CN212666895U - Three-dimensional gold-plated cloth structure - Google Patents
Three-dimensional gold-plated cloth structure Download PDFInfo
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- CN212666895U CN212666895U CN202020668454.7U CN202020668454U CN212666895U CN 212666895 U CN212666895 U CN 212666895U CN 202020668454 U CN202020668454 U CN 202020668454U CN 212666895 U CN212666895 U CN 212666895U
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Abstract
The utility model provides a three-dimensional gilding cloth structure, including base cloth, three-dimensional pattern layer and gold thin layer. The base cloth is woven by a plurality of titanium dioxide yarns, the three-dimensional pattern layer is laminated on the base cloth from bottom to top in sequence, and then the gold film layer is laminated on the three-dimensional pattern layer, so that a finished product of the three-dimensional gold-plated cloth is formed. The three-dimensional concave-convex surface is used for changing the refraction angle of light, so that the gold film layer can show a three-dimensional pattern effect on the surface of the base cloth, and different gold light colors can be presented simultaneously, thereby improving the aesthetic feeling of products.
Description
Technical Field
The utility model relates to a three-dimensional gilding cloth structure indicates especially to utilize the solid pattern layer to make on the base cloth, makes the golden film layer of range upon range of on the solid pattern layer demonstrate the technical field of stereoeffect.
Background
The cloth gold stamping technology is a cloth dyeing technology, and a gold metal material has antibacterial performance and has no anaphylactic reaction to a human body. With the rapid development of science and technology, the fabric gold stamping process is mature day by day, and the overall effect of the fabric after gold stamping is graceful and trendy, so that the fabric is more and more popular with many people who love beauty.
In the cloth gold stamping process, only a plane gold stamping effect can be manufactured at present, the existing manufacturing method is a hot stamping transfer method applied to cloth, firstly, the cloth must be coated with a proper gold stamping slurry in advance, and in the transfer printing process, the coating is separated from a base film under the temperature and pressure and is instantly adhered to the pretreated cloth, such as textiles or artificial leather, together with a thermosensitive adhesive. Then the gold foil paper is transferred to the place coated with glue, and finally is sent into a stamping machine, and a contact pressure roller and a heating roller rotate together to ensure that the pressure on the whole net surface of the embossing roller is uniform, thereby ensuring complete and uniform transfer.
However, the above-mentioned process has a problem of poor adhesion, and a problem of partial gold foil peeling easily occurs due to the use habit or the increase of the number of times of use. Furthermore, the planar fabric gold stamping process cannot meet the trend requirement when people seek the living taste, so that gold decorative yarns must be clamped and woven in the fabric if a gold gloss pattern with a three-dimensional effect is to be manufactured, and the manufacturing process has the defects of complexity, time consumption, high cost and the like.
Therefore, how to solve the above problems and deficiencies of the prior art is the subject of the urgent research and development.
SUMMERY OF THE UTILITY MODEL
The main objective of the present invention is to provide a method for manufacturing a metal thin film layer with three-dimensional effect on a base fabric, which is fast and effective in manufacturing due to simple process.
The secondary objective of the present invention is to utilize the bonding property of titanium dioxide or pure titanium and gold to improve the adhesion force for manufacturing the gold-plating material, thereby solving the problem of easy falling off of the gold-plating material during use.
In order to achieve the above object, the utility model provides a three-dimensional gilding cloth structure, a serial communication port, include:
the base cloth is woven by a plurality of titanium dioxide yarns;
a three-dimensional pattern layer laminated on the upper surface of the base fabric; and
a gold thin film layer laminated on the three-dimensional pattern layer;
the three-dimensional pattern layer covers part of the upper surface of the base cloth, so that the surface of the base cloth is concave-convex, and the gold film layer covers the three-dimensional pattern layer and the upper surface of the base cloth exposed out of the three-dimensional pattern layer.
Wherein: the metal film layer is laminated on the upper surface of the three-dimensional pattern layer, and the metal film layer is arranged on the surface of the three-dimensional pattern layer.
Wherein: the pure titanium layer is laminated on the three-dimensional pattern layer, so that the pure titanium layer is positioned between the three-dimensional pattern layer and the gold thin film layer.
Wherein: the base cloth is non-woven cloth, glass fiber cloth or nylon cloth.
The utility model discloses rely on the refraction angle of three-dimensional unsmooth surface in order to change the light for the golden thin layer shows the space pattern effect on the base cloth, can demonstrate different golden light color and luster simultaneously, in order to promote the aesthetic feeling of product.
