TW202144169A - Manufacturing method and structure of laminated three-dimensional electroplating sticker for exhibiting the appearance that is rich in levels and enhancing aesthetics and valuable feeling of the sticker - Google Patents

Abstract

The invention provides a manufacturing method of laminated three-dimensional electroplating sticker, which includes sequentially and downwardly forming an electroplating layer, a back-adhesive layer, and a mold-release paper on the bottom surface of a transparent substrate to form a mold-pressing piece; defining a cutting area on the transparent substrate and using a mold to press the mold-pressing piece to form a three-dimensional structure in at least part of the cutting area, using a knife mold to punch the edge of the cutting area to form an adhesion unit, and removing the edge material and adhering a transfer material on the surface of the adhesion unit; wherein while applying the invention, users can hold the transfer material by one hand and peel off the mold-release paper to adhere the adhesion unit onto an object. Through the three-dimensional structure, the glossy surface of the electroplating layer generates refraction light to exhibit the appearance that is rich in levels and enhances the aesthetics and valuable feeling of the sticker.

Description

Manufacturing method and structure of laminated three-dimensional electroplating sticker

The invention relates to a manufacturing method and structure of a sticker, in particular to a manufacturing method and structure of a laminated three-dimensional electroplating sticker.

In order to improve the appearance of the existing stickers, there are electroplating stickers in which the electroplating layer is formed by electroplating the sticker, and the surface of the electroplating layer reflects light.

Although the aforementioned electroplating stickers can present a reflective visual effect with the electroplated layer, since the surface of the electroplating stickers is only a bright surface, the surface still lacks three-dimensional layers, making the appearance relatively flat, in terms of structure and visual effect. There is still room for improvement.

Since the existing electroplating stickers only have a bright surface, the lack of three-dimensional layers makes the appearance of the flat plate look uncharacteristic. Therefore, the present invention utilizes the bright characteristics of the electroplating layer to cooperate with the process of die pressing and knife film cutting to form a three-dimensional structure of refracting light and an edge of diffusing light on the surface and surrounding of the sticker, so that the sticker has a three-dimensional level and improves the sticker. of beauty and value.

In order to achieve above-mentioned creation purpose, the present invention provides a kind of manufacture method of laminated three-dimensional electroplating sticker, and its steps comprise:

Laminated sticker structure: an electroplating layer is electroplated on the bottom surface of a transparent substrate, and a self-adhesive layer and a release paper are sequentially combined on the bottom surface of the electroplating layer to form a molded part. The substrate defines a cutting area;

Molding to form a three-dimensional structure: placing the molded part into a mold, and using the mold to press out at least part of the molded part within the cutting area to form a three-dimensional structure;

Cutting and sticking unit: take the molded part out of the mold, and punch the edge of the cutting area with a knife film to form a sticking unit including a transparent substrate, an electroplating layer and a backing layer, and the sticking unit is adhered to the release paper ;

Trim removal: remove excess trim around the gluing unit; and

Attaching the transfer material: pasting a transfer material with a larger area than the pasting unit on the surface of the pasting unit.

In order to achieve the above-mentioned creative purpose, the present invention also provides a laminated three-dimensional electroplating sticker, comprising a transparent substrate, an electroplating layer formed on the bottom surface of the transparent substrate, an adhesive layer combined with the bottom surface of the electroplating layer, and an adhesive layer adhered to the bottom surface of the transparent substrate. The release paper on the bottom surface of the adhesive layer, and a transfer material, wherein: the transparent substrate, the electroplating layer and the adhesive layer form an adhesive unit, the adhesive unit is adhered to the release paper, and the area of the release paper is larger than the adhesive unit; at least part of the area of the transparent substrate, the electroplating layer, the adhesive layer and the release paper together form a concave-convex three-dimensional structure; the area of the transfer material is larger than that of the pasting unit and is pasted on the surface of the pasting unit .

When the laminated three-dimensional electroplating sticker of the present invention is used, after the user holds the transfer material to peel off the release paper, the sticking unit is pasted on the surface of the object with its adhesive layer, and after the sticking unit is firmly adhered, the transfer material is torn off And a gold oil layer with protective and bright effects is formed on the surface of the pasting unit to complete the process of transferring the electroplating sticker.

