CN216053585U

CN216053585U - Anti-static adhesive label

Info

Publication number: CN216053585U
Application number: CN202121011723.3U
Authority: CN
Inventors: 喻伟伟; 林咸旺; 赖肇昌
Original assignee: Fujian Mingyou New Material Technology Co ltd
Current assignee: Fujian Mingyou New Material Technology Co ltd
Priority date: 2021-05-12
Filing date: 2021-05-12
Publication date: 2022-03-15
Anticipated expiration: 2031-05-12

Abstract

The utility model discloses an anti-static self-adhesive label, wherein a mark area is correspondingly arranged on the surface of a label main body, an upper tin sheet is correspondingly arranged on the upper part of the label main body, a hollow gap layer is correspondingly arranged between the upper tin sheet and the label main body, the upper tin sheet is correspondingly connected with the label main body through an upper connecting block, a lower tin sheet is correspondingly arranged on the lower part of the label main body, and a plurality of metal connecting columns are correspondingly arranged between the lower tin sheet and the label main body; the label main part includes antistatic top layer, and the one side on antistatic top layer corresponds with the identification area to be connected, and the another side on antistatic top layer corresponds with the main part layer to be connected, and the another side and the conducting layer of main part layer correspond to be connected, and the conducting layer corresponds with the waterproof layer to be connected, and the waterproof layer corresponds with the tie coat to be connected, and the tie coat corresponds with type layer to be connected, leads electrical pillar and runs through conducting layer, waterproof layer, tie coat in proper order. The utility model reduces the electrostatic strength and realizes the antistatic function of the label.

Description

Anti-static adhesive label

Technical Field

The utility model relates to the technical field of labels, in particular to an anti-static self-adhesive label.

Background

The self-adhesive label has the advantages of no need of brushing adhesive, no need of pasting paste, no need of dipping water, no pollution, labeling time saving and the like, and has wide application range. The existing self-adhesive label only has one pattern layer and can only display one pattern, but in production practice, different information is often required to be displayed before and after a product to be labeled leaves a factory, for example, when the product does not leave the factory through internal quality inspection, a specific production department or an individual of the product is required to be displayed on the label of the product, so that internal inspection can be conveniently carried out when the product has quality problems, and the product can be displayed through two-dimensional codes or specific characters.

The self-adhesive label is applied to the electronic industry more and more widely, and along with the increasing precision and the smaller and more complex size of electronic equipment, the self-adhesive label is usually adhered to the inside of the electronic equipment. In the process of processing and labeling the self-adhesive label, the release paper layer and the self-adhesive layer are separated to generate relative friction so as to generate static electricity. The electrostatic discharge (ESD) potential of the self-adhesive label can damage very precise electronic elements, increase the current density, and cause the burning and melting of the inner conductor of the electronic elements, which easily causes the reduction of the yield and the reliability of products in the electronic manufacturing industry. Therefore, it is desirable to provide an antistatic adhesive label.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, an anti-static adhesive label is provided.

The utility model is realized by the following scheme:

an anti-static self-adhesive label comprises a label main body, wherein a mark area is correspondingly arranged on the surface of the label main body, an upper tin sheet is correspondingly arranged at the upper part of the label main body, a hollow gap layer is correspondingly arranged between the upper tin sheet and the label main body, the upper tin sheet is correspondingly connected with the label main body through an upper connecting block, a lower tin sheet is correspondingly arranged at the lower part of the label main body, and a plurality of metal connecting columns are correspondingly arranged between the lower tin sheet and the label main body;

the label main part includes antistatic top layer, the one side on antistatic top layer corresponds with the identification area and is connected, the another side on antistatic top layer corresponds with the main part layer and is connected, the another side and the conducting layer of main part layer correspond and are connected, the conducting layer corresponds with the waterproof layer and is connected, the waterproof layer corresponds with the tie coat and is connected, the tie coat corresponds with type layer and is connected correspond between conducting layer, waterproof layer, the tie coat and be equipped with and lead electrical pillar, it runs through conducting layer, waterproof layer, tie coat in proper order to lead electrical pillar.

Go up the connecting block setting in the upper right corner of label main part, tin piece setting is in the lower left corner of label main part down.

The metal connecting columns are uniformly distributed between the lower tin sheet and the label main body.

The identification area is arranged in the middle of the outer surface of the antistatic surface layer.

And waterproof layers are correspondingly arranged on the side edges of the conducting layers.

The upper connecting block and the metal connecting column are correspondingly connected with the conducting layer.

The utility model has the beneficial effects that:

the anti-static adhesive label can reduce the static strength of the surface and realize the anti-static function of the label.

Drawings

FIG. 1 is a schematic structural view of an antistatic self-adhesive label according to the present invention;

fig. 2 is a schematic partial sectional view of a label body of the antistatic adhesive label according to the present invention.

In the figure: 1 is the label main part, 11 is antistatic top layer, 12 is the main part layer, 13 is the conducting layer, 14 is the waterproof layer, 15 is the tie coat, 16 is from the type layer, 17 is leading electrical pillar, 2 is last tin piece, 3 is the clearance layer, 4 is last connecting block, 5 is lower tin piece, 6 is the metal connection post, 7 is the sign district.

