KR20120002860A - Rfid tag manufacturing method used polyethylene - Google Patents

Abstract

PURPOSE: An RFID tag using polyethylene and a manufacturing method thereof are provided to use a PE film as an adhesive when an RFID inlay is formed between a pair of printed coating layers, thereby enhancing watertight features and making a surface printing layer solid. CONSTITUTION: PE(Polyethylene)(30a,30b) is coated on the inner side facing a pair of printed material layers(20a,20b). An RFID(Radio Frequency ID) inlay layer(50) is adhered to one side of the printed material layers. The PE is melted to attach the printed material layers. A printing layer is formed on the surface of the printed material layers. The printed material layers are paper, OPP, or PET(Polyethylene Terephthalate).

Description

RFID tag manufacturing method using polyethylene and its manufacturing method {RFID tag manufacturing method used polyethylene}

The present invention relates to a method of manufacturing a radio frequency identification (RFID) tag, and more particularly, using polyethylene as an adhesive when forming an RFID inlay layered between a pair of printed coating layers. An RFID tag having good waterproofness and a method of manufacturing the same are provided.

Recently, various RFID tags for exchanging information in a non-contact manner by radio waves between external devices represented by a reader / writer have been proposed. As a kind of the RFID tag, a configuration in which an antenna pattern for radio wave communication and an IC chip are mounted on a base sheet made of plastic or paper is proposed (see Patent Documents 1, 2 and 3, for example). It is possible to think of a use mode for identifying the article by attaching the article or the like and exchanging information about the article with an external device.

[Patent Document 1] Japanese Unexamined Patent Publication No. 2000-311226

[Patent Document 2] Japanese Unexamined Patent Application Publication No. 2000-200332

[Patent Document 3] Japanese Patent Application Laid-Open No. 2001-351082

When the base sheet of the RFID tag is made of paper, the waterproofness is not excellent, so it cannot be used to attach to laundry such as clothing, and when plastic is used, there is a lot of inconvenience in using it for clothing.

In addition, the RFID tag attached to the base sheet of paper or plastic could not easily print an image or text desired by the user, and the clothes to be washed when RFID was attached to the printed sheet of paper or plastic. When attached to the article of the RFID tag due to the repeated washing, there was a problem such that the surface of the tag is easily damaged.

Accordingly, an object of the present invention is to provide an RFID tag having good waterproofness and a method of manufacturing the same by using polyethylene (PE) as an adhesive when forming an RFID inlay layered between a pair of printed coating layers.

Another object of the present invention is to provide an RFID tag having excellent waterproofness and a method of manufacturing the same, even if the paper is a base sheet.

In order to achieve the above object, the present invention provides a printed layer of an image, text, etc. on the surface thereof, and an RFID inlay layer having PE coded on the opposite inner surface and an adhesive treatment between the bottom surfaces thereof is located on the surface thereof to be melt-bonded to the opposite inner surface. And a pair of printed material layers.

According to another aspect of the present invention (aspect) RFID tag manufacturing method, one surface of any paper selected from paper, OPP, PET with polyethylene in the extrusion extrusion method (T-die Coating) to a thickness of less than 30 micrometers Coating to make PE paper; Making the PE sheet into a roll shape, printing a necessary image, text, and a register required at the time of post-processing and use thereof to form a pair of printed PE sheets; Align the adhesive RFID inlay with a resistor already printed on the PE side of any one of the printed PE sheets. Attaching an inlay to make an inlay-printing material; Making an RFID tag base material by heat-sealing the printed pair of printed PE base sheets by matching the printed PE base sheets with the registers of the inlay-printing material and feeding them to a heating / pressing device so as to contact each other on the PE surface; The RFID tag base material is processed by a label printing processing mechanism to form a cutting line and an outline of the RFID tag to form a processed RFID tag.

The process to be processed by the label printing processing mechanism is characterized in that the die-cut (Die-cut), punching (Punching) the RFID tag base material.

When forming an RFID inlay layered between a pair of printed coating layers, it is manufactured by using a pair of polyethylene films coated by melt extrusion casting as an adhesive on the opposite inner surface of the pair of printed coating layers. There is an advantage that the printed layer on the surface can be made more firm.

1 is a layered structure diagram of the RFID tag using polyethylene according to an embodiment of the present invention.
2 and 3 is a cross-sectional view and a longitudinal cross-sectional view of the RFID tag using polyethylene according to an embodiment of the present invention.
Figure 4 is a view for explaining the process of making a PE base paper by t-die coating polyethylene on the printed material shown in FIG.
5 is a view for explaining a process of making a printed PE base by forming a surface printing layer on the PE base of FIG.
Figure 6 fits a register already printed on the PE side of the printed PE sheet of Figure 4; A drawing for explaining the process of making an inlay-printed material by attaching an inlay.
7A and 7B illustrate a process of forming a heat-sealed RFID tag base material by feeding the printed PE base material of FIG. 5 to the registers of the inlay-printing material of FIG. 6 so that the PE faces abut each other.
FIG. 8 is a view illustrating an RFID tag in a finished state in which a cut line and an outline are formed by die-cutting and punching an RFID tag base material made according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. It should be understood, however, that the invention can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. It should be noted that the embodiments of the present invention described below are intended to sufficiently convey the spirit of the present invention to those skilled in the art.

1 illustrates a layered structure of an RFID tag using polyethylene according to an embodiment of the present invention, and FIGS. 2 and 3 illustrate cross-sectional and longitudinal cross-sectional views of the RFID tag illustrated in FIG. 1. have.

RFID tag 10 according to an embodiment of the present invention, as shown in Figures 1 to 3, PE (30a, 30b) is coated on the opposite inner surface of the printed material (20a, 20b).

