CN219883601U - Article with inlaid structure on outer surface - Google Patents

Abstract

The utility model discloses an article with an embedded structure on the outer surface, which comprises a nonmetallic substrate, wherein a conducting layer and a metal thickening layer are sequentially and closely arranged on the outer surface of the nonmetallic substrate to form a semi-finished product, a paint layer with a plurality of hollowed-out pattern areas is closely arranged on the outer surface of the semi-finished product, the metal pattern layers are closely arranged at the hollowed-out pattern areas to form the embedded structure, and the thickness of the metal pattern layers is larger than that of the paint layer. According to the utility model, the metal pattern layer is arranged on the hollowed pattern area on the paint layer, and the thickness of the metal pattern layer is larger than that of the paint layer, so that the metal pattern layer protrudes out of the paint layer, a good anti-slip effect is achieved, and the paint layer is anti-falling and safer; simultaneously, the paint layer can play fine thermal-insulated effect, prevents that the user from scalding.

Description

Article with inlaid structure on outer surface

Technical Field

The utility model relates to the technical field of artware, in particular to an article with an inlaid structure on the outer surface.

Background

At present, glass or ceramic and products thereof are deeply favored by consumers due to the environment-friendly and healthy materials, but the problems are that the materials are fragile, people are easily injured after the materials are crushed, certain dangers exist, and especially the materials are unsafe for children to use. The existing glass ceramic products, such as cups, are generally manufactured by adding plastic cup sleeves or rubber cup sleeves or metal cup sleeves, and the like, so that the cup sleeves are not matched with the cup body, particularly gaps are reserved between the cup sleeves and the cup body, water is easy to store, the glass ceramic products are not attractive enough, and the use of the glass ceramic bottles of the glass cups is affected to a certain extent.

Disclosure of Invention

First, the technical problem to be solved

The technical problem to be solved by the utility model is to provide an article with an embedded structure on the outer surface, and the metal pattern layer is arranged on the hollowed pattern area on the paint layer, and the thickness of the metal pattern layer is larger than that of the paint layer, so that the metal pattern layer protrudes out of the paint layer, thereby having good anti-slip effect, anti-falling and safer; simultaneously, the paint layer can play fine thermal-insulated effect, prevents that the user from scalding.

(II) technical scheme

The technical problem is solved by adopting the scheme that the article with the mosaic structure on the outer surface comprises a nonmetallic substrate, wherein the outer surface of the nonmetallic substrate is sequentially and closely provided with a conductive layer and a metal thickening layer to form a semi-finished product, the outer surface of the semi-finished product is closely provided with a paint layer with a plurality of hollowed-out pattern areas, the semi-finished product is positioned in the hollowed-out pattern areas and is closely provided with a metal pattern layer to form the mosaic structure, and the thickness of the metal pattern layer is larger than that of the paint layer.

By adopting the scheme, the metal pattern layer is arranged on the hollowed pattern area on the paint layer, and the thickness of the metal pattern layer is larger than that of the paint layer, so that the metal pattern layer protrudes out of the paint layer, a good anti-slip effect is achieved, and the paint layer is anti-falling and safer; simultaneously, the paint layer can play fine thermal-insulated effect, prevents that the user from scalding.

Further, the conductive layer comprises a metal conductive layer which is formed on the outer surface of the nonmetallic substrate through vacuum plating, the metal thickening layer is formed by electrodepositing a layer of gold or silver or copper on the outer surface of the metal conductive layer, and the metal pattern layer is formed by electrodepositing a layer of gold or silver or copper on the hollowed pattern area of the paint layer.

Further, the metal pattern layer comprises a first metal layer matched with the hollowed pattern area and a second metal layer formed at the edge of the first metal layer and covering the position, close to the first metal layer, of the paint layer.

By adopting the scheme, the second metal layer coats the edge of the paint layer, so that the paint layer can be well prevented from falling off.

Further, the conductive layer further comprises a titanium priming layer which is formed by vacuum plating on the outer surface of the nonmetallic substrate, and the metal conductive layer is formed by vacuum plating a layer of gold or silver or copper on the outer surface of the titanium priming layer.

Furthermore, the paint layer is formed by electrophoresis of a layer of paint on the metal thickening layer, and the hollowed-out pattern area is formed by laser engraving on the paint layer.

Specifically, the hollowed-out pattern can be engraved by laser according to the requirement.

Furthermore, a pattern paint layer is formed on the outer surface of the metal pattern layer through electrophoresis, and the color of the pattern paint layer is different from that of the paint layer, so that the outer surface of the finished product has a double-color effect and is more attractive.

It should be noted that, can electrophorese the pattern paint layer of different colours on the metal pattern layer of different positions according to the demand, more diversified.

Further, the nonmetallic substrate comprises glass or ceramic or agate or jade or zircon or plastic or acrylic or resin or wood material.