The effect of the present invention is that, since the release paper forms a part of the three-dimensional structure together, the part of the release paper at the corresponding three-dimensional structure will form wrinkles, so that the knife film is punched When cutting to the top of the release paper, the edge of the formed sticking unit is relatively blunt, forming a light diffusing dazzling effect on the edge of the electroplating layer; in addition, through the formation of the three-dimensional structure, the electroplating layers that together form the three-dimensional structure can be formed. The three-dimensional structure, combined with the bright reflective properties of the electroplating layer itself, enables the electroplating layer to refract light from multiple angles at the three-dimensional structure, creating a three-dimensional layer visually and enhancing the beauty and value of the sticker.

10: Transparent substrate

11: Electroplating layer

12: Adhesive layer

13: Release paper

14: Repost material

15: ink layer

20 mold: tool

21: Upper die

22: Lower die

30: Three-dimensional structure

31: Raised

40: knife film

50: Objects

51: Gold oil layer

A: Molded parts

B: crop area

B1: Flat part

C: Paste unit

S01-S05: Steps

FIG. 1 is a flow chart of the method steps of the first preferred embodiment of the present invention.

FIG. 2 is a schematic cross-sectional view of the molded part according to the first preferred embodiment of the present invention.

FIG. 3 is a schematic top view of the molded part according to the first preferred embodiment of the present invention.

FIG. 4 is a schematic view of the operation of the compression molding according to the first preferred embodiment of the present invention.

FIG. 5 is a schematic top view of the molded part after molding according to the first preferred embodiment of the present invention.

FIG. 6 is a schematic diagram of the manufacturing process of the first preferred embodiment of the present invention after molding.

FIG. 7 is a schematic diagram of an action flow implemented by the first preferred embodiment of the present invention.

FIG. 8 is a schematic top view of a molded part after molding according to the second preferred embodiment of the present invention.

FIG. 9 is a schematic top view of a molded part according to a third preferred embodiment of the present invention.

10 is a schematic cross-sectional view of the electroplating sticker according to the third preferred embodiment of the present invention.

In order to understand the technical features and practical effects of the present invention in detail, and to implement it according to the contents of the description, the preferred embodiments shown in the drawings are further described in detail as follows.

Please refer to FIG. 1 to FIG. 7 , which are the first preferred embodiment of the manufacturing method of the laminated three-dimensional electroplating sticker of the present invention. As shown in the flowchart of the method steps shown in FIG. 1 , the steps include:

(S01) Laminated sticker structure: please refer to FIG. 2 and FIG. 3 , on a transparent substrate 10, as in this preferred embodiment, the transparent substrate 10 is a PET (polyethylene terephthalate) transparent film In addition to the PET film, other transparent or translucent plastic films can also be selected as the transparent substrate 10, and an electroplating layer 11 is formed on the bottom surface of the transparent substrate 10 by means of vacuum evaporation, and then the electroplating layer is formed. The bottom surface of 11 is sequentially combined with a self-adhesive layer 12 and a release paper 13. In this preferred embodiment, the self-adhesive layer 12 and the release paper 13 are formed by pasting the structure of double-sided tape; The transparent substrate 10 , the electroplating layer 11 , the adhesive layer 12 and the release paper 13 form a molded part A, and a cutting area B is defined on the transparent substrate 10 , and the cutting area B is within the range of the edge contour , is the range that can form a sticker pattern after cutting in the subsequent steps.

(S02) molding to form a three-dimensional structure: please refer to FIG. 4 and FIG. 5 , put the molding A into a mold 20, and the mold 20 includes the stamping die of the upper mold 21 and the lower mold 22, corresponding to the molding part A. Cutting area B, a matching concave-convex shape is formed between the upper die 21 and the lower die 22, the concave-convex shape can be a single or a plurality of concave-convex shapes, and the range covered by the concave-convex shape can be designed to cover all cutting areas B, even covering the entire molded part A or only part of the cut area B. For example, in this preferred embodiment, a three-dimensional structure 30 is formed by extruding the mold 20 in the entire range of the cutting area B of the molded part A, and the three-dimensional structure 30 includes a plurality of spaced protrusions 31 .

(S03) Cutting and pasting unit: as shown in FIG. 6 , the stamping part A that is punched to form the three-dimensional structure 30 is taken out from the mold 20, and the edge of the cutting area B is punched with a knife film 40 to form a transparent The sticking unit C of the substrate 10 , the electroplating layer 11 and the adhesive layer 12 , and the sticking unit C is stuck on the release paper 13 . Since the release paper 13 forms a part of the three-dimensional structure 30 together, the part of the release paper 13 corresponding to the three-dimensional structure 30 will form wrinkles after being punched by the die 20, which affects the sharpness of the knife film 40 when cutting degree, so that the edge of the sticking unit C punched out by the knife film 40 The edge is relatively blunt, so that the edge of the electroplating layer 11 produces a dazzling effect of diffused light.

