KR100497966B1 - Composition jewelry with in a thin metal film and process method of thereof - Google Patents

Abstract

The present invention relates to a synthetic jewelry decorating ornaments, and more particularly, to a synthetic jewelry in which two metals are bonded to each other by different or identical synthetic gemstones. The present invention relates to a synthetic gem formed by bonding internally and to a method of manufacturing the same.

Bonding a metal thin film having a thickness of 0.001 to 0.025 mm between an upper layer and a lower layer by means of an adhesive (ultraviolet adhesive), wherein the arrangement comprises arranging the designed metal thin film with the lower layer; A lower bonding process of fixing the lower layer and the metal thin film with an adhesive and irradiating ultraviolet rays; A thin film forming process using a corrosion method of immersing the metal thin film and the lower layer bonded through the lower bonding process in a corrosion solution; An upper bonding step of fixing the lower layer and the metal thin film as a desired pattern through the thin film forming process with an upper layer and an adhesive (ultraviolet adhesive) and irradiating ultraviolet rays; It is composed of a jewel processing process for processing a jewel to a desired shape of the synthetic gems after the upper bonding process is not limited limitation of the thickness of the metal thin film, and also the synthesis of the metal thin film that has the effect of deviating from the limitation of the form Jewelry manufacturing method.

Description

Composition jewelry with in a thin metal film and process method of

The present invention relates to a synthetic jewelry for decorating ornaments, and more particularly to a synthetic jewelry impregnated by bonding a metal thin film between two different materials or the same synthetic jewelry.

In general, in jewelry and synthetic jewelry, a method of cutting and bonding a metal plate (M) designed on the upper surface 10 'of the jewelry 1 as shown in FIG. 6 has been used. This doubles the gloss and decoration of the metal with the jewels, thereby increasing the scarcity and decoration of the jewelry.

In particular, jewelry is indispensable, and it refers to a measure of the expensiveness and scarcity of jewelry, and also the splendor, and it is an important factor that affects the shape and design of jewelry.

However, the general metal plate bonding method for forming the metal plate (M) on the upper surface 10 'of the jewelry (1) is the risk of loss, such as falling of the metal plate (M) on the jewelry (1) and the metal plate on the body scratches and clothing Safety such as being caught by the corners of M and being stuck or scratched became a problem.

In addition, the conventional metal plate (M) of the conventional jewelry (1) is to maintain a thickness of about 0.3 ~ 0.5mm, which is a thin thickness is very difficult to maintain the metal plate (M) forming form, the shape is also limited The main form has come to dominate.

The present invention has been made in view of such a conventional problem, and to provide a synthetic gem formed by bonding the metal thin film to the inside by an adhesive.

Another object is to provide a manufacturing method for producing a synthetic gem is made by bonding a metal thin film to the inside by an adhesive. In the present invention, the adhesive means a vinyl adhesive such as liquid acrylate (hereinafter referred to as "acrylic adhesive"), for example, an adhesive made of epoxy modified hydrophobic cant (Epoxy modified hydrophobiccant), as described above When the adhesive is irradiated with ultraviolet rays, polymers and other monomers are polymerized by photonitation contained in the adhesive, which is a double bond compound, to form larger chains and adhere firmly.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention.

1 is an exploded perspective view schematically showing a synthetic gem stone embedded with a metal thin film according to the present invention.

Between the upper layer 10 forming the upper portion and the lower layer 20 forming the lower portion, the metal thin film 30 made of the metal thin film 30 is adhered by the above-described liquid acrylic adhesive.

Preferably, the upper layer 10 is composed of a synthetic gemstone 1 of transparent material, and the lower layer 20 is composed of a synthetic gemstone 1 of transparent material and opaque material. The upper layer 10 and the lower layer 20 may not be the same material, and may be a silicon material such as glass and stone other than the synthetic gemstone 1.

The metal thin film 30 has a thickness of 0.001 ~ 0.025mm, and although not shown in the figure, it is formed between letters and patterns and positioned between the upper layer 10 and the lower layer 20 to have transparency and refractive index of the gem. The metal thin film 30 is refracted to be used.

Figure 2 is a perspective view showing a synthetic gem metal built-in thin film according to the present invention.

As shown in FIG. 1, the synthetic gem 1 in which the upper layer 10 and the lower layer 20 are bonded to each other by using the acrylic adhesive described above is molded into a desired jewel.

3 is a cross-sectional view of a synthetic gem stone embedded metal thin film according to the present invention.

As shown in the figure, the upper layer 10 and the lower layer 20 have no problem because the metal thin film 30 is very thin, and after applying the acrylic adhesive, ultraviolet rays are applied. By solidifying the adhesive, the upper layer 10 and the lower layer 20 are fixedly bonded.

Figure 4 is a process chart showing a method of manufacturing a synthetic gem stone embedded metal thin film according to the present invention.

Two methods are generally used in the thin film forming step S3 of the method of manufacturing the synthetic gemstone 1 in which the metal thin film 30 according to the present invention is incorporated.

The thin film forming process (S3) has a corrosion method and a vacuum deposition method, of which will be described with reference to the corrosion method shown in FIG.

Referring to Figure 4,

First of all, the pre-painted and plated metal thin film 30 is cut to an arbitrary size and then subjected to the lower layer 20 and the alignment process S1, and then the lower layer 20 and the metal thin film 30 are fixed with the adhesive and UV Perform the bottom bonding process (S2) to investigate.

