KR100369784B1 - Sunglasses having decorative reflection hologram and method for manufacturing the same - Google Patents

Abstract

The present invention relates to a sunglass having a decorative reflective hologram and a method of manufacturing the same. The method comprises the steps of preparing a holographic laminate comprising a base film layer, a release agent layer, a primer layer, an embossed reflective display hologram layer and an adhesive layer sequentially; Preparing a light transmissive plastic substrate; Mounting the holographic laminate on a light transmissive plastic substrate such that the adhesive layer faces the light transmissive plastic substrate; Pressing and stamping the holographic laminate onto the light transmissive plastic substrate while simultaneously applying heat and pressure using a stamper; And providing a lens blank by removing the base film layer from the resulting combination of layers.

Description

Sunglasses having decorative reflection hologram and method for manufacturing the same

The present invention relates to a sunglass having a decorative reflective hologram and a manufacturing method thereof, and more particularly to a decorative reflective hologram which allows a decorative image recorded using holographic technology in a reflective hologram to be reproduced to an observer and not to a wearer. Sunglasses and a method of manufacturing the same (sunglasses having decorative reflection hologram and method for manufacturing the same).

Holography is a unique image recording process that is distinct from other image recording processes; For example, the phase and amplitude of the coherent wavefront modulated by interaction with a three-dimensional object are recorded on the recording medium. The phase and amplitude stored in this way can be reproduced to provide a three-dimensional image of the original three-dimensional object.

In general, in the manufacture of holograms, the object on which the image is to be recorded is irradiated with a first component which is divided from the coherent radiation source. The amount of radiation reflected from an object is directed to a recording medium sensitized in a suitable manner, for example, a photographic plate or a photopolymerization medium. As such, the coherent radiation beam interrupted by the object is commonly referred to as the object beam. At the same time, the second component divided from the coherent radiation source is directed to the recording medium bypassing the object. Such coherent beams are commonly referred to as reference beams. The resulting interference pattern derived by the interaction between the reference beam and the object beam simultaneously colliding on the recording medium is potentially recorded in the recording medium. When the exposed recording medium has been processed (e.g., for development of latent recordings) and then properly irradiated and observed at an appropriate angle (i.e., an angle generally coinciding with the angle of incidence of the reference beam), this dose is determined by the interference pattern (hologram) Interact with to reproduce the wavefront that was originally reflected from the object and reached the recording medium. Accordingly, it is possible to create a reproduced image using holography technology.

With the development of these basic technologies, holographic techniques have been used for various purposes. Accordingly, the market interest in sunglasses using reflective display holograms is also increasing. Sunglasses using reflective display holograms include sunglass using embossed reflective display holograms, sunglass using volume phase reflection holograms, and the like.

Embossed reflective display holograms are typically formed starting from a master off-axis hologram and going through a multi-step process. The first step generally includes forming a master off-axis hologram; In forming such master off-axis hologram, the real object is placed at a certain distance from the surface of the recording medium, and the reference beam is a collimated or parallel beam. The second step generally includes illuminating the master off-axis hologram with a collimated light beam to project the actual image of the object into space. Then, the second hologram is molded by placing the new recording medium at the position of the projected real image and introducing a new reference beam at a constant angle. Typically, the recording medium used in this second step is used as a holographic photoresist when molding embossed holograms. Holographic photoresist is a material whose depth is proportional to the intensity of the incident radiation when exposed and developed using holographic techniques. The third step of forming the embossed hologram is to coat the surface of the holographic photoresist exposed in the second step with a conductive metal, such as silver, and dip the coated hologram in an electroplating bath, such as a nickel layer. Forming a layer. The fourth step includes using the nickel plated layer as a hard master to continuously emboss the interference pattern in the softened plastic by heat, pressure, solvent or a combination thereof. After the embossing molding process is performed, finally, in the last step, the plastic is coated with a metal with high reflectivity such as aluminum to improve the regeneration efficiency of the embossed hologram.

