CN215450655U - Label is pasted in mould that possesses variable two-dimensional code - Google Patents

Abstract

The utility model discloses an in-mold label with a variable two-dimensional code, which comprises an upper transparent protective layer, an upper printing layer, an upper ink layer, a lower printing layer and a lower transparent protective layer which are sequentially adhered to one another from top to bottom; a two-dimensional code layer is arranged between the upper ink layer and the lower ink layer, an upper two-dimensional code domain is arranged on the upper end face of the two-dimensional code layer, a lower two-dimensional code domain is arranged on the lower end face of the two-dimensional code layer, and the upper two-dimensional code domain and the lower two-dimensional code domain are mutually separated; the upper ink layer is provided with an upper window for exposing the upper two-dimensional code domain, and the lower ink layer is provided with a lower window for exposing the lower two-dimensional code domain. The utility model has the following advantages and effects: through the show of multizone, effectively avoid changing the holistic number of times of labelling in the mould to reach reduce cost, resources are saved's purpose.

Description

Label is pasted in mould that possesses variable two-dimensional code

Technical Field

The utility model relates to the field of plastic blow molding products, in particular to an in-mold labeling device with a variable two-dimensional code.

Background

The label technology in injection mould is that special pattern is printed on OPP material and then a layer of PP film is compounded, that is, before blow moulding and injection moulding, the printed mould is stuck into the mould for blow moulding or injection moulding, and then the mould is stuck on the surface of bottle body or injection moulding and fused into a whole under the action of high temp. and high pressure in the mould, so that a finished packaging container is formed. The biggest characteristic of the container using the in-mold labeling is that the label and the bottle body are on the same surface, and the color pictures and texts of the label are sensed as if the label is directly printed on the surface of the bottle body.

The label in the mould in the prior art is generally only printed with one two-dimensional code, and when the two-dimensional code needs to be replaced, the label in the mould needs to be replaced together, so that the use cost is high, and the resource waste can be caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an in-mold labeling device with a variable two-dimensional code, which solves the problems in the background art.

The technical purpose of the utility model is realized by the following technical scheme: an in-mold label with a variable two-dimensional code comprises an upper transparent protective layer, an upper printing layer, an upper ink layer, a lower printing layer and a lower transparent protective layer which are sequentially adhered to one another from top to bottom; a two-dimensional code layer is arranged between the upper ink layer and the lower ink layer, an upper two-dimensional code domain is arranged on the upper end surface of the two-dimensional code layer, a lower two-dimensional code domain is arranged on the lower end surface of the two-dimensional code layer, and the upper two-dimensional code domain and the lower two-dimensional code domain are mutually separated; and the upper ink layer is provided with an upper window for exposing the upper two-dimensional code domain, and the lower ink layer is provided with a lower window for exposing the lower two-dimensional code domain.

Further setting the following steps: the upper two-dimensional code domain comprises at least three upper two-dimensional code blocks, each upper two-dimensional code block comprises two sections of upper oblique line corners, and the distance between the upper ends of the two sections of upper oblique line corners is larger than that between the lower ends of the two sections of upper oblique line corners; an upper inner cavity is formed between the two sections of the upper oblique line corners, an upper display area is arranged in the upper inner cavity, and the section of the upper display area is in a circular truncated cone shape; the lower-end two-dimensional code domain comprises at least four lower-end two-dimensional code blocks, each lower-end two-dimensional code block comprises two sections of lower oblique line corners, and the distance between the upper ends of the two sections of lower oblique line corners is smaller than that between the lower ends of the two sections of lower oblique line corners; and a lower inner cavity is formed between the two sections of lower oblique line corners, a lower display area is arranged in the lower inner cavity, and the section of the lower display area is in a circular truncated cone shape.

Further setting the following steps: and the upper-end two-dimensional code blocks and the lower-end two-dimensional code blocks are arranged in a staggered mode.

Further setting the following steps: the cross-sectional area of each upper-end two-dimensional code block is larger than that of each lower-end two-dimensional code block.

The utility model has the beneficial effects that:

1. the two-dimensional code layer is arranged to display the two-dimensional code, the two-dimensional code layer is divided into an upper two-dimensional code domain at the upper end and a lower two-dimensional code domain at the lower end to display two sides, and wider selection width is provided for a user; and the upper two-dimensional code domain and the lower two-dimensional code domain are mutually separated, so that the dislocation phenomenon of the two-dimensional code after light transmission is effectively avoided, and the independence is enhanced in a way of interference removal.

2. In the utility model, more closely, the upper two-dimensional code domain comprises at least three upper two-dimensional code blocks, and the lower two-dimensional code domain comprises at least four lower two-dimensional code blocks, so that the preset number and space of the two-dimensional codes are effectively expanded, a plurality of standby two-dimensional codes can be set during production, the conditions that the original two-dimensional codes cannot be used and the like are effectively prevented, the labeling in the whole mold is not required to be replaced, the cost is effectively reduced, and the expenditure of resources is saved.

3. The specific structures of the lower two-dimensional code blocks and the upper two-dimensional code blocks are limited based on practical application, so that the visual definition of two-dimensional code display is effectively improved, and the two-dimensional code display is matched with the upper printing layer and the lower printing layer respectively.

