CN217181366U - Nanometer magic color glasses - Google Patents

Abstract

The utility model discloses a nanometer magic color glasses, contain lens and mirror holder, lens fixed mounting is on the mirror holder, the lens includes first sclerosis layer, the metal film layer, the image layer, the adhesive layer, lens body and second sclerosis layer, the surface at the lens body is established to the adhesive layer, the internal surface or the surface of metal film layer have the image layer, the image layer is the laser holography layer of laser or has similar visual effect's nanometer microstructure layer, the surface at the adhesive layer is established to image layer and metal film layer, first sclerosis layer is at the image layer, the surface of metal film layer and lens body, second sclerosis layer is at the internal surface of lens body. The utility model discloses not only can realize the illusion-colour effect on the lens, and the lens surface does not have unsmooth sense, and the pattern is meticulous, and operation simple process can be general in dull and stereotyped glasses and the curved surface glasses that have the camber, can realize the decorative pattern of glasses in a flexible way, and the printing opacity of lens is effectual simultaneously, and the vision is clear.

Description

Nanometer magic color glasses

Technical Field

The utility model relates to the technical field of glasses, in particular to a structure of nanometer colorful glasses.

Background

In the modern society, the glasses have the functions of correcting eyesight, shading sun, preventing wind and the like, protecting eyes, modifying the face shape and decorating, and people can match the glasses with different colors or shapes according to clothes, hairstyles and moods.

There are many ways to realize the decorative effect of glasses, and it is common to add decorative patterns on glasses.

For example, a film printed with patterns is directly adhered to the surface of a lens through glue, but the film obtained by the method is easy to fall off, the product quality is poor, the product grade is low, glue is easy to remain after the film falls off, and the appearance is affected.

For another example, patent CN204405970U discloses a pair of novel glasses, which includes a pair of glasses lenses and a glasses frame for supporting the glasses lenses, the glasses lenses sequentially include an imaging layer, a silica gel layer and a lens body, and the imaging layer is a laser holographic imaging layer with a rugged outer surface. Because the decorative patterns are printed on the silica gel net, the patterns are firmly attached, are not afraid of wind, sun and rain, and are favorable for blocking the radiation of ultraviolet rays to eyes; and coat a layer of low refractive index layer outside the silica gel net for the printing opacity effect of lens is better, and the vision is more clear, under the shining of sunlight, from the outside inwards sees to have the laser pattern, but this pattern does not influence user's vision again, can demonstrate clear lifelike three-dimensional virtual object on the lens, and this pattern is close by apart from glasses, does not hinder user's sight. However, the outer surface of the pattern imaging layer formed by the method is uneven, has obvious outstanding feeling, has low pattern fineness, can only be suitable for flat decorative glasses, and has great difficulty in operating glasses with curved radian, so the method has high limitation, and the uneven surface of the product is not easy to clean, is easy to store dirt and dirt, has long time, influences light transmittance and has poor aesthetic property.

In view of this, the inventor of the present invention has made an intensive conception on various defects and inconveniences caused by the structural design of the existing decorative eyeglasses, and has actively studied and improved the present invention.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a nanometer magic color glasses not only can realize the magic color effect on the lens, and the lens surface does not have unsmooth sense, and the pattern is meticulous, and operation simple process can be general in dull and stereotyped glasses and the curved surface glasses that have the camber, can realize the decorative pattern of glasses in a flexible way, and the printing opacity of lens is effectual simultaneously, and the vision is clear.

In order to achieve the above purpose, the solution of the present invention is:

the utility model provides a nanometer magic color glasses, contain lens and mirror holder, lens fixed mounting is on the mirror holder, the lens includes first sclerosis layer, the metal film layer, the image layer, the adhesive layer, lens body and second sclerosis layer, the surface at the lens body is established to the adhesive layer, the internal surface or the surface of metal film layer have the image layer, the image layer is the holographic radium-shine layer of laser or has the nanometer micro-structure layer of similar visual effect, the surface at the adhesive layer is established to image layer and metal film layer, first sclerosis layer is at the image layer, the surface of metal film layer and lens body, second sclerosis layer is at the internal surface of lens body.

The frame can be a full, half, or rimless frame.

The lens body is made of resin materials.

The adhesive layer may be optical grade high-transmittance glue, such as one of UV glue, silica gel, polyurethane, epoxy glue, and the like.