The purpose, technical content, and features of the present invention and the effects achieved thereby will be better understood through the detailed description of the embodiments.
Drawings
Fig. 1 is a schematic structural diagram of a first embodiment of the present invention.
Fig. 2 is a schematic structural diagram of a second embodiment of the present invention.
Description of reference numerals: 1, base cloth; 2 a three-dimensional pattern layer; 3, a gold thin film layer; 4 titanium dioxide layer.
Detailed Description
In order to solve the problem that the three-dimensional gold-plated layer cannot be efficiently manufactured on the cloth and the gold foil is easy to fall off in the conventional manufacturing process, the inventor utilizes the pre-manufactured three-dimensional pattern layer to enable a metal material to be sputtered and formed on the three-dimensional pattern layer, and the cloth finished product with the three-dimensional effect replaces the conventional material for manufacturing gold on the cloth, so that the material has various application advantages of complex manufacturing, high difficulty, poor adhesive force effect and the like, the problem of the conventional product is solved, and the following will introduce in detail how the three-dimensional gold-plated cloth structure is used for achieving the most efficient functional appeal.
Please refer to fig. 1, which is a schematic structural diagram of a first embodiment of the present invention. The three-dimensional gold-plated cloth structure comprises a base cloth 1, a three-dimensional pattern layer 2 and a gold thin film layer 3. The three-dimensional pattern layer 2 is laminated on the upper surface of the base fabric 1, and the gold thin film layer 3 is laminated on the three-dimensional pattern layer 2 in the bottom-up order. The three-dimensional pattern layer 2 covers part of the upper surface of the base cloth 1, so that the surface of the base cloth 1 is concave-convex, and the gold film layer 3 covers the three-dimensional pattern layer 2 and the upper surface of the base cloth 1 exposed out of the three-dimensional pattern layer 2, so as to form a three-dimensional gold-plated cloth finished product. The base cloth 1 is woven by a plurality of titanium dioxide yarns, the utility model discloses use any kind of non-woven cloth, glass fiber cloth, nylon cloth etc. as base cloth 1, do not limit the kind of base cloth 1 here. The three-dimensional pattern layer 2 can be printed on the base cloth 1 by printing, for example, a pattern stencil is used to brush paint to form the three-dimensional pattern layer 2 with a certain thickness, and then drying is performed, and the dried pattern has a three-dimensional micro-glue feeling when touching. Or spraying a three-dimensional pattern layer 2 with thickness on the base cloth 1 by using a digital pattern spraying mode, and drying; or embroidering the pattern on the base cloth 1 by using an embroidering method to form the three-dimensional pattern layer 2. Of course, the utility model discloses do not limit to the preparation mode of stereogram layer 2, as long as there is stereogram layer 2 at the upper surface of base cloth 1 coincide, all belong to the utility model discloses a patent range protection category.
It is worth noting that the gold thin film layer 3 is sputtered and laminated on the three-dimensional pattern layer 2 in a sputtering way, because the sputtering is a permanent long-acting surface treatment way, the metal material of gold is uniformly deposited on the three-dimensional pattern layer 2 by an electrochemical physical method, and the refraction angle of light is changed by the three-dimensional change of the corresponding concave-convex pattern on the surface of the gold thin film layer 3 by means of the concave-convex pattern design of the three-dimensional pattern layer 2, so that the gold thin film layer 3 shows the three-dimensional pattern effect on the upper surface of the base cloth 1, and simultaneously can show different gold light colors, thereby improving the aesthetic feeling of the product; in addition, the gold film layer 3 can not easily fall off by sputtering, and the method is suitable for products made of various fabrics, such as clothes, ornaments or daily necessities.
As shown in fig. 2, it is a schematic structural diagram of a second embodiment of the present invention. The same elements in the second embodiment as those in the first embodiment have the same reference numerals, and the description of the same parts is omitted. In order to enhance the adhesion of the gold thin film layer 3, in the second embodiment, the three-dimensional gold-plated fabric structure further includes a titanium dioxide layer 4 laminated on the upper surface of the three-dimensional pattern layer 2, such that the titanium dioxide layer 4 is located between the three-dimensional pattern layer 2 and the gold thin film layer 3. Among them, the titanium dioxide (TiO2) molecule is in nanometer level and used as photocatalyst, which has good photocatalytic activity, and the titanium dioxide increases sterilization effect with the time of contacting light. Moreover, titanium dioxide has high oxidizing power, non-perishable, low price and easy advantages such as preparation, so the utility model discloses be applied to titanium dioxide the bactericidal effect persistence of base cloth 1 high, antibiotic ability is strong, the security is high, can respond to the health problem of people's attention now.
