CN215164173U - Motion safety line water transfer paper and product with motion safety line - Google Patents

Abstract

The utility model discloses a motion safety line water transfer paper and goods that have motion safety line, include water transfer carrier, shaping substrate, leave the type layer and leave the type protection film. The molding base material is disposed on the water transfer printing carrier. One side of the molding base material is provided with a spherical reflective bead, and the other side of the molding base material is provided with a pattern groove opposite to the reflective bead. The reflective beads face the water transfer carrier. The release layer is arranged on the other side of the molding substrate. The release protective film is arranged on the release layer. The utility model discloses a motion safety line water transfer printing paper can be so that the sintering of motion safety line is at products such as ceramic, glassware to can not the perk, drop, increased the range of application of motion safety line.

Description

Motion safety line water transfer paper and product with motion safety line

Technical Field

The utility model relates to a motion safety line application technical field especially relates to a motion safety line water transfer paper and goods that have a motion safety line.

Background

The motion safety line is also called dynamic safety line, is mainly applied to paper money at present, and is an anti-counterfeiting product based on a micro-optical structure and used for the paper money. The patterns on the motion safety line present dynamic patterns which continuously move and change under different visual angle angles through the holographic reflection structure, so that the patterns have holographic and floating dynamic visual effects and have the anti-counterfeiting effect of paper money.

When the motion safety line is specifically applied to paper money, the holographic reflection structure on the motion safety line faces upwards, the pattern is located below the holographic reflection structure, and a layer of PET protective film is covered on the surface of the holographic reflection structure to serve as a carrier, so that the effects of bearing and protecting are achieved. However, the application range of the motion safety line is small at present, and the motion safety line is difficult to be applied to other products.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a motion safety line water transfer paper and goods that have motion safety line can use on other products, and the range of application is big.

The utility model discloses a motion safety line water transfer paper, include water transfer carrier, shaping substrate, leave the type layer and leave the type protection film. The molding base material is disposed on the water transfer printing carrier. One side of the molding base material is provided with a spherical reflective bead, and the other side of the molding base material is provided with a pattern groove opposite to the reflective bead. The reflective beads face the water transfer carrier. The release layer is arranged on the other side of the molding substrate. The release protective film is arranged on the release layer.

Optionally, a base oil layer is coated on one side of the molding substrate where the light-reflecting beads are located.

Optionally, a water-soluble glue is arranged on the water transfer printing carrier, and the molding base material is adhered to the water transfer printing carrier through the water-soluble glue.

Optionally, the molding substrate is UV glue.

Optionally, the release layer is UV glue with a release effect.

Optionally, the water transfer printing carrier is a small film base paper.

Optionally, the water-soluble glue is a water-soluble starch glue.

The utility model also discloses a goods with motion safety line, including the main part

Bottom oil layer, shaping substrate and release layer. The bottom oil layer is attached to the body. The molding base material is arranged on the bottom oil layer to be attached to the main body, and the molding base material reflective beads face the main body. The release layer is arranged on the other side of the molding substrate.

Optionally, a surface oil layer is arranged on the release layer.

Optionally, the molding substrate is UV glue, and the release layer is UV glue with a release effect.

The utility model discloses a motion safety line water transfer printing paper can be so that the sintering of motion safety line is at products such as ceramic, glassware to can not the perk, drop, increased the range of application of motion safety line.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive faculty. In the drawings:

FIG. 1 is a schematic view of a motion safety line water transfer paper according to an embodiment of the present invention;

FIG. 2 is a schematic view of an article of manufacture having a motion security thread in accordance with an embodiment of the present invention;

fig. 3 is a process flow chart of the embodiment of the present invention for manufacturing and applying the motion safety line water transfer paper.

Wherein, 1, water transfer printing carrier; 2. forming a substrate; 21. a reflective bead; 22. a pattern groove; 3. a release layer; 4. a release protective film; 5. a main body; 6. a bottom oil layer; 7. a top oil layer; 8. and (5) molding.