4. In the utility model, the upper printing layer and the lower printing layer can be films with pattern display, which can improve the overall interest and further improve the purchase desire of consumers.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment;

fig. 2 is an enlarged view of a portion a in fig. 1.

In the figure: 11. a transparent protective layer is arranged; 12. printing layer is arranged; 13. applying an ink layer; 131. an upper window; 14. a lower ink layer; 141. a lower window; 15. a lower printing layer; 16. a lower transparent protective layer; 17. a two-dimensional code layer; 2. an upper two-dimensional code block; 21. oblique line corners are arranged; 22. an upper inner cavity; 23. an upper display area; 3. a lower two-dimensional code block; 31. a lower diagonal corner; 32. a lower inner cavity; 33. and a lower display area.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 and 2, the in-mold labeling with the variable two-dimensional code comprises an upper transparent protective layer 11, an upper printing layer 12, an upper ink layer 13, a lower ink layer 14, a lower printing layer 15 and a lower transparent protective layer 16 which are sequentially adhered to each other from top to bottom; a two-dimensional code layer 17 is arranged between the upper ink layer 13 and the lower ink layer 14, an upper two-dimensional code domain is arranged on the upper end face of the two-dimensional code layer 17, a lower two-dimensional code domain is arranged on the lower end face of the two-dimensional code layer, and the upper two-dimensional code domain and the lower two-dimensional code domain are mutually separated; the upper ink layer 13 is provided with an upper window 131 for exposing the upper two-dimensional code domain, and the lower ink layer 14 is provided with a lower window 141 for exposing the lower two-dimensional code domain.

The upper two-dimensional code domain comprises at least three upper two-dimensional code blocks 2, each upper two-dimensional code block 2 comprises two sections of upper oblique line corners 21, and the distance between the upper ends of the two sections of upper oblique line corners 21 is larger than the distance between the lower ends of the two sections of upper oblique line corners; an upper inner cavity 22 is formed between the two sections of upper oblique line corners 21, an upper display area 23 is arranged in the upper inner cavity 22, and the section of the upper display area 23 is in a circular truncated cone shape;

the lower-end two-dimensional code domain comprises at least four lower-end two-dimensional code blocks 3, each lower-end two-dimensional code block 3 comprises two sections of lower oblique line corners 31, and the distance between the upper ends of the two sections of lower oblique line corners 31 is smaller than that between the lower ends of the two sections of lower oblique line corners; and a lower inner cavity 32 is formed between the two sections of lower oblique line corners 31, a lower display area 33 is arranged in the lower inner cavity 32, and the section of the lower display area 33 is in a circular truncated cone shape. Different or identical two-dimensional codes are attached to the upper display areas 23 and/or the lower display areas 33 for external visual viewing.

Wherein, the upper two-dimensional code block 2 and the lower two-dimensional code block 3 are arranged in a staggered manner.

The cross-sectional area of the upper two-dimensional code block 2 is larger than that of each lower two-dimensional code block 3.

The upper printing layer 12 and the lower printing layer 15 may be films with patterns, specifically, patterns may be hollowed out on the films.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (4)

1. An in-mold labeling with a variable two-dimensional code, characterized in that: comprises an upper transparent protective layer (11), an upper printing layer (12), an upper ink layer (13), a lower ink layer (14), a lower printing layer (15) and a lower transparent protective layer (16) which are sequentially adhered to each other from top to bottom; a two-dimensional code layer (17) is arranged between the upper ink layer (13) and the lower ink layer (14), an upper two-dimensional code domain is arranged on the upper end face of the two-dimensional code layer (17), a lower two-dimensional code domain is arranged on the lower end face of the two-dimensional code layer, and the upper two-dimensional code domain and the lower two-dimensional code domain are mutually separated; an upper window (131) for exposing the upper two-dimensional code domain is formed in the upper ink layer (13), and a lower window (141) for exposing the lower two-dimensional code domain is formed in the lower ink layer (14).

2. The in-mold labeling with the variable two-dimensional code according to claim 1, wherein: the upper-end two-dimensional code domain comprises at least three upper-end two-dimensional code blocks (2), each upper-end two-dimensional code block (2) comprises two sections of upper oblique line corners (21), and the distance between the upper ends of the two sections of upper oblique line corners (21) is larger than that between the lower ends of the two sections of upper oblique line corners; an upper inner cavity (22) is formed between the two sections of the upper oblique line corners (21), an upper display area (23) is arranged in the upper inner cavity (22), and the section of the upper display area (23) is in a circular truncated cone shape; the lower-end two-dimensional code domain comprises at least four lower-end two-dimensional code blocks (3), each lower-end two-dimensional code block (3) comprises two sections of lower oblique line corners (31), and the distance between the upper ends of the two sections of lower oblique line corners (31) is smaller than that between the lower ends of the two sections of lower oblique line corners; and a lower inner cavity (32) is formed between the two sections of lower oblique line corners (31), a lower display area (33) is arranged in the lower inner cavity (32), and the section of the lower display area (33) is in a circular truncated cone shape.

3. The in-mold labeling with the variable two-dimensional code according to claim 2, wherein: the upper two-dimensional code blocks (2) and the lower two-dimensional code blocks (3) are arranged in a staggered mode.

4. The in-mold labeling with the variable two-dimensional code according to claim 2, wherein: the cross-sectional area of each upper-end two-dimensional code block (2) is larger than that of each lower-end two-dimensional code block (3).

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