阅读说明：本技术 声磁防盗标签及其壳体与制备方法、版标、卷标、产品包装 (Acoustic-magnetic anti-theft label and shell thereof, preparation method, version label, volume label and product package ) 是由 张曙 廖娜 虞丽京 于 2021-07-23 设计创作，主要内容包括：本发明公开了一种声磁防盗标签及其壳体与制备方法、版标、卷标、产品包装,所述壳体内形成有用于容纳共振片的空腔；所述壳体的至少部分材质为纸质。本发明通过让声磁防盗标签壳体至少部分材质为纸质,降低或消除现有声磁防盗标签壳体的塑料使用量,从而能够降低或消除由全球零售业广泛使用的这一刚需耗材所导致的累积性塑料污染。另外本发明中采用的水性胶可以取代传统声磁防盗标签中的油性胶,进一步在声磁防盗标签的制造过程中对于胶的使用提供更环保的解决方案。(The invention discloses an acoustic-magnetic anti-theft label, a shell and a preparation method thereof, a plate label, a volume label and a product package, wherein a cavity for containing a resonance piece is formed in the shell; at least part of the shell is made of paper. The invention reduces or eliminates the plastic usage amount of the prior acoustic-magnetic anti-theft label shell by making at least part of the acoustic-magnetic anti-theft label shell be paper, thereby reducing or eliminating the accumulative plastic pollution caused by the consumable material widely used in the global retail industry. In addition, the water-based adhesive adopted in the invention can replace the oil-based adhesive in the traditional acoustic-magnetic anti-theft label, and further provides a more environment-friendly solution for the use of the adhesive in the manufacturing process of the acoustic-magnetic anti-theft label.)

1. The shell of the acoustic-magnetic anti-theft tag is characterized in that a cavity for accommodating a resonance sheet is formed in the shell; at least part of the shell is made of paper.

2. The acoustic-magnetic anti-theft tag shell according to claim 1, wherein the shell comprises a main shell and a sealing cover; the main shell is internally provided with the cavity, and one surface of the main shell is in an opening shape; the sealing cover is arranged on the one surface of the main shell;

at least one of the main shell and the sealing cover is made of paper.

3. The acoustic-magnetic anti-theft tag shell according to claim 2, wherein the material of the main shell is one of the following materials: the single-sided PE laminating paper, the double-sided PE laminating paper, the single-sided PP laminating paper, the double-sided PP laminating paper, the single-sided PLA laminating paper, the double-sided PLA laminating paper, and the body paper.

4. The acoustic-magnetic anti-theft tag housing according to claim 3, wherein the thickness of the main housing is 0.33mm-0.55 mm.

5. The acoustic-magnetic anti-theft tag shell according to claim 4, wherein the unit weight of the paper used by the main shell under the thickness is: 250 grams per square meter to 400 grams per square meter.

6. The acoustic-magnetic theft tag housing according to claim 2, wherein said main housing is formed by fluting corrugated paper of 2-10mm thickness.

7. The acoustic-magnetic antitheft label housing according to claim 2, wherein the main housing is formed by grooving a 2-10mm thick paper plate.

8. The casing of the acoustic-magnetic anti-theft tag according to claim 2, wherein the sealing cover is made of one of the following materials: the single-sided PE laminating paper, the double-sided PE laminating paper, the single-sided PP laminating paper, the double-sided PP laminating paper, the single-sided PLA laminating paper, the double-sided PLA laminating paper, and the body paper.

9. The acoustic-magnetic anti-theft tag shell according to claim 8, wherein the sealing cover has a thickness of 0.1mm-0.25 mm.

10. The acoustic-magnetic anti-theft tag shell according to claim 9, wherein the sealing cover is made of paper with a unit weight of: 80 grams per square meter to 200 grams per square meter.

11. The acoustic-magnetic anti-theft tag shell according to claim 2, wherein the sealing cover is fixedly connected with the main shell by thermal compression or nailing.

12. The acoustic-magnetic anti-theft tag shell according to claim 2, wherein the sealing cover is bonded to the main shell by an aqueous or oily glue.

13. An acousto-magnetic anti-theft tag, characterized in that it comprises at least one resonant plate, at least one bias plate and a shell of the acousto-magnetic anti-theft tag according to any one of claims 1-12;

at least one resonance sheet is arranged in the cavity; at least one of the biasing pieces is disposed on an outer side of the housing or an inner side of the housing within the cavity.

14. A preparation method of an acoustic-magnetic anti-theft tag is characterized by comprising the following steps:

selecting a paper piece, and carrying out hot die pressing on the paper piece to prepare a paper main shell with a cavity and an open side;

placing at least one resonance sheet into the cavity, and covering the one surface of the main shell by using a paper sealing cover;

and arranging a biasing sheet on one side of the sealing cover far away from the main shell.

15. The method for preparing an acoustic-magnetic anti-theft label according to claim 14, wherein the paper member is selected and hot-molded to prepare a paper main housing having a cavity and an open side, comprising:

selecting paper parts to manufacture a reel, and humidifying and heating by steam in the process of manufacturing the reel;

and carrying out hot die pressing on the paper piece of the winding drum to prepare a paper main shell with a cavity and an open side.

16. A product package comprising a product package body and the acoustic-magnetic anti-theft tag of claim 13 disposed on the product package body.

17. The product package as recited in claim 16, wherein the product package body is paper.

18. The product package as recited in claim 17, wherein the paper of the product package body is corrugated paper.

19. A version of an acousto-magnetic anti-theft tag, characterized in that a single said version contains 20-200 acousto-magnetic anti-theft tags according to claim 13.

20. A volume label of an acoustic-magnetic anti-theft label, wherein a single volume of the volume label comprises 100 and 15000 acoustic-magnetic anti-theft labels as claimed in claim 13.

Technical Field

The invention relates to the technical field of theft prevention, in particular to an acoustic-magnetic anti-theft label, a shell of the acoustic-magnetic anti-theft label, a preparation method of the shell, a version label, a volume label and product packaging.