Detailed Description

It is to be understood that the terminology, the specific structural and functional details disclosed herein are for the purpose of describing particular embodiments only, and are representative, but that the present invention may be embodied in many alternate forms and should not be construed as limited to only the embodiments set forth herein.

The invention will be described in detail below with reference to the drawings and alternative embodiments.

As shown in fig. 1, as an embodiment of the present invention, a motion safety line water transfer paper is disclosed, which comprises a water transfer carrier 1, a molding substrate 2, a release layer 3 and a release protection film 4. The molded substrate 2 is disposed on the water transfer carrier 1. A spherical reflective bead 21 is formed on one side of the molding substrate 2, and a pattern groove 22 opposite to the reflective bead is formed on the other side. The reflective beads 21 face the water transfer carrier 1. The release layer 3 is provided on the other side of the molding base material 2. The release protection film 4 is arranged on the release layer 3.

The conventional motion safety line has the influence on the application because a layer of PET protective film is covered on the holographic reflection structure to serve as a carrier. For example, such motion safety strands are difficult to sinter at high temperatures on ceramic, glass, and the like products. Because the holographic reflection structure of the motion safety line and the PET protective film have different tensions when being heated at high temperature, the motion safety line can be tilted after being heated, and is difficult to be sintered on products such as ceramic products, glass products and the like at high temperature. Thus, the application range of the motion safety line is very narrow.

The utility model discloses motion safety line water transfer paper of preparation method preparation forms anti-light ball 21 and pattern recess 22 back on forming substrate 2, with one side thermoprint of 2 anti-light ball 21 of forming substrate on water transfer printing carrier 1, 2 holographic reflective structure of forming substrate towards water transfer printing carrier 1, has guaranteed the holographic and showy dynamic visual effect of motion safety line.

When in use, the forming substrate 2 is separated from the water transfer printing carrier 1 in water, the protective film 4 is removed, and the forming substrate is attached to products such as ceramic products, glass products and the like and sintered at high temperature, so that the forming substrate 2 is sintered on the surfaces of the ceramic products and the glass products. The utility model discloses a motion safety line water transfer printing paper can be so that the sintering of motion safety line is at products such as ceramic, glassware to can not the perk, drop, increased the range of application of motion safety line.

It should be noted that, under the reflection action of the reflective beads 21 of the forming substrate 2, the pattern formed by the pattern grooves 22 presents a dynamic pattern which continuously moves and changes at different viewing angles, and has holographic and floating dynamic visual effects.

It is further noted that the conventional motion security thread holographic reflective structure is right side up, with the pattern underneath the holographic reflective structure. However, since the surface of the water transfer paper needs to be coated with a varnish during the production thereof, the molded substrate 2 is protected during the high-temperature sintering. However, the surface oil can fill up the holographic reflection structure, lose the holographic reflection characteristic and lose the holographic and floating dynamic visual effects. Therefore, the utility model discloses motion safety line water transfer paper, with one side thermoprint of 2 reflection of light pearls 21 of shaping substrate at water transfer printing carrier 1, pattern recess 22 is located the opposite side, promptly the utility model discloses a motion safety line water transfer paper, its reflection of light pearl 21 sets up down, and the pattern recess is located on the reflection of light pearl 21. Thus, the reflective beads 21 are not filled and the holographic and floating dynamic visual effects of the motion safety line can be maintained.

Specifically, before sintering, as shown in fig. 3(g), the release protective film 4 is removed, and a surface oil is coated on the surface of the release layer 3, so that the molded substrate 2 and the pattern effect thereof can be protected.

And a bottom oil layer is coated on one side of the molding base material where the reflective beads are positioned. The base oil can be metal base oil, thermoprinting base oil and the like. The bottom oil layer 6 can enable the forming base material 2 to be closely attached to products such as ceramic products, glass products and the like, and subsequent sintering is facilitated.

