KR100467239B1 - manufacturing method of sunglasses having decorative reflection hologram - Google Patents

Abstract

The present invention relates to a manufacturing method of a sunglass having a decorative reflective hologram, eliminating the process of overcoating on the top of the conventional embossed hologram, instead of the manufacturing method of laminating the embossed hologram film laminated body formed with an overcoating layer Provided is a method of manufacturing a sunglass having a decorative reflective hologram to significantly reduce the occurrence of defects.

Description

Manufacturing method of sunglasses having decorative reflection hologram

The present invention relates to a method of manufacturing a sunglass having a decorative reflective hologram, and more particularly, to improve the method of manufacturing a conventional sunglass having a hologram to easily form an overcoating layer to significantly reduce the occurrence of defective rate and at the same time manufacturing cost It relates to a method of manufacturing a sunglass having a decorative reflective hologram to lower the.

Typically, holography is a phase and amplitude of a coherent wavefront modulated by interaction with a three-dimensional object, recorded on a recording medium, where the stored phase and amplitude are used to reproduce a three-dimensional image of the original three-dimensional object. do.

Recently, as the technology of holography has advanced considerably, technology related to holography has been applied in various fields. In particular, as the market interest in sunglasses using reflective display holograms is gradually increasing, many technologies for sunglasses having holograms have been studied.

Sunglasses using the reflective display holograms include sunglasses using embossed reflective display holograms and sunglasses using volume phase reflection holograms.

Sunglasses using a double embossed reflective display hologram is typically coated with a conductive metal such as silver on the formed embossed hologram and immersed in a electroplating bath to form a metal layer such as a nickel layer; Forming a hologram by continuously forming an interference pattern in a plastic substrate using a metal layer such as the nickel plating layer as a hard master; A coating step of manufacturing a holographic laminate by coating a metal having high reflectivity such as aluminum on the hologram; A single blank is cut and removed from the holographic laminate to form a flat lens blank, which is then heated and softened to form an alternative lens curved in a single axial direction. The alternative lens thus manufactured is manufactured by installing a coupling means to be worn by a user in a conventional manner.

However, such a technology has a disadvantage in that the process of forming the reflective display hologram on the light transmissive plastic substrate is complicated and requires several steps.

Accordingly, the present inventors form a reflective hologram laminate in a sunglass having a decorative reflective hologram of Korean Patent Application No. 2000-16776 and a method for manufacturing the same by a transfer method on a light-transmissive plastic substrate, and in the process, the hologram laminate And a technology that allows the light-transmissive plastic substrate to be attached efficiently.

More specifically, the technique prepares a holographic laminate comprising a base film layer, a release agent layer, a primer layer, a transparent metal layer, an embossed reflective display hologram and an adhesive layer sequentially, and the adhesive of the holographic laminate The layer is seated facing the light transmissive plastic substrate, and then the holographic laminate is pressed onto the light transmissive plastic substrate while transferring heat and pressure simultaneously using a stamper, and the hardness on top of the embossed hologram. And a method of manufacturing a lens blank by overcoating in order to impart scratch resistance, and then forming the lens blank by a conventional method and post-processing to manufacture sunglass.

The manufacturing method described above has the advantage that the hologram can be easily formed on the light transmissive plastic substrate as well as the hologram is efficiently adhered to the light transmissive plastic substrate as compared with the conventional sunglass manufacturing method.

However, the overcoating process is performed to improve the regeneration efficiency of the embossed hologram and maintain the hardness and the scratch resistance of the embossed hologram during the manufacturing process of the sunglass, which is a technology pre- filed by the present inventors. There is a problem in that the over-coating with a thickness and the removal of dust during over-coating are very difficult and the defective rate is high.

Accordingly, the present invention provides a method of manufacturing a sunglass having a decorative reflective hologram that not only can easily form an overcoating layer by improving the method of manufacturing a conventional sunglass pre- filed by the present inventor, but also significantly lowers a defect rate. There is a purpose.

1 is a perspective view of a sunglass having a decorative reflective hologram according to one embodiment of the invention.

2 is a view showing a lens blank according to an embodiment of the present invention.

3 is a view sequentially showing a manufacturing process of the sunglass having a decorative reflective hologram according to the present invention.

<Description of the symbols for the main parts of the drawings>

1: sunglasses

10 lens 11 hologram 20 frame

3: lens blank

31: film laminate

311: overcoat layer 312: ultra-thin ultra-transparent film 313: adhesive layer

32: hologram layer

33: light transmissive plastic substrate

The present invention to achieve the above object

In the method of manufacturing a sunglass having a decorative reflective hologram on one side,

A first step of forming an embossed reflective hologram layer on the transparent plastic substrate;

Separately, the over coating layer is formed on the top of the ultra-thin ultra-transparent film for maintaining hardness and imparting scratch resistance, and the adhesive layer is formed on the bottom of the ultra-thin ultra-transparent film on which the over-coating layer is formed. A second step of manufacturing a film laminated body consisting of;

A third step of directing the adhesive layer of the film laminate manufactured in the second step toward the embossed reflective hologram on the transparent plastic substrate prepared in the first step and then laminating to form a lens blank; And

It can be achieved by providing a method for producing sunglass having a decorative reflective hologram, characterized in that the fourth step of forming the lens blank by a conventional method and post-processing to produce a sunglass.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings. However, the present invention is not limited to the present invention, but is provided to aid the understanding of the present invention.

