CN105787549A - Electronic printing label interface, printing label, circuit board and interface technology - Google Patents

Abstract

The invention discloses a printed label interface, printed labels, a circuit board and an interface technology. The electronic printed label interface includes an electrode which is made from a magnetic material or the electronic printed label interface also includes the magnetic material which is attached to the periphery of the electrode. The magnetic material for preparing the electronic printed label interface makes the electronic printed label interface to have a magnetic property, which enables the electronic printed label interface and the circuit board and the mutual connection among printed labels to be fixed or connected through magnetic absorption. The printed label interface of the invention reduces possible wear to a label in the connection of printed labels, increases accuracy in information storage and transmission, increases recycling level, reduces cost of industrial manufacturing, and at the same time reduces installation time, increases reusability of printed labels, and implements environmental protection and energy saving.

Description

A kind of electronic printing tag interface, printed label, circuit board and interface technique

Technical field

The present invention relates to printed label field, be specifically related to a kind of electronic printing tag interface, printed label, circuit board and interface technique.

Background technology

The electrical apparatus interface of printed label connects currently mainly two ways, and one is to be clamped by printed label with clip, and another kind is to paste with conducting resinl.The former has 2 deficiencies, and one is that the base volume of clip is relatively big, does not meet the requirement of some ultra-thin and ultra-light application.Two is that the hardness of clip is higher, it is easy to docking port produces abrasion when mounted, also easily scrapes damage label so that it is lost efficacy, thus affecting the durability of label.The latter, owing to being paste with viscose, so easily making interface surface pollute during Reusability, affecting its performance, being also easily damaged label, affect the reading of data when tearing viscose.Again such that label durability is substantially reduced.Constantly strengthening however as the consciousness that energy environment protection is utilized, existing interface all can not reach the requirement of environmental protection and energy saving due to durability difference.

Hence it is highly desirable to one both environmental protection and energy saving, the interface of its electric function can not be affected again.

Summary of the invention

Problem to be solved by this invention is, existing interface does not meet the requirement of some ultra-thin and ultra-light application on the one hand；In installation, connection procedure, interface is easily damaged on the other hand, causes loss of data, so that the durability of interface is poor, does not meet environmental protection and energy saving requirement.

For solving the problems referred to above, the present invention provides a kind of electronic printing tag interface, including:

Optionally, described electrode is made by magnetic material or described interface also includes being attached to the described magnetic material of described surrounding them.

Optionally, described magnetic material is liquid, graininess or lamellar.

Optionally, described magnetic material includes metal magnetic granule, soft magnetic ferrite particles or Nanoalloy granule.

Optionally, the area ratio of the described magnetic material and described electrode that are attached to described surrounding them is 1:1～20:1.

Optionally, described interface can be used for the interconnection between the interconnection between label and circuit board and label and label.

Optionally, described electronic printing label includes sensor tag and storage label.

For solving the problems referred to above, the present invention also provides for including the electronic printing label of above-mentioned interface or circuit board.

For solving the problems referred to above, the present invention also provides for a kind of electronic printing tag interface processing technology, including:

Modulation alloy ink step, described alloy ink includes magnetic material and organic solvent or includes magnetic material and resin solution.

Optionally, described organic solvent is alcohols, and described resin solution is epoxy resin solution.

Optionally, also including the curing schedule after modulation alloy molten solution step, described magnetic material is Nanoalloy granule, and the temperature of described curing schedule is more than 100 degrees Celsius, and described hardening time is be more than or equal to 10 minutes and less than or equal to 60 minutes.

Compared with prior art, technical scheme has the advantage that

Utilizing magnetic material to prepare interface makes its band be magnetic, and is connected with other interfaces by the mode of magnetic suck.Including making the direct mode of electrode with magnetic material and utilizing the indirect mode that magnetic material adheres to complete magnetic connection around interface.

