving and receives the paper substrates for being formed with protection film layer.Paper collecting machine 170 can realize centreless RFID label tag
Automatic material receiving with storage.
Further, in the present embodiment, connected by drying channel 101 between localised application mechanism 160 and paper collecting machine 170
It is logical.Specifically, being ultraviolet drying channel between localised application mechanism 160 and paper collecting machine 170, ultraviolet irradiates UV film layers, so that
Make its rapid curing.
Further, specifically in the present embodiment, the length of drying channel 101 is 2.5 to 3 meters.By the papery processed
Base material just can be such that the film layer of new formation fully solidifies by drying channel 101.
In the present embodiment, RFID label tag process units 100 also includes connecting gear 180.Connecting gear 180 drives papery
Base material passes sequentially through gloss oil printing mechanism 110, electrically conductive ink printing mechanism 120, insulation print mechanism 130, ink jet printing mechanism
140th, localised application mechanism and paper collecting machine.
Connecting gear 180 includes roller 181 and conveyer belt 183.Roller 181 drives the rotation that conveyer belt 183 moves in circles,
So as to drive the paper substrates being carried on conveyer belt 183 to move to specified location.
In the present embodiment, gloss oil printing mechanism 110, electrically conductive ink printing mechanism 120, insulation print mechanism 130 are single
Paper multicolour rotogravure press.Single paper multicolour rotogravure press is common equipment, using the equipment as RFID label tag process units 100
Element can effective reduces cost.
Above-mentioned RFID label tag process units 100, gloss oil can be formed by gloss oil printing mechanism 110 in the side of paper substrates
Layer.Further, then by electrically conductive ink printing mechanism 120, insulation print mechanism 130 and ink jet printing mechanism 140 successively shape
Into conductive ink layer, insulating medium layer and logic circuit layer, the centreless RFID label tag of paper substrate is just can obtain.Because light oil reservoir can be every
From conductive ink layer and paper substrates, therefore can prevent electrically conductive ink from being absorbed by paper substrates, from the work(without influenceing RFID label tag
Energy.Therefore, above-mentioned RFID label tag process units and method can directly form centreless RFID label tag on paper substrates, so that effectively
Expand the range of application of centreless RFID label tag.
Fig. 3 is referred to, the present invention also provides a kind of RFID label tag production method.The method comprising the steps of S210~S240:
Step S210:Light oil reservoir is formed in the side of paper substrates.
Specifically, paper substrates can be the casing or single paper of product external packaging.Light oil reservoir is used to change papery
The surface characteristic of base material, so that the surface compact of paper substrates, is difficult to absorb liquid material.
In the present embodiment, the step of being dried to paper substrates is also included after above-mentioned steps S210.Drying to be
Infrared drying, by heat so that typographic gloss oil rapid curing forms light oil reservoir.
Step S220:Light oil reservoir dorsad paper substrates surface formed conductive ink layer.
Specifically, after paper substrates printing varnish, continuing to print electrically conductive ink in light oil reservoir, to form electrically conductive ink
Layer.Wherein, conductive ink layer can be used as the antenna of RFID label tag.Being additionally, since light oil reservoir can isolate conductive ink layer and papery
Base material, therefore can prevent electrically conductive ink from being absorbed by paper substrates, so that the function of the RFID label tag of the paper substrate for finally giving is not received
Influence.
In the present embodiment, the step of being dried to paper substrates is also included after above-mentioned steps S220.Drying to be
Infrared drying, by heat so that typographic electrically conductive ink rapid curing forms conductive ink layer.
Step S230:Conductive ink layer dorsad light oil reservoir surface formed insulating medium layer.
Specifically, in the surface printing dielectric ink of conductive ink layer, to form insulating medium layer.Wherein, formation is exhausted
Edge dielectric layer can be used as the intermediate medium of capacitance structure.
In the present embodiment, the step of being dried to paper substrates is also included after above-mentioned steps S230.Drying to be
Infrared drying, by heat so that typographic dielectric ink rapid curing forms insulating medium layer.
Step S240:Insulating medium layer dorsad conductive ink layer surface formed logic circuit layer.
Specifically, inkjet printing is carried out according to preset design figure using ink jet printing mechanism, so as to form preset shape
Logic circuit layer.Logic circuit layer plays mark action as the core component of RFID label tag.After forming logic circuit layer,
The centreless RFID label tag of one simple type becomes type.
Specifically in the present embodiment, above-mentioned steps S240 is specially:Design instruction is obtained, with according to design instruction control spray
Black printing mechanism carries out inkjet printing according to default design configuration.Therefore, can obtain different according to the different designs of product
Logic circuit layer, so as to match different RFID label tags for different products, realizes one yard of a thing.
In the present embodiment, the step of being dried to paper substrates is also included after above-mentioned steps S240.Drying to be
Infrared drying, by heat so that typographic electrically conductive ink rapid curing forms logic circuit layer.