(S04) Removing edge material: remove the excess edge material around the pasting unit C, and during the process of removing the edge material, the adhesive layer 12 located outside the pasting unit C is also removed together with the edge material.

(S05) Attaching a transfer material: paste a transfer material 14 on the surface of the pasting unit C, the transfer material 14 selected in this preferred embodiment is a transparent adhesive film and the area is larger than that of the pasting unit C, the The transfer material 14 is covered and pasted on the surface of the pasting unit C and the surface of the release paper 13 . Preferably, the adhesive force of the transfer material 14 to the adhesive unit C is smaller than the adhesive force of the adhesive backing layer 12 .

The laminated three-dimensional electroplating sticker completed by the aforementioned manufacturing method of the present invention includes a transparent substrate 10, an electroplating layer 11 formed on the bottom surface of the transparent substrate 10, an adhesive layer 12 combined with the bottom surface of the electroplating layer 11, A release paper 13 adhered to the bottom surface of the adhesive layer 12, and a transfer material 14, wherein: the transparent substrate 10, the electroplating layer 11 and the adhesive layer 12 form an adhesive unit C, and the adhesive unit C is adhered to the The release paper 13 and the area of the release paper 13 is larger than the area of the sticking unit C; the transparent substrate 10 , the electroplating layer 11 , the adhesive layer 12 and the release paper 13 form a concave-convex volt The three-dimensional structure 30 includes a plurality of spaced protrusions 31 ; the area of the transfer material 14 is larger than that of the sticking unit C and sticks to the sticking unit C and the surface of the release paper 13 .

Please refer to FIG. 6 and FIG. 7 , when the present invention is in use, the transfer material 14 is used to provide a force-applying point for the user to hold. After the release paper 13 is torn off from the bottom surface of the sticking unit C, The sticking unit C can be pasted and fixed on the surface of an object 50 through the adhesive layer 12 , and then the adhesive force of the sticking material 14 to the sticking unit C is smaller than that of the adhesive layer 12 . Therefore, the transfer material 14 can be easily peeled off from the surface of the pasting unit C. After the transfer material 14 is peeled off, a gold oil layer 51 can be sprayed on the surface of the pasting unit C by a spraying tool, thus completing the operation of transferring the laminated three-dimensional electroplating sticker of the present invention to the object 50 .

The aforementioned laminated three-dimensional electroplating sticker of the present invention, due to the transparent substrate 10 of the sticking unit C, the electroplating layer 11 and the adhesive layer 12 (when the adhesive layer 12 is adhered to the object 50, due to the fluidity of the adhesive) deformation, the shape features corresponding to the three-dimensional structure 30 will disappear) together to form the three-dimensional structure 30, through the shape of the plurality of protrusions 31 and the bright reflective properties of the electroplating layer 11, the position of each protrusion 31 can be refracted at multiple angles , so that the sticking unit C visually presents a three-dimensional and layered appearance, which can effectively improve the beauty and sense of value of the sticker.

In addition, since the range of the three-dimensional structure 30 is not limited to cover the entire cutting area B, the shapes of the protrusions 31 do not have to be the same and the number can be increased or decreased. A part of the three-dimensional structure 30 is formed, or a part with different shapes of protrusions 31 and a flat part is formed in the same cutting area B, and the light diffused by the dull edge around the electroplating layer 11 is matched in the above-mentioned manner to increase the overall appearance of the present invention. Diversity and variety of appearance.

Please refer to FIG. 8 , which is a second preferred embodiment of the method for manufacturing a laminated three-dimensional electroplating sticker according to the present invention. The steps of the method are substantially the same as those of the first preferred embodiment, and the difference is only in the step of forming a three-dimensional structure by molding. In the above, the mold 20 only presses out a part of the cutting area B to form the three-dimensional structure 30 , and forms a planar flat portion B1 where the three-dimensional structure 30 is not formed in the cutting area B . In this way, the laminated three-dimensional electroplating sticker completed by the manufacturing method of the second preferred embodiment is formed on the transparent substrate 10 , the electroplating layer 11 , the adhesive layer 12 and the part of the release paper 13 with the Concave and convex three-dimensional structure 30 .