At this time, the printed material (20a, 20b) is good to use any one of the base sheet selected from paper, OPP or PET having a width of 1000mm or more, PE on the opposite inner surface of the printed material (20a, 20b) The coating of (30a, 30b) is preferably made to a thickness of 30 micrometers or less by using a melt extrusion cast (T-die coating) method.

PE used in the present invention is a milky white opaque or translucent thermoplastic cycle obtained by polymerizing elylene, and its specific gravity is less than one. The PE is excellent in chemical resistance, electrical conductivity, moldability, it is possible to obtain a flexible product without using a plasticizer, there is an advantage that does not become weak even at a relatively low temperature.

For this reason, it is processed into various molded articles, films, bottles, etc. by injection molding, extrusion molding, blow molding, etc., and is currently used in large quantities in packaging materials, household goods, etc.

In addition, the PE floats well in water (density 0.91-094) and can be easily cut with a knife. It is insoluble in conventional solvents but soluble in hot benzene and toluene. PE has a melting point of 105 ° C and is an inert material that does not dissolve in chemicals.

Thin film (30a, 3b) by PE extrusion casting method melted on the printed material (20a, 20b) such as paper, polypropylene, polyester film mainly used as a base sheet of RFID in the manufacture of the RFID tag of the present invention After coating, the surface printed layer 11 is formed on the upper portion of the printed material 20b to be placed on top, and the RFID inlay (40) treated on the upper portion of the printed material 20a to be placed on the lower portion ( 50) Attach.

Thereafter, after laminating with the upper to-be-printed material 20b and applying heat and pressure to the front and back surfaces of the laminated materials 20a and 20b, the PE 30a applied to the opposite surfaces of the pair of printed material layers 20 and 20b. , 30b) is attached to each other in the re-melted state to complete the shape of the RFID tag.

The RFID tag of the present invention having the structure as described above has an advantage of protecting the RFID inlay from water because the pair of printed materials 20a and 20b have excellent waterproofness.

The manufacturing process of the RFID tag according to the present invention will be described with reference to FIGS.

As shown in FIG. 4, a base sheet, such as paper or plastic, having a width of 1000 mm or more, and printed materials 20a and 20b are prepared, and PE is melt-extruded on one surface of the prepared printed materials 20a and 20b. It applies to the following thicknesses, and forms PE layers 30a and 30b.

Thereafter, the prepared pair of printed materials 20a and 20b are cut into rolls according to the required widths, and then the image 21 and text 22 necessary for the upper portion of the printed materials 20b to be positioned at the top as shown in FIG. Then, the register 23 necessary at the time of post-processing and use is printed together by a general continuous paper printing method to make a printed PE base 60 as shown in FIG. 7A.

6, the upper part of the printed material 20b positioned below the pair of printed materials 20a and 20b is formed by making the RFID inlay 50 treated with the adhesive 40 into a roll shape as shown in FIG. The inlay-printed material 70 as shown in FIG. 7B is attached to the RFID inlay 50 treated with the adhesive 40.

And according to the purpose to produce a separate sheet of paper, film, etc. or printed PE paper 60 to match the register of the inlay-printing material 70, PE (30a, 30b) is fed so that the contact with Figure 7a While passing through the plate- or roll-type heating / subscription device 80 as shown in FIG. 7B, heat and pressure are applied to the PE surfaces 30a and 30b to be bonded to each other to complete the RFID tag base material 90 as shown in FIG. 8.

Thereafter, the RFID tag base material 90 is processed by a label printing processing mechanism to form an outline with the cutting line 100 of the RFID tag to form a processed RFID tag.

If necessary, adhesive tape or adhesive may be added to one surface of the RFID tag base material 90 to be processed into an adhesive RFID tag.

10: RFID tag, 20a, 20b: printed material,
30a, 30b: polyethylene (PE), 40: pressure sensitive adhesive,
50: RFID inlay, 60: printed PE base,
70: upper inlay, 80: heating and pressing device.

Claims (6)

In the RFID tag using polyethylene, the opposite inner surface is characterized by comprising a pair of layers of printed material on which the polyethylene inlay layer coated with polyethylene and one side adhered therebetween is fused to the polyethylene on the opposite inner surface. RFID tag using polyethylene.
The RFID tag using polyethylene according to claim 1, wherein a print layer such as an image or a text is formed on a surface of at least one printed material layer of the pair of printed material layers.
The RFID tag using polyethylene according to claim 1 or 2, wherein the RFID tag is adhered to a surface of at least one printed material layer of the pair of printed material layers.
The RFID tag using polyethylene according to claim 3, wherein the pair of printed material layers is any one selected from paper, OPP, and PET.
In the RFID tag manufacturing method, a process of making a base paper PE coated by coating polyethylene on one surface of any one selected from paper, OPP, PET to a thickness of 30 micrometers or less by melt extrusion casting method; Making the PE sheet into a roll shape and printing the necessary image, text, and necessary registers on the upper portion thereof to produce a pair of printed PE sheets; Align the adhesive RFID inlay with a resistor already printed on the PE side of any one of the printed PE sheets. Attaching an inlay to make an inlay-printing material; Making an RFID tag base material by heat-sealing the printed pair of printed PE base sheets by matching the printed PE base sheets with the registers of the inlay-printing material and feeding them to a heating / pressing device so as to contact each other on the PE surface; RFID tag base material is processed by a label printing processing mechanism to form a cut line and the appearance of the RFID tag to form a processed RFID tag, characterized in that the process of forming a completed RFID tag.
The method of claim 5, wherein the process of the label printing processing tool is performed by die cutting and punching an RFID tag base material.

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