CN218535914U

CN218535914U - Printed reflective fabric

Info

Publication number: CN218535914U
Application number: CN202122943328.5U
Authority: CN
Inventors: 任初林; 孙余; 王增友; 张栩宁
Original assignee: Zhejiang Ygm Technology Co ltd
Current assignee: Zhejiang Ygm Technology Co ltd
Priority date: 2021-11-22
Filing date: 2021-11-22
Publication date: 2023-02-28
Anticipated expiration: 2031-11-22
Also published as: WO2023087380A1

Abstract

The application discloses a printed reflective fabric, which relates to the technical field of reflective materials and comprises a base cloth layer, a resin layer and a glass bead layer, wherein the base cloth layer, the resin layer and the glass bead layer are sequentially arranged; the glass beads are fixed on the resin layer and protrude out of the end face of the resin layer far away from the base cloth layer; the glass bead-shaped resin layer is characterized by further comprising a printing layer, wherein the printing layer is positioned on the end faces, far away from the base cloth layer, of the glass bead layer and the resin layer. Through the terminal surface of keeping away from the base cloth layer with the setting of stamp layer at glass bead layer and resin layer, through the convex effect of glass bead for the pattern on stamp layer or the stereoeffect that the color formed are stronger, make the pattern third dimension of fabric better.

Description

Printed reflective fabric

Technical Field

The present application relates to the field of reflective materials, and more particularly, it relates to a printed reflective fabric.

Background

The reflective fabric is a high-tech product widely applied to traffic safety equipment, films, protective clothing, work clothes, uniform and the like which are closely related to the safety of lives and properties of people. The most popular reflective fabric applied to the clothing related industry at present is a reflective fabric taking glass beads as reflective elements.

In the printed reflective fabric in the related art, the color printed layer is arranged on the end face of the resin layer, which is far away from the base fabric layer, but the stereoscopic impression effect of the printed patterns of the fabric formed in such a way is poor and needs to be improved.

SUMMERY OF THE UTILITY MODEL

In order to improve the poor problem of reflection of light fabric pattern third dimension, this application provides a printing reflection of light fabric.

The application provides a printed reflective fabric, adopts following technical scheme:

a printed reflective fabric comprises a base cloth layer, a resin layer and a glass bead layer which are sequentially arranged, wherein the glass bead layer comprises a plurality of glass beads; the glass beads are fixed on the resin layer and protrude out of the end face of the resin layer, which is far away from the base cloth layer;

still include the stamp layer, the stamp layer is located the terminal surface that glass bead layer and resin layer kept away from the base cloth layer.

Through above-mentioned technical scheme, will stamp the layer and set up the terminal surface of keeping away from the base cloth layer at glass bead layer and resin layer, through the convex effect of glass bead for the pattern on stamp layer or the stereoeffect that the color formed are stronger, make the pattern third dimension of fabric better.

Optionally, the depth of the glass beads embedded in the resin layer is 60% -70% of the diameter of the glass beads.

Through the technical scheme, the glass beads are not easy to deviate from the resin layer, so that the combination of the glass beads and the resin layer is more stable, the protruding amount of the glass beads is ensured to be 30% -40%, the reflection and refraction effects are more stable, and the stereoscopic impression effect is more stable.

Optionally, the printed layer is formed by thermal sublimation printing.

Through the technical scheme, the fabric has the advantages that the fabric is sublimed by heat, the color is fresh and vivid, the layers are distinct, the difference between adjacent subtle colors can be shown in details, the special color band contains the unique protective film, the continuous color gradation can be shown, the combination of the printing layer, the glass beads and the resin layer is more stable, and the pattern of the fabric is more durable and stable.

Optionally, the glass beads are spheres with non-roundness and devitrification rate not greater than 3%, and the refractive index of the glass beads is 1.93-1.94.

Through the technical scheme, the high refractive index of the glass beads is ensured.

Optionally, the glass beads are provided with a light reflecting layer, and the light reflecting layer is arranged on the outer surfaces of the glass beads.

Through above-mentioned technical scheme, promote glass bead's reflection of light effect through the reflector layer.

Optionally, the reflective layer is a colorless coating reflective layer or a zinc sulfide-plated reflective layer or an iridescent reflective layer.

Through above-mentioned technical scheme, select the reflector layer according to actual demand for the reflection of light color of reflector layer is more diversified.

Optionally, the thickness of the light reflecting layer is 100 to 200 angstroms.

Through the technical scheme, the reflecting layer is too thick and is easy to have an intentional light-transmitting effect, and if the reflecting layer is too small, the reflecting effect is not easy to guarantee, so that the optimal effect of comprehensively selecting 100-200 angstrom meters is achieved.

Optionally, the base fabric layer is made of polyester cotton, all cotton, polyester, spandex, acrylic fibers, pongee or nylon.