The water transfer printing carrier is provided with water-soluble glue, and the molding base material is adhered to the water transfer printing carrier through the water-soluble glue. When the method is applied specifically, the motion safety line water transfer paper is soaked in water. After meeting water, the water-soluble glue is dissolved, the formed base material 2 is separated from the small membrane base paper, is completely separated from the constraint of the carrier and is attached to products such as ceramic products, glass products and the like for sintering. The release protective film 4 is also removed before sintering.

Specifically, the water transfer printing carrier is small membrane base paper. During specific manufacturing, water-soluble glue can be coated on the small film base paper, then a base oil layer 6 is coated on the water-soluble glue, and the forming base material 2 is thermoprinted on the base oil layer 6. The water-soluble glue is water-soluble starch glue, and is environment-friendly and low in cost.

The forming substrate is UV glue. The release layer is UV glue with a release effect. The UV glue is convenient to cure and dry. After curing, the release layer 3 and the molding base material 2 are connected into a whole. The forming substrate and the release layer can be cured through ultraviolet irradiation, so that the forming substrate and the release layer are connected into a whole.

Conveniently understand, the utility model discloses a concrete application process of motion safety line water transfer printing does: when the forming base material is used, the motion safety line water transfer printing paper is placed in water, the water-soluble starch glue is dissolved, the forming base material 2 is separated from the small membrane base paper in the water, and one side, where the light-reflecting beads are located, of the forming base material is attached to products such as ceramic products and glass products and is sintered at high temperature, so that the forming base material 2 is sintered on the surfaces of the ceramic products and the glass products. The utility model discloses a motion safety line water transfer printing paper can be so that the sintering of motion safety line is at products such as ceramic, glassware to can not the perk, drop, increased the range of application of motion safety line.

As shown in fig. 2, as another embodiment of the present invention, an article with a motion safety line is disclosed, which comprises a main body, a bottom oil layer, a molding substrate and a release layer. The bottom oil layer is attached to the main body; the molding base material is arranged on the bottom oil layer to be attached to the main body, and the molding base material reflective beads face the main body; the release layer is arranged on the other side of the molding substrate.

The article having the motion security thread in this embodiment may be a ceramic article or a glass article. The motion safety line is sintered on products such as ceramic products or glass products and the like through the motion safety line water transfer paper, so that the products have holographic patterns and floating dynamic visual effects.

Specifically, as shown in fig. 2, a top oil layer is disposed on the release layer. The surface oil has high temperature resistance and corrosion resistance, and can be UV gold stamping surface oil, LED gold stamping surface oil, UV/LED gold stamping surface oil or solvent type gold stamping surface oil and the like.

Specifically, the molding substrate is UV glue, and the release layer is UV glue with a release effect.

For convenient understanding the utility model discloses a motion safety line water transfer paper, as the utility model discloses an another embodiment discloses a method for making motion safety line water transfer paper, include:

step A: providing a molding substrate;

and B: stamping a spherical reflective bead on one side of the molding base material, and stamping a pattern groove opposite to the reflective bead on the other side;

and C: and thermoprinting one side of the formed substrate material reflective bead on a water transfer printing carrier to obtain the motion safety line water transfer printing paper.

According to the motion safety line water transfer printing paper manufactured by the manufacturing method, after the reflective beads 21 and the pattern grooves 22 are formed on the forming base material 2, one side of the reflective beads 21 of the forming base material 2 is hot stamped on a water transfer printing carrier, and a PET protective film is not needed to be used as a carrier. When in use, the water transfer printing carrier 1 can be attached to products such as ceramic products, glass products and the like for high-temperature sintering after being separated from the forming base material 2 in water, so that the forming base material 2 is sintered on the surfaces of the ceramic products and the glass products. The motion safety line water transfer paper manufactured by the manufacturing method of the embodiment can enable the motion safety line to be sintered on products such as ceramic products and glass products, and the motion safety line cannot tilt and fall off, so that the application range of the motion safety line is widened.