Detailed Description

The utility model is further illustrated with reference to the following figures and specific examples:

as shown in fig. 1, the antistatic self-adhesive label comprises a label body 1, wherein a mark area 7 is correspondingly arranged on the surface of the label body 1, an upper tin sheet 2 is correspondingly arranged on the upper part of the label body 1, a hollow gap layer 3 is correspondingly arranged between the upper tin sheet 2 and the label body 1, the upper tin sheet 2 and the label body 1 are correspondingly connected through an upper connecting block 4, a lower tin sheet 5 is correspondingly arranged on the lower part of the label body 1, and a plurality of metal connecting columns 6 are correspondingly arranged between the lower tin sheet 5 and the label body 1; when the tin sheet packaging structure is used, electric charges generated by tearing the release layer 16 are conducted to the upper tin sheet 2 and the lower tin sheet 5, wherein the volume of the upper tin sheet 2 is larger than that of the lower tin sheet 5, so that the upper tin sheet 2 can store more electric charges, after the release layer 16 is torn down, the upper tin sheet 2 is firstly torn down from the upper connecting block 4 along the extension line direction of the gap layer 3, the bonding layer 15 is bonded with the surface of a product, and then the lower tin sheet 5 is torn down from the metal connecting column 6. Thus, the electric charge in the bonding process can be effectively taken away.

As shown in fig. 2, the label main body 1 includes an antistatic surface layer 11, one surface of the antistatic surface layer 11 corresponds to the identification area 7, the other surface of the antistatic surface layer 11 corresponds to the main body layer 12, the other surface of the main body layer 12 corresponds to the conductive layer 13, the conductive layer 13 corresponds to the waterproof layer 14, the waterproof layer 14 corresponds to the adhesive layer 15, the adhesive layer 15 corresponds to the release layer 16, a conductive pillar 17 is correspondingly arranged between the conductive layer 13, the waterproof layer 14 and the adhesive layer 15, and the conductive pillar 17 sequentially penetrates through the conductive layer 13, the waterproof layer 14 and the adhesive layer 15. The upper connecting block 4 and the metal connecting column 6 are correspondingly connected with the conducting layer 13. Electric charge generated in the actual operation of the release layer and the bonding layer is conducted to the conducting layer through the conducting posts, then is correspondingly conducted to the upper connecting block 4 and the metal connecting post 6 from the conducting layer respectively, and is conducted to the upper tin sheet 2 and the lower tin sheet 5 from the upper connecting block 4 and the metal connecting post 6 respectively, and finally the upper tin sheet 2 and the lower tin sheet 5 are torn down respectively, so that the transfer of the electric charge is completed, and the influence of static electricity is reduced.

Go up connecting block 4 and set up in the upper right corner of label main part 1, lower tin piece 5 sets up in the lower left corner of label main part 1. The upper tin sheet 2 and the lower tin sheet 5 are arranged at positions far away from each other, so that static electricity can be maximally guaranteed to be dispersed, and static electricity can be prevented from being gathered.

The metal connecting columns 6 are uniformly distributed between the lower tin sheet 5 and the label main body 1, and can conduct electricity and are easy to separate.

The identification area 7 sets up in the middle part of antistatic top layer 11 surface, and the antistatic ability of this application in daily use can effectively be improved in antistatic top layer 11's setting, and the specific material, principle, the preparation method of antistatic top layer 11 are the well-known technique, no longer describe herein any more.

The side of the conductive layer 13 is correspondingly provided with a waterproof layer 14, and the waterproof layer can protect other parts from being corroded by external moisture.

Although the utility model has been described and illustrated in some detail, it should be understood that various modifications may be made to the described embodiments or equivalents may be substituted, as will be apparent to those skilled in the art, without departing from the spirit of the utility model.

Claims

1. The utility model provides an antistatic non-setting adhesive label which characterized in that: the label comprises a label main body (1), wherein a mark area (7) is correspondingly arranged on the surface of the label main body (1), an upper tin sheet (2) is correspondingly arranged on the upper part of the label main body (1), a hollow gap layer (3) is correspondingly arranged between the upper tin sheet (2) and the label main body (1), the upper tin sheet (2) is correspondingly connected with the label main body (1) through an upper connecting block (4), a lower tin sheet (5) is correspondingly arranged on the lower part of the label main body (1), and a plurality of metal connecting columns (6) are correspondingly arranged between the lower tin sheet (5) and the label main body (1);

label main part (1) is including antistatic top layer (11), the one side and the identification area (7) on antistatic top layer (11) correspond to be connected, the another side and main part layer (12) on antistatic top layer (11) correspond to be connected, the another side and conducting layer (13) of main part layer (12) correspond to be connected, conducting layer (13) correspond to be connected with waterproof layer (14), waterproof layer (14) correspond to be connected with tie coat (15), tie coat (15) correspond with release layer (16) and are connected correspond between conducting layer (13), waterproof layer (14), tie coat (15) and be equipped with electrically conductive post (17), electrically conductive post (17) run through conducting layer (13), waterproof layer (14), tie coat (15) in proper order.

2. The antistatic self-adhesive label according to claim 1, characterized in that: go up connecting block (4) and set up the upper right corner in label main part (1), tin piece (5) set up the lower left corner in label main part (1) down.

3. The antistatic self-adhesive label according to claim 1, characterized in that: the metal connecting columns (6) are uniformly distributed between the lower tin sheet (5) and the label main body (1).

4. The antistatic self-adhesive label according to claim 1, characterized in that: the identification area (7) is arranged in the middle of the outer surface of the antistatic surface layer (11).

5. The antistatic self-adhesive label according to claim 1, characterized in that: and waterproof layers (14) are correspondingly arranged on the side edges of the conductive layers (13).

6. The antistatic self-adhesive label according to claim 1, characterized in that: the upper connecting block (4) and the metal connecting column (6) are correspondingly connected with the conducting layer (13).