On the other hand, referring to US Pat. No. 6,020,983, a method for manufacturing eye cover products having a volume phase reflecting hologram is described. In this method, a recording medium is constructed by depositing a photoactive composition that is active for coherent radiation onto an optically transparent flexible web, which recording medium is in hologram form by the properties of the photoactive composition that is active for coherent radiation. Can be recorded. On one side of the recording medium a reference beam impinges through the optically transparent web and on the opposite side of the one side to produce a volume phase reflective hologram recording of a predetermined three-dimensional object on the optically transparent flexible web. By colliding with the object beam on the other side, the recording medium is exposed to the coherent irradiation beam. An adhesive layer is deposited on the volume phase reflection hologram layer supported by the web on the side opposite the carrier web. The three-dimensional reflective hologram supported by the web is adhered to a rigid, flat, light-transmissive plastic substrate that is light attenuable, including colorant, thereby recording the web, the medium in which the hologram is formed, the adhesive layer, and A flat holographic laminate is formed in which the light transmissive plastic substrates are sequentially stacked. A flat alternative lens blank is prepared by cutting and removing a single blank from this flat holographic stack. By heating and softening the removed alternative lens blank, an alternative lens curved in a single axial direction is formed, and the sunglasses are completed by installing a coupling means in the alternative lens that allows the user to wear such an alternative lens. . Therefore, U.S. Pat.No. 6,020,983 is characterized by the use of a volume phase reflection hologram instead of using the embossed reflective display hologram described above, and the light transmissive plastic in this volume phase reflection hologram. It takes a structure that the substrate is bonded.

It is an object of the present invention to provide a sunglass having a decorative reflective hologram and a method of manufacturing the embossed reflective display hologram which is effectively bonded onto the transparent plastic substrate without disturbing the primary function of the optical element of ensuring visibility. have.

1 is a perspective view showing the appearance of a sunglass having a decorative reflective hologram according to the present invention;

2 is a schematic cross-sectional view showing the structure of a holographic laminate used for producing sunglass having a decorative reflective hologram according to the present invention;

3 is a flow chart used to explain a method of manufacturing a sunglass having a decorative reflective hologram according to the present invention.

Explanation of symbols on the main parts of the drawings

10: sunglass, 12: lens, 14: hologram, 16: sunglass frame, 18: base film layer, 20: release layer, 22: primer layer, 24: hologram layer, 26: adhesive layer, 28: light transmissive plastic substrate, 30: lens blank

According to one aspect of the invention, there is provided a method for manufacturing sunglass having a decorative reflective hologram, the method comprising: a base film layer, a release agent layer, a primer layer, an embossed reflective display hologram layer and an adhesive layer in sequence Preparing a holographic laminate; Preparing a light transmissive plastic substrate; Mounting the holographic laminate on a light transmissive plastic substrate such that the adhesive layer faces the light transmissive plastic substrate; Pressing and stamping the holographic laminate onto the light transmissive plastic substrate while simultaneously applying heat and pressure using a stamper; And providing a lens blank by removing the base film layer from the resulting combination of layers.

According to another aspect of the invention, the base film layer is molded of polyester or PET (polyethylene terephthalate), the release agent layer is molded of wax, the adhesive layer is molded of vinyl chloride resin, the light-transmitting plastic The substrate is molded from polycarbonate.

According to yet another aspect of the present invention, there is provided a sunglass having a decorative reflective hologram, the sunglass comprising a lens; The lens is formed from a lens blank; The lens blank comprises a holographic laminate sequentially comprising a base film layer, a release agent layer, a primer layer, an embossed reflective display hologram layer, and an adhesive layer, such that the adhesive layer faces the light transmissive plastic substrate. By placing the holographic laminate onto the optically transmissive plastic substrate and stamping it while seating on a plastic substrate, applying heat and pressure simultaneously using a stamper, and then removing the base film layer from the resulting combination. It is characterized by.

According to the above characteristics of the present invention, the holographic laminate is stamped onto the light transmissive substrate by a stamper and then removed the base film layer, thereby embossing the reflective display without compromising the primary function of the optical element of ensuring visibility. The hologram can be effectively bonded onto the transparent plastic substrate.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention, the same reference numerals will be used for the same parts throughout the drawings.

1 shows a perspective view showing the appearance of a sunglass having a decorative reflective hologram according to the invention; 2 shows a schematic cross-sectional view showing the structure of a holographic laminate used for producing sunglass with decorative reflective holograms according to the invention; Figure 3 shows a flow chart used to explain a method of manufacturing a sunglass having a decorative reflective hologram according to the present invention.