It should be noted that, under the reflection action of the reflective beads 21 of the forming substrate 2, the pattern formed by the pattern grooves 22 presents a dynamic pattern which continuously moves and changes at different viewing angles, and has holographic and floating dynamic visual effects.

It is further noted that the conventional motion security thread holographic reflective structure is right side up, with the pattern underneath the holographic reflective structure. However, since the surface of the water transfer paper needs to be coated with a varnish during the production thereof, the molded substrate 2 is protected during the high-temperature sintering. However, the surface oil can fill up the holographic reflection structure, lose the holographic reflection characteristic and lose the holographic and floating dynamic visual effects. Therefore, in the method for manufacturing the motion safety line water transfer paper of the embodiment, one side of the reflective bead 21 of the molding substrate 2 is hot stamped on the water transfer carrier 1, and the pattern groove 22 is located at the opposite side, that is, the reflective bead 21 of the motion safety line water transfer paper manufactured by the manufacturing method of the embodiment is arranged downwards, and the pattern groove is located above the reflective bead 21. Thus, the reflective beads 21 are not filled and the holographic and floating dynamic visual effects of the motion safety line can be maintained.

In step B, the light-reflecting beads 21 and the pattern grooves 22 may be formed by means of imprinting with the mold 8, as shown in fig. 3(a) and (B). In the present embodiment, the mold 8 may be used to stamp and form the reflective beads 21 and the pattern grooves 22, for example, after the mold 8 is used to stamp and form the reflective beads 21, the mold 8 is used to stamp and form the pattern grooves 22; the reflective beads 21 may be formed by first imprinting the pattern groove 22 with the mold 8 and then imprinting with the mold 8. The mold 8 may be used to simultaneously imprint both sides of the molding substrate 2 to simultaneously form the light reflecting beads 21 and the pattern grooves 22. Preferably, the light reflecting beads 21 and the pattern grooves 22 are formed by imprinting both sides of the molding substrate 2 with the mold 8 at the same time in step B.

In step C, the molding base material 2 is fixed to the water transfer printing carrier 1 by means of hot stamping. Specifically, the water transfer printing carrier 1 is a small membrane base paper. During specific manufacturing, water-soluble glue can be coated on the small film base paper, then a base oil layer 6 is coated on the water-soluble glue, and the forming base material 2 is thermoprinted on the base oil layer 6. The water-soluble glue can be water-soluble starch glue, and after the water-soluble glue is in contact with water, the water-soluble glue is dissolved, the forming base material 2 is separated from the small membrane base paper, is completely separated from the constraint of the carrier, and is attached to products such as ceramic products, glass products and the like for sintering. The bottom oil layer 6 can enable the forming base material 2 to be closely attached to products such as ceramic products, glass products and the like, and subsequent sintering is facilitated.

Specifically, as shown in fig. 3(c), the step B further includes the steps of: and filling pigment in the pattern groove. The pigment can make the pattern show the primary filter better, and can select various colors according to the needs, wait for the pattern of various different colors.

More specifically, as shown in fig. 3(d), the step B further includes the following steps: and covering a release layer on one side of the forming substrate pattern groove. The release layer 3 can protect the pattern groove 22 and the pigment therein, and has a suitable release effect, so that the release protective film 4 described below can be conveniently removed from the release layer 3. The release layer 3 contains a release agent, which can facilitate separation from the release protective film 4.

Specifically, as shown in fig. 3(d), the step C further includes, before: and a release protective film is respectively covered on the release layer and one side of the formed substrate reflective bead. The covering release protective film 4 can play a role in protection, and the formed substrate 2 is also conveniently fixed, so that the production operation is convenient.

Further, before the step C, the method further comprises: and removing the release protective film on one side of the formed substrate reflective bead. And removing the release protective film 4 on one side of the reflective beads 21 of the molding substrate 2, and thermoprinting one side of the reflective beads 21 of the molding substrate 2 on the water transfer printing carrier 1. In order to facilitate the subsequent separation of the shaped substrate 2 from the filmy backing paper and attachment to products such as ceramic products, glass products and the like, the filmy backing paper is coated with a water-soluble glue and the shaped substrate is coated with a base oil layer 6 on the side where the reflective beads are located, as shown in fig. 3 (e). The base oil and the surface oil described in this embodiment are common materials used in the manufacture of water transfer printing paper, and are not described in detail herein.

