CN222189892U - A transparent RFID label that is easy to stick - Google Patents

Abstract

The present application relates to the field of RFID tags, and in particular to a transparent RFID tag that is easy to paste and can be illuminated, which includes an outer protective layer and an inner adhesive layer, and a chip layer arranged between the outer protective layer and the inner adhesive layer, the chip layer includes a chip body and a substrate laminated on at least one side of the chip body, the outer protective layer and the substrate are both made of transparent film material, the surface of the outer protective layer can be printed with fonts, and the substrate is also provided with a light-emitting body, which is electrically connected to the chip body. The outer protective layer and the substrate of the present application are both made of transparent film material, which is easy to transmit light, so that when the cable density is high and multiple RFID tags are stacked, it can also ensure its visibility, which is convenient for staff to locate designated tags and cables.

Description

Transparent label capable of brightening RFID (radio frequency identification) convenient to paste

Technical Field

The application relates to the technical field of RFID labels, in particular to a transparent label capable of shining and convenient to paste.

Background

The ports in the cabinet of the data center are dense and are provided with a large number of jumpers. Efficient management of a large number of jumpers is important to maintain data stability and to improve operational efficiency of the branch. The traditional cable management mode has some defects, such as time and labor consumption for manual checking, easy occurrence of misoperation and the like. By combining the RFID technology and jumper cable management, an intelligent and automatic management mode can be realized, and the efficiency and accuracy of cable management are greatly improved.

In the related art, the RFID tag is generally fixed on the cable in a mode of paper sticking and sleeving, a unique identification code is arranged in each tag, related information of the cable can be stored, and data on the tag can be read and written by a reader-writer. In addition, the luminous bodies are further attached to part of the RFID tags, the luminous bodies are electrically connected with the RFID chips, and management staff can control the luminous bodies in any one of the RFID tags to be lightened through the data management system, so that faults can be positioned or cable information can be updated quickly, and management efficiency is improved.

The related art has a problem in that the cable distribution in the cabinet is generally dense, and whether the RFID tags fixed on the cable are in the form of a sticker or a sleeve, there is a possibility that a plurality of tags are stacked on each other when the cable density is high, which may cause poor light transmission, and at this time, the light is not easily found when the light is lighted.

Disclosure of utility model

In order to facilitate finding out the RFID tag where the light is and the corresponding cable when a plurality of RFID tags are stacked relatively, the application provides a transparent RFID tag which is convenient to paste and can be used for lighting.

The transparent label capable of shining and convenient to paste provided by the application adopts the following technical scheme:

The utility model provides a but transparent label of bright RFID convenient to paste, includes outer protective layer and interior adhesive layer to and set up in the outer protective layer and interior adhesive layer between the chip layer, the chip layer includes the chip body and laminates in the basement of at least one side of chip body, outer protective layer and basement all adopt transparent film material, but the surface printing typeface of outer protective layer, the basement still is provided with the luminous body, the luminous body is connected with the chip body electricity.

Through adopting above-mentioned technical scheme, outer protective layer and basement all adopt transparent film material, when needs fix a certain cable, even RFID label and a plurality of rest RFID labels stack on this cable, the light on this RFID label can light see through rest labels, guarantees the visibility of lamp light.

Optionally, a first pasting area, a winding area and a second pasting area are separated from one surface of the outer protective layer, which is close to the chip layer, the winding area is arranged between the first pasting area and the second pasting area, a centering line extending along the width direction is formed at the center of the outer protective layer, the center line of the winding area coincides with the centering line, and the first pasting area and the second pasting area are symmetrically distributed along the centering line.

Through adopting above-mentioned technical scheme, the setting in wire winding district is convenient for RFID label adaptation different diameters's cable, when pasting the RFID label simultaneously, the setting of centering line is convenient to align it.

Optionally, a connection layer is arranged between the outer protection layer and the chip layer, the connection layer completely covers the first pasting region, the winding region and the second pasting region, the connection layer and the inner pasting layer are all made of 3M glue, and the length of the chip layer is not greater than that of the first pasting region.

