CN218332965U - NFC & RFID heat-transfer seal label - Google Patents

Abstract

The utility model discloses a NFC & RFID heat-transfer seal label, including the chip that adopts NFC chip or RFID chip, still include: the transfer printing substrate, the parting agent coating layer, the printing ink pattern printing layer, the substrate printing ink layer, the first transparent printing ink layer, the first anti-seepage printing ink layer, the second transparent printing ink layer, the third anti-seepage printing ink layer and the adhesive layer are sequentially arranged layer by layer; the first anti-seepage ink layer, the second anti-seepage ink layer, the third anti-seepage ink layer and the second transparent ink layer are matched to form a waterproof structure, so that comprehensive waterproof protection is provided for the chip, the chip can still read and write in a wet or humid environment, and the heat transfer label can be used in all-weather environments; the second anti-seepage ink layer can enable the whole heat transfer label to be smoother, and the chip is protected from being damaged by foreign objects; and moreover, the heat transfer label can have a bendable characteristic through the matching of the first transparent ink layer and the second transparent ink layer.

Description

NFC & RFID heat-transfer seal label

Technical Field

The utility model relates to a heat-transfer seal label, specific NFC & RFID heat-transfer seal label that says so.

Background

At present, an NFC & RFID thermal transfer label is rising, and NFC & RFID chips can be directly hot-stamped on clothes by a thermal transfer technology, but the technology is still not perfect at present, and certain technical defects exist. For example: is limited by the screen printing process, and cannot realize complex pattern and color printing; the chip is not effectively protected, and the reading and writing are invalid under the condition that clothes are wet or moist, so that the application is limited and the like.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: an NFC & RFID thermal transfer label is provided.

Solve above-mentioned technical problem, the utility model discloses the technical scheme who adopts as follows:

an NFC & RFID thermal transfer label includes a chip employing an NFC chip or an RFID chip; it is characterized by also comprising: the transfer printing device comprises a transfer printing substrate, a release agent coating layer, an ink pattern printing layer, a substrate ink layer, a first transparent ink layer, a first anti-seepage ink layer, a second transparent ink layer, a third anti-seepage ink layer and a bonding agent layer which are sequentially arranged layer by layer, wherein the substrate ink layer is formed by printing ink with a single color; the second anti-seepage ink layer is equal in thickness to the chip, a hollow hole with the size matched with the chip is reserved in the center of the second anti-seepage ink layer, and the chip is implanted into the hollow hole.

Thus, the utility model discloses a each layer component part of NFC & RFID heat-transfer seal label can play following effect in its use:

when the heat transfer printing is carried out, the heat transfer printing label is adhered to a product to be transferred, such as clothes, through the adhesive layer, so that the heat transfer printing label can be well attached to the product to be transferred, and the heat transfer printing label cannot fall off in the using process.

After finishing the heat-transfer seal, tear the rendition basement through the hand mode of tearing, the adhesive force of printing ink pattern printing layer and rendition basement can be reduced to the release agent coating, makes the mark rendition basement can be torn smoothly, guarantees the integrality of heat-transfer seal label.

In the using process after the thermal transfer printing is finished, the chip provides a unique ID and electronic tag functions of reading, writing, identifying and the like for the thermal transfer printing tag; the ink pattern printing layer is used for forming an appearance pattern of the heat transfer printing label; the substrate ink layer is used for highlighting the ink color of the ink pattern printing layer and preventing other ink colors from penetrating forwards to cause color interference on the ink pattern printing layer;

