CN210924649U - Divisible RFID tag - Google Patents

Abstract

The utility model relates to a RFID label technical field especially relates to a divisible RFID label. The provided divisible RFID tag comprises base paper, an electronic tag body with a base glue layer and surface paper, wherein the electronic tag body with the base glue layer is adhered to the base paper; the surface of the surface paper facing the electronic tag body is provided with a surface glue layer, glue killing areas are arranged on the surface glue layer of the surface paper at intervals, and one side of each glue killing area facing the electronic tag body is butted with the edge of the electronic tag body to form a butt joint seam; tearing marks are formed at the projection positions of the butt seams on the surface paper. The utility model discloses a divisible RFID label can the electronic management commodity information, can be convenient for again change the paper commodity price.

Description

Divisible RFID tag

Technical Field

The utility model relates to a RFID label technical field especially relates to a divisible RFID label.

Background

The intelligent technology is widely applied, for example, clothes worn every day can also utilize the RFID technology to perform intelligent and information commodity inventory and marketing, and the technology can help customers to find commodities and acquire commodity information in time in the purchasing process, so that the purchasing behavior is promoted.

However, commodity information in the RFID tag is difficult to modify, when the price of the commodity changes, the price information in the RFID tag needs to be modified, and if the RFID tag is not replaced, the price of the commodity is easy to be confused, so that errors occur in the purchasing process; if the RFID label is replaced, the operation is not easy, the cost is increased, and the resource is not saved. Therefore, the market needs an RFID tag which can electronically manage commodity information and facilitate changing the price of written commodities. When the label is produced according to the existing production process, a great technical barrier exists, namely the problem of how to realize glue killing in the vertical direction in the continuous tape-feeding production process, namely how to realize no glue in a local area in the direction vertical to the continuous tape-feeding direction.

The traditional RFID label gum mode is mostly full of the gum coating form, and there is the RFID label of a "special glue coating" mode, and its glue coating mode is the interval glue coating technology of parallel device tape transport direction, as shown in fig. 10, electronic tags body 1 adhesion is on base stock 2 in fig. 10, on electronic tags body 1, has set up the non-glue region according to tape transport direction interval, leaves banding face glue layer 31. The process is formed according to the inherent habit of a tape-feeding processing mode, a glue area and a glue-free area can only be set in a direction parallel to the tape-feeding direction, the glue-coating width and precision are limited by a glue-coating mechanism, the glue yield is unstable when the glue-coating width is less than 20mm, so that glue exists in a glue-free area, and meanwhile, the working mechanism of the conventional continuous tape-feeding compound equipment determines that the intermittent glue-coating process vertical to the unwinding direction of the RFID label cannot be realized.

SUMMERY OF THE UTILITY MODEL

The utility model discloses drawback to the prior art existence provides one kind can the electronization manage commodity information, can be convenient for again change the RFID label that the paper commodity was marked price, and can satisfy the perpendicular to and walk the divisible RFID label that the orientation realized "glue" of killing.

The technical scheme of the utility model is that:

a divisible RFID tag comprises base paper, an electronic tag body with a base glue layer and surface paper, wherein the electronic tag body with the base glue layer is adhered to the base paper; a surface adhesive layer is arranged on the surface of the surface paper facing the electronic tag body,

glue killing areas are arranged on the surface glue layer of the surface paper at intervals, and one side, facing the electronic tag body, of each glue killing area is in butt joint with the edge of the electronic tag body to form a butt joint seam; tearing marks are formed in the projection positions of the butt seams on the surface paper.

The projection part of the glue killing area on the surface paper is an original visible information setting surface.

And a first cutting mark is formed on the other side of the glue-killing area at the projection position on the surface paper.

And a second cutting mark is formed on the projection position of one side of the electronic tag body, which is back to the glue-killing area, on the surface paper.

The base paper is in a continuous strip shape, and the electronic tag bodies are uniformly arranged on the length direction of the base paper at intervals.

And a distance of 0-60mm is reserved between a second fracture mark at the tail end of the previous electronic tag body and a first fracture mark at the head end of the next electronic tag body between the adjacent electronic tag bodies.

The utility model provides a can cut apart RFID label, through tearing the trace with the label branch in horizontal "fracture" to original visual information part and electronic tags part, realize can the electronic management commodity information, can be convenient for change the price of paper commodity again; adopt perpendicular RFID label to unreel the direction and carry out the interval and kill gluey processing technology in the production of divisible RFID label, have to glue, do not have gluey regional clear, glue volume "stable", solved the excessive problem of gluing and the rubber coating precision is low of parallel arrangement direction interval rubber coating technology, can satisfy the utility model discloses divisible RFID label's production requirement.