In the present embodiment, after the step S240, also including step:In logic circuit layer dorsad insulating medium layer
Surface formed protection film layer.
Specifically, protection film layer can be formed by the printing UV gloss oil on logic circuit layer.After protection film layer solidification, can be right
Logic circuit plays a protective role, so as to prevent RFID label tag to be worn during transport, storage.
Further, in the present embodiment, after the step of above-mentioned formation protection film layer, also including entering to paper substrates
The step of row drying.Specifically, drying is ultraviolet drying, UV film layers are irradiated by ultraviolet, so that its rapid curing is formed
Protection film layer.
Above-mentioned RFID label tag production method, first forms light oil reservoir in the side of paper substrates.Further, then sequentially form
Conductive ink layer, insulating medium layer and logic circuit layer, just can obtain the centreless RFID label tag of paper substrate.Because light oil reservoir can isolate
Conductive ink layer and paper substrates, therefore can prevent electrically conductive ink from being absorbed by paper substrates, from the function without influenceing RFID label tag.
Therefore, above-mentioned RFID label tag production method can directly form centreless RFID label tag on paper substrates, so as to effectively expand
The range of application of centreless RFID label tag.
Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality
Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited
In contradiction, the scope of this specification record is all considered to be.
Embodiment described above only expresses several embodiments of the invention, and its description is more specific and detailed, but simultaneously
Can not therefore be construed as limiting the scope of the patent.It should be pointed out that coming for one of ordinary skill in the art
Say, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection of the invention
Scope.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.
Claims (10)
1. a kind of RFID label tag process units, for forming RFID label tag on paper substrates, it is characterised in that the RFID marks
Signing process units includes:
Gloss oil printing mechanism, for receiving the paper substrates, and forms light oil reservoir in the side of the paper substrates;
The electrically conductive ink printing mechanism connected with the gloss oil printing mechanism, the paper of the light oil reservoir is formed with for receiving
Matter base material, and the light oil reservoir dorsad the paper substrates surface formed conductive ink layer;
The insulation print mechanism connected with the electrically conductive ink printing mechanism, the institute of the conductive ink layer is formed with for receiving
State paper substrates, and insulating medium layer is formed on the surface of the conductive ink layer dorsad light oil reservoir;And
With the ink jet printing mechanism of the insulation print mechanism connection, the paper of the insulating medium layer is formed with for receiving
Matter base material, and the insulating medium layer dorsad the conductive ink layer surface formed logic circuit layer.
2. RFID label tag process units according to claim 1, it is characterised in that also including with the ink jet printing mechanism
The localised application mechanism of connection, for receiving paper substrates described in shape, and in the logic circuit layer dorsad dielectric
The surface of layer forms protection film layer.
3. RFID label tag process units according to claim 2, it is characterised in that also include:
Paper guide, connects with the gloss oil printing mechanism, and the paper guide is used to provide the paper to the gloss oil printing mechanism
Matter base material;
Paper collecting machine, and the localised application mechanism connection for receiving and receives the papery for being formed with the protection film layer
Base material.
4. RFID label tag process units according to claim 3, it is characterised in that the gloss oil printing mechanism, described lead
Electric ink printer structure, the insulation print mechanism, the ink jet printing mechanism, the localised application mechanism and the paper collecting machine
Between pass sequentially through drying channel connection.
5. RFID label tag process units according to claim 4, it is characterised in that the length of the drying channel is 2.5
To 3 meters.
6. RFID label tag process units according to claim 3, it is characterised in that also including connecting gear, the transmission
Mechanism drives the paper substrates to pass sequentially through the gloss oil printing mechanism, the electrically conductive ink printing mechanism, insulation print
Brush mechanism, the ink jet printing mechanism, the localised application mechanism and the paper collecting machine.
7. RFID label tag process units according to claim 1, it is characterised in that the gloss oil printing mechanism, described lead
Electric ink printer structure, the insulation print mechanism are single paper multicolour rotogravure press.
8. a kind of RFID label tag production method, it is characterised in that including:
Step 1:Light oil reservoir is formed in the side of the paper substrates;
Step 2:The light oil reservoir dorsad the paper substrates surface formed conductive ink layer;
Step 3:The conductive ink layer dorsad the light oil reservoir surface formed insulating medium layer;
Step 4:The insulating medium layer dorsad the conductive ink layer surface formed logic circuit layer.
9. RFID label tag production method according to claim 8, it is characterised in that after the step 4, also including step
Rapid 5:The logic circuit layer dorsad the insulating medium layer surface formed protection film layer.
10. RFID label tag production method according to claim 9, it is characterised in that in the adjacent step of above-mentioned any two
Between rapid and after the step 5, also including being dried to the paper substrates the step of.
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CN110588164A (en) * | 2019-10-09 | 2019-12-20 | 朱琼兰 | Multi-color label rotary printing machine |
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