Further, the articles comprise ornaments and artware.

Further, the articles comprise cups, tea sets and tableware.

Further, the conductive layer is provided with a plurality of first hollowed-out pattern areas, a second hollowed-out pattern area is arranged above the first hollowed-out pattern area, and the hollowed-out pattern area is staggered with the first hollowed-out pattern area and the second hollowed-out pattern area.

Specifically, removing part of the metal thickening layer and part of the conductive layer sequentially through etching to expose part of the non-metal base material, so as to form a semi-finished product; and then, carrying out electrophoresis outside the metal thickened layer to form a paint layer, wherein the exposed nonmetallic substrate is not conductive, and the exposed nonmetallic substrate is not subjected to electrophoresis to form the paint layer with a third hollowed-out pattern area, wherein the first hollowed-out pattern area, the second hollowed-out pattern area and the third hollowed-out pattern area are overlapped together from inside to outside.

The utility model solves the technical problems by adopting a method for processing the article with the embedded structure on the outer surface,

one of the methods comprises the following steps:

step a: providing a non-metal substrate, wherein the non-metal substrate comprises glass, ceramic, agate, jade, zircon, plastic, acrylic, resin or wood material, and during processing, the non-metal substrate is processed into a substrate to be processed by cutting and the like;

step b: vacuum plating a layer of gold or silver or copper on the outer surface of the nonmetallic substrate through a vacuum plating process to form a metallic conductive layer;

step c: electrodepositing a layer of gold or silver or copper on the outer surface of the metal conductive layer through an electrodeposition process to form a metal thickening layer;

step d: a layer of paint is electrophoretically coated on the metal thickening layer through an electrophoresis process, so that a paint layer is formed; or alternatively; spraying a layer of paint on the metal thickening layer through a spraying process to form a paint layer;

step e: removing part of the paint layer through a laser process, so that a pattern hollowed-out area is carved on the outer surface of the paint layer;

step f: and electrodepositing a layer of gold or silver or copper on the metal thickening layer in the pattern hollowed-out area through an electrodeposition process to form a metal pattern layer.

Secondly, the method comprises the following steps:

step a: providing a non-metal substrate, wherein the non-metal substrate comprises glass or ceramic or agate or jade or zircon material, and during processing, the non-metal substrate is processed into a substrate to be processed by cutting and the like;

step b: vacuum plating a layer of titanium on the outer surface of the nonmetallic substrate through a vacuum plating process to form a titanium priming layer;

step c: vacuum plating a layer of gold or silver or copper on the outer surface of the titanium priming layer through a vacuum plating process to form a metal conducting layer;

step d: electrodepositing a layer of gold or silver or copper on the outer surface of the metal conductive layer through an electrodeposition process to form a metal thickening layer;

step e: a layer of paint is electrophoretically coated on the metal thickening layer through an electrophoresis process, so that a paint layer is formed; or alternatively; spraying a layer of paint on the metal thickening layer through a spraying process to form a paint layer;

step f: removing part of the paint layer through a laser process, so that a pattern hollowed-out area is carved on the outer surface of the paint layer;

step g: and electrodepositing a layer of gold or silver or copper on the metal thickening layer in the pattern hollowed-out area through an electrodeposition process to form a metal pattern layer.

Thirdly, the method comprises the following steps:

step a: providing a non-metal substrate, wherein the non-metal substrate comprises glass, ceramic, agate, jade, zircon, plastic, acrylic, resin or wood, and is processed into a substrate to be processed by cutting and the like;

step b: vacuum plating a layer of gold or silver or copper on the outer surface of the nonmetallic substrate through a vacuum plating process to form a metallic conductive layer;

step c: electrodepositing a layer of gold or silver or copper on the outer surface of the metal conductive layer through an electrodeposition process to form a metal thickening layer;

step d: a layer of paint is electrophoretically coated on the metal thickening layer through an electrophoresis process, so that a paint layer is formed; or alternatively; spraying a layer of paint on the metal thickening layer through a spraying process to form a paint layer;

step e: removing part of the paint layer through a laser process, so that a pattern hollowed-out area is carved on the outer surface of the paint layer;

step f: electrodepositing a layer of gold or silver or copper on the metal thickening layer in the pattern hollowed-out area through an electrodeposition process to form a metal pattern layer;

step g: a layer of paint is electrophoretically coated on the metal pattern layer through an electrophoresis process, so that a pattern paint layer is formed; or alternatively; and (3) coating a layer of paint on the metal pattern layer through electrophoresis by a spraying process to form a pattern paint layer.