Background

The existing acoustic magnetic anti-theft soft label is composed of a PS (polystyrene)/PE plastic composite shell film, a non-crystal plate, a semi-hard magnetic sheet, a sealing cover material PE/PET plastic composite film, adhesive sticker adhesive paper and other multilayer structures, is attached to a commodity package, can realize anti-theft by using an acoustic magnetic resonance technology, and is widely applied to places such as global retail supermarkets, markets, chain stores and the like. The customer can pay for demagnetization at the cashier desk after selecting the commodity, if the thief tries to take the commodity out of the store without paying, the label triggers the alarm when the commodity passes through the doorway acousto-magnetic alarm antenna, so that the anti-theft effect is achieved, and the anti-theft measure is an important anti-theft measure for the retail industry to open the shelf and sell at present. The quantity of the acoustic magnetic anti-theft soft label is up to billions of sheets per year, the feasibility of a business mode of 'selling on the shelf' is guaranteed, but the acoustic magnetic anti-theft soft label is a disposable consumable product and can be discarded along with packaging.

The current serious plastic garbage pollution problem arouses attention of a plurality of countries, and how to reduce or completely eliminate the plastic usage amount of the shell of the traditional acoustic magnetic anti-theft label so as to reduce or eliminate the accumulative plastic pollution caused by the product becomes a problem which needs to be solved urgently.

Disclosure of Invention

In view of the above problems, an object of the present invention is to provide an acoustic-magnetic anti-theft tag, a housing thereof, a method for manufacturing the acoustic-magnetic anti-theft tag, a label, a volume label, and a product package, which can reduce or eliminate the plastic usage amount of the housing of the conventional acoustic-magnetic anti-theft tag, thereby reducing or eliminating cumulative plastic contamination caused by the product.

In order to achieve the above object, an embodiment of the present invention provides a housing of an acoustic-magnetic anti-theft tag, wherein a cavity for accommodating a resonance piece is formed in the housing; at least part of the shell is made of paper.

As an improvement of the above scheme, the housing comprises a main housing and a sealing cover; the main shell is internally provided with the cavity, and one surface of the main shell is in an opening shape; the sealing cover is arranged on the one surface of the main shell;

at least one of the main shell and the sealing cover is made of paper.

As an improvement of the above scheme, the material of the main housing is one of the following: the single-sided PE laminating paper, the double-sided PE laminating paper, the single-sided PP laminating paper, the double-sided PP laminating paper, the single-sided PLA laminating paper, the double-sided PLA laminating paper, and the body paper.

As an improvement of the scheme, the thickness of the main shell is 0.33mm-0.55 mm.

As an improvement of the above scheme, in the thickness of the main housing, the unit weight of the paper used by the main housing is: 250 grams per square meter to 400 grams per square meter.

As an improvement of the scheme, the main shell is formed by grooving corrugated paper with the thickness of 2-10 mm.

As an improvement of the scheme, the main shell is formed by digging grooves on a paper plate with the thickness of 2-10 mm.

As an improvement of the above scheme, the sealing cover is made of one of the following materials: the single-sided PE laminating paper, the double-sided PE laminating paper, the single-sided PP laminating paper, the double-sided PP laminating paper, the single-sided PLA laminating paper, the double-sided PLA laminating paper, and the body paper.

As an improvement of the scheme, the thickness of the sealing cover is 0.1mm-0.25 mm.

As an improvement of the above scheme, the sealing cover is under the thickness, and the unit weight of the paper used by the sealing cover is as follows: 80 grams per square meter to 200 grams per square meter.

As an improvement of the above scheme, the sealing cover is connected and fixed with the main shell in a hot pressing or nailing manner.

As an improvement of the above scheme, the sealing cover is bonded with the main shell through water-based or oil-based glue.

An embodiment of the invention provides an acoustic-magnetic anti-theft tag, which comprises at least one resonance sheet, at least one bias sheet and a shell of the acoustic-magnetic anti-theft tag in any scheme;

at least one resonance sheet is arranged in the cavity; at least one of the biasing pieces is disposed on an outer side of the housing or an inner side of the housing within the cavity.

An embodiment of the invention provides a preparation method of an acoustic-magnetic anti-theft tag, which comprises the following steps:

selecting a paper piece, and carrying out hot die pressing on the paper piece to prepare a paper main shell with a cavity and an open side;

placing at least one resonance sheet into the cavity, and covering the one surface of the main shell by using a paper sealing cover;

and arranging a biasing sheet on one side of the sealing cover far away from the main shell.

As the improvement of above-mentioned scheme, select for use the paper spare to carry out hot embossing to the paper spare and take shape, be the main casing body of opening form with the cavity and one side of preparing into the paper, include:

selecting paper parts to manufacture a reel, and humidifying and heating by steam in the process of manufacturing the reel;

and carrying out hot die pressing on the paper piece of the winding drum to prepare a paper main shell with a cavity and an open side.

An embodiment of the invention provides a product package, which comprises a product package body and the acoustic-magnetic anti-theft tag which is arranged on the product package body and is provided with the acoustic-magnetic anti-theft tag according to any scheme.

As an improvement of the scheme, the product packaging body is made of paper.

As an improvement of the scheme, the paper of the product packaging body is corrugated paper.

An embodiment of the invention provides a logo of an acoustic-magnetic anti-theft tag, and a single logo comprises 20-200 acoustic-magnetic anti-theft tags.

An embodiment of the present invention provides a volume label of an acoustic-magnetic anti-theft tag, wherein a single volume of the volume label includes 100-15000 acoustic-magnetic anti-theft tags as described above.

Compared with the prior art, the acoustic-magnetic anti-theft label and the shell and the preparation method thereof, the version label, the volume label and the product package provided by the embodiment of the invention have the advantages that at least part of the shell of the acoustic-magnetic anti-theft label is made of paper, so that the plastic usage amount of the shell of the acoustic-magnetic anti-theft label can be reduced or eliminated, and the plastic pollution caused by the consumable materials which are widely used in the global retail industry and need now can be reduced or eliminated.