the first transparent ink layer is used for increasing the ductility and the stretch resistance of the heat transfer label, so that the heat transfer label has the washable stretch resistance, and meanwhile, the transparent ink can stabilize the ink property, so that the phenomenon that the edges of other ink layers are diffused and become burr-shaped edges to influence the appearance of the heat transfer label is prevented; the first anti-seepage ink layer is used for providing anti-seepage protection for the heat transfer printing label so as to provide waterproof protection on the back side of the chip, so that the chip is not easy to damage, and meanwhile, the phenomenon that the whole appearance of the heat transfer printing label is influenced by the bottom color permeation of a transferred product can be prevented; the second anti-seepage ink layer is used for providing waterproof protection on the periphery of the side face of the chip, so that the whole heat transfer printing label is smoother, and the chip is protected from being damaged by foreign objects; the second transparent ink layer is used for increasing the ductility and the stretch resistance of the heat transfer label, the heat transfer label has the bendable characteristic through the matching of the first transparent ink layer and the second transparent ink layer, and the maximum bending degree can reach 180 degrees so as to prolong the service life of the chip; the third prevention and penetration ink layer provides waterproof protection for the front side of the chip, so that the chip is wrapped by the first prevention and penetration ink layer, the second prevention and penetration ink layer and the third prevention and penetration ink layer to provide comprehensive waterproof protection for the chip, and the chip can still read and write under wet water or a humid environment.

To sum up, the utility model forms a waterproof structure by the cooperation of the first anti-seepage ink-permeable layer, the second anti-seepage ink-permeable layer, the third anti-seepage ink-permeable layer and the second transparent ink layer, so as to provide comprehensive waterproof protection for the chip, so that the chip can still read and write in wet water or wet environment, the heat transfer label can be used in all-weather environment, and the application scene of the heat transfer label, such as the application in bathroom, cold storage and other environments, is greatly enlarged; the second anti-seepage ink layer can enable the whole heat transfer label to be smoother, and the chip is protected from being damaged by foreign objects; and, through the cooperation on first transparent printing ink layer and the transparent printing ink layer of second, can make the heat-transfer seal label have the characteristic of can buckling, and the maximum degree of buckling can reach 180 to the life of extension chip.

Additionally, the utility model discloses a NFC&The RFID thermal transfer label preferably adopts the following hot pressing conditions for thermal transfer printing so as to enhance the adhesion strength between the thermal transfer label and a product to be transferred, ensure the firm adhesion between the thermal transfer label and the product to be transferred and protect the effectiveness of a chip at the same time: ironing temperature range: 120-160 ℃, namely 248-320 ℃ F; hot pressing stop time range: 8-15 seconds; the application pressure range is as follows: 1-1.5kg/cm ² 14-21PSI; the tearing method of the transfer substrate comprises the following steps: cold tearing/warm tearing; ironing press set pressure = (application pressure × ironing press platen area)/(3.14 × piston radius).

Preferably, the following components: the transfer printing substrate is a PET film or transfer printing paper.

Preferably: the printing ink pattern printing layer is formed by printing digital printing ink through a digital printing process. Therefore, any complex pattern and rich-color printing of the ink pattern printing layer can be realized, if borderless gradient color pattern printing is adopted, one pattern can contain dozens of colors, the bottleneck of pattern design of the traditional silk-screen printing heat transfer label is broken through, the pattern design requirement of the heat transfer label is greatly met, the potential of the heat transfer label design is improved, and the application requirement of each industry on the complex label is met.

In addition, the ink pattern printing layer can also be formed by printing spot color ink through a screen printing process, the thickness of the ink pattern printing layer formed through the screen printing process is preferably between 10 and 20 micrometers, and the printing screen tension of the screen printing process is preferably 24-30N.

Preferably: the thickness of the release agent coating layer is between 1 and 5 micrometers, the thickness of the ink pattern printing layer printed by the digital printing process is between 1 and 5 micrometers, the thickness of the substrate ink layer is between 17 and 27 micrometers, the thickness of the first transparent ink layer is between 5 and 10 micrometers, the thickness of the first anti-seepage ink layer is between 25 and 40 micrometers, the thickness of the second transparent ink layer is between 5 and 10 micrometers, the thickness of the third anti-seepage ink layer is between 25 and 40 micrometers, and the thickness of the adhesive layer is between 45 and 85 micrometers.