Above-mentioned magnetic interfaces, is fixed completely without adopting the form pressed from both sides or paste, it is only necessary to slightly pull and just can realize dismounting.So, greatly reduce interface in printed label installation, connection, unloading process and damage probability, improve the accuracy that information preserves and transmits, thus improve the durability of interface, reducing industrial cost of manufacture, decreasing the time of installation simultaneously.Therefore, under the premise not affecting described Interface Electrical function, it is achieved that environmental protection and energy saving.

Accompanying drawing explanation

Fig. 1 is the structural representation being directly prepared into electrode interface by magnetic material in the embodiment of the present invention one；

Fig. 2 is the interconnection schematic diagram of the first label in the embodiment of the present invention one and first circuit board；

Fig. 3 is the interconnection schematic diagram of the first label in the embodiment of the present invention two and the second label；

Fig. 4 is the interconnection schematic diagram of the different labels in the embodiment of the present invention three and first circuit board；

Fig. 5 is that the magnetic material in the embodiment of the present invention four is attached to surrounding them and indirectly makes the structural representation of magnetic interfaces.

Detailed description of the invention

Below in conjunction with drawings and Examples, technical scheme is elaborated.

Embodiment one

Fig. 1 and Fig. 2 is the interconnection schematic diagram of the first label and first circuit board.In conjunction with Fig. 1 and Fig. 2, one end of the first label 11 is provided with the first electrode 12, namely the interface of the first label.In the present embodiment, the first label can be sensor tag or storage label.First Shipping Options Page can be flexible label or inflexibility label.

In the present embodiment, the first electrode 12 has magnetic, is only made up of magnetic material.Described magnetic material includes metal magnetic granule, soft magnetic ferrite particles or Nanoalloy granule etc..Why selecting above-mentioned three kinds of magnetic materials, be because, these three kinds of magnetic materials are easily formed grain shape, and made into particulate form is uniform, magnetic property is more excellent.In the present embodiment, why by magnetic material made into particulate form, it is that the thickness adjusted of the magnetic material due to grain shape operates more flexibly and easily.Such as, for printed label, under the premise not affecting electric function, Bao Yuehao got over by magnetic material, say, that the first electrode 12 more Bao Yuehao, being advantageously implemented the lightening of printed label, perhaps only one layer of corresponding granular magnetic layer of coating just can realize due electric function.Again such as, if the first electrode 12 needs thicker magnetic material layer, it is possible to increase the number of times of coating granular magnetic layer.Certainly, in other embodiments, magnetic material can also be lamellar and liquid, falls within protection scope of the present invention.

In other embodiments, the first electrode 12 can also be made up of the magnetic material mixing with the metal material in nonmagnetic substance, falls within protection scope of the present invention.

In the present embodiment, the first electrode 12 is square.In other embodiments, the shape of the first electrode 12 can also be other regular or irregular figures such as rectangle, circle, triangle, polygon, falls within protection scope of the present invention.

In the present embodiment, the first electrode 12 has three pieces, is all made up of magnetic material for three pieces.In other embodiments, three cube electrodes are made up of magnetic material for one piece or two pieces, fall within protection scope of the present invention.Certainly, the quantity of the first electrode 12, shape and in the first label position relevant with concrete application, be not herein limited by restriction.

In the present embodiment, the first label 11 needs to carry out electro permanent magnetic with first circuit board 21 and is connected.First circuit board 21 includes chip 23 and is arranged at the first circuit board electrode 22 of first circuit board 21 one end.First circuit board electrode 22 is also interface.First circuit board electrode 22 also has magnetic.Specifically refer to the first electrode 11., do not repeat at this.First circuit board 21 can be card reader, and in other embodiments, first circuit board can also be other kinds of circuit board.

In this enforcement, the first electrode 12 of the first label 11 is attached together by magnetic force mutually with the first circuit board electrode 22 of first circuit board 21, it is achieved that the connection between the first label and first circuit board.In the present embodiment, the first electrode 12 and first circuit board electrode 22 all have magnetic.In other embodiments, as long as the first electrode 12 and first circuit board electrode 22 have a side to have magnetic, the opposing party is the electrode of prior art, is made up of the metal of nonmagnetic substance and falls within protection scope of the present invention.