In addition, in the embodiment of the invention relating to the water-based adhesive, the adopted water-based adhesive can replace the oil-based adhesive in the traditional acoustic-magnetic anti-theft label, and further provides a more environment-friendly solution for the use of the adhesive in the manufacturing process of the acoustic-magnetic anti-theft label.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an acoustic-magnetic anti-theft tag provided in an embodiment of the present invention;

wherein, 1-main shell; 2-a resonator plate; 3-sealing the cover; 4-offset sheet; 5-double sided adhesive tape; 51-double-sided tape base; 52-glue layer; 6-a separation zone; 10-shell of acoustic magnetic anti-theft label.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the specification and claims, it is to be understood that the terms "upper", "lower", "left", "right", "front", "back", "top", "bottom", "inner", "outer", and the like, indicate orientations and positional relationships based on those shown in the drawings, are used for convenience in describing embodiments of the present invention, and do not indicate or imply that the referenced devices or components must have a particular orientation, be constructed and operated in a particular orientation, and thus are not to be construed as limiting the embodiments of the present invention.

Furthermore, the terms first, second and the like in the description and in the claims, are used for descriptive purposes only to distinguish the same technical features, and are not to be construed as indicating or implying relative importance or implicit indication of the number of technical features indicated, nor is an order or temporal order necessarily described. The terms are interchangeable where appropriate. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.

Referring to fig. 1, an embodiment of the present invention provides an acoustic-magnetic anti-theft tag, which includes at least one resonant plate 2, at least one bias plate 4, and a housing 10 of the acoustic-magnetic anti-theft tag; a cavity for accommodating the resonator plate 2 is formed in the housing 10; at least part of the shell 10 is made of paper; at least one resonance sheet 2 is arranged in the cavity; at least one of the biasing tabs 4 is disposed on an outer side of the housing 10 or on an inner side of the housing 10 within the cavity. As an example, the housing 10 includes a main housing 1 and a sealing cover 3; the cavity is formed in the main shell 1, and one surface of the main shell 1 is open; the sealing cover 3 is arranged on the one surface of the main shell 1; at least one of the main housing 1 and the sealing cover 3 is made of paper.

Compared with the prior art, the embodiment of the invention provides that at least part of the shell 10 of the acoustic-magnetic anti-theft tag is made of paper, so that the plastic usage amount of the shell 10 of the acoustic-magnetic anti-theft tag can be reduced or eliminated, and the plastic pollution caused by the accumulation of the newly-needed consumables widely used in the global retail industry can be reduced or eliminated.

The invention correspondingly provides a preparation method of the acoustic-magnetic anti-theft tag, which comprises the following steps:

selecting a paper piece, and carrying out hot die pressing on the paper piece to prepare a paper main shell 1 which is provided with a cavity and an opening on one surface;

placing at least one resonance sheet 2 into the cavity, and covering the one surface of the main shell 1 with a paper sealing cover 3;

the offset sheet 4 is arranged on one side of the sealing cover 3 far away from the main shell 1.

Another embodiment of the present invention provides a product package, which includes a product package body and the acoustic-magnetic anti-theft tag according to any one of the above aspects, which is disposed on the product package body.

Specifically, the product packaging body is made of paper.

More specifically, the paper of the product packaging body is corrugated paper.

To facilitate an understanding of the above-described embodiments of the present invention, the following specific examples are provided herein:

example one

Selecting single-sided PE coated white cardboard with the unit weight of 250 grams per square meter per millimeter and the thickness of 0.3mm-0.35mm, manufacturing the white cardboard into a reel, humidifying, heating by steam, and performing hot-molding forming on the PE coated surface of the paper to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

Putting a piece of resonance sheet 2 into a prepared cavity of a shell of the acoustic-magnetic anti-theft label, taking a white cardboard with a unit weight of 80 g per square meter and a thickness of 0.1mm-0.15mm in a specification of each millimeter as a material of a sealing cover 3, carrying out heat sealing on a PE film surface of the shell and the PE film surface of the sealing cover 3 at 130 ℃, fixing a bias sheet 4 at the outer end of the sealing cover 3 by a double-sided adhesive 5 of an aqueous acrylic adhesive, and then covering the bias sheet with the double-sided adhesive 5 and a separation band 6 to prepare the label of the invention.

Example two

Selecting single-sided PE coated art paper with the unit weight of 250 grams per square meter and the thickness of 0.3mm-0.35mm in the specification of per millimeter thickness, manufacturing the paper into a reel, humidifying, heating by steam, and performing hot-mold forming on the PE coated surface of the paper to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

Putting four resonance sheets 2 into the prepared cavity of the shell of the acoustic-magnetic anti-theft label, then using single-sided PE (polyethylene) coated art paper with the specification of 80 grams per square meter of unit weight per millimeter of thickness and 0.1mm-0.15mm of thickness as a material of a sealing cover 3, carrying out heat sealing on the PE coated surface of the shell and the PE coated surface of the material of the sealing cover 3 at 160 ℃, fixing an offset sheet 4 at the outer end of the sealing cover 3 by using a double-sided adhesive 5 of an aqueous polyurethane adhesive, and then covering the double-sided adhesive 5 and a separation band 6 to prepare the label of the invention.

EXAMPLE III

Selecting single-sided PE (polyethylene) film coated paper with the specification of 400 grams per square meter of unit weight per millimeter and 0.5-0.55 mm of thickness, manufacturing the single-sided PE film coated paper into a winding drum, humidifying the winding drum, heating the winding drum by steam, and performing hot-die forming on the PE film coated surface of the paper to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

The three resonance sheets 2 are placed in a cavity of a prepared shell of the acoustic-magnetic anti-theft label, then a single-sided PE laminating paper sealing cover 3 material with the unit weight of 200 g per square meter and the thickness of 0.2mm-0.25mm is subjected to heat sealing at 130 ℃, a PE laminating surface of the shell and a PE laminating surface of the sealing cover 3 material are subjected to heat sealing, a bias sheet 4 is fixed at the outer end of the sealing cover 3 by a double-sided adhesive 5 of an aqueous epoxy resin adhesive, and then the double-sided adhesive 5 and a separation tape 6 are covered to prepare the label of the invention.