Please refer to FIG. 9 and FIG. 10 , it is the manufacture of the laminated three-dimensional electroplating sticker of the present invention In the third preferred embodiment of the method, the steps of the method are substantially the same as those of the first preferred embodiment, the difference is only that in the step of the laminated sticker structure, an ink layer 15 is formed by printing on the surface of the transparent substrate 10, The ink layer 15 is located within the cutting area B, thereby forming patterns of different colors. The area of the ink layer 15 covers at least a part of the cutting area B. For example, in the preferred embodiment, the ink layer 15 is formed on the periphery of the cutting area B. In this way, in the step of cutting the pasting unit, the formed pasting unit C further includes the ink layer 15 on the surface.

In other embodiments, the ink layer 15 can also be formed in the entire cutting area B. When the area formed by the ink layer 15 overlaps with the area formed by the three-dimensional structure 30, the ink layer 15 will form part of the three-dimensional structure 30 together. The difference between the laminated three-dimensional electroplating sticker completed by the manufacturing method of the third preferred embodiment and the first preferred embodiment is that an ink layer 15 is further formed on the surface of the transparent substrate 10 . The area covers at least part of the surface of the transparent substrate 10 , for example, the third preferred embodiment covers the periphery of the surface of the transparent substrate 10 .

The above descriptions are only preferred embodiments of the present invention, and are not intended to limit the scope of rights claimed by the present invention. All other equivalent changes or modifications that do not depart from the spirit disclosed in the present invention shall be included in the present invention. within the scope of the patent application.

S01-S05: Steps

Claims (8)

A manufacturing method of a laminated three-dimensional electroplating sticker, the steps of which include: Laminated sticker structure: electroplating an electroplating layer on the bottom surface of a transparent substrate, and sequentially combining a self-adhesive layer and a release paper on the bottom surface of the electroplating layer to form a molded part, and defining a cutting area on the transparent substrate ; Molding to form a three-dimensional structure: placing the molded part into a mold, and using the mold to press out at least part of the molded part within the cutting area to form a three-dimensional structure; Cutting and sticking unit: take the molded part out of the mold, and punch the edge of the cutting area with a knife film to form a sticking unit including a transparent substrate, an electroplating layer and a backing layer, and the sticking unit is adhered to the release paper ; Trim removal: remove excess trim around the gluing unit; and Attaching the transfer material: pasting a transfer material with a larger area than the pasting unit on the surface of the pasting unit. The manufacturing method of the laminated three-dimensional electroplating sticker as claimed in claim 1, wherein in the step of forming a three-dimensional structure by molding, the three-dimensional structure is formed by extrusion in the entire range of the cutting area, and the three-dimensional structure includes a plurality of spaced protrusions rise. The method for manufacturing a laminated three-dimensional electroplating sticker according to claim 1, wherein in the step of forming a three-dimensional structure by molding, the three-dimensional structure is formed by extruding a part of the range within the cutting area, and the three-dimensional structure includes a plurality of intervals the bulge. The method for manufacturing a laminated three-dimensional electroplating sticker according to any one of claims 1 to 3, wherein in the step of constructing the laminated sticker, an ink layer is formed by printing on the surface of the transparent substrate, and the ink layer is located on the cutout. within the cut area, and the area covers at least part of the the cutting area; in the step of cutting and pasting the unit, the formed pasting unit further includes the ink layer on the surface. A laminated three-dimensional electroplating sticker, comprising a transparent base material, an electroplating layer formed on the bottom surface of the transparent base material, a self-adhesive layer combined with the bottom surface of the electroplating layer, a release paper adhered to the bottom surface of the self-adhesive layer, and a Reposted material, which: The transparent substrate, the electroplating layer and the adhesive layer form an adhesive unit, the adhesive unit is adhered to the release paper and the area of the release paper is larger than that of the adhesive unit; the transparent substrate, the electroplating layer, the adhesive adhesive The layer and at least a part of the area of the release paper together form a three-dimensional structure of concave-convex undulations; the area of the transfer material is larger than that of the sticking unit and sticks to the surface of the sticking unit. The laminated three-dimensional electroplating sticker according to claim 5, wherein the three-dimensional structure is formed on the entire range of the transparent substrate, the electroplating layer, the adhesive layer and the release paper, and the three-dimensional structure includes a plurality of spaced protrusions . The laminated three-dimensional electroplating sticker according to claim 5, wherein the three-dimensional structure is jointly formed on a part of the transparent substrate, the electroplating layer, the adhesive layer and the release paper, and the three-dimensional structure includes a plurality of spaced protrusions . The laminated three-dimensional electroplating sticker according to any one of claims 5 to 7, wherein an ink layer is formed on the surface of the transparent substrate, and the area of the ink layer covers at least part of the surface of the transparent substrate, and the sticking unit The ink layer is further included on the surface.

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