Through the technical scheme, the fabric is suitable for various fabrics, and the adaptability is better.

Optionally, the material of the resin layer is a polyacrylate elastomer, a polyurethane elastomer, a silicone elastomer or an acrylic elastomer.

Through above-mentioned technical scheme, the chooseing for use of resin layer is more diversified.

Optionally, the thickness of the base fabric layer is 50-150 micrometers, the thickness of the printing layer is 100-200 angstrom meters, the thickness of the resin layer is 40-50 micrometers, and the thickness of the glass bead layer is 15-25 micrometers.

Through the technical scheme, the thickness of the fabric is controlled to be 105-225 microns, so that the flexibility of the fabric is controlled to be in a required range.

In summary, the present application includes at least one of the following beneficial technical effects:

(1) The printing layer is arranged on the glass bead layer and the end face, far away from the base cloth layer, of the resin layer, and the three-dimensional effect formed by the patterns or colors of the printing layer is stronger through the protruding effect of the glass beads, so that the pattern three-dimensional effect of the fabric is better;

(2) The depth of the glass beads embedded into the resin layer is 60-70% of the diameter of the glass beads, so that the glass beads are not easy to fall off from the resin layer, and the combination of the glass beads and the resin layer is more stable;

(3) Through thermal sublimation printing for the combination of stamp layer and glass bead and resin layer is more stable, makes the pattern of fabric more lasting stable.

Drawings

FIG. 1 is an overall schematic view of an embodiment;

fig. 2 shows a process for forming a glass bead layer according to an embodiment.

Reference numerals are as follows: 1. a base cloth layer; 2. a resin layer; 3. a layer of glass beads; 4. a printing layer; 5. a light-reflecting layer; 6. and (3) a carrier.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses a printed reflective fabric.

A printed reflective fabric comprises a base fabric layer 1, a resin layer 2 and a glass bead layer 3 which are sequentially arranged as shown in figure 1. The glass bead layer 3 comprises a plurality of glass beads, and the glass beads are fixed on the resin layer 2 and protrude out of the end face of the resin layer 2 far away from the base cloth layer 1.

A stamp reflection of light fabric still is equipped with stamp layer 4, and stamp layer 4 is located glass bead layer 3 and resin layer 2 and keeps away from the terminal surface of base cloth layer 1.

Wherein the base cloth layer 1 is made of polyester cotton, all cotton, terylene, spandex, acrylon, pongee or nylon.

The resin layer 2 is formed by applying a transparent resin to the base fabric layer 1. The material of the resin layer 2 is polyacrylate elastomer, polyurethane elastomer, silicone elastomer or acrylic elastomer, which is the material of the resin layer 2.

The glass bead layer 3 comprises a plurality of glass beads, the glass beads are spheres with non-roundness and devitrification rate not more than 3%, the refractive index is between 1.93 and 1.94, and the number of the glass beads is not less than 95%. Wherein, the meaning of not less than 95% in the range is shown in the following examples: the glass particles are limited to a particle size of 40 to 60 μm, and then the number of glass particles in this particle size range is not less than 95%.

The glass beads are fixed by implanting the resin layer 2, and the method comprises the following specific steps:

s1, selecting a PET or PET/PE composite film as a carrier 6, uniformly planting glass beads with the refractive index within the range of 1.93-1.94 on the carrier 6 through a bead planting machine, and embedding the glass beads into the carrier 6 to the depth of 30-40% of the diameter of the glass beads in a drying oven with the temperature of 100-150 ℃ in a thermal sedimentation mode after planting;

s2, buckling the end face, with the glass beads, of the carrier 6 embedded with the glass beads onto the resin layer 2, so that the depth of embedding the glass beads into the resin layer 2 is 60-70% of the diameter of the glass beads;

and S3, drying, curing and stripping the carrier 6 of the surface layer to fix each glass bead to the resin layer 2 to form a glass bead layer 3.

In actual operation, each glass bead is provided with a reflecting layer 5, the reflecting layer 5 is coated on the outer surface of the glass bead, and the thickness of the reflecting layer 5 is 100-200 angstrom meters. The reflecting layer 5 is a colorless coating reflecting layer or a zinc sulfide plated reflecting layer or an iridescent plated reflecting layer.

The reflecting layer 5 is formed on the glass beads by evaporation through a vacuum or magnetron sputtering method. Wherein the colorless coating film reflecting layer is formed by evaporating a colorless transparent film; the zinc sulfide plated reflecting layer is formed by evaporating ZnS target material; plating iridescent reflecting layer by evaporating ZnS target and SiO ₂ And forming the target.

The printed layer 4 is printed with a desired pattern or color by thermal sublimation to the resin layer 2 and the end face of the glass beads remote from the base fabric layer 1 by a thermal printer.