The forming substrate 2 is UV glue, and the release layer 3 is UV glue with a release effect; the step C also comprises the following steps: and (3) irradiating the ultraviolet light to cure the formed substrate and the release layer so as to connect the formed substrate and the release layer into a whole. The forming substrate 2 and the release layer 3 are UV glue, and are convenient to cure and dry. After curing, the release layer 3 and the molding base material 2 are connected into a whole.

The step B specifically comprises the following steps: and stamping on one side of the molding base material to form spherical reflective beads, and stamping on the other side to form pattern grooves opposite to the reflective beads. In this step, as shown in fig. 3(c), a plurality of light reflecting beads 21 are closely arranged on the molding substrate 2. Under the reflection action of the reflective beads 21, the patterns move and change continuously at different viewing angles, and have holographic and floating dynamic visual effects.

In order to facilitate understanding of the product with the motion safety line, as another embodiment of the present invention, a method for preparing a product with a motion safety line is disclosed, wherein the motion safety line water transfer paper is adopted, and the method comprises the following steps:

soaking the motion safety line water transfer paper in water to separate the formed base material and the water transfer carrier;

attaching one side of the molded substrate where the reflective beads are positioned to the surface of the product;

and sintering the product at high temperature to obtain the product with the motion safety line.

More specifically, the sintering temperature of the high-temperature sintering is 180 +/-5 ℃, and the sintering time is 40 +/-5 min.

It should be noted that, the limitations of the steps involved in the present disclosure are not considered to limit the order of the steps on the premise of not affecting the implementation of the specific embodiment, and the steps written in the foregoing may be executed first, or executed later, or even executed simultaneously, as long as the present disclosure can be implemented, all should be considered as belonging to the protection scope of the present disclosure.

The foregoing is a more detailed description of the present invention, taken in conjunction with specific alternative embodiments, and it is not intended that the invention be limited to the specific embodiments shown and described. To the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims (10)

1. The utility model provides a motion safety line water transfer paper which characterized in that includes:

a water transfer carrier;

a forming substrate disposed on the water transfer carrier; one side of the light reflecting plate is provided with a spherical light reflecting bead, and the other side of the light reflecting plate is provided with a pattern groove opposite to the light reflecting bead; the light reflecting beads face the water transfer printing carrier;

the release layer is arranged on the other side of the molding base material;

and the release protective film is arranged on the release layer.

2. The motion safety line water transfer paper of claim 1, wherein a base oil layer is coated on the side of the forming substrate where the reflective beads are located.

3. The motion security thread water transfer paper of claim 2, wherein a water-soluble glue is disposed on the water transfer carrier, and the shaped substrate is adhered to the water transfer carrier by the water-soluble glue.

4. The motion security thread water transfer paper of claim 1, wherein the forming substrate is UV glue.

5. The motion safety line water transfer paper of claim 4, wherein the release layer is UV glue with release effect.

6. The motion security thread water transfer paper of any one of claims 1 to 5, wherein the water transfer carrier is a small film base paper.

7. The motion security thread water transfer paper of claim 3, wherein the water-soluble glue is a water-soluble starch glue.

8. An article having a motion security thread, comprising:

a main body;

a bottom oil layer attached to the body;

the forming base material is arranged on the bottom oil layer and attached to the main body, and the forming base material reflecting beads face the main body;

and the release layer is arranged on the other side of the molding substrate.

9. The article with motion security thread of claim 8, wherein the release layer has a top oil layer disposed thereon.

10. The article with motion security thread of claim 8, wherein the shaped substrate is a UV glue and the release layer is a UV glue with release effect.

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