Fourth, include the following steps:

step a: providing a non-metal substrate, wherein the non-metal substrate comprises glass or ceramic or agate or jade or zircon material, and during processing, the non-metal substrate is processed into a substrate to be processed by cutting and the like;

step b: vacuum plating a layer of titanium on the outer surface of the nonmetallic substrate through a vacuum plating process to form a titanium priming layer;

step c: vacuum plating a layer of gold or silver or copper on the outer surface of the titanium priming layer through a vacuum plating process to form a metal conducting layer;

step d: electrodepositing a layer of gold or silver or copper on the outer surface of the metal conductive layer through an electrodeposition process to form a metal thickening layer;

step e: a layer of paint is electrophoretically coated on the metal thickening layer through an electrophoresis process, so that a paint layer is formed; or alternatively; spraying a layer of paint on the metal thickening layer through a spraying process to form a paint layer;

step f: removing part of the paint layer through a laser process, so that a pattern hollowed-out area is carved on the outer surface of the paint layer;

step g: electrodepositing a layer of gold or silver or copper on the metal thickening layer in the pattern hollowed-out area through an electrodeposition process to form a metal pattern layer;

step h: a layer of paint is electrophoretically coated on the metal pattern layer through an electrophoresis process, so that a pattern paint layer is formed; or alternatively; and (3) coating a layer of paint on the metal pattern layer through electrophoresis by a spraying process to form a pattern paint layer.

Fifthly, the method comprises the following steps:

step a: providing a non-metal substrate, wherein the non-metal substrate comprises glass, ceramic, agate, jade, zircon, plastic, acrylic, resin or wood material, and during processing, the non-metal substrate is processed into a substrate to be processed by cutting and the like;

step b: vacuum plating a layer of gold or silver or copper on the outer surface of the nonmetallic substrate through a vacuum plating process to form a conductive layer;

step c: electrodepositing a layer of gold or silver or copper on the outer surface of the conductive layer through an electrodeposition process to form a metal thickening layer;

step d: electrophoresis is carried out on the metal thickening layer through an electrophoresis process to form a layer of anti-etching paint; or spraying a layer of anti-etching paint on the metal thickening layer through a spraying process;

step e: removing part of the etching-resistant paint through an alkaline solvent so as to expose part of the metal thickening layer;

step f: sequentially removing the exposed part of the metal thickening layer and the conductive layer from outside to inside through an etching process, so that a second hollowed-out pattern area is etched on the metal thickening layer, and a first hollowed-out pattern area is etched on the conductive layer, so that part of the nonmetallic substrate is exposed;

step g: removing the residual anti-etching paint through a laser process so as to expose the residual metal thickening layer;

step h: a layer of paint is electrophoretically coated on the metal thickening layer through an electrophoresis process, so that a paint layer is formed;

step i: carving a pattern hollowed-out area on the outer surface of the paint layer through a laser process;

step j: and electrodepositing a layer of gold or silver or copper on the metal thickening layer below the pattern hollowed-out area through an electrodeposition process to form a metal pattern layer.

Specifically, the vacuum plating process may be any vacuum plating process that may be implemented in the prior art, the electrodeposition process may be any electrodeposition process that may be implemented in the prior art, the electrophoresis process may be any electrophoresis process that may be implemented in the prior art, the spraying process may be any spraying process that may be implemented in the prior art, and the laser process may be any laser that may be implemented in the prior art; the etching process may be any etching process that can be implemented in the prior art; the alkaline solvent may be any alkaline solvent from which the etching resist can be removed in the prior art.

(III) beneficial effects

Compared with the prior art, the utility model designs an article with an embedded structure on the outer surface,

(1) According to the utility model, the metal pattern layer is arranged on the hollowed pattern area on the paint layer, and the thickness of the metal pattern layer is larger than that of the paint layer, so that the metal pattern layer protrudes out of the paint layer, a good anti-slip effect is achieved, and the paint layer is anti-falling and safer; meanwhile, the paint layer can play a good role in heat insulation, and scalding of a user is prevented;

(2) The metal pattern layer comprises the second metal layer which can cover the edge of the paint layer, and the paint layer can be well prevented from falling off.

Drawings

FIG. 1 is a schematic view of an article with a mosaic structure on the outer surface according to the first embodiment;

FIG. 2 is a schematic cross-sectional view of an article having a mosaic on an outer surface thereof according to the first embodiment;

FIG. 3 is an enlarged schematic view of FIG. 2 at A;

FIG. 4 is a schematic cross-sectional view of an article with a damascene structure on an outer surface (without a metal pattern layer) according to the first embodiment;

FIG. 5 is a schematic cross-sectional view of an article having a mosaic on an outer surface thereof according to a second embodiment;

FIG. 6 is a schematic cross-sectional view of an article having a mosaic on the outer surface thereof according to the third embodiment;

FIG. 7 is a schematic cross-sectional view of an article having a mosaic on the outer surface thereof according to the fourth embodiment;

FIG. 8 is a schematic cross-sectional view of an article (not including a metal pattern layer) having a damascene structure on an outer surface according to a fifth embodiment;

FIG. 9 is a schematic cross-sectional view of an article having a mosaic on an outer surface thereof according to a fifth embodiment;

FIG. 10 is a schematic cross-sectional view of an article having a mosaic on the outer surface thereof according to a sixth embodiment;

FIG. 11 is a schematic cross-sectional view of an article having a mosaic on an outer surface thereof according to a seventh embodiment;

fig. 12 is a schematic cross-sectional view of an article having a mosaic structure on the outer surface of the article according to the eighth embodiment.