Example four

Selecting single-sided PE (polyethylene) film coated paper with the unit weight of 300 grams per square meter and the thickness of 0.4mm-0.45mm, manufacturing the single-sided PE film coated paper into a winding drum, humidifying the winding drum, heating the winding drum by steam, and performing hot-die forming on the PE film coated surface of the paper to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

Placing three resonance sheets 2 into the cavity of the prepared acoustic magnetic anti-theft label shell, then using single-sided PE film coated paper with the specification of 150 g per square meter of unit weight per millimeter of thickness and 0.15mm-0.2mm of thickness as a material of a sealing cover 3, carrying out heat sealing on the PE film coated surface of the shell and the PE film coated surface of the material of the sealing cover 3 at 160 ℃, fixing a bias sheet 4 at the outer end of the sealing cover 3 by using a double-sided adhesive 5, and then covering the bias sheet with the double-sided adhesive 5 and a separation tape 6 to prepare the label of the invention.

EXAMPLE five

Selecting white cardboard with the specification of unit weight of 250 grams per square meter and 0.33mm-0.35mm of double-sided PE (polyethylene) coating film per millimeter to manufacture a reel, humidifying, heating by steam, and performing hot-mold forming to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

Putting a piece of resonance sheet 2 into the cavity of the prepared acoustic magnetic anti-theft label shell, then using double-sided PE laminating paper with the unit weight of 80 g per square meter and the thickness of 0.1mm-0.15mm per millimeter as a sealing cover 3 material, after the shell and the sealing cover 3 material are subjected to heat sealing at 130 ℃, fixing a bias sheet 4 at the outer end of the sealing cover 3 by using an aqueous double-sided adhesive 5, and then covering the bias sheet with the aqueous double-sided adhesive 5 and a separation tape 6 to prepare the label of the invention.

EXAMPLE six

Selecting white cardboard with the specification of unit weight of 250 grams per square meter and 0.33mm-0.35mm of double-sided PE (polyethylene) coating film per millimeter to manufacture a reel, humidifying, heating by steam, and performing hot-mold forming to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

Putting five resonance sheets 2 into the prepared cavity of the shell of the acoustic-magnetic anti-theft label, then using double-sided PE laminating paper with the unit weight of 80 g per square meter and the thickness of 0.1mm-0.15mm per millimeter as a material of a sealing cover 3, after the shell and the sealing cover 3 are subjected to heat sealing at 160 ℃, fixing an offset sheet 4 at the outer end of the sealing cover 3 by using a double-sided adhesive 5, and then covering the offset sheet with a water-based double-sided adhesive 5 and a separation tape 6 to prepare the label of the invention.

EXAMPLE seven

Selecting double-sided PE (polyethylene) film coated paper with the specification of 400 grams per square meter of unit weight per millimeter and 0.5-0.55 mm of thickness, manufacturing the double-sided PE film coated paper into a winding drum, humidifying, heating by steam, and performing hot-molding forming on the PE film coated surface of the paper to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

Putting a piece of resonance sheet 2 into a cavity of a prepared acoustic magnetic anti-theft label shell, then using double-sided PE laminating paper with the specification of 200 grams per square meter of unit weight per millimeter of thickness and 0.2mm-0.25mm of thickness as a sealing cover 3 material, after the shell and the sealing cover 3 material are subjected to heat sealing at 150 ℃, fixing an offset sheet 4 at the outer end of the sealing cover 3 by using an aqueous double-sided adhesive 5, and then covering the offset sheet with the aqueous double-sided adhesive 5 and a separation tape 6 to prepare the label of the invention.

Example eight

Selecting double-sided PE (polyethylene) film coated paper with the specification of 400 grams per square meter of unit weight per millimeter and 0.5-0.55 mm of thickness, manufacturing the double-sided PE film coated paper into a winding drum, humidifying, heating by steam, and performing hot-molding forming on the PE film coated surface of the paper to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

The three resonance pieces 2 are put into the cavity of the manufactured acoustic magnetic anti-theft label shell, then the double-sided PE film coated paper with the unit weight of 200 grams per square meter and the thickness of 0.2mm-0.25mm is used as a sealing cover 3 material, the shell and the sealing cover 3 material are subjected to heat sealing at 160 ℃, the bias piece 4 is fixed at the outer end of the sealing cover 3 by the water-based double-sided adhesive 5, and then the water-based double-sided adhesive 5 and the separation tape 6 are covered, so that the label of the invention is manufactured.

Example nine

Selecting white cardboard with the unit weight of 250 grams per square meter and the single-sided PP laminating of 0.33mm-0.35mm in the specification of thickness per millimeter, manufacturing the white cardboard into a reel, humidifying, heating by steam, and preparing the shell of the paper acoustic-magnetic anti-theft soft label with the cavity structure by a hot die pressing forming process.

Putting a resonance sheet 2 into a prepared shell cavity of the acoustic-magnetic anti-theft label, taking a single-sided PP film coated white cardboard with the unit weight of 80 g per square meter and the thickness of 0.1mm-0.15mm as a sealing cover 3 material, performing heat sealing on the PP film coated surface of the shell and the PP film coated surface of the sealing cover 3 material at 130 ℃, fixing a bias sheet 4 at the outer end of the sealing cover 3 by using a double-sided adhesive 5 of an aqueous acrylic adhesive, and covering the double-sided adhesive 5 and a separation band 6 by using the aqueous acrylic adhesive to prepare the label.

Example ten

Selecting single-sided PP (polypropylene) film coated paper with the specification of 400 grams per square meter per millimeter of unit weight and 0.5mm-0.55mm of thickness, manufacturing the single-sided PP film coated paper into a winding drum, humidifying the winding drum, heating the winding drum by steam, and performing hot-die forming on the PE film coated surface of the paper to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

The three resonance pieces 2 are put into the cavity of the manufactured acoustic magnetic anti-theft label shell, then single-sided PP film coated paper with the unit weight of 200 g per square meter and the thickness of 0.2mm-0.25mm is used as a material of a sealing cover 3, the PP film coated surface of the shell and the PE film coated surface of the material of the sealing cover 3 are subjected to heat sealing at 160 ℃, a bias piece 4 is fixed at the outer end of the sealing cover 3 by using an aqueous double-sided adhesive 5, and then the aqueous double-sided adhesive 5 and a separation tape 6 are covered, thus the label of the invention is manufactured.