In the present embodiment, above-mentioned magnetic interfaces, it is easy to installation and removal, in the process especially dismantled, do not need too big manpower just can realize the first electrode 12 and separate with the not damaged of first circuit board electrode 22.Therefore, greatly reducing interface damage probability in printed label installation, connection, unloading process, the information that improves preserves and the accuracy of transmission, thus improve the durability of printed label, reducing industrial cost of manufacture, decreasing the time of installation simultaneously.Therefore, under the premise not affecting described Interface Electrical function, it is achieved that environmental protection and energy saving.

Certainly, the quantity of first circuit board electrode 22, shape and the position in first circuit board 21 are also relevant with concrete application, are not herein limited by restriction, however it is necessary that and the first corresponding setting of electrode 11.

In other embodiments, the first electrode 12 can be same magnetic material with first circuit board electrode 22, it is also possible to for different magnetic materials.

Embodiment two

The present embodiment is that two different labels are attached from the difference of embodiment one.Fig. 3 is the interconnection schematic diagram of the first label in the embodiment of the present invention two and the second label.In conjunction with reference to Fig. 3, the first label 11 is provided with the first electrode 12, is specifically referred to the first electrode 12 in embodiment one.Second label 31 is provided with the second electrode 32, with specific reference to the first electrode 12 in embodiment one.

In the present embodiment, the first electrode 12 and the second electrode 32 are all magnetic material, it is also possible to one of them has magnetic material.

In the present embodiment, the first electrode 12 and the second electrode 32 can be identical magnetic material, it is also possible to for different magnetic materials.

In the present embodiment, an electrode made for magnetic material in the first motor 12 and the second electrode 32, other are that in prior art, electrode falls within protection scope of the present invention.

In the present embodiment, the first electrode 12 of the first label 11 and the second electrode 32 of the second label 31 are attached together mutually by magnetic force.Specifically it is referred to embodiment one.

Embodiment three

Multiple label that is distinguished as of embodiment three and embodiment one, embodiment two is interconnected with a circuit board simultaneously.In conjunction with reference to Fig. 4, in the present embodiment, multiple labels include the first label to the 4th label.Wherein, the first label 11 is temperature sensor label, and the second label 31 is humidity sensor label, and the 3rd label 41 is pressure transducer label, and the 4th label 51 is printing storage label.

In the present embodiment, the first label 11 is attached with the first circuit board electrode 22 of first circuit board 21 to the 4th label 51 by stacking mode simultaneously.4th electrode 52 of the 4th label 51 is covered on the first circuit board electrode 22 of first circuit board 21,3rd electrode 42 of the 3rd label 41 is covered on the 4th electrode 52 of the 4th label 51, second electrode 32 of the second label 31 is covered on the 3rd electrode 42 of the 3rd label 41, and the first electrode 12 of the first label 11 is covered on the second electrode 32 of the second label 31.Now, the second label 31 to the electrode correspondence respectively in the 4th label 51 penetrates and is arranged at the second label 31 to the 4th label 51.For the second label 31, the obverse and reverse of the second label 31 all has the second electrode 32.First label 11 only one side has the first electrode 12.The magnetic material of concrete electrode and position, reference example one are set.In other embodiments, the quantity of label is not limited to four.

In other embodiments, the first label to the 4th label adopts non-stacking mode to be connected with first circuit board simultaneously, falls within protection scope of the present invention.

In other embodiments, the first label to the 4th label segment adopts stack manner, and part adopts non-stacking mode to be connected with first circuit board, falls within protection scope of the present invention.

In other embodiments, for instance, when needs carry out temperature sensing, by temperature sensing tag interface simply near first circuit board interface, complete absorption by magnetic force fixing.When test completes, slightly pull, can complete to separate.When the other sensor of needs, operate equally.Exchanging between label is very easy to operation, and tag interface preserves complete simultaneously, weares and teares hardly so that sensing label can repeatedly use.First circuit board can use same, always normal operation, equally also has the effect reducing abrasion.

