CN217718894U - Adhesive label - Google Patents

Abstract

The utility model provides a self-adhesive label. The self-adhesive label comprises: a peeling layer, an adhesive layer and a base material are arranged in sequence from top to bottom; the peeling layer is divided into a label area, and is located only on one side of the label area discard area. With the utility model, the discarding area is only located on one side of the label area, thereby reducing the waste of paper, and at the same time, the positioning of the self-adhesive label is more convenient when printing.

Description

Adhesive label

Technical Field

The utility model relates to a label technical field especially relates to an adhesive label.

Background

The self-adhesive label is a composite material which is made of paper, film or other materials as a plus material, the reverse side of the plus material is coated with an adhesive, and silicon-coated base paper as protective paper, and the finished product state of the label is presented after the processing of die cutting, printing and the like. When in use, the adhesive tape can be only peeled from the base material and can be attached to the surfaces of various objects by pressing.

The existing technology for packaging the self-adhesive label can adopt the mode that the self-adhesive label is made into an integral type to be wound into a roll, and also can cut the self-adhesive label into independent individuals to carry out split type packaging. The die cutting technology of the self-adhesive label adopts a die cutting rule to cut off the adhesive layer. The self-adhesive label is composed of a stripping layer and a substrate, wherein one surface of the stripping layer facing the substrate is coated with an adhesive layer, and the other surface of the stripping layer is used for printing required data and information so as to separate the stripping layer with the adhesive layer from the base paper, so that the stripping layer can be attached to the surfaces of various objects by pressing.

Referring to fig. 1, the release layer of the self-adhesive label 100a is printed from the center of symmetry outward to form two areas, a third label area 103a and a usable area (i.e., a first label area 101a and a second label area 102 a). The third label area 103a is disposed around the usable area.

The die cutter divides the usable area into a first label area 101a and a second label area 102a according to a preset size in the usable area. The second label area 102a is disposed around the first label area 101 a. The die cutter cuts and cuts only the adhesive layer such that a gap 104a is formed between the first label area 101a and the second label area 102a, thereby facilitating peeling of the first label area 101a from the substrate.

However, the first label area 101a is a real usable area for printing information and data, the second label area 102a and the third label area 103a are blank areas 105a (i.e., unnecessary paper edges around the first label area 101 a), and unnecessary paper edges are present on all four sides of the first label area 101a in the outward direction from the center of symmetry according to a predetermined size, and thus, a large amount of paper is wasted when discarded.

In addition, when the self-adhesive label 100a packaged into a roll prints information or data in the first label area 101a, the position of the self-adhesive label 100a in the printer needs to be accurately controlled.

As shown in fig. 1, the positioning marks 106 are printed at four corners of the third label area 103a having a quadrangular shape. The positions of the positioning marks 106 at the four corners in the printer are adjusted and aligned, and then the printer prints data or information on the first label area 101a according to a preset size and a preset program. If the positioning generates deviation, the information is not printed in the first label area 101a or is printed in a staggered manner when the information is printed, the self-adhesive label cannot be put into normal use, and the self-adhesive label is invalidated.

When the self-adhesive label 100a is printed, the self-adhesive label needs to be accurately positioned by consuming manpower, and then the printing is performed, so that a large amount of manpower is consumed, and once deviation is generated in positioning, the whole self-adhesive label is wasted, and paper is wasted. Moreover, in the existing packaging technology, a reel packaging method is used, and if the position of one adhesive label is deviated during printing, the whole reel of adhesive label is likely to be wasted, so that the adhesive label is wasted.

In view of the above, there is a need for an improved self-adhesive label in the prior art to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to disclose a non-setting adhesive label for it is extravagant to solve too much paper among the prior art, and prints the location and expends a large amount of manpowers and inconvenient problem.

In order to achieve the above object, the utility model provides a non-setting adhesive label, include:

the stripping layer, the adhesive layer and the substrate are arranged from top to bottom in sequence;

the release layer is divided to form a label region and a disposal region located on only one side of the label region.

As a further improvement of the present invention, the size of the label region ranges from 19cm × 19cm to 21cm × 21cm, and includes 19cm × 19cm and 21cm × 2121cm.

As a further improvement of the utility model, the substrate is provided with the silicon oil coating towards the one side of viscose layer.