When the metal thin film 30 and the lower layer 20 adhered through the lower bonding process S2 are immersed in a corrosion solution, the thin film forming process S3 is performed when the metal thin film 30 that is previously designed (embossed) becomes a desired pattern layer. To finish.

At this time, the thickness of the thin film formed by the corrosion method is 0.02 ~ 0.025mm, and is formed by corrosion to a thickness thicker than the thickness of the vacuum deposition method described later.

Through the thin film forming process (S3) to fix the lower layer 20 and the metal thin film 30 shown in the desired pattern with the upper layer 10 and the adhesive and performs an upper bonding step (S4) for irradiating UV light.

At this time, apply the above-mentioned adhesive of the liquid in the lower bonding process (S2) and the upper bonding process (S4), arrange and fix the desired objects, and then irradiate with ultraviolet rays, the components of the adhesive, that is, polymers and monomers are polymerized, deformed and solidified. It is joined.

Synthetic gemstone (1) having finished the upper bonding step (S4) is used as a gem of any shape through the jewelry processing step (S5) for processing the gemstone in the desired shape.

Another embodiment is a method of using the vacuum thin film forming process (S3) during the process, the vacuum deposition method is a vacuum-deposited by placing a pattern layer (not shown) treated intaglio in the lower layer 20 The metal thin film 30 is formed on the intaglio pattern layer.

At this time, the metal thin film 30 has a thickness of about 0.001 ~ 0.002mm, the thickness of the metal thin film 30 is significantly different from the thickness of the above-described corrosion method, material savings, cost reduction and precision of the design It is effective to increase.

The bonded synthetic jewels (1) is placed on the girdle surface (G), which is halfway between the table surface (T) and the pavilion surface (P) of the jewel, the synthetic jewels (1) The reflectivity of is higher due to the gloss of the metal installed therein, and the decoration is also increased.

In this case, the shape of the synthetic gems 1 may be formed in any form as well as the general brilliant cut of FIG. 5.

Especially, if you put letters on the inside of the pattern layer, you can have the effect of advertisement, etc., and it is effective to increase the meaning and scarcity when presenting jewelry.

As described above, the synthetic jewelry impregnated with the metal thin film according to the present invention is placed in the middle layer of the jewelry, such as initials and patterns between themselves or lovers, such as the loss of the metal plate on the jewelry that the conventional jewelry falls There is an effect of preventing the risk, there is a safety to prevent the risk of the metal plate, such as scratching the body and clothing due to the conventional jewelry.

In addition, the conventional jewelry has a limitation of rework and thickness due to the metal plate lost.

The conventional metal plate of the conventional jewelry has to maintain a thickness of about 0.3 ~ 0.5mm, which becomes a very difficult to maintain the shape of the metal thin film when the thickness is thin, the shape is also limited form predominantly.

Therefore, since the synthetic gems having the metal thin film according to the present invention are installed in the synthetic gems, there is no limiting limitation of the thickness, and also the effect of escaping the limiting of the form.

Embodiments of the synthetic gemstone and the method of manufacturing the metal thin film according to the present invention described above are intended to illustrate the spirit of the present invention is not limited to the embodiment described above. Anyone skilled in the art will be able to modify the synthetic gems impregnated with the metal thin film according to the present invention without departing from the scope of the appended claims.

1 is an exploded perspective view schematically showing a synthetic gem stone embedded metal thin film according to the present invention,

Figure 2 is a perspective view showing a synthetic gem stone embedded metal thin film according to the present invention,

Figure 3 is a cross-sectional view of a synthetic gem stone embedded metal thin film according to the present invention,

Figure 4 is a process chart showing a method of manufacturing a synthetic gem stone embedded metal thin film according to the present invention

5 is a perspective view showing a form in which a metal thin film is embedded in a gem of a general brilliant cut shape;

6 is a perspective view of a synthetic gem using a conventional metal plate bonding method.

* Explanation of symbols for main parts *

1: Synthetic gem 10: Upper layer

10 ': upper surface 20: lower layer

30: metal thin film M: metal plate

G: If you help P: Pavilion if

S1: Array Process S2: Bottom Bonding Process

S3: Thin Film Forming Process S4: Top Bonding Process

S5: Jewelry Processing T: Table Surface

Claims (3)

Synthetic gemstone with a metal thin film, characterized in that the metal thin film 30 having a thickness of 0.001 ~ 0.025mm between the upper layer 10 and the lower layer 20 by adhesive irradiation to the acrylic adhesive by ultraviolet irradiation. An array step (S1) of arranging the designed metal thin film 30 with the lower layer 20; A lower bonding process (S2) for fixing the lower layer 20 and the metal thin film 30 with an adhesive and irradiating ultraviolet rays; A thin film forming process (S3) using a corrosion method of immersing the metal thin film 30 and the lower layer 20 adhered through the lower bonding process (S2) in a corrosion solution; An upper bonding step (S4) of fixing the lower layer 20 and the metal thin film 30 to the upper layer 10 and the acrylic adhesive through the thin film forming process (S3) and irradiating ultraviolet rays; Synthetic gemstone manufacturing method comprising a metal thin film, characterized in that the gemstone processing step (S5) for processing the gemstone in the desired shape of the synthetic gemstone (1) completed the upper bonding step (S4). The method of claim 2, Synthetic gemstone embedded in the metal thin film, characterized in that the thin film forming process (S3) for forming the metal thin film 30 by vacuum depositing the metal thin film 30 and the lower layer 20 bonded through the lower bonding process (S3). Manufacturing method.