Through adopting above-mentioned technical scheme, the tie coat is used for outer protective layer and chip layer fixed connection, and the length of chip layer is not greater than the length of first bonding area to reserve the wire winding district and twine the cable.

Optionally, the inner adhesive layer is fixed on the surface of the chip layer, the length of the inner adhesive layer is smaller than that of the chip layer, and a first smooth area is formed between one side of the inner adhesive layer, which is close to the second adhesive area, and the chip layer.

Through adopting above-mentioned technical scheme, the setting in first smooth district is convenient for tear the label, also can not glue the hand in the process of pasting again to improve and paste efficiency and reduce the contact of staff and glue face.

Optionally, a second smooth area is formed between the chip layer and one side of the inner adhesive layer away from the second adhesive area.

Through adopting above-mentioned technical scheme, the setting in second smooth district can further make things convenient for the staff to tear the label.

Optionally, the second smooth area is divided into two parts, and the two parts of the second smooth area are respectively formed at two corners of the chip layer.

Through adopting above-mentioned technical scheme, set up two parts second smooth district in two corners, can guarantee interior adhesive layer and chip layer's area of contact, and then guarantee to paste firm degree.

Optionally, a third smooth area is formed between the outer protective layer and one side of the connecting layer far away from the first adhesive area, and the third smooth area is matched with the second smooth area.

Through adopting above-mentioned technical scheme, the setting in third smooth district can further make things convenient for the staff to tear the label.

Optionally, a release paper layer is disposed on one side of the inner adhesive layer away from the chip layer, and the length of the release paper layer is the same as that of the outer protective layer.

Through adopting above-mentioned technical scheme, from the ply of paper is used for protecting the glue face of tie coat and interior adhesive layer, and a plurality of labels continuous production shaping of being convenient for simultaneously.

Optionally, the release paper layer includes first part, second part and the third part of mutual separation, first part is fixed in first paste district through interior paste layer bonding, the second part is fixed in the wire winding district through the tie coat bonding, the third part is fixed in the second paste district through the tie coat bonding.

Through adopting above-mentioned technical scheme, when pasting the label, can be earlier get rid of the second portion separation type ply at first, guarantee that first paste the district with the second paste the district align the back, twine the adhesion on the cable with the wire winding district through the tie coat, later get rid of first part and third part respectively, make first paste the district and paste the district each other bond, the regularity when adopting above-mentioned structure can improve the label and paste.

In summary, the present application includes at least one of the following beneficial technical effects:

1. The outer protective layer and the substrate are made of transparent PET film materials, so that light transmission is facilitated, and when a plurality of RFID labels are stacked, the visibility of the RFID labels can be guaranteed, and workers can conveniently position and assign the labels and cables.

2. Through the cooperation setting in first smooth district, second smooth district and third smooth district, make things convenient for the staff to tear the label, reduce the area of contact of staff and gluey face in the pasting process, raise the efficiency and reduce the pollution to gluey face.

Drawings

Fig. 1 is an exploded schematic view of a main body structure according to an embodiment of the present application.

Fig. 2 is a schematic side sectional structure of an embodiment of the present application.

Fig. 3 is a schematic top sectional structure of an embodiment of the present application.

Fig. 4 is a schematic main structure of the embodiment of the present application when the embodiment is fixed to a cable.

The reference numerals comprise 1, an outer protective layer, 11, a first pasting area, 12, a winding area, 13, a second pasting area, 14, a centering line, 2, an inner pasting layer, 3, a chip layer, 31, a substrate, 32, a chip body, 4, a connecting layer, 5, a first smooth area, 6, a second smooth area, 7, a third smooth area, 8, a release paper layer, 81, a first part, 82, a second part, 83 and a third part.

Detailed Description

The application is described in further detail below with reference to fig. 1-4.

The embodiment of the application discloses a transparent label capable of shining RFID (radio frequency identification) and convenient to paste. Referring to fig. 1 and 2, a transparent label capable of being easily pasted and capable of shining comprises an outer protective layer 1, a connecting layer 4, a chip layer 3, an inner pasting layer 2 and a release paper layer 8 which are distributed up and down in sequence, wherein the outer protective layer 1, the connecting layer 4 and the release paper layer 8 are of rectangular strip structures, the connecting layer 4 adopts 3M glue and is used for adhering and fixing the outer protective layer 1, the chip layer 3 and the release paper layer 8, and the inner pasting layer 2 also adopts 3M glue and is used for adhering and fixing the chip layer 3 and the release paper layer 8.