EXAMPLE eleven

Selecting white cardboard with the specification of unit weight of 250 grams per square meter and 0.33mm-0.35mm of double-sided PP (polypropylene) laminating film per millimeter to manufacture a reel, humidifying, heating by steam, and performing hot-mold forming to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

The three resonance sheets 2 are placed in a cavity of a manufactured acoustic magnetic anti-theft label shell, then double-sided PP laminating paper with the unit weight of 80 grams per square meter and the thickness of 0.1mm-0.15mm per millimeter is used as a sealing cover 3 material, the shell and the sealing cover 3 material are subjected to heat sealing at 140 ℃, an offset sheet 4 is fixed at the outer end of the sealing cover 3 by using a double-sided adhesive 5, and then a water-based double-sided adhesive 5 and a separation tape 6 are covered, so that the label of the invention is manufactured.

Example twelve

Selecting double-sided PP (polypropylene) film coated paper with the specification of 400 grams per square meter per millimeter of unit weight and 0.5mm-0.55mm of thickness, manufacturing the double-sided PP film coated paper into a winding drum, humidifying the winding drum, heating the winding drum by steam, and performing hot-die forming on the PE film coated surface of the paper to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

The three resonance pieces 2 are put into the cavity of the manufactured acoustic magnetic anti-theft label shell, then the double-sided PP laminating paper with the unit weight of 200 grams per square meter and the thickness of 0.2mm-0.25mm is used as a sealing cover 3 material, the shell and the sealing cover 3 material are subjected to heat sealing at 160 ℃, the bias piece 4 is fixed at the outer end of the sealing cover 3 by the water-based double-sided adhesive 5, and then the water-based double-sided adhesive 5 and the separation tape 6 are covered, so that the label of the invention is manufactured.

EXAMPLE thirteen

Selecting white cardboard with the unit weight of 250 grams per square meter and the single-sided PLA film coating of 0.33mm-0.35mm in the specification of thickness per millimeter, manufacturing the white cardboard into a reel, humidifying, heating by steam, and preparing the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure by a hot die pressing forming process.

Putting a piece of resonance sheet 2 into a prepared shell cavity of the acoustic-magnetic anti-theft label, taking a single-sided PLA (polylactic acid) film coated white cardboard with the unit weight of 80 grams per square meter and the thickness of 0.1mm-0.15mm as a sealing cover 3 material, performing heat sealing on the PLA film coated surface of the shell and the PLA film coated surface of the sealing cover 3 material at 130 ℃, fixing a bias sheet 4 at the outer end of the sealing cover 3 by using a double-sided adhesive 5 of an aqueous acrylic acid adhesive, and then covering the double-sided adhesive 5 and a separation band 6 by using the aqueous acrylic acid adhesive to prepare the label.

Example fourteen

Selecting double-sided PLA (polylactic acid) film coated paper with the specification of 400 grams per square meter per millimeter of unit weight and 0.5-0.55 mm of thickness, manufacturing the paper into a reel, humidifying, heating by steam, and performing hot-pressing forming on the PE film coated surface of the paper to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

The three resonance sheets 2 are placed in a cavity of a prepared acoustic magnetic anti-theft label shell, then double-sided PLA film coated paper with the unit weight of 200 grams per square meter and the thickness of 0.2mm-0.25mm is used as a sealing cover 3 material, the shell and the sealing cover 3 material are subjected to heat sealing at 160 ℃, an offset sheet 4 is fixed at the outer end of the sealing cover 3 by using an aqueous double-sided adhesive 5, and then the aqueous double-sided adhesive 5 and a separation tape 6 are covered, so that the label disclosed by the invention is prepared.

Example fifteen

The method comprises the steps of selecting single-sided PE coated white cardboard with the unit weight of 250 grams per square meter per millimeter and the thickness of 0.3mm-0.35mm, manufacturing the white cardboard into a reel, humidifying, heating by steam, and performing hot-molding forming on the PE coated surface of the paper to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

Putting a piece of resonance sheet 2 into a prepared cavity of a shell of the acoustic-magnetic anti-theft label, taking a single-sided PE coated white cardboard with the unit weight of 80 grams per square meter and the thickness of 0.1mm-0.15mm as a material of a sealing cover 3, carrying out heat sealing on the PE coated surface of the shell and the PE coated surface of the sealing cover 3 at 130 ℃, fixing a bias sheet 4 at the outer end of the sealing cover 3 by using a double-sided adhesive 5 of an aqueous acrylic adhesive, and then covering the double-sided adhesive 5 and a separation tape 6 to prepare the label of the invention.

Example sixteen

Selecting single-sided PE coated paper with the specification of 400 grams per square meter of unit weight per millimeter and 0.5mm-0.55mm of thickness, manufacturing the single-sided PE coated paper into a reel, humidifying the reel, heating the reel by steam, and performing hot-molding forming on the PE coated surface of the paper to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

The three resonance pieces 2 are placed in a cavity of a prepared shell of the acoustic-magnetic anti-theft label, single-sided PE (polyethylene) coated paper with the unit weight of 200 grams per square meter and the thickness of 0.2mm-0.25mm is used as a material of a sealing cover 3, the PE coated surface of the shell and the PE coated surface of the sealing cover 3 are subjected to heat sealing at 130 ℃, a double-sided adhesive 5 of an aqueous epoxy resin adhesive is used for fixing an offset piece 4 at the outer end of the sealing cover 3, and then the double-sided adhesive 5 and a separation strip 6 are covered, so that the label disclosed by the invention is prepared.