Reference numerals illustrate: 1. a non-metallic substrate; 2. a conductive layer; 21. a titanium priming layer; 22. a metal conductive layer; 23. a first hollowed-out pattern area; 3. a metal thickening layer; 31. the second hollowed-out pattern area; 4. a paint layer; 41. a hollowed-out pattern area; 42. a third hollowed-out pattern area; 5. a metal pattern layer; 51. a first metal layer; 52. a second metal layer; 6. a pattern paint layer.

Detailed Description

The following describes in further detail the embodiments of the present utility model with reference to the drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Embodiment one:

as shown in fig. 1-4, an article with an embedded structure on the outer surface of the article according to this embodiment includes a non-metal substrate 1, wherein the outer surface of the non-metal substrate 1 is sequentially and closely provided with a conductive layer 2 and a metal thickening layer 3 to form a semi-finished product, the outer surface of the semi-finished product is closely provided with a paint layer 4 having a plurality of hollowed-out pattern areas 41, the semi-finished product is located at the hollowed-out pattern areas 41 and is closely provided with a metal pattern layer 5 to form an embedded structure, and the thickness of the metal pattern layer 5 is greater than that of the paint layer 4. By adopting the scheme, the metal pattern layer 5 is arranged on the hollowed pattern area 41 on the paint layer 4, and the thickness of the metal pattern layer 5 is larger than that of the paint layer 4, so that the metal pattern layer 5 protrudes from the paint layer 4, a good anti-slip effect is achieved, and the paint is anti-falling and safer; meanwhile, the paint layer 4 can play a good role in heat insulation, and scalding of a user is prevented. Further, the conductive layer 2 includes a metal conductive layer 22 formed on the outer surface of the non-metal substrate 1 by vacuum plating, the metal thickening layer 3 is formed by electrodepositing a layer of gold or silver or copper on the outer surface of the metal conductive layer 22, and the metal pattern layer 5 is formed by electrodepositing a layer of gold or silver or copper on the hollowed pattern area 41 of the paint layer 4. Further, the metal pattern layer 5 includes a first metal layer 51 adapted to the hollowed pattern area 41, and a second metal layer 52 formed at the edge of the first metal layer 51 and covering the paint layer 4 near the first metal layer 51. By adopting the above scheme, the second metal layer 52 covers the edge of the paint layer 4, so that the paint layer 4 can be well prevented from falling off. Further, the paint layer 4 is formed by applying a layer of paint on the metal thickening layer 3 in an electrophoresis manner, and the hollowed-out pattern area 41 is formed by laser engraving on the paint layer 4. Specifically, the hollowed-out pattern can be engraved by laser according to the requirement. Further, the nonmetallic substrate 1 comprises glass or ceramic or agate or jade or zircon or plastic or acrylic or resin or wooden material. Further, the articles comprise ornaments, tea sets, tableware, artware and water cups.

The processing method of the article with the mosaic structure on the outer surface of the embodiment comprises the following steps:

step a: providing a non-metal substrate 1, wherein the non-metal substrate 1 comprises glass, ceramic, agate, jade, zircon, plastic, acrylic, resin or wood material, and during processing, the non-metal substrate 1 is processed into a substrate to be processed by cutting and the like;

step b: forming a metal conductive layer 22 by vacuum plating a layer of gold or silver or copper on the outer surface of the non-metal substrate 1 by a vacuum plating process;

step c: electrodepositing a layer of gold or silver or copper on the outer surface of the metal conductive layer 22 by an electrodeposition process to form a metal thickening layer 3;

step d: a layer of paint is electrophoretically coated on the metal thickening layer 3 through an electrophoresis process, so that a paint layer 4 is formed; or alternatively; spraying a layer of paint on the metal thickening layer 3 through a spraying process to form a paint layer 4;

step e: removing part of the paint layer 4 through a laser process, so that a pattern hollowed-out area is carved on the outer surface of the paint layer 4;

step f: and electrodepositing a layer of gold or silver or copper on the metal thickening layer 3 in the pattern hollowed-out area through an electrodeposition process to form a metal pattern layer 5.

Embodiment two:

as shown in fig. 5, this embodiment differs from the first embodiment in that;

the conductive layer 2 of the present embodiment includes a titanium primer layer 21 on the outer surface of the nonmetallic substrate 1 by vacuum plating, and a metallic conductive layer 22 on the outer surface of the titanium primer layer 21 by vacuum plating.