Drawings

Fig. 1 is a first schematic structural diagram of a base paper and an electronic tag body of the present invention;

fig. 2 is a second schematic structural view of the base paper and the electronic tag body of the present invention;

FIG. 3 is a schematic view showing the structure of the face paper and the glue-removing layer of the present invention;

FIG. 4 is a bottom view of FIG. 3;

fig. 5 is a schematic structural view of the present invention;

FIG. 6 is a view A-A of FIG. 5;

FIG. 7 is a schematic structural view of the present invention after removing the rim charge;

FIG. 8 is a view B-B of FIG. 7;

FIG. 9 is a schematic view of the processing technique of the present invention;

fig. 10 is a schematic structural diagram of the background art.

In the drawings

1 is an electronic tag body, 11 is a chip, 12 is an antenna layer, and 13 is a bottom glue layer;

2 is a base paper;

3 is a face paper, 31 is a face glue layer, 311 is a glue-killing area, 32 is a tearing mark, 331 is a first cutting mark, and 332 is a second cutting mark;

4 is an electronic tag body transfer belt;

the direction of the arrowed lines in fig. 9 and 10 is the direction of the tape travel;

the solid arrows in fig. 5, 6, 7 are directed to the cut and the hollow arrows are directed to the tear.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings, and the following embodiments are illustrative of the present invention but are not intended to limit the scope of the present invention.

Referring to fig. 1-8, the present invention provides a divisible RFID tag that can electronically manage merchandise information and facilitate changing the price of written merchandise.

The divisible RFID tag comprises base paper 2, an electronic tag body 1 with a base glue layer 13 and face paper 3, wherein the electronic tag body 1 with the base glue layer 13 is adhered to the base paper 2 (namely the base glue layer 13 is adhered to the base paper 2);

referring to fig. 1-2, the electronic tag body 1 includes a chip 11 and an antenna layer 12, where the antenna layer 12 may be disposed below the chip 11; an antenna layer 12 is also provided above the chip 11. The primer layer 13 may be adhered to the antenna layer 12 or the chip 11.

Referring to fig. 3-4, a surface adhesive layer 31 is disposed on the surface of the surface paper 3 facing the electronic tag body 1, glue-killing regions 311 are disposed on the surface adhesive layer 31 of the surface paper 3 at intervals (glue-killing usually adopts printing materials such as film, composite paper or ink, etc., and covers the glue-containing regions to be killed to form the glue-killing regions 311), referring to fig. 5-8, one side of the glue-killing regions 311 facing the electronic tag body 1 is butted with the edge of the electronic tag body 1 to form butt seams; tear notches 32 are formed in the projection positions of the butt seams on the face paper 3.

The projection of the glue-removing area 311 on the face paper 3 is an original visible information setting surface on which commodity information, such as commodity price, can be printed.

The utility model provides a divisible RFID label contains electronic tags (electronization commodity information) and contains facial tissue label (original visual information setting face) again, when original visual information (like commodity price) need change, can directly tear away the facial tissue 3 (the projection part of district 311 on the facial tissue that glues that kills) that the tear mark 32 will contain visual information and tear can (for example when changing the original visual information of commodity, tear the part of the original information of most written record away), realize the electronization management commodity information promptly, can be convenient for change written commodity price again.

Referring to fig. 5-8, the other side of the glue-removing area 311 has a first cut-off line 331 at the projection position on the face paper 3.

Referring to fig. 5-8, a second cut-off mark 332 is formed at a projection position of the electronic tag body 1, which is opposite to the glue-killing area 311, on the face paper 3. The first cutting mark 331 and the second cutting mark 332 facilitate separation between the divisible RFID tags.

Wherein, the base paper 2 is continuous banding, and the electronic tags body 1 evenly sets up at interval in base paper 2 length direction through primer layer 13. The RFID label is convenient to roll, and storage and transportation are facilitated.

And a distance of 0-60mm is reserved between a second fracture mark at the tail end of the previous electronic tag body and a first fracture mark at the head end of the next electronic tag body between the adjacent electronic tag bodies. The separable RFID tags are convenient to separate from one another, and adjacent separable RFID tags are prevented from being damaged by the tear-off tags.