Example seventeen

Selecting double-sided PE coated paper with the specification of 400 grams per square meter of unit weight per millimeter and 0.5mm-0.55mm of thickness, manufacturing the double-sided PE coated paper into a reel, humidifying the reel, heating the reel by steam, and performing hot-molding on the PE coated surface of the paper to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

Putting a piece of resonance sheet 2 into a prepared cavity of the shell of the acoustic-magnetic anti-theft label, then using double-sided PE coated paper with the specification of 200 grams per square meter of unit weight per millimeter of thickness and 0.2mm-0.25mm of thickness as a material of a sealing cover 3, after the shell and the sealing cover 3 are subjected to heat sealing at 150 ℃, fixing a bias sheet 4 at the outer end of the sealing cover 3 by using an aqueous double-sided adhesive 5, and then covering the water-based double-sided adhesive 5 and a separation tape 6 to prepare the label of the invention.

EXAMPLE eighteen

The method comprises the steps of selecting single-sided PP (polypropylene) coated white cardboard with the unit weight of 250 grams per square meter per millimeter and the thickness of 0.3-0.35 mm, manufacturing the white cardboard into a reel, humidifying, heating by steam, and performing hot-die forming on the PE coated surface of the paper to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

Putting a piece of resonance sheet 2 into a prepared shell cavity of the acoustic-magnetic anti-theft label, taking a single-sided PP coated white cardboard with the unit weight of 80 grams per square meter and the thickness of 0.1mm-0.15mm as a sealing cover 3 material, carrying out heat sealing on the PP coated surface of the shell and the PP coated surface of the sealing cover 3 material at 130 ℃, fixing a bias sheet 4 at the outer end of the sealing cover 3 by using a double-sided adhesive 5 of an aqueous acrylic adhesive, and then covering the bias sheet with an oil double-sided adhesive 5 and a separation strip 6 to prepare the label of the invention.

Example nineteen

Selecting single-sided PP (polypropylene) coated paper with the specification of 400 grams per square meter per millimeter of unit weight and 0.5-0.55 mm of thickness, manufacturing the single-sided PP coated paper into a reel, humidifying the reel, heating the reel by steam, and performing hot-die forming on the PE coated surface of the paper to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

The three resonance pieces 2 are put into the cavity of the manufactured shell of the acoustic-magnetic anti-theft label, then the single-sided PP film coated paper with the unit weight of 200 g per square meter and the thickness of 0.2mm to 0.25mm is sealed with the material of the cover 3, the PP film surface of the shell and the PP film surface of the material of the sealed cover 3 are heat sealed at 150 ℃, the bias piece 4 is fixed at the outer end of the sealed cover 3 by the oil double-sided adhesive 5, and then the water double-sided adhesive 5 and the separation tape 6 are covered, thus the label of the invention is manufactured.

Example twenty

Selecting double-sided PP (polypropylene) coated paper with the specification of 400 grams per square meter of unit weight per millimeter and 0.5-0.55 mm of thickness, manufacturing the paper into a reel, humidifying, heating by steam, and performing hot-molding on the PE coated surface of the paper to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

The three resonance pieces 2 are placed in a cavity of a prepared shell of the acoustic-magnetic anti-theft label, then double-sided PP (polypropylene) coated paper with the unit weight of 200 grams per square meter and the thickness of 0.2mm-0.25mm is used as a material of a sealing cover 3, the shell and the sealing cover 3 are subjected to heat sealing at 160 ℃, an offset piece 4 is fixed at the outer end of the sealing cover 3 by using an aqueous double-sided adhesive 5, and then the aqueous double-sided adhesive 5 and a separation tape 6 are covered, so that the label disclosed by the invention is prepared.

Example twenty one

The paper white cardboard with the unit weight of 250 grams per square meter and the single-side PLA film covering of 0.33mm-0.35mm in thickness is selected to be made into a reel, and the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure is prepared through humidification, steam heating and hot mold pressing forming.

Putting a resonance sheet 2 into a prepared shell cavity of the acoustic-magnetic anti-theft label, taking a single-sided PLA (polylactic acid) coated white cardboard with the unit weight of 80 grams per square meter and the thickness of 0.1mm-0.15mm as a sealing cover 3 material, carrying out heat sealing on the PLA coated surface of the shell and the PLA coated surface of the sealing cover 3 material at 180 ℃, fixing a bias sheet 4 at the outer end of the sealing cover 3 by using a double-sided adhesive 5 of a water-based acrylic adhesive, and then covering the double-sided adhesive 5 and a separation belt 6 by using the water-based acrylic adhesive to prepare the label.

Example twenty two

Selecting single-sided PLA film-coated paper with the specification of 400 grams per square meter per millimeter of unit weight and 0.5mm-0.55mm of thickness, manufacturing the single-sided PLA film-coated paper into a reel, humidifying the reel, heating the reel by steam, and performing hot-die forming on the PE film-coated surface of the paper to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

The three resonance pieces 2 are placed in a cavity of a shell of the manufactured acousto-magnetic anti-theft label, then a single-sided PLA film coated paper sealing cover 3 material with the unit weight of 200 g per square meter and the thickness of 0.2mm-0.25mm is sealed at the thickness of each millimeter, after the PLA film coated surface of the shell and the PLA film coated surface of the sealing cover 3 material are subjected to heat sealing at 190 ℃, a bias piece 4 is fixed at the outer end of the sealing cover 3 by using an aqueous double-sided adhesive 5, and then the aqueous double-sided adhesive 5 and a separation strip 6 are covered, so that the label disclosed by the invention is manufactured.

Example twenty three

The paper white cardboard with the unit weight of 250 grams per square meter and the double-sided PLA film covering of 0.33mm-0.35mm is selected to be made into a reel, and the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure is prepared through the processes of humidification, steam heating and hot mold pressing forming.

The three resonance sheets 2 are placed in a cavity of a prepared shell of the acoustic-magnetic anti-theft label, then a double-sided PLA film with the unit weight of 80 grams per millimeter and the thickness of 0.1mm to 0.15mm per square meter is used as a sealing cover 3 material, the shell and the sealing cover 3 material are subjected to heat sealing at 160 ℃, a bias sheet 4 is fixed at the outer end of the sealing cover 3 by a double-sided adhesive 5, and then a water-based double-sided adhesive 5 and a separation tape 6 are covered, so that the label of the invention is prepared.