The processing method of the article with the mosaic structure on the outer surface of the embodiment comprises the following steps:

step a: providing a non-metal substrate 1, wherein the non-metal substrate 1 comprises glass or ceramic or agate or jade or zircon materials, and during processing, the non-metal substrate 1 is processed into a substrate to be processed by cutting and the like;

step b: vacuum plating a layer of titanium on the outer surface of the nonmetallic substrate 1 through a vacuum plating process to form a titanium priming layer 21;

step c: forming a metal conductive layer 22 by vacuum plating a layer of gold or silver or copper on the outer surface of the titanium primer layer 21 by a vacuum plating process;

step d: electrodepositing a layer of gold or silver or copper on the outer surface of the metal conductive layer 22 by an electrodeposition process to form a metal thickening layer 3;

step e: a layer of paint is electrophoretically coated on the metal thickening layer 3 through an electrophoresis process, so that a paint layer 4 is formed; or alternatively; spraying a layer of paint on the metal thickening layer 3 through a spraying process to form a paint layer 4;

step f: removing part of the paint layer 4 through a laser process, so that a pattern hollowed-out area is carved on the outer surface of the paint layer 4;

step g: and electrodepositing a layer of gold or silver or copper on the metal thickening layer 3 in the pattern hollowed-out area through an electrodeposition process to form a metal pattern layer 5.

Embodiment III:

as shown in fig. 6, this embodiment is different from the first embodiment in that;

the outer surface of the metal pattern layer 5 in this embodiment is formed with a pattern paint layer 6 by electrophoresis, and the color of the pattern paint layer 6 is different from that of the paint layer 4, so that the outer surface of the finished product has a bicolor effect, and is more attractive. And, can electrophorese the pattern paint layer 6 of different colours on the metal pattern layer 5 of different positions according to the demand, more diversified.

The processing method of the article with the mosaic structure on the outer surface of the embodiment comprises the following steps:

step a: providing a non-metal substrate 1, wherein the non-metal substrate 1 comprises glass, ceramic, agate, jade, zircon, plastic, acrylic, resin or wood material, and during processing, the non-metal substrate 1 is processed into a substrate to be processed by cutting and the like;

step b: forming a metal conductive layer 22 by vacuum plating a layer of gold or silver or copper on the outer surface of the non-metal substrate 1 by a vacuum plating process;

step c: electrodepositing a layer of gold or silver or copper on the outer surface of the metal conductive layer 22 by an electrodeposition process to form a metal thickening layer 3;

step d: a layer of paint is electrophoretically coated on the metal thickening layer 3 through an electrophoresis process, so that a paint layer 4 is formed; or alternatively; spraying a layer of paint on the metal thickening layer 3 through a spraying process to form a paint layer 4;

step e: removing part of the paint layer 4 through a laser process, so that a pattern hollowed-out area is carved on the outer surface of the paint layer 4;

step f: electrodepositing a layer of gold or silver or copper on the metal thickening layer 3 in the pattern hollowed-out area through an electrodeposition process to form a metal pattern layer 5;

step g: a layer of paint is electrophoretically coated on the metal pattern layer 5 through an electrophoresis process, so that a pattern paint layer 6 is formed; or alternatively; and (3) coating a layer of paint on the metal pattern layer 5 through electrophoresis by a spraying process to form a pattern paint layer 6.

Embodiment four:

as shown in fig. 7, the present embodiment is different from the second embodiment in that;

the outer surface of the metal pattern layer 5 in this embodiment is formed with a pattern paint layer 6 by electrophoresis, and the color of the pattern paint layer 6 is different from that of the paint layer 4, so that the outer surface of the finished product has a bicolor effect, and is more attractive. And, can electrophorese the pattern paint layer 6 of different colours on the metal pattern layer 5 of different positions according to the demand, more diversified.

The processing method of the article with the mosaic structure on the outer surface of the embodiment comprises the following steps:

step a: providing a non-metal substrate 1, wherein the non-metal substrate 1 comprises glass or ceramic or agate or jade or zircon materials, and during processing, the non-metal substrate 1 is processed into a substrate to be processed by cutting and the like;

step b: vacuum plating a layer of titanium on the outer surface of the nonmetallic substrate 1 through a vacuum plating process to form a titanium priming layer 21;

step c: forming a metal conductive layer 22 by vacuum plating a layer of gold or silver or copper on the outer surface of the titanium primer layer 21 by a vacuum plating process;

step d: electrodepositing a layer of gold or silver or copper on the outer surface of the metal conductive layer 22 by an electrodeposition process to form a metal thickening layer 3;

step e: a layer of paint is electrophoretically coated on the metal thickening layer 3 through an electrophoresis process, so that a paint layer 4 is formed; or alternatively; spraying a layer of paint on the metal thickening layer 3 through a spraying process to form a paint layer 4;

step f: removing part of the paint layer 4 through a laser process, so that a pattern hollowed-out area is carved on the outer surface of the paint layer 4;

step g: electrodepositing a layer of gold or silver or copper on the metal thickening layer 3 in the pattern hollowed-out area through an electrodeposition process to form a metal pattern layer 5;

step h: a layer of paint is electrophoretically coated on the metal pattern layer 5 through an electrophoresis process, so that a pattern paint layer 6 is formed; or alternatively; and (3) coating a layer of paint on the metal pattern layer 5 through electrophoresis by a spraying process to form a pattern paint layer 6.