1 is a perspective view of a sunglass having a decorative reflective hologram according to one embodiment of the invention. As shown the sunglass 1 with decorative reflective hologram according to the invention consists of a lens 10 and a frame 20. In this case, the lens 10 is provided with a hologram 11, and the hologram 11 is formed to be reproduced by an observer and not reproduced by a wearer.

FIG. 2 is a view showing a structure of a lens blank according to an embodiment of the present invention. When the lens blank 3 is formed and processed by a suitable method, the lens 10 shown in FIG. 1 may be obtained.

As shown in FIG. 2, the lens blank 3 according to the exemplary embodiment of the present invention has an overcoating layer 311 on the top of the ultra-thin ultra-transparent film 312 and an adhesive layer 313 on the bottom thereof. (31); An embossed reflective hologram layer 32; It consists of an optically transparent plastic substrate 33.

3 is a view sequentially illustrating a manufacturing process of the sunglass having a decorative reflective hologram according to the present invention.

As shown, the present invention first undergoes a first process of forming an embossed reflective hologram layer on a light transmissive plastic substrate (41, 42 in FIG. 3). In this case, various well-known methods may be applied to the first process of forming the hologram on the transparent plastic substrate.

In particular, it is preferable to apply the method described in Korean Application No. 2000-16776 by the inventor. That is, a conventional holographic laminate prepared with a base film layer, a release agent layer, a primer layer, a transparent metal layer, an embossed reflective display hologram, and an adhesive layer in sequence is prepared, and the adhesive layer of the holographic laminate is a light transmissive plastic substrate. The holographic laminate can be formed by pressing the holographic laminate onto the light-transmissive plastic substrate while transferring the holographic laminate onto the light-transmissive plastic substrate while simultaneously placing heat and pressure using a stamper. In this case, the base film layer uses a film made of polyester or polyethylene terephthalate, the adhesive layer is formed using a vinyl chloride resin, and the light-transmissive plastic substrate is made of a polycarbonate that is commonly used. It is formed using a urethane, acrylic or melanin primer as the primer layer.

The second process is performed separately from the first process. The second process according to the present invention is to form an overcoat layer and an adhesive layer on the top and bottom of the transparent ultra-thin ultra-transparent film, respectively, to produce a film laminate (51, 52, 53 of Figure 3). That is, an overcoat layer is formed on the top of the transparent ultrathin film to maintain hardness and scratch prevention, and an adhesive layer is formed on the bottom of the ultrathin film on which the overcoat layer is formed.

At this time, the over-coating to have a high transparency on the top of the ultra-thin ultra-transparent film to prevent hardness and scratches is very easy in the field of film formation and is also widely used technology.

According to the present invention, as the ultra-thin ultra-transparent film, polyester, polyethylene terephthalate, polycarbonate, acrylic or other various films can be used.

In addition, the adhesive layer is formed using a commonly used adhesive, including vinyl chloride resin.

When the first step and the second step are completed, the adhesive layer of the film laminate manufactured in the second step is directed toward the hologram on the light-transmissive plastic substrate prepared in the first step, and then laminated to form the lens blank. The third step of forming is in progress (61, 62 in Fig. 3).

That is, the feature of the present invention is to eliminate the process of overcoating the top of the conventional embossed hologram, and instead to the laminated film with the overcoated layer formed on the embossed hologram and laminating.

As such, when the overcoating layer is formed on the ultra-thin ultra-transparent film, the defective occurrence rate is significantly lowered. This is due to the characteristics of the conventional embossed hologram overcoating to the same thickness on the top and the removal of dust during overcoating is very difficult, the defect rate is high, but in the case of the present invention to form an overcoating layer on a flat ultra-thin ultra-transparent film Since the failure rate is very low.

Therefore, it can be inferred that the defect occurrence rate in the process of forming the overcoating layer is significantly reduced. In fact, in the case of forming the overcoating layer on the ultra-thin ultra-transparent film according to the present invention, the incidence of defects when the overcoating layer is formed on the top of a conventional embossed hologram is less than about 20%. Able to know.

The lens blank manufactured in the third step is molded in the usual method according to the fourth step of the present invention, and then processed into a sunglass (71, 72, 81 in Fig. 3). That is, the sunglass is manufactured by installing the coupling means for wearing the molded and molded lens to the user by cutting the lens blank and bending it by heating and softening the lens blank.

As described above, the present invention eliminates the process of overcoating the top of the conventional embossed hologram, and instead decorates the film laminate having the overcoating layer formed thereon with the embossed hologram and the laminating, thereby reducing the defective rate significantly. It is a useful invention to provide a method for producing sunglass having a hologram.

Although the present invention has been described with reference to the accompanying drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention should be defined only by the appended claims.

Claims (3)

In the method of manufacturing a sunglass having a decorative reflective hologram on one side, A first step of forming an embossed reflective hologram layer on the transparent plastic substrate; Separately, the over coating layer is formed on the top of the ultra-thin ultra-transparent film for maintaining hardness and imparting scratch resistance, and the adhesive layer is formed on the bottom of the ultra-thin ultra-transparent film on which the over-coating layer is formed. A second step of manufacturing a film laminated body consisting of; A third step of directing the adhesive layer of the film laminate manufactured in the second step toward the embossed reflective hologram on the transparent plastic substrate prepared in the first step and then laminating to form a lens blank; And And a fourth step of forming the lens blank in a conventional manner and post-processing to manufacture the sunglass. 2. The method of claim 1, wherein a polyester, polyethylene terephthalate, polycarbonate, or acrylic film is used as the ultra-thin transparent film. delete