Example twenty-four

Selecting double-sided PLA film-coated paper with the specification of 400 grams per square meter per millimeter of unit weight and 0.5mm-0.55mm of thickness, manufacturing the paper into a reel, humidifying the paper, heating the paper by steam, and performing hot-die forming on the PE film-coated surface of the paper to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

The three resonance pieces 2 are placed in a cavity of a prepared shell of the acoustic-magnetic anti-theft label, then double-sided PLA film coated paper with the unit weight of 200 grams per square meter and the thickness of 0.2mm-0.25mm is used as a material of a sealing cover 3, the shell and the sealing cover 3 are subjected to heat sealing at 160 ℃, an offset piece 4 is fixed at the outer end of the sealing cover 3 by using an aqueous double-sided adhesive 5, and then the aqueous double-sided adhesive 5 and a separation tape 6 are covered, so that the label of the invention is prepared.

Example twenty-five

White card paper with the specification of 400 grams per square meter of unit weight per millimeter of thickness and 0.5mm-0.55mm of thickness is selected to be made into a reel, and the reel is humidified, heated by steam and subjected to hot die pressing forming process on the PE film coated surface of the paper to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

The three resonance sheets 2 are placed in a cavity of a prepared shell of the acoustic-magnetic anti-theft label, then white cardboard with the unit weight of 200 grams per square meter and the thickness of 0.2mm-0.25mm is used as a material of a sealing cover 3, the shell and the material of the sealing cover 3 are adhered together by using a glue dispensing method, an offset sheet 4 is fixed at the outer end of the sealing cover 3 by using an aqueous double-sided adhesive 5, and then the aqueous double-sided adhesive 5 and a separation tape 6 are covered, so that the label of the invention is prepared.

Example twenty-six

The paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure is prepared by selecting white cardboard with the specification of 250 grams per square meter and 0.33mm-0.35mm of unit weight per millimeter of thickness, manufacturing the white cardboard into a reel, humidifying, heating by steam, and performing hot die pressing forming process.

Putting a piece of resonance sheet 2 into the cavity of the prepared acoustic magnetic anti-theft label shell, then using white cardboard with the unit weight of 80 g per square meter and the thickness of 0.1mm-0.15mm as a sealing cover 3 material, using a glue dispensing method to glue the shell and the sealing cover 3 material together, fixing an offset sheet 4 at the outer end of the sealing cover 3 by using an aqueous double-sided adhesive 5, and then covering the offset sheet with the aqueous double-sided adhesive 5 and a separation tape 6 to prepare the label of the invention.

Example twenty-seven

Selecting coated paper with the unit weight of 250 grams per square meter and the thickness of 0.33mm-0.35mm, manufacturing the coated paper into a reel, humidifying, heating by steam, and performing a hot die pressing forming process to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

Putting a piece of resonance sheet 2 into the cavity of the manufactured acoustic magnetic anti-theft label shell, then using the coated paper with the specification of 80 grams per square meter of unit weight per millimeter of thickness and 0.1mm-0.15mm of thickness as a material of the sealing cover 3, using a glue dispensing method to glue the shell and the sealing cover 3 together, fixing the bias sheet 4 at the outer end of the sealing cover 3 by using an aqueous double-sided adhesive 5, and then covering the bias sheet with the aqueous double-sided adhesive 5 and a separation tape 6 to manufacture the label of the invention.

Example twenty-eight

Selecting copper plate paper with the specification of 400 grams per square meter of unit weight per millimeter of thickness and 0.5mm-0.55mm of thickness, manufacturing the copper plate paper into a reel, humidifying the reel, heating the reel by steam, and performing hot die pressing on the PE film coated surface of the paper to prepare the paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure.

The three resonance pieces 2 are put into the cavity of the manufactured acoustic magnetic anti-theft label shell, then the coated paper with the unit weight of 200 grams per square meter and the thickness of 0.2mm-0.25mm is used as the material of the sealing cover 3, the shell and the sealing cover 3 are adhered together by using a glue dispensing method, the bias piece 4 is fixed at the outer end of the sealing cover 3 by using the water-based double-sided adhesive 5, and then the water-based double-sided adhesive 5 and the separation tape 6 are covered, thus the label of the invention is manufactured.

Example thirty

The paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure is prepared by selecting white cardboard with the specification of 250 grams per square meter and 0.33mm-0.35mm of unit weight per millimeter of thickness, manufacturing the white cardboard into a reel, humidifying, heating by steam, and performing hot die pressing forming process.

The three resonance pieces 2 are placed in a cavity of a manufactured acoustic magnetic anti-theft label shell, white cardboard with the unit weight of 80 grams per square meter and the thickness of 0.1mm-0.15mm is used as a cover material, the shell and the edge of the cover material are nailed together by a stapling method, an offset piece 4 is fixed at the outer end of the cover material by using an aqueous double-faced adhesive tape 5, and then the aqueous double-faced adhesive tape 5 and a separation tape 6 are covered to manufacture the label of the invention.

Example thirty one

The paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure is prepared by selecting white cardboard with the specification of 250 grams per square meter and 0.33mm-0.35mm of unit weight per millimeter of thickness, manufacturing the white cardboard into a reel, humidifying, heating by steam, and performing hot die pressing forming process.

The three resonance sheets 2 are placed in a cavity of a manufactured shell of the acoustic-magnetic anti-theft label, white cardboard with the unit weight of 80 grams per square meter and the thickness of 0.1mm-0.15mm is used as a cover material, a mold with two concave-convex areas, an upper mold and a lower mold is used, the edge of the shell and the edge of the cover material are deformed and pressed together to form a whole, the offset sheet 4 is fixed at the outer end of the cover material by using an aqueous double-sided adhesive 5, and then the outer end of the cover material is covered by the aqueous double-sided adhesive 5 and a separation belt 6, so that the plastic-free and oil-free paper shell label is manufactured.