Fifth embodiment:

this embodiment differs from the first embodiment described above in that,

as shown in fig. 8-9, in this embodiment, the conductive layer 2 has a plurality of first hollow pattern areas 23, and a second hollow pattern area 31 is disposed above the first hollow pattern areas 23 in the metal thickening layer 3; the hollowed-out pattern area 41 is staggered with the first hollowed-out pattern area 23 and the second hollowed-out pattern area 31. Specifically, a part of the metal thickening layer 3 and a part of the conductive layer 2 are sequentially removed by etching to expose a part of the non-metal substrate 1, thereby forming a semi-finished product; and then, performing electrophoresis to apply protective paint outside the metal thickening layer 3 to form a paint layer 4, wherein the exposed non-metal substrate 1 is not subjected to electrophoresis to form the paint layer 4 with a third hollowed-out pattern area 42 because the exposed non-metal substrate 1 is not provided with conductivity, and the first hollowed-out pattern area 23, the second hollowed-out pattern area 41 and the third hollowed-out pattern area 42 are overlapped together from inside to outside. Preferably, the conductive layer 2 includes a metal conductive layer 22 formed by vacuum plating a layer of gold or silver or copper on the outer surface of the non-metal substrate 1 by vacuum plating.

The processing method of the article with the mosaic structure on the outer surface of the embodiment comprises the following steps:

step a: providing a non-metal substrate 1, wherein the non-metal substrate 1 comprises glass, ceramic, agate, jade, zircon, plastic, acrylic, resin or wood material, and during processing, the non-metal substrate 1 is processed into a substrate to be processed by cutting and the like;

step b: forming a metal conductive layer 22 by vacuum plating a layer of gold or silver or copper on the outer surface of the non-metal substrate 1 by a vacuum plating process;

step c: electrodepositing a layer of gold or silver or copper on the outer surface of the metal conductive layer 22 by an electrodeposition process to form a metal thickening layer 3;

step d: electrophoresis is carried out on the metal thickening layer 3 through an electrophoresis process to form a layer of anti-etching paint; or spraying a layer of anti-etching paint on the metal thickening layer 3 through a spraying process;

step e: removing part of the etch-resistant lacquer by means of an alkaline solvent so that part of the metallic thickening layer 3 is exposed;

step f: sequentially removing the exposed part of the metal thickening layer 3 and the metal conductive layer 22 from outside to inside through an etching process so as to expose part of the non-metal base material 1;

step g: removing the residual etching-resistant paint through a laser process so as to expose the residual metal thickening layer 3;

step h: a layer of paint is electrophoretically coated on the metal thickening layer 3 through an electrophoresis process, so that a paint layer 4 is formed;

step i: engraving a pattern hollowed-out area 41 on the outer surface of the paint layer 4 through a laser process;

step j: a metal pattern layer 5 is formed by electrodepositing a layer of gold or silver or copper on the metal thickening layer 3 under the pattern hollowed-out area 41 by an electrodeposition process.

Example six:

as shown in fig. 10, the present embodiment is different from the fifth embodiment in that;

in this embodiment, the conductive layer 2 includes a titanium primer layer 21 formed by vacuum plating a layer of titanium on the outer surface of the nonmetallic substrate 1 by vacuum plating, and a metallic conductive layer 22 formed by vacuum plating a layer of gold or silver or copper on the outer surface of the titanium primer layer 21 by vacuum plating.

The processing method of the article with the mosaic structure on the outer surface of the embodiment comprises the following steps:

step a: providing a non-metal substrate 1, wherein the non-metal substrate 1 comprises glass, ceramic, agate, jade, zircon, plastic, acrylic, resin or wood material, and during processing, the non-metal substrate 1 is processed into a substrate to be processed by cutting and the like;

step b: vacuum plating a layer of titanium on the outer surface of the nonmetallic substrate 1 through a vacuum plating process to form a titanium priming layer 21;

step c: forming a metal conductive layer 22 by vacuum plating a layer of gold or silver or copper on the outer surface of the titanium primer layer 21 by a vacuum plating process;

step d: electrodepositing a layer of gold or silver or copper on the outer surface of the metal conductive layer 22 by an electrodeposition process to form a metal thickening layer 3;

step e: electrophoresis is carried out on the metal thickening layer 3 through an electrophoresis process to form a layer of anti-etching paint; or spraying a layer of anti-etching paint on the metal thickening layer 3 through a spraying process;