Embodiment four

Embodiment four and above-described embodiment one to embodiment three difference be: magnetic material is attached to surrounding them and indirectly makes magnetic interfaces.It is to say, magnetic interfaces includes the electrode of prior art and is attached to the magnetic material of described electrode.Fig. 5 is that the magnetic material in the embodiment of the present invention four is attached to surrounding them and indirectly makes the structural representation of magnetic interfaces.With reference to Fig. 5, the interface of the 6th label 61 includes the 6th electrode 62 and the magnetic material 63 arranged around described 6th electrode 62.

In the present embodiment, in the 6th label 61, the area ratio of the area of magnetic material 63 and described 6th electrode 62 is 1:1～20:1.If the area of magnetic material 63 is too big, relatively costly, if the area of magnetic material 63 is too little, it is unfavorable for absorption.

In the present embodiment, include chip 74 with the second circuit board 71 of the 6th corresponding connection of label 61 and be arranged at the second circuit plate electrode 72 of second circuit board 71 one end.Also there is magnetic material 73 around second circuit plate electrode 72.Magnetic material 73 and second circuit plate electrode 72 are the electrode on circuit board.Magnetic material 73 is corresponding with the position of the magnetic material 63 of the 6th label 61, it is ensured that realize adsorbing.In the present embodiment, the area of magnetic material 73 is equal to the area of the magnetic material 63 of the 6th label, and in other embodiments, the area of magnetic material 73 falls within protection scope of the present invention more than or less than the area of the magnetic material 63 of the 6th label.The concrete material of the concrete material of magnetic material 73, position and magnetic material 63, position have and are referred to embodiment one.

In other embodiments, the 6th label is arranged the position of magnetic material and second circuit board arrange magnetic material position one of them be magnetic material, another is ordinary metallic material, falls within protection scope of the present invention.

In other embodiments, two the 6th labels are interconnected, and fall within protection scope of the present invention.Certainly, in two the 6th labels, respective surrounding them can be all magnetic material, it is possible to one of them is magnetic material.

Embodiment five

The present embodiment provides the printed label of a kind of electronic printing tag interface comprised described in embodiment one to embodiment four.Specifically it is referred to the various embodiments described above.

Embodiment six

The present embodiment provides the circuit board of a kind of electronic printing tag interface comprised described in embodiment one to embodiment four.Specifically it is referred to above-described embodiment.

Embodiment seven

The present embodiment also provides for the silk-screen printing technique of a kind of above-mentioned magnetic interfaces.Specifically include following step:

The first step: make half tone.

In the present embodiment, it is possible to adopt direct-to-plate to make half tone.Certainly, in other embodiments, it would however also be possible to employ method well-known to those skilled in the art carries out making half tone.Described web plate includes the shape of above-mentioned each printed label interface.For example, it is possible to web plate is successively carried out first time coating photoresists and is coated with photoresists for the second time, and need coating tow sides every time.Carry out drying for the first time net after first time coating photoresists, carry out second time after second time coating photoresists and dry net.Such that it is able to save processing step etc..

Second step: modulation alloy ink.

The present embodiment is the alloy ink of the magnetic material making surrounding them attachment, specific as follows: by Nanoalloy granule and the blended formation alloy ink of isopropanol., in other embodiments, it would however also be possible to employ other kinds of particulate magnetic materials carries out the modulation of ink.In other embodiments, it would however also be possible to employ other kinds of magnetic material carries out the modulation of ink.In other embodiments, it would however also be possible to employ other alcohols carries out the modulation of ink.In other embodiments, it would however also be possible to employ other kinds of organic solvent carries out the modulation of ink.In other embodiments, having magnetic electrode if made, also needing to be mixed with existing conducting metal ink to increase electric conductivity in above-mentioned alloy ink.

It should be noted that why select Nanoalloy granule as magnetic material, it is more beneficial for wiring solution-forming.Why selecting alcohols to make solvent, under the Nanoalloy premise as solute, be more beneficial for solidifying, therefore, by both combinations above-mentioned, magnetic effect is good.