Referring to fig. 3-8 and fig. 9, the divisible RFID tag manufacturing process of the present invention includes the following steps:

a. a facial tissue 3 glue killing process, wherein the facial tissue 3 with glue on the bottom surface is subjected to local interval glue killing treatment according to the specification of the electronic tag body 1 (so that the bottom surface of the facial tissue 3 is divided into a facial tissue layer and a glue killing area 311;

the glue-killing treatment usually uses printing materials such as film, composite paper or ink to cover the glued area to be killed, so as to form the glue-killing area 311.

b. One side of the electronic tag body 1 is provided with a bottom glue layer 13, and the other side without glue is attached to the electronic tag body transfer belt 4 at intervals; standby;

the electronic tag body transfer belt 4 is coated with glue, so that the glue-free surface of the electronic tag with the bottom glue layer can be adhered to the electronic tag body transfer belt 4 at intervals.

c. A base paper 2 unreeling process, namely unreeling the base paper 2, and transferring the surface, with glue, of the electronic tag body 1 on the electronic tag body transfer belt 4 to the surface of the base paper 2; that is, the primer layer 13 of the electronic tag body 1 is attached to the surface of the base paper 2, and the electronic tag body 1 is disposed on the base paper 2 at intervals in the electronic tag body transfer band, so that the electronic tag body 1 is also disposed on the base paper 2 at intervals.

d. The face paper 4 is covered and adhered on the base paper 2 with the electronic tag body 1 in the step c, and when the face paper is covered, the rear edge of the glue killing area 311 needs to be ensured to be in butt joint with the front edge of the electronic tag body 1;

e. and (6) rolling to obtain the finished product.

According to the above-mentioned step, realized perpendicular to continuous tape transport direction and realized that local area kills gluey processing, it is regional clear to have gluey and not have gluey, glues volume "stable", has solved the excessive problem of gluing and the rubber coating precision is low of parallel equipment direction interval rubber coating technology, has solved the equipment complex that traditional continuous type walked tape can only parallel interval rubber coating (and the rubber coating is difficult to control has the edge of gluing the district), can not follow tape transport direction interval rubber coated problem perpendicularly, can satisfy the utility model discloses but the perpendicular tape transport direction of divisible RFID label kills gluey production demand.

The method further comprises a tearing mark 32 pressing step, wherein the tearing mark 32 is pressed at the projection position of the butt seam of the rear edge of the glue killing area 311 and the front edge of the electronic tag body 1 on the surface paper 3.

The method further comprises a step of pressing and cutting the cutting mark, wherein a first cutting mark 331 is pressed and cut at the projection position of the front edge of the glue killing area 311 on the face paper 3, and a second cutting mark 332 is pressed and cut at the projection position of the rear edge of the electronic tag body 1 on the face paper 3.

Wherein the face paper 3 between the first cut mark 331 and the second cut mark 332 is removed, see fig. 7.

Above-mentioned base paper 2, electronic tags body 1, facial tissue 3, the size and the position of glue killing layer 311 all are according to the utility model discloses divisible RFID label's specification designs.

When in use: the separable RFID tag is torn off along the first cut 331 and the second cut 332, and the base paper 2 is removed to be attached to the relevant article, for example, when the article information (e.g., the price) changes, the face paper 3 (the portion of the glue-killing region 311 projected on the upper paper, which is also the visible information setting surface) is torn off along the tear 32.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (6)

1. The divisible RFID tag comprises base paper, an electronic tag body with a base glue layer and surface paper, wherein the electronic tag body with the base glue layer is adhered to the base paper; the surface of the surface paper facing the electronic tag body is provided with a surface glue layer, and the surface glue layer of the surface paper is provided with glue killing areas at intervals, and one side of each glue killing area facing the electronic tag body is butted with the edge of the electronic tag body to form butt joint seams; tearing marks are formed in the projection positions of the butt seams on the surface paper.

2. The severable RFID tag of claim 1 wherein the projection of the glue-kill zone onto the facestock is an original visual information setting surface.

3. The divisible RFID tag of claim 1, wherein another edge of the glue-removing area has a first cut mark at a projected position on the face paper.

4. The divisible RFID tag of claim 3, wherein a second cut mark is formed at a projection position of one side of the electronic tag body, which is opposite to the glue-removing area, on the surface paper.

5. The severable RFID tag of claim 4 wherein the substrate is in the form of a continuous strip and the electronic tag bodies are evenly spaced apart along the length of the substrate.

6. The divisible RFID tag of claim 5, wherein a distance of 0-60mm is left between a second fracture mark at the tail end of a previous electronic tag body and a first fracture mark at the head end of a next electronic tag body between adjacent electronic tag bodies.

Images