As a further improvement of the utility model, the stripping layer is made of film material.

As a further improvement of the present invention, a gap is formed between the label region and the disposal region.

As a further improvement of the present invention, the discarding area includes a first discarding area and a second discarding area, and the label area forms a gap with the first discarding area.

As a further improvement of the present invention, the label region is close to the first two corners of the discarding region are arc-shaped.

As a further improvement of the utility model, the self-adhesive label is an independent label.

As a further improvement of the present invention, the label area is a pattern printing area.

As a further improvement of the present invention, the label region is rectangular, and the contour formed at the edge of the label region where the discarding region is not formed is identical to the contour formed by the base material.

Compared with the prior art, the beneficial effects of the utility model are that:

firstly, the stripping layer is divided into a label area and a discarding area only positioned on one side of the label area, so that the whole area of the discarding area is reduced, and the waste of paper is reduced; meanwhile, the contour formed at the edge of the label area where the discarding area is not formed is matched with the contour formed by the base material, when the pattern or the information or the data is printed on the stripping layer, the positioning step of the self-adhesive label in the printer is reduced, and the pattern or the information or the data is more conveniently printed on the stripping layer.

Drawings

FIG. 1 is a prior art sticker label;

fig. 2 is a perspective view of a view angle of the self-adhesive label of the present invention;

fig. 3 is a cross-sectional view of the sticker label shown in fig. 2 taken along direction a.

Detailed Description

The present invention will be described in detail with reference to the embodiments shown in the drawings, but it should be understood that these embodiments are not intended to limit the present invention, and that the functional equivalents, methods, or structural equivalents thereof, or substitutions thereof by those skilled in the art are all within the scope of the present invention.

It should be understood that in the present application, the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", etc. indicate orientations or positional relationships based on those shown in the drawings, merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present disclosure.

In particular, in various embodiments of the present invention, the term "from top to bottom" refers to the direction of the arrangement formed from the peeling layer 10 to the substrate 30 in fig. 3. The term "width" refers to the length of the sticker 100b formed along the X-axis direction. The "paper feed direction" refers to a direction in which the sticker label 100b is placed in the printer along the Y-axis direction.

Fig. 2 shows a specific embodiment of the present invention shown in fig. 3. Fig. 2 is a perspective view of a viewing angle of the self-adhesive label of the present invention. Fig. 3 is a cross-sectional view of the sticker label shown in fig. 2. The self-adhesive label is a self-adhesive label, and can be stuck to the surfaces of various objects only by peeling a peeling layer from a base material and slightly pressing, and can also be used for automatically sticking labels on a production line.

Referring to fig. 2 and 3, the self-adhesive label 100b includes a peeling layer 10, an adhesive layer 20, and a substrate 30 arranged from top to bottom. The peeling layer 10 and the adhesive layer 20 are adhered together, so that when the peeling layer 10 is peeled off from the substrate 30, the adhesive layer 20 and the peeling layer 10 are peeled off together, and the peeled off peeling layer 10 can be adhered to the surfaces of various objects according to the adhesive layer 20.

The release layer 10 and the adhesive layer 20 can be regarded as a whole, and the adhesive layer 20 can be applied to the lower side of the release layer 10 to adhere the release layer 10 to the surface of various objects.

Referring to fig. 3, the upper surface 301 of the substrate 30 is coated with the silicone oil coating 50, i.e., the side of the substrate 30 facing the adhesive layer 20. The silicone oil coating 50 is an environment-friendly silica gel product, and is applied to products such as anti-skid cloth, waterproof cloth, sealing cloth, high-temperature-resistant cloth, low-temperature-resistant cloth, insulating cloth, anti-corrosion cloth and the like. The silicone does not cause the peeling layer 10 to be adhered to the upper side and cannot be torn off, so that the silicone coating layer 50 is coated on the upper surface of the base material 30, so that the peeling layer 10 is more conveniently peeled off from the base material 30, and the peeling layer 10 is not adhered to the base material 30, so that the better adhering effect of the peeling layer 10 is achieved.