step f: removing part of the etch-resistant lacquer by means of an alkaline solvent so that part of the metallic thickening layer 3 is exposed;

step g: sequentially removing the exposed part of the metal thickening layer 3, the metal conductive layer 22 and the titanium primer layer 21 from outside to inside through an etching process so as to expose part of the non-metal base material 1;

step h: removing the residual etching-resistant paint through a laser process so as to expose the residual metal thickening layer 3;

step i: a layer of paint is electrophoretically coated on the metal thickening layer 3 through an electrophoresis process, so that a paint layer 4 is formed;

step j: engraving a pattern hollowed-out area 41 on the outer surface of the paint layer 4 through a laser process;

step k: a metal pattern layer 5 is formed by electrodepositing a layer of gold or silver or copper on the metal thickening layer 3 under the pattern hollowed-out area 41 by an electrodeposition process.

Embodiment seven:

as shown in fig. 11, the present embodiment is different from the fifth embodiment in that;

the outer surface of the metal pattern layer 5 in this embodiment is formed with a pattern paint layer 6 by electrophoresis, and the color of the pattern paint layer 6 is different from that of the paint layer 4, so that the outer surface of the finished product has a bicolor effect, and is more attractive. And, can electrophorese the pattern paint layer 6 of different colours on the metal pattern layer 5 of different positions according to the demand, more diversified.

Step a: providing a non-metal substrate 1, wherein the non-metal substrate 1 comprises glass, ceramic, agate, jade, zircon, plastic, acrylic, resin or wood material, and during processing, the non-metal substrate 1 is processed into a substrate to be processed by cutting and the like;

step b: forming a metal conductive layer 22 by vacuum plating a layer of gold or silver or copper on the outer surface of the non-metal substrate 1 by a vacuum plating process;

step c: electrodepositing a layer of gold or silver or copper on the outer surface of the metal conductive layer 22 by an electrodeposition process to form a metal thickening layer 3;

step d: electrophoresis is carried out on the metal thickening layer 3 through an electrophoresis process to form a layer of anti-etching paint; or spraying a layer of anti-etching paint on the metal thickening layer 3 through a spraying process;

step e: removing part of the etch-resistant lacquer by means of an alkaline solvent so that part of the metallic thickening layer 3 is exposed;

step f: sequentially removing the exposed part of the metal thickening layer 3 and the metal conductive layer 22 from outside to inside through an etching process so as to expose part of the non-metal base material 1;

step g: removing the residual etching-resistant paint through a laser process so as to expose the residual metal thickening layer 3;

step h: a layer of paint is electrophoretically coated on the metal thickening layer 3 through an electrophoresis process, so that a paint layer 4 is formed;

step i: engraving a pattern hollowed-out area 41 on the outer surface of the paint layer 4 through a laser process;

step j: electrodepositing a layer of gold or silver or copper on the metal thickening layer 3 below the pattern hollowed-out area 41 by an electrodeposition process to form a metal pattern layer 5

Step k: a layer of paint is electrophoretically coated on the metal pattern layer 5 through an electrophoresis process, so that a pattern paint layer 6 is formed; or alternatively; and (3) coating a layer of paint on the metal pattern layer 5 through electrophoresis by a spraying process to form a pattern paint layer 6.

Example eight:

as shown in fig. 12, the present embodiment is different from the sixth embodiment in that;

the outer surface of the metal pattern layer 5 in this embodiment is formed with a pattern paint layer 6 by electrophoresis, and the color of the pattern paint layer 6 is different from that of the paint layer 4, so that the outer surface of the finished product has a bicolor effect, and is more attractive. And, can electrophorese the pattern paint layer 6 of different colours on the metal pattern layer 5 of different positions according to the demand, more diversified.

The processing method of the article with the mosaic structure on the outer surface of the embodiment comprises the following steps:

step a: providing a non-metal substrate 1, wherein the non-metal substrate 1 comprises glass, ceramic, agate, jade, zircon, plastic, acrylic, resin or wood material, and during processing, the non-metal substrate 1 is processed into a substrate to be processed by cutting and the like;

step b: vacuum plating a layer of titanium on the outer surface of the nonmetallic substrate 1 through a vacuum plating process to form a titanium priming layer 21;

step c: forming a metal conductive layer 22 by vacuum plating a layer of gold or silver or copper on the outer surface of the titanium primer layer 21 by a vacuum plating process;

step d: electrodepositing a layer of gold or silver or copper on the outer surface of the metal conductive layer 22 by an electrodeposition process to form a metal thickening layer 3;

step e: electrophoresis is carried out on the metal thickening layer 3 through an electrophoresis process to form a layer of anti-etching paint; or spraying a layer of anti-etching paint on the metal thickening layer 3 through a spraying process;