Preferably: the substrate ink layer is printed by white ink.

Preferably, the following components: the substrate ink layer, the first transparent ink layer, the first anti-seepage permeation ink layer, the second transparent ink layer and the third anti-seepage permeation ink layer are formed by printing corresponding ink through a screen printing process, and the adhesive layer is formed by printing an adhesive through the screen printing process.

The printing screen tension of the adhesive layer is preferably 24-30N, the printing screen tension of the substrate ink layer is preferably 24-30N, the printing screen tension of the first transparent ink layer is preferably 24-30N, the printing screen tension of the first anti-seepage ink layer is preferably 24-30N, the printing screen tension of the second transparent ink layer is preferably 24-30N, and the printing screen tension of the third anti-seepage ink layer is preferably 24-30N.

Preferably: the edge of the substrate ink layer is inwards reduced by 0.2mm to 0.3mm relative to the edge of the pattern formed by printing the ink pattern printing layer, so that the problem of screen printing registration is solved; the edge of the first transparent ink layer is enlarged outwards by 0.1mm to 0.25mm relative to the edge of the pattern, and the edge of the first anti-seepage ink layer is reduced inwards by 0.35mm to 0.45mm relative to the edge of the pattern, so that the problem of screen printing registration is solved; the edge of the second anti-seepage ink layer is inwards reduced by 0.35mm to 0.45mm relative to the edge of the pattern so as to solve the problem of screen printing nesting; the size and the position of the second transparent ink layer coincide with a pattern formed by printing the ink pattern printing layer, and the edge of the third waterproof ink layer is inwards reduced by 0.3mm to 0.45mm relative to the edge of the pattern, so that the problem of screen printing registration is solved.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses a first prevention of seepage passes through printing ink layer, second prevention of seepage passes through printing ink layer, third prevention of seepage passes through printing ink layer and second transparent printing ink layer cooperation and forms waterproof construction, for the chip provides comprehensive water proof protection, makes the chip still can read and write under humid water or humid environment, has realized that the heat-transfer seal label can be used under all-weather environment, has greatly expanded the application scene of heat-transfer seal label, application under environments such as bathroom, freezer; the second anti-seepage ink layer can enable the whole heat transfer label to be smoother, and the chip is protected from being damaged by foreign objects; and, through the cooperation on first transparent printing ink layer and second transparent printing ink layer, can make the heat-transfer seal label have the characteristic of can buckling, and the biggest degree of buckling can reach 180 to the life of extension chip. In addition, the printing of the ink pattern printing layer is realized through a digital printing process, so that the heat transfer label can print complicated appearance patterns and appearance patterns with rich colors, the appearance performance of the heat transfer label is improved, and the application scene of the heat transfer label is enlarged.

Drawings

The invention will be described in further detail with reference to the following drawings and specific embodiments:

fig. 1 is the structure diagram of the NFC & RFID thermal transfer label of the present invention.

Detailed Description

The present invention will be described in detail with reference to the following embodiments and the accompanying drawings to help those skilled in the art better understand the concept of the present invention, however, the protection scope of the claims of the present invention is not limited to the following embodiments, and for those skilled in the art, all other embodiments obtained without making creative work without departing from the concept of the present invention belong to the protection scope of the present invention.

As shown in fig. 1, the utility model discloses a NFC & RFID heat transfer label, which comprises a chip 11 adopting an NFC chip or an RFID chip; further comprising: the transfer printing ink comprises a transfer printing substrate 1, a release agent coating layer 2, an ink pattern printing layer 3, a substrate ink layer 4, a first transparent ink layer 5, a first anti-seepage ink layer 6, a second anti-seepage ink layer 7, a second transparent ink layer 8, a third anti-seepage ink layer 9 and a bonding agent layer 10 which are sequentially arranged layer by layer, wherein the substrate ink layer 4 is formed by printing ink with a single color; the second anti-seepage ink layer 7 and the chip 11 are equal in thickness, a hollow hole with the size matched with that of the chip 11 is reserved in the center of the second anti-seepage ink layer, and the chip 11 is implanted into the hollow hole.