Example thirty-two

The paper shell of the acoustic-magnetic anti-theft soft label with the cavity structure is prepared by selecting white cardboard with the specification of 250 grams per square meter and 0.33mm-0.35mm of unit weight per millimeter of thickness, manufacturing the white cardboard into a reel, humidifying, heating by steam, and performing hot die pressing forming process.

The three resonance sheets 2 are placed in a cavity of a manufactured shell of the acoustic-magnetic anti-theft label, white cardboard with the unit weight of 80 grams per square meter and the thickness of 0.1mm-0.15mm is used as a cover material, the edge of the shell and the cover material are deformed and pressed together to form a whole by using a mould with 100 concave-convex areas, an offset sheet 4 is fixed at the outer end of the cover material by using an aqueous double-sided adhesive 5, and then the cover material is covered by the aqueous double-sided adhesive 5 and a separation tape 6, so that the paper shell label without the plastic and the oil-free adhesive is manufactured.

Example thirty-three

The paper shell of the acoustic magnetic anti-theft soft label with the cavity structure (which is pre-arranged on the corrugated paper packaging box) is prepared by selecting a packaging paper plate with the thickness of 8mm (such as two-layer corrugated paper), pressing the cutting edge of a pressing head with a sharp edge and flattening the inner part to press a groove (42X 15mm in the example) at the same time.

A bias sheet 4 was fixed to the bottom of the above-mentioned groove with a single-sided adhesive, three resonance sheets 2 were placed in the groove, and a 45X20 piece of paper (80 grams per square meter white cardboard in this example) was covered with a single-sided adhesive and sealed to the top of the groove, thus making the label of the present invention. The corrugated paper with the acoustic-magnetic anti-theft tag built in the corrugated paper can be cut to be folded into various packaging paper boxes. Because the acoustic magnetic label is not attached outside, the cut corrugated paper can be flatly placed in the trough when being sent into the automatic box folding machine, the positioning inaccuracy caused by the uneven arrangement can be avoided, and more paper plates can be placed in the trough, so that the work efficiency is improved. In addition, the label position is more concealed, and a thief cannot easily find the label position.

Example thirty-four

A4 mm-thick packaging paper plate (such as three-layer corrugated paper) is selected, a groove (48X 9mm in the example) is cut by a cutting edge of a pressing head with a sharp edge, and a shell of the paper acoustic magnetic anti-theft soft label with a cavity structure (which is pre-arranged on the corrugated paper packaging box) is prepared.

Four resonator plates 2 are then placed in the recess, a 52X12 piece of degradable PLA sheet (0.1 mm thick in this example) is then covered with a single-sided adhesive and the recess is sealed, and an offset plate 4 is attached to the back of the single-sided adhesive but held over the recess by the single-sided adhesive, thus forming the label of the present invention. The corrugated paper with the acoustic-magnetic anti-theft tag built in the corrugated paper can be cut to be folded into various packaging paper boxes. Because the acoustic-magnetic label is not attached to the outside, the cut corrugated paper can be flatly placed in the trough when being sent into the automatic box folding machine, and waste products caused by inaccurate positioning due to uneven arrangement can be avoided. Because the paper plate is very flat, a plurality of paper plates can be placed in the trough, and the work efficiency is improved. In addition, the label position is more concealed, and a thief cannot easily find the label position.

Example thirty-five

A4 mm-thick packaging paper plate (such as three-layer corrugated paper) is selected, a groove (48X 9mm in the example) is cut by a cutting edge of a pressing head with a sharp edge, and a shell of the paper acoustic magnetic anti-theft soft label with a cavity structure (which is pre-arranged on the corrugated paper packaging box) is prepared.

Four resonator plates 2 are then placed in the recess, a 52X12 piece of degradable PLA sheet (0.1 mm thick in this example) is then covered with a single-sided adhesive and the recess is sealed, and an offset plate 4 is attached to the back of the single-sided adhesive but held over the recess by the single-sided adhesive, thus forming the label of the present invention. The corrugated paper with the acoustic-magnetic anti-theft tag built in the corrugated paper can be cut to be folded into various packaging paper boxes. Because the acoustic-magnetic label is not attached to the outside, the cut corrugated paper can be flatly placed in the trough when being sent into the automatic box folding machine, and waste products caused by inaccurate positioning due to uneven arrangement can be avoided. Because the paper plate is very flat, a plurality of paper plates can be placed in the trough, and the work efficiency is improved. In addition, the label position is more concealed, and a thief cannot easily find the label position.

Example thirty-six

Selecting a laminated thick paper plate (such as 8mm in the example), using a sharp cutter to cut a groove (50X 30mm in the example), preparing a paper shell of the acoustic magnetic anti-theft soft label with a cavity structure,

then, a piece of resonance sheet 2 was put into the groove, a 2mm thick paper plate was covered with an adhesive and stuck firmly in the non-groove area, and a bias sheet 4 was fixed on the back of the above one-sided adhesive with a double-sided adhesive 5+ a separation tape 6 while being kept above the groove, thus making the label of the present invention.

Generally, the invented label can be further made into single plug-in or drop-in label, or made into labels with 20-200 labels per version, or made into labels with 100-15000 labels per roll.

While the foregoing is directed to embodiments of the present invention, the scope of the present invention is not limited thereto, and any changes or substitutions (e.g., changing the type and thickness of paper, or changing the type and thickness of plastic film in paper-plastic materials, or changing the relative structure of paper-plastic film, such as double-sided film, multi-layer structure, or using recycled paper, recycled plastic film or degradable plastic film, changing the forming mode of the housing 10 and the shape and size of the cavity of the housing 10, changing the sealing mode of the paper-containing housing and the cover material, such as heat sealing, cold sealing, folding, adhering, nailing, etc., to form single labels, plate-shaped labels, and roll labels and label sizes, and changing the number of each plate or roll, the bottom gluing mode of the labels, the type and adhering mode of oil or water based glue, etc., but as long as it contains a portion of paper material) are intended to be within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.