The newly added titanium dioxide layer 4 can be coated on the three-dimensional pattern layer 2 by a printing and coating method, and then a gold metal material is sputtered and laminated on the titanium dioxide layer 4 by a sputtering method, so that a gold thin film layer 3 is formed on the base cloth 1. The titanium dioxide layer can be bonded with the metal material of gold in the sputtering process, thereby enhancing the adhesion capability of the gold film layer 3. The metallic properties of gold not only have the best performance and good appearance, but also the gold plating composition can be configured appropriately for different product requirements, such as the thickness of the gold thin film layer 3, the gold plating composition such as 24K gold, 18K gold, 16K gold, or pure gold, etc. In the case of embroidering the three-dimensional pattern layer 2 by embroidering the pattern on the base fabric 1 using the embroidering method, the base fabric 1 including the three-dimensional pattern layer 2 may be immersed in a titanium dioxide solution to adsorb molecules of titanium dioxide in pores of the base fabric 1 and the three-dimensional pattern layer 2, so that the entire base fabric 1 includes a material of titanium dioxide and the titanium dioxide layer 4 is relatively adhered to the surface of the three-dimensional pattern layer 2, and then the drying process may be performed. And then, sputtering a metal material of gold on the three-dimensional pattern layer 2 by using a sputtering method, forming a bond between titanium dioxide and gold by virtue of the sputtering process, and forming a gold thin film layer 3 on the titanium dioxide layer 4, thereby completing a three-dimensional gold-plated cloth finished product, further enhancing the adhesion capability of the gold thin film layer 3 and effectively solving the problem that the gold thin film layer 3 is easy to fall off locally.
In addition to the titanium dioxide layer 4, a pure titanium layer (not shown) may be used, and stacked on the three-dimensional pattern layer 2, the pure titanium layer being disposed between the three-dimensional pattern layer 2 and the gold thin film layer 3. The gold thin film layer 3 is deposited and laminated on the upper surface of the pure titanium layer by sputtering, and the gold thin film layer 3 and the pure titanium layer are bonded with each other in the sputtering process.
To sum up, the utility model discloses preparation has three-dimensional effect's golden film layer on base cloth, because whole preparation process is simple, the utensil just produces the preparation fast effectively and saves time again, is applicable to the product of any cloth preparation, and it is big to use elasticity. Furthermore, the utility model discloses utilize the bonding performance of titanium dioxide and gold, can improve the adhesive force of preparation gilding material, and then the problem that drops easily when solving gilding material and using has market competition advantage extremely.
The foregoing description is intended to be illustrative rather than limiting, and it will be appreciated by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the invention as defined in the appended claims.
Claims (4)
1. A three-dimensional gilt cloth structure which characterized in that includes:
the base cloth is woven by a plurality of titanium dioxide yarns;
a three-dimensional pattern layer laminated on the upper surface of the base fabric; and
a gold thin film layer laminated on the three-dimensional pattern layer;
the three-dimensional pattern layer covers part of the upper surface of the base cloth, so that the surface of the base cloth is concave-convex, and the gold film layer covers the three-dimensional pattern layer and the upper surface of the base cloth exposed out of the three-dimensional pattern layer.
2. The solid gold-plated cloth structure of claim 1, wherein: the metal film layer is laminated on the upper surface of the three-dimensional pattern layer, and the metal film layer is arranged on the surface of the three-dimensional pattern layer.
3. The solid gold-plated cloth structure of claim 1, wherein: the pure titanium layer is laminated on the three-dimensional pattern layer, so that the pure titanium layer is positioned between the three-dimensional pattern layer and the gold thin film layer.
4. The solid gold-plated cloth structure of claim 1, wherein: the base cloth is non-woven cloth, glass fiber cloth or nylon cloth.
Priority Applications (1)
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CN202020668454.7U CN212666895U (en) | 2020-04-27 | 2020-04-27 | Three-dimensional gold-plated cloth structure |
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CN202020668454.7U CN212666895U (en) | 2020-04-27 | 2020-04-27 | Three-dimensional gold-plated cloth structure |
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CN212666895U true CN212666895U (en) | 2021-03-09 |
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CN202020668454.7U Active CN212666895U (en) | 2020-04-27 | 2020-04-27 | Three-dimensional gold-plated cloth structure |
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2020
- 2020-04-27 CN CN202020668454.7U patent/CN212666895U/en active Active
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