step f: removing part of the etch-resistant lacquer by means of an alkaline solvent so that part of the metallic thickening layer 3 is exposed;

step g: sequentially removing the exposed part of the metal thickening layer 3, the metal conductive layer 22 and the titanium primer layer 21 from outside to inside through an etching process so as to expose part of the non-metal base material 1;

step h: removing the residual etching-resistant paint through a laser process so as to expose the residual metal thickening layer 3;

step i: a layer of paint is electrophoretically coated on the metal thickening layer 3 through an electrophoresis process, so that a paint layer 4 is formed;

step j: engraving a pattern hollowed-out area 41 on the outer surface of the paint layer 4 through a laser process;

step k: electrodepositing a layer of gold or silver or copper on the metal thickening layer 3 below the pattern hollowed-out area 41 through an electrodeposition process to form a metal pattern layer 5;

step l: a layer of paint is electrophoretically coated on the metal pattern layer 5 through an electrophoresis process, so that a pattern paint layer 6 is formed; or alternatively; and (3) coating a layer of paint on the metal pattern layer 5 through electrophoresis by a spraying process to form a pattern paint layer 6.

Specifically, the vacuum plating process may be any vacuum plating process that may be implemented in the prior art, the electrodeposition process may be any electrodeposition process that may be implemented in the prior art, the electrophoresis process may be any electrophoresis process that may be implemented in the prior art, the spraying process may be any spraying process that may be implemented in the prior art, and the laser process may be any laser that may be implemented in the prior art; the etching process may be any etching process that can be implemented in the prior art; the alkaline solvent may be any alkaline solvent from which the etching resist can be removed in the prior art.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that modifications and variations can be made without departing from the technical principles of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims (10)

1. An article having an exterior surface with a mosaic structure, characterized by: including nonmetallic substrate (1), the surface of nonmetallic substrate (1) is hugged closely in proper order and is provided with conducting layer (2) and metal thickening layer (3) and is formed semi-manufactured goods, the surface of semi-manufactured goods is hugged closely and is provided with paint layer (4) that have a plurality of fretwork pattern areas (41), semi-manufactured goods are located fretwork pattern area (41) department is hugged closely and is provided with metal pattern layer (5) and forms mosaic structure, and, the thickness of metal pattern layer (5) is greater than the thickness of paint layer (4).

2. The article having a mosaic on its outer surface according to claim 1, wherein: the conductive layer (2) comprises a metal conductive layer (22) which is formed by vacuum plating on the outer surface of the non-metal base material (1), wherein the metal conductive layer (22) is formed by vacuum plating a layer of gold or silver or copper on the outer surface of the non-metal base material (1); the metal thickening layer (3) is formed by electrodepositing a layer of gold or silver or copper on the outer surface of the metal conductive layer (22), and the metal pattern layer (5) is formed by electrodepositing a layer of gold or silver or copper on the hollowed pattern area (41) of the paint layer (4).

3. The article having a mosaic on its outer surface according to claim 2, wherein: the metal pattern layer (5) comprises a first metal layer (51) matched with the hollowed pattern area (41), and a second metal layer (52) formed at the edge of the first metal layer (51) and covering the position, close to the first metal layer (51), of the paint layer (4).

4. The article having a mosaic on its outer surface according to claim 2, wherein: the conductive layer (2) further comprises a titanium primer layer (21) which is formed on the outer surface of the non-metal base material (1) through vacuum plating, and the metal conductive layer (22) is formed by vacuum plating a layer of gold or silver or copper on the outer surface of the titanium primer layer (21).

5. The article having a mosaic on its outer surface according to claim 1, wherein: the paint layer (4) is formed by electrophoresis of a layer of paint on the metal thickening layer (3), and the hollowed-out pattern area (41) is formed by laser engraving on the paint layer (4).

6. The article having a mosaic on its outer surface according to claim 1, wherein: a pattern paint layer (6) is formed on the outer surface of the metal pattern layer (5) through electrophoresis, and the color of the pattern paint layer (6) is different from that of the paint layer (4).

7. The article having a mosaic on its outer surface according to claim 1, wherein: the nonmetallic substrate (1) comprises glass or ceramic or agate or jade or zircon or plastic or acrylic or resin or wooden material.

8. The article having a mosaic on its outer surface according to claim 1, wherein: the article comprises ornaments and artware.

9. The article having a mosaic on its outer surface according to claim 1, wherein: the articles comprise cups, tea sets and tableware.

10. An article having a mosaic structure on its outer surface according to any one of claims 1 to 9, wherein: the conductive layer (2) is provided with a plurality of first hollowed-out pattern areas (23), and a second hollowed-out pattern area (31) is arranged above the first hollowed-out pattern areas (23) in the metal thickening layer (3); wherein the hollowed-out pattern area (41) is staggered with the first hollowed-out pattern area (23) and the second hollowed-out pattern area (31).