Thus, the utility model discloses a each layer component part of NFC & RFID heat-transfer seal label can play following effect in its use:

when the heat transfer printing is carried out, the heat transfer printing label is adhered to a product to be transferred, such as clothes, through the adhesive layer 10, so that the heat transfer printing label can be well attached to the product to be transferred and can not fall off in the using process.

After accomplishing the heat-transfer seal, tearing the rendition basement 1 through the hand mode of tearing off, release agent coating 2 can reduce the adhesive force of printing ink pattern printing layer 3 and rendition basement 1, makes mark rendition basement 1 can be torn off smoothly, guarantees the integrality of heat-transfer seal label.

In the using process after the thermal transfer printing is finished, the chip 11 provides a unique ID and electronic tag functions of reading, writing, identifying and the like for the thermal transfer printing tag; the ink pattern printing layer 3 is used for forming an appearance pattern of the heat transfer label; the substrate ink layer 4 is used for highlighting the ink color of the ink pattern printing layer 3 and preventing other ink colors from penetrating forwards to cause color interference on the ink pattern printing layer 3;

the first transparent ink layer 5 is used for increasing the ductility and the stretch resistance of the heat transfer label, so that the heat transfer label has the wash-resistant and stretch-resistant characteristics, and meanwhile, the transparent ink can stabilize the characteristics of the ink, so that the phenomenon that the edges of other ink layers are diffused and become burr-shaped edges to influence the appearance of the heat transfer label is prevented; the first anti-seepage ink layer 6 is used for providing anti-seepage protection for the heat transfer label so as to provide waterproof protection on the back side for the chip 11, so that the chip 11 is not easy to damage, and meanwhile, the phenomenon that the overall appearance of the heat transfer label is affected by the bottom color permeation of a transferred product can be prevented; the second anti-seepage ink layer 7 is used for providing waterproof protection on the periphery of the side face of the chip 11, enabling the whole heat transfer label to be smoother and protecting the chip 11 from being damaged by foreign objects; the second transparent ink layer 8 is used for increasing the ductility and the tensile resistance of the heat transfer label, the heat transfer label has a bendable characteristic through the matching of the first transparent ink layer 5 and the second transparent ink layer 8, and the maximum bending degree can reach 180 degrees so as to prolong the service life of the chip 11; third prevention and permeation ink layer 9 provides the waterproof protection of positive side for chip 11 to the parcel through first prevention and permeation ink layer 6, second prevention and permeation ink layer 7 and third prevention and permeation ink layer 9 provides comprehensive waterproof protection for chip 11, makes chip 11 still can read and write under humid water or humid environment.

To sum up, the utility model forms a waterproof structure by the cooperation of the first anti-seepage ink-permeable layer 6, the second anti-seepage ink-permeable layer 7, the third anti-seepage ink-permeable layer 9 and the second transparent ink layer 8 to provide comprehensive waterproof protection for the chip 11, so that the chip 11 can still read and write in wet water or wet environment, the heat transfer label can be used in all-weather environment, and the application scene of the heat transfer label, such as the application in bathroom, cold storage and other environments, is greatly enlarged; the second anti-seepage ink layer 7 can enable the whole heat transfer label to be smoother, and the chip 11 is protected from being damaged by foreign objects; moreover, the heat transfer label can be bent by matching the first transparent ink layer 5 with the second transparent ink layer 8, and the maximum bending degree can reach 180 degrees, so that the service life of the chip 11 is prolonged.