As shown in FIG. 1, the sunglass 10 having a decorative reflective hologram according to the invention comprises a lens 12 and a sunglass frame 16. The lens 12 is provided with a hologram 14, which is formed such that it is reproduced by the viewer and not by the wearer.

The lens 12 is formed by a lens blank 30 as shown in FIG. 2, the lens blank 30 includes a release layer 20, a primer layer 22, an embossed reflective display hologram layer 24, It is formed of an adhesive layer 26 and a light transmissive plastic substrate 28. The embossed reflective display hologram 24 is molded using holographic techniques known in the art. The release layer 20, primer layer 22, embossed reflective display hologram layer 24, and adhesive layer 26 are initially given as a hologram laminate with base film layer 18, but such hologram laminates are After stamping the light transmissive plastic substrate 28 with a stamp, the base film layer 18 is removed.

Hereinafter, with reference to FIG. 3, a method for manufacturing a sunglass having a decorative reflective hologram according to the present invention will be described in detail.

Initially, in step 100, a holographic laminate comprising a base film layer 18, a release agent layer 20, a primer layer 22, an embossed reflective display hologram layer 24 and an adhesive layer 26 sequentially Ready Then, in step 102, a transparent plastic substrate 28 is prepared. In step 104, the holographic laminate is seated on the transparent plastic substrate 28 so that the adhesive layer 26 faces the transparent plastic substrate 28. Thereafter, pressing and stamping the holographic laminate onto the transparent plastic substrate 28 while simultaneously applying heat and pressure using a stamper (step 106). At this time, the lens blank 30 is prepared by removing the base film layer 18 from the resulting combination of layers (step 108). The lens blank 30 is cut to a predetermined size and curved to a predetermined curvature. Then, in step 110, the manufacture of the sunglass with the decorative reflective hologram according to the present invention is completed by coupling the sunglass frame 16 to the lens blank 30.

In a preferred embodiment of the present invention, the base film layer 18 is molded of polyester or PET (polyethylene terephthalate), the release agent layer 20 is molded of wax, and the adhesive layer 26 is chlorinated. Molded from vinyl resin, the light transmissive plastic substrate 28 is molded from polycarbonate. In addition, a urethane-based, acryl-based or melanin-based primer is used as the primer layer 22.

According to the configuration as described above of the present invention, the holographic laminate is stamped onto the light transmissive substrate by a stamper and then the base film layer is removed, thereby embossing without impairing the primary function of the optical element of securing visibility. Reflective display holograms can be effectively coupled onto a transparent plastic substrate.

While the present invention has been illustrated and described with reference to certain preferred embodiments, the invention is not limited thereto but may vary without departing from the spirit or scope of the invention as set forth in the claims below. It will be readily apparent to those skilled in the art that such modifications and variations can be made in the art.

Claims (3)

A method for manufacturing sunglass having a decorative reflective hologram, Preparing a holographic laminate comprising a base film layer, a release agent layer, a primer layer, an embossed reflective display hologram layer, and an adhesive layer in sequence; Preparing a light transmissive plastic substrate; Mounting the holographic laminate on a light transmissive plastic substrate such that the adhesive layer faces the light transmissive plastic substrate; Pressing and stamping the holographic laminate onto the light transmissive plastic substrate while simultaneously applying heat and pressure using a stamper; And Providing a lens blank by removing the base film layer from the resultant combination of layers, the method for producing sunglass with a decorative reflective hologram. The method of claim 1, The base film layer is formed of polyester or PET, the release agent layer is formed of wax, the adhesive layer is formed of vinyl chloride resin, and the light transmissive plastic substrate is formed of polycarbonate. For sunglasses with decorative reflective holograms, A lens; The lens is formed from a lens blank; The lens blank comprises a holographic laminate sequentially comprising a base film layer, a release agent layer, a primer layer, an embossed reflective display hologram layer, and an adhesive layer, such that the adhesive layer faces the light transmissive plastic substrate. By placing the holographic laminate onto the optically transmissive plastic substrate and stamping it while seating on a plastic substrate, applying heat and pressure simultaneously using a stamper, and then removing the base film layer from the resulting combination. Sunglasses with a decorative reflective hologram, characterized in that.