3rd step: silk screen printing.

Alloy ink was uniformly scraped on above-mentioned web plate.It is specially those skilled in the art's common technology means.

4th step: solidify.

For the alloy ink that the magnetic material in the present embodiment and solvent are made, solidification temperature is be more than or equal to 100 degrees Celsius.Why adopt above-mentioned solidification temperature scope, be because solidification effect good.It addition, hardening time is be more than or equal to 10 minutes and less than or equal to 60 minutes.If hardening time is too short, solidify loosely；If hardening time is oversize, it is easy to oxidation.

In other embodiments, it would however also be possible to employ gluing process makes described magnetic interfaces.Specifically include following step:

The alloy colloidal sol of the magnetic material to make surrounding them attachment, first by Nanoalloy granule and the blended formation alloy colloidal sol of epoxy resin solution, by magnetic interfaces shape needed for Programming Design, then utilizes gluing process to complete preparation.Afterwards, the temperature-curable more than 100 degrees Celsius, be more than or equal to 10 minutes and less than or equal to 60 minutes, forms required magnetic interfaces.Concrete reason is referred to above-described embodiment.In other embodiments, it would however also be possible to employ other kinds of particulate magnetic materials carries out the modulation of ink.In other embodiments, it would however also be possible to employ other kinds of magnetic material carries out the modulation of ink.In other embodiments, it would however also be possible to employ other resin solutions form alloy colloidal sol, fall within protection scope of the present invention.In other embodiments, having magnetic electrode if made, also needing to be mixed with existing conducting metal ink to increase electric conductivity in above-mentioned alloy colloidal sol.

It should be understood that why select Nanoalloy granule and resin solution to be combined, the solution viscosity being made on the one hand is suitable, is suitable to a glue.On the other hand, solidification effect is good.Furthermore, magnetic effect might as well.

In other embodiments, it would however also be possible to employ above-mentioned alloy solution, carry out the at present label typography such as inkjet printing, offset printing and form above-mentioned magnetic interfaces and fall within protection scope of the present invention.

Because those skilled in the art should be understood that the present invention can be implemented without departing from the spirit or scope of itself with other concrete forms many.Although having been described for the case study on implementation of the present invention, it should be understood that the present invention should not be limited to these embodiments, those skilled in the art can change and modifications as made within the spirit and scope of the present invention that appended claims defines.

Claims (10)

1. an electronic printing tag interface, including electrode, it is characterised in that described electrode is made by magnetic material or described interface also includes being attached to the described magnetic material of described surrounding them.

2. electronic printing tag interface as claimed in claim 1, it is characterised in that described magnetic material is liquid, graininess or lamellar.

3. electronic printing tag interface as claimed in claim 1, it is characterised in that described magnetic material includes metal magnetic granule, soft magnetic ferrite particles or Nanoalloy granule.

4. electronic printing tag interface as claimed in claim 1, it is characterised in that the area ratio of the described magnetic material and described electrode that are attached to described surrounding them is 1:1～20:1.

5. electronic printing tag interface as claimed in claim 1, it is characterised in that described interface can be used for the interconnection between the interconnection between label and circuit board and label and label.

6. as claimed in claim 1, it is characterised in that described electronic printing label includes sensor tag and storage label.

7. an electronic printing label or circuit board, it is characterised in that include the interface as described in any one claim in claim 1 to 6.

8. an electronic printing tag interface processing technology, it is characterised in that including modulation alloy ink step, described alloy ink includes magnetic material and organic solvent or includes magnetic material and resin solution.

9. interface processing technology as claimed in claim 8, it is characterised in that described organic solvent is alcohols, and described resin solution is epoxy resin solution.

10. such as interface processing technology according to claim 8, it is characterized in that, also include the curing schedule after modulation alloy molten solution step, described magnetic material is Nanoalloy granule, the temperature of described curing schedule is more than 100 degrees Celsius, and described hardening time is be more than or equal to 10 minutes and less than or equal to 60 minutes.