Additionally, the utility model discloses a NFC&The RFID thermal transfer label preferably adopts the following hot pressing conditions for thermal transfer printing, so as to enhance the adhesion strength between the thermal transfer label and a product to be transferred, ensure the firm adhesion between the thermal transfer label and the product to be transferred, and simultaneously protect the effectiveness of the chip 11: ironing temperature range: 120-160 ℃, namely 248-320 ℃ F; hot pressing stop time range: 8-15 seconds; the application pressure range is as follows: 1-1.5kg/cm ² 14-21PSI; tearing method of transfer substrate 1: cold/warm tearing; ironing press set pressure = (applied pressure × ironing press platen area)/(3.14 × piston radius).

The above is the basic embodiment of the present invention, and further optimization, improvement and limitation can be made on the basis of the basic embodiment:

preferably: the transfer substrate 1 is a PET film or transfer paper.

Preferably: the ink pattern printing layer 3 is formed by printing digital ink through a digital printing process. Therefore, printing of 3 random complex patterns and rich colors on the printing ink pattern printing layer can be achieved, if borderless gradient color pattern printing is carried out, one pattern can contain dozens of colors, the pattern design bottleneck of the traditional silk-screen printing heat transfer label is broken through, the pattern design requirement of the heat transfer label is greatly met, the potential of the heat transfer label design is improved, and the application requirement of each industry on the complex label is met.

In addition, the ink pattern printed layer 3 may be formed by printing a spot color ink through a screen printing process, the thickness of the ink pattern printed layer 3 formed through the screen printing process is preferably 10 μm to 20 μm, and the screen tension of the screen printing process is preferably 24 to 30N.

Preferably: the thickness of the release agent coating layer 2 is between 1 μm and 5 μm, the thickness of the ink pattern printing layer 3 printed by the digital printing process is between 1 μm and 5 μm, the thickness of the substrate ink layer 4 is between 17 μm and 27 μm, the thickness of the first transparent ink layer 5 is between 5 μm and 10 μm, the thickness of the first anti-permeation ink layer 6 is between 25 μm and 40 μm, the thickness of the second anti-permeation ink layer 7 is between 25 μm and 40 μm, the thickness of the second transparent ink layer 8 is between 5 μm and 10 μm, the thickness of the third anti-permeation ink layer 9 is between 25 μm and 40 μm, and the thickness of the adhesive layer 10 is between 45 μm and 85 μm.

Preferably, the following components: the substrate ink layer 4 is printed by white ink.

Preferably: the substrate ink layer 4, the first transparent ink layer 5, the first anti-seepage ink layer 6, the second anti-seepage ink layer 7, the second transparent ink layer 8 and the third anti-seepage ink layer 9 are all formed by printing corresponding printing ink through a screen printing process, and the adhesive layer 10 is formed by printing an adhesive through the screen printing process.

The printing screen tension of the adhesive layer 10 is preferably 24-30N, the printing screen tension of the substrate ink layer 4 is preferably 24-30N, the printing screen tension of the first transparent ink layer 5 is preferably 24-30N, the printing screen tension of the first anti-permeation ink layer 6 is preferably 24-30N, the printing screen tension of the second anti-permeation ink layer 7 is preferably 24-30N, the printing screen tension of the second transparent ink layer 8 is preferably 24-30N, and the printing screen tension of the third anti-permeation ink layer 9 is preferably 24-30N.

Preferably: the edge of the substrate ink layer 4 is inwards reduced by 0.2mm to 0.3mm relative to the edge of the pattern formed by printing the ink pattern printing layer 3, so that the problem of screen printing registration is solved; the edge of the first transparent ink layer 5 is enlarged outwards by 0.1mm to 0.25mm relative to the edge of the pattern, and the edge of the first impermeable ink layer 6 is reduced inwards by 0.35mm to 0.45mm relative to the edge of the pattern, so that the screen printing nesting problem is solved; the edge of the second impermeable ink layer 7 is inwards reduced by 0.35mm to 0.45mm relative to the edge of the pattern, so that the problem of screen printing registration is solved; the size and the position of the second transparent ink layer 8 coincide with the pattern formed by printing the ink pattern printing layer 3, and the edge of the third prevention and permeation ink layer 9 is inwards reduced by 0.3mm to 0.45mm relative to the pattern edge, so that the problem of screen printing registration is solved.