Referring to fig. 2, a base color is printed on the release layer 10 to divide the release layer 10 into two regions of different colors, a usable region (i.e., a label region 101b and a first disposal region 102 b) and a second disposal region 103b. Here, the second discarded region 103b is a discarded region, and thus the color may be printed in the second region or may not be printed in the second region. Preferably, no color is printed in the second region, and the original background color of the release layer 10 is directly formed, thereby facilitating a better distinction between the usable regions (i.e., label region 101b and first disposal region 102 b) and second disposal region 103b, thereby facilitating the positioning step when printing data, information, and patterns on the release layer 10.

Referring to fig. 2, the printed peeling layer 10 is die-cut in a predetermined size by a die-cutting process, and the die-cutting knife cuts the peeling layer 10 and cuts the adhesive layer 20. The preset size is smaller than or equal to the usable area (i.e., the label area 101b and the first discarding area 102 b) so as to utilize the usable area as much as possible and reduce waste of paper.

The release layer 10 is divided to form a label region 101b, and a disposal region 105b located on only one side of the label region 101b. The label area 101b is used to print desired data, information, and patterns.

Specifically, in order to facilitate the peeling layer 10 to drive the adhesive layer 20 to peel off from the substrate 30, the peeling layer 10 is divided by a die cutter, only one side of the peeling layer 10 is die-cut, the die cutter cuts the peeling layer 10 and cuts off the adhesive layer 20, so that the peeling layer 10 can be adhered to the surface of an object through the adhesive layer when peeled off from the substrate 30. The release layer 10 is divided into a label area 101b and a disposal area 105b. The label area 101b is actually used to print information, data, and patterns. The label area 101b and the disposal area 105b form a gap 104b when the cutting is divided, so that the side of the label area 101b close to the disposal area 105b is peeled away from the base material 30. At this time, the label region 101b is separated from the base material 30 by the label region 101 b'. Meanwhile, the disposal area 105b is a part of the release layer 10, and the disposal area 105b may be released in a direction away from the substrate 30. At this time, the disposal area 105b is separated from the substrate 30 by the disposal area 105 b'.

The discard area 105b includes a first discard area 102b and a second discard area 103b. The first discard area 102b is formed by die-cutting the usable area to a predetermined size. The preset size is smaller than the available area, so that the accurate control of the size in the die cutting process is reduced. At this time, a gap 104b is formed between the first discard area 102b and the label area 101b to facilitate peeling the label area from the substrate 30.

It is of course also possible that the preset size of the peeling layer 10 is the size of the usable area when the die cutting is performed, i.e. the first disposal area 102b does not exist, so as to reduce the waste of paper.

The die cutting process of the stripping layer 10 and the adhesive layer 20 by the die-cutting rule can be flat pressing and flat die cutting, manual arrangement or laser cutting is performed, a computer automatically bends a knife and arranges a knife to install the knife blade on a medium-density wood board, and finally, a die cutting plate with the arranged knife blade is installed on a knife seat of a die-cutting machine; the method can also be round-in-round die cutting, and the height of the blade is determined according to the thickness of the base material, so that the stability of the die cutting quality is controlled. The die cutting process may be flat-pressing die cutting as described above, or circular-pressing die cutting as described above, or may be other die cutting processes to cut the peeling layer 10 and cut the adhesive layer 20.

Referring to fig. 2, the self-adhesive label 100b is rectangular, and the label area 101b and the disposal area 105b (i.e. the first disposal area 102b and the second disposal area 103 b) are both rectangular. The disposal area 105b is formed to have a contour at the edge of one side of the label area 101b and the other three sides to coincide with the contour formed by the base material 30. When die cutting is carried out, only one side of the label area 101b needs to be positioned and die cut, so that the positioning steps are reduced, the die cutting is more convenient, in addition, only one side of the label area 101b is subjected to die cutting, the discarding area 105b is formed, and the waste of paper during the die cutting is also reduced.

After die cutting, the die-cut release layer 10 is printed, i.e., the label area 101b is printed with the necessary information, data, and pattern shapes. Since the discard area 105b is formed only on one side of the label area and the contour formed at the edge of the other three sides is aligned with the contour formed by the base material 30, when the sticker label 100b is set in a printer for printing, only one of the four corners of the sticker label 100b needs to be positioned, so that information, data, and a pattern shape are printed on the label area 101b without deviation. Therefore, the complicated steps of all-around positioning are reduced by positioning only one corner, and the labor consumption is reduced. It should be noted that the width of the self-adhesive label 100b can be customized according to the requirement, for example, it may be from 19cm × 19cm to 21cm × 21cm, and includes 19cm × 19cm and 21cm × 21cm, preferably 20cm × 20cm, so as to facilitate the application of the self-adhesive label in some scenarios (for example, the application of the hazardous waste packaging adhesive).