Referring to fig. 1 and 2, a specific fabric example 1 is as follows:

the base cloth layer 1 is made of white chiffon base cloth, transparent environment-friendly resin is smeared on the white chiffon base cloth and is combined with glass beads of which the reflective layer 5 is a colorless coating film, the PET/PE carrier 6 on the surface layer is peeled off after drying, curing and drying, and finally color patterns are thermally sublimated on the glass beads and the end face of the resin layer 2 far away from the base cloth layer 1, so that the common bright transparent colored chiffon is obtained.

The general thickness of the plenilune chiffon is 105-225 micrometers, wherein the thickness of the base fabric layer 1 is 50-150 micrometers, the thickness of the printing layer 4 is 100-200 angstroms, the thickness of the resin layer 2 is 40-50 micrometers, and the thickness of the glass bead layer 3 is 15-25 micrometers.

Specific fabric example 2 is as follows:

the difference from the example 1 is that the reflecting layer 5 is a zinc sulfide reflecting layer, and the rest parameter conditions are unchanged, so that the high-luminosity color Chunzhan is obtained.

Specific fabric example 3 is as follows:

the difference from example 1 is that the reflective layer 5 is an iridescent reflective layer, and the remaining parameter conditions are unchanged, resulting in iridescent colorcast pongee.

Specific fabric example 4 is as follows:

the base cloth layer 1 is made of white nylon base cloth, transparent epoxy resin is smeared on the white nylon base cloth to be combined with glass beads of which the reflective layer 5 is a colorless coating film, the PET carrier 6 on the surface layer is peeled off after drying, curing and curing, and finally, the glass beads and the end face, far away from the base cloth layer 1, of the resin layer 2 are subjected to heat sublimation colorful patterns to obtain the high-brightness colorful nylon yarn.

The overall thickness of the highlight color nylon yarn is 105-175 micrometers, wherein the thickness of the base fabric layer 1 is 50-100 micrometers, the thickness of the printing layer 4 is 100-200 angstroms, the thickness of the resin layer 2 is 40-50 micrometers, and the thickness of the glass bead layer 3 is 15-25 micrometers.

Specific fabric example 5 is as follows:

the difference from the example 4 is that the reflecting layer 5 is a zinc sulfide reflecting layer, and the rest parameter conditions are unchanged, so that the high-brightness colorful nylon yarn is obtained.

Specific fabric example 6 is as follows:

the difference from example 4 is that the reflective layer 5 is an iridescent reflective layer, and the rest parameter conditions are unchanged, so that iridescent high-brightness colorful nylon yarns are obtained.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. A printed reflective fabric characterized by: the glass bead fabric comprises a base fabric layer (1), a resin layer (2) and a glass bead layer (3) which are sequentially arranged, wherein the glass bead layer (3) comprises a plurality of glass beads; the glass beads are fixed on the resin layer (2) and protrude out of the end face, far away from the base cloth layer (1), of the resin layer (2);

still include stamp layer (4), stamp layer (4) are located glass bead layer (3) and resin layer (2) and keep away from the terminal surface of base cloth layer (1).

2. A printed reflective fabric according to claim 1, wherein: the depth of the glass beads embedded into the resin layer (2) is 60-70% of the diameter of the glass beads.

3. A printed reflective fabric according to claim 1, wherein: the printed layer (4) is formed by thermal sublimation printing.

4. The printed retroreflective fabric of claim 1, wherein: the glass beads are spheres with non-roundness and devitrification rate not more than 3%, and the refractive index of the glass beads is 1.93-1.94.

5. A printed reflective fabric according to claim 1, wherein: the glass beads are provided with light reflecting layers (5), and the light reflecting layers (5) are arranged on the outer surfaces of the glass beads.

6. The printed reflective fabric of claim 5, wherein: the reflecting layer (5) is a colorless coating reflecting layer or a zinc sulfide plated reflecting layer or an iridescent plated reflecting layer.

7. The printed retroreflective fabric of claim 5, wherein: the thickness of the light reflecting layer (5) is 100-200 angstrom meters.

8. A printed reflective fabric according to claim 1, wherein: the base cloth layer (1) is made of polyester cotton, all cotton, terylene, spandex, acrylon, pongee or nylon.

9. A printed reflective fabric according to claim 1, wherein: the resin layer (2) is made of polyacrylate elastomer, polyurethane elastomer, organic silicon elastomer or acrylic elastomer.

10. A printed reflective fabric according to claim 1, wherein: the thickness of the base fabric layer (1) is 50-150 micrometers, the thickness of the printing layer (4) is 100-200 angstroms, the thickness of the resin layer (2) is 40-50 micrometers, and the thickness of the glass bead layer (3) is 15-25 micrometers.