The outer protective layer 1 is made of transparent PET film material, is convenient for light transmission, the thickness of the transparent PET film material is preferably 0.04mm, a centering line 14 extending along the width direction of the transparent PET film material is marked in the middle of the outer protective layer 1 so as to ensure alignment when a label is attached to a cable, in addition, a first pasting area 11, a winding area 12 and a second pasting area 13 are sequentially distributed on the outer protective layer 1 along the length direction of the outer protective layer, the first pasting area 11 and the second pasting area 13 are symmetrically distributed along the centering line 14, and the center line of the winding area 12 coincides with the centering line 14.

The connecting layer 4 is disposed on the surface of the outer protective layer 1, and is used for connecting the outer protective layer 1, the chip layer 3 and the release paper layer 8, and the thickness is preferably 0.06mm, and the length and the width are the same as those of the outer protective layer 1.

Referring to fig. 1 and 3, the chip layer 3 is disposed on a surface of the connection layer 4 far away from the outer protection layer 1, and specifically includes a substrate 31 and a chip body 32, where the substrate 31 provides support for the chip body 32, the chip body 32 is further connected with an etching antenna and a light emitter (such as an LED light bead, etc.), when the reader-writer sends electromagnetic waves to the radio frequency tag, the antenna of the RFID tag receives the electromagnetic waves and converts the electromagnetic waves into electric energy, the electric energy activates the chip body 32, the chip body 32 converts stored data into electric signals, and sends the electric signals back to the reader-writer through the antenna, and after the reader-writer receives the signals, the signals are converted into digital signals and processed. In addition, when the tag receives the signal from the reader, the light body connected to the chip body 32 emits light to help the manager to quickly locate the cable. The thickness of the chip layer 3 is preferably 0.1mm.

The inner adhesive layer 2 is adhered to the chip layer 3 and has one end surface flush with the chip layer 3 for fixing the chip layer 3 and the release paper layer 8 together. The length of the first smooth area 5 is shorter than that of the chip layer 3, and the area of the chip layer 3 staggered with the inner adhesive layer 2 is the first smooth area, and the thickness of the first smooth area is preferably 0.02mm.

Referring to fig. 4, when the RFID tag is attached to the cable, the winding area 12 is wound around the surface of the cable and adhered to the cable, and the first and second adhesive areas 11 and 13 are adhered and fixed by the connection layer 4 and the inner adhesive layer 2. The setting of first smooth district 5 is used for forming split type viscose area, is convenient for tear the label, also can not glue the hand in the process of pasting again to raise the efficiency and reduce the pollution of staff to the face of gluing.

In order to further facilitate the tearing of the label, a notch is arranged at one end of the inner adhesive layer 2 far from the second adhesive area 13, the notch is used for forming a second smooth area 6 on one surface of the chip layer 3 facing the inner adhesive layer 2, another notch is arranged at one end of the connecting layer 4 far from the first adhesive area 11, the notch is used for forming a third smooth area 7 on one surface of the outer protective layer 1 facing the connecting layer 4, the second smooth area 6 and the third smooth area 7 are matched, when the first adhesive area 11 and the second adhesive area 13 are adhered to each other, the second smooth area 6 corresponds to the second smooth area 6, and when the label is torn, tearing force can be applied through the space between the second smooth area 6 and the third smooth area 7.

Preferably, the second smooth region 6 and the third smooth region 7 are equally divided into two parts, and are respectively positioned at two opposite corners of the chip layer 3 and the outer protective layer 1.

The setting of release paper layer 8 is used for when producing and waiting to use the label, protects the gluey face of interior adhesion layer 2 and tie layer 4, when needing to use the label, will release paper layer 8 tear can. Preferably, the thickness of the release paper layer 8 is 0.08mm, and the length and width are the same as those of the outer protective layer.