The present invention is not limited to the above-mentioned embodiments, and according to the above-mentioned contents, according to the common technical knowledge and conventional means in the field, without departing from the basic technical idea of the present invention, the present invention can also make other equivalent modifications, replacements or changes in various forms, all falling within the protection scope of the present invention.

Claims (7)

1. An NFC & RFID heat transfer label includes a chip (11) employing an NFC chip or an RFID chip; it is characterized by also comprising: the transfer printing ink comprises a transfer printing substrate (1), a release agent coating layer (2), an ink pattern printing layer (3), a substrate ink layer (4), a first transparent ink layer (5), a first anti-seepage ink layer (6), a second anti-seepage ink layer (7), a second transparent ink layer (8), a third anti-seepage ink layer (9) and a bonding agent layer (10), wherein the substrate ink layer (4) is formed by printing ink with a single color; the second anti-seepage ink layer (7) and the chip (11) are equal in thickness, a hollow hole with the size matched with that of the chip (11) is reserved in the center of the second anti-seepage ink layer, and the chip (11) is implanted into the hollow hole.

2. The NFC & RFID heat transfer label of claim 1, wherein: the transfer printing substrate (1) is a PET film or transfer printing paper.

3. The NFC & RFID heat transfer label of claim 1, wherein: the ink pattern printing layer (3) is formed by printing digital ink through a digital printing process.

4. The NFC & RFID heat transfer label of claim 3, wherein: the thickness of the release agent coating layer (2) is between 1 and 5 mu m, the thickness of the ink pattern printing layer (3) is between 1 and 5 mu m, the thickness of the substrate ink layer (4) is between 17 and 27 mu m, the thickness of the first transparent ink layer (5) is between 5 and 10 mu m, the thickness of the first anti-seepage ink layer (6) is between 25 and 40 mu m, the thickness of the second anti-seepage ink layer (7) is between 25 and 40 mu m, the thickness of the second transparent ink layer (8) is between 5 and 10 mu m, the thickness of the third anti-seepage ink layer (9) is between 25 and 40 mu m, and the thickness of the adhesive layer (10) is between 45 and 85 mu m.

5. The NFC & RFID heat transfer label of claim 1, wherein: the substrate ink layer (4) is formed by printing white ink.

6. The NFC & RFID heat transfer label of claim 1, wherein: the substrate ink layer (4), the first transparent ink layer (5), the first anti-seepage ink layer (6), the second anti-seepage ink layer (7), the second transparent ink layer (8) and the third anti-seepage ink layer (9) are formed by printing corresponding printing ink through a screen printing process, and the adhesive layer (10) is formed by printing an adhesive through the screen printing process.

7. The NFC & RFID heat transfer label of claim 6, wherein: the edge of the substrate ink layer (4) is inwardly reduced by 0.2mm to 0.3mm relative to the edge of a pattern formed by printing the ink pattern printing layer (3), the edge of the first transparent ink layer (5) is outwardly enlarged by 0.1mm to 0.25mm relative to the edge of the pattern, the edge of the first anti-seepage ink layer (6) is inwardly reduced by 0.35mm to 0.45mm relative to the edge of the pattern, the edge of the second anti-seepage ink layer (7) is inwardly reduced by 0.35mm to 0.45mm relative to the edge of the pattern, the size and the position of the second transparent ink layer (8) are coincided with the pattern formed by printing the ink pattern printing layer (3), and the edge of the third anti-seepage ink layer (9) is inwardly reduced by 0.3mm to 0.45mm relative to the edge of the pattern.

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