The discarding area 105b is located at the end of the paper feeding direction, and may be used to position only two corners of the self-adhesive label 100b far from the discarding area 105b, or may be used to position one of the corners (for example, the upper left corner), so that the self-adhesive label 100b is conveniently placed in the printer to be positioned, and thus, a better printing effect is achieved.

The printer may be a printer for placing a single sticker 100b, such as a portable printer, or a laser printer, as long as it is capable of placing and printing a single sticker 100 b.

Two corners of the label area 101b close to the discarding area 105b are set to be arc-shaped, and compared with a corner presenting a prism shape, on one hand, the arc-shaped corner facilitates a user to peel the label area 101b from the base material 30; on the other hand, if the self-adhesive label 100b disclosed by the utility model is applied to the manufacture of toy stickers, the corner state can be prevented from causing certain scratches to fingers, and the loss of economy and the like is avoided. Preferably, the four corners of the self-adhesive label 100b are rounded to better peel the label area 101b from the substrate 30 and to better protect the parts of fingers and the like easily scratched by paper.

The material of the release layer 10 may be selected as a film material. The film material is not easy to be damaged so as to prolong the service life of the self-adhesive label and reduce the probability of damage of the self-adhesive label in the using process. The materials for manufacturing the self-adhesive label 100b (i.e., the peeling layer 10, the adhesive layer 20, the silicone oil coating 40 and the substrate 30) can be selected from softer materials, so that the peeling layer 10 and the substrate 30 can be conveniently formed at two different angles, and the peeling layer 10 and the substrate 30 can be conveniently separated. The die cutting tool performs die cutting on the release layer 10 to facilitate separation of the release layer 10 from the substrate 30, and may also perform printing of information, data, and pattern shapes on the release layer 10 of the entire sticker label 100 b.

The sticker 100b is cut into individual ones, thereby packing the sticker 100b into a single individual. Namely, a plurality of self-adhesive labels 100b are packaged into a single-page type label, if the self-adhesive labels 100b are printed, the positioning generates deviation, and only one self-adhesive label 100b is consumed, so that the waste of the self-adhesive labels is reduced, and the waste of paper is effectively reduced by the single-page type label.

For the single-page type label, if the discarding area 100b exists on the other three sides of the self-adhesive label 100b, the requirement for the size required during printing of the label area 101b is relatively high, which easily causes the inaccurate positioning of the size of the discarding area 100 b. Then not the size required under the scene

The above list of details is only for the practical implementation of the present invention, and they are not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the technical spirit of the present invention should be included in the scope of the present invention.

Furthermore, it should be understood that although the present specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it is to be understood that all embodiments may be combined as appropriate by one of ordinary skill in the art to form other embodiments as will be apparent to those of skill in the art from the description herein.

Claims (9)

1. The adhesive label is characterized by comprising:

the stripping layer, the adhesive layer and the substrate are arranged from top to bottom in sequence;

the release layer being divided to form a label region and a disposal region located on only one side of the label region;

the disposal areas include a first disposal area and a second disposal area, and the label area forms a gap with the first disposal area.

2. The sticker label of claim 1,

the size of the label region ranges from 19cm × 19cm to 21cm × 21cm, and comprises 19cm × 19cm and 21cm × 21cm.

3. The self-adhesive label of claim 1,

and a silicone oil coating is arranged on one surface of the base material facing the viscose layer.

4. The self-adhesive label of claim 1,

the peeling layer is made of a film material.

5. The self-adhesive label of claim 1,

a gap is formed between the label area and the disposal area.

6. The sticker label of claim 5,

both corners of the label area adjacent to the first discard area are rounded.

7. The sticker label according to any one of claims 1 to 6,

the self-adhesive label is an independent label.

8. The sticker label of claim 7,

the label area is a pattern printing area.

9. The self-adhesive label of claim 8,

the label area is rectangular, and the contour formed at the edge of the label area where the discarding area is not formed is matched with the contour formed by the substrate.

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