Further, the release paper layer 8 includes a first portion 81, a second portion 82 and a third portion 83, wherein the first portion 81 corresponds to the first attaching region 11, the second portion 82 corresponds to the winding region 12, and the third portion 83 corresponds to the second attaching region 13. When the label is used, the fixing position of the label on the cable is firstly determined, then the second part 82 corresponding to the winding area 12 is torn off, the winding area 12 bypasses the cable, the first pasting area 11 and the second pasting area 13 are aligned, then the winding area 12 is bonded with the cable through the connecting layer 4, then the first part 81 and the third part 83 are torn off, and the first pasting area 11 and the second pasting area 13 are bonded. Since the basic position of the label is already fixed after the winding area 12 is adhered to the cable, the first adhering area 11 and the second adhering area 13 can be ensured to be aligned relatively in the subsequent adhering process, and the label adhering efficiency is improved.

The above embodiments are not intended to limit the scope of the application, so that the equivalent changes of the structure, shape and principle of the application are covered by the scope of the application.

Claims (9)

1. The transparent label capable of brightening RFID (radio frequency identification) convenient to paste comprises an outer protective layer (1), an inner adhesive layer (2) and a chip layer (3) arranged between the outer protective layer (1) and the inner adhesive layer (2), and is characterized in that the chip layer (3) comprises a chip body (32) and a substrate (31) laminated on at least one side of the chip body (32), the outer protective layer (1) and the substrate (31) are made of transparent film materials, fonts can be printed on the surface of the outer protective layer (1), and the substrate (31) is further provided with a luminous body which is electrically connected with the chip body (32).

2. The transparent label capable of being highlighted and adhered conveniently according to claim 1, wherein a first adhering area (11), a winding area (12) and a second adhering area (13) are separated from one surface of the outer protective layer (1) close to the chip layer (3), the winding area (12) is arranged between the first adhering area (11) and the second adhering area (13), a centering line (14) extending along the width direction is formed at the center of the outer protective layer (1), the center line of the winding area (12) coincides with the centering line (14), and the first adhering area (11) and the second adhering area (13) are symmetrically distributed along the centering line (14).

3. The transparent label capable of being highlighted and convenient to paste according to claim 2, wherein a connecting layer (4) is arranged between the outer protective layer (1) and the chip layer (3), the connecting layer (4) completely covers the first pasting region (11), the winding region (12) and the second pasting region (13), the connecting layer (4) and the inner pasting layer (2) are both made of 3M glue, and the length of the chip layer (3) is not greater than that of the first pasting region (11).

4. A transparent label capable of shining and convenient to paste according to claim 3, wherein the inner paste layer (2) is fixed on the surface of the chip layer (3), the length of the inner paste layer (2) is smaller than that of the chip layer (3), and a first smooth area (5) is formed between one side, close to the second paste area (13), of the inner paste layer (2) and the chip layer (3).

5. A light-transparent RFID tag according to claim 4, wherein a second smooth area (6) is formed between the chip layer (3) and the side of the inner adhesive layer (2) away from the second adhesive area (13).

6. The transparent label of claim 5, wherein the second smooth area (6) is divided into two parts, and the two parts of the second smooth area (6) are respectively formed at two corners of the chip layer (3).

7. The transparent label of claim 6, wherein a third smooth area (7) is formed between the outer protective layer (1) and one side of the connecting layer (4) far away from the first attaching area (11), and the third smooth area (7) is matched with the second smooth area (6).

8. The transparent label capable of shining and convenient to paste according to claim 1, wherein a release paper layer (8) is arranged on one side of the inner paste layer (2) far away from the chip layer (3), and the length of the release paper layer (8) is the same as that of the outer protective layer (1).

9. A light-transparent RFID tag according to claim 8, wherein the release paper layer (8) comprises a first part (81), a second part (82) and a third part (83) which are separated from each other, the first part (81) is adhered and fixed to the first adhering region (11) through the inner adhering layer (2), the second part (82) is adhered and fixed to the winding region (12) through the connecting layer (4), and the third part (83) is adhered and fixed to the second adhering region (13) through the connecting layer (4).