The metal film layer is an aluminum-plated layer, the outer surface of the aluminum-plated layer is an image layer, and the inner surface of the aluminum-plated layer is an adhesive layer. Or the metal film layer is an aluminum plating layer, the inner surface of the aluminum plating layer is an image layer, and the inner surface of the image layer is an adhesive layer.

The first hardening layer and the second hardening layer are formed by heating and curing organic silicon hardening liquid.

The lens body is made of resin materials, such as any one of a PC (polycarbonate) base material, a glass base material, a polycarbonate base material, a nylon base material, an acrylic base material, an MR-8 base material, an MR-7 base material, a PET (polyethylene terephthalate) polyester base material and a TAC (TAC) polaroid base material.

After the scheme of the foregoing, the utility model discloses compare in prior art, image layer and metal film layer transfer to the lens body through the adhesive layer on to harden and the structure protection on surface has been carried out on the sclerosis layer, and the pattern adheres to firmly, the transmittance is good, and the vision is clear, has solved the problem that exists among the prior art well, not only can realize various illusion-colour effects in a flexible way on the lens, and do not have unsmooth sense, the pattern is meticulous, operation simple process. The structure can be universally used for flat glasses and curved glasses with curvature, is environment-friendly and pollution-free, and is convenient for large-scale popularization.

Drawings

In order to more clearly illustrate the technical solution of the embodiment of the present invention, the drawings used in the description of the embodiment are briefly described below.

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural view of an embodiment of the lens of the present invention;

fig. 3 is a schematic structural diagram of a second lens embodiment of the present invention.

Description of the reference symbols

A lens 10:

the lens comprises a first hardening layer 1, a metal film layer 2, an image layer 3, an adhesive layer 4, a lens body 5 and a second hardening layer 6;

a frame 20.

Detailed Description

Embodiments of the present invention are described in detail below. The following embodiments are illustrative, and are only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention. It is noted that the terms first, second, upper, lower, inner, outer, and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to technical features indicated unless an explicit limitation is stated.

Referring to fig. 1 to 3, the present invention discloses a pair of nano magic color glasses, which comprises a lens 10 and a frame 20.

The lens 10 is fixedly mounted to the frame 20. The frame 20 can be a full, half, or rimless frame, and is shown in the figures herein as a full frame.

The lens 10 comprises a first hardening layer 1, a metal film layer 2, an image layer 3, an adhesive layer 4, a lens body 5 and a second hardening layer 6. The lens body 5 is preferably made of a resin material, such as any one of a PC substrate, a glass substrate, a polycarbonate substrate, a nylon substrate, an acryl substrate, an MR-8 substrate, an MR-7 substrate, a PET polyester substrate, and a TAC polarizer substrate. And selecting moulds with different curvatures according to requirements for injection molding to form the lens body 5 with the required shape. The adhesive layer 4 is arranged on the outer surface of the lens body 5, and the optical-level high-transmittance glue such as one of UV glue, silica gel, polyurethane glue and epoxy glue is preferably selected as the adhesive layer 4. The inner surface (as shown in figure 2) or the outer surface (as shown in figure 3) of the metal film layer 2 is provided with an image layer 3, and the image layer 3 is a laser holographic layer or a nano-micro structural layer with similar visual effect. The image layer 3 and the metal film layer 2 are arranged on the outer surface of the adhesive layer 4 together. The first hardened layer 1 is on the outer surface of the image layer 3, the metal film layer 2 and the lens body 5. The second hardened layer 6 is on the inner surface of the lens body 5.

Thus, the utility model discloses operation simple process, because transfer image layer 3 and metal film layer 2 to lens body 5 through adhesive layer 4 on, and carried out surperficial sclerosis and structure protection with first sclerosis layer 1 and second sclerosis layer 6, make the pattern hide below first sclerosis layer 1, make the pattern adhere to firmly, the transmittance is good, the vision is clear, can realize various illusion-colour effects in a flexible way on the lens, and, the surface treatment of first sclerosis layer 1, make the even smoothness of lens 10 surface, do not have unsmooth sense, the pattern is meticulous, the surface is bright and clean, avoid adhering to the filth, the aesthetic measure promotes, the product quality is guaranteed, the product grade is high.

Metal film layer 2 specifically can be for aluminizing the layer, as shown in fig. 2, and the internal surface of aluminizing the layer is image layer 3, and image layer 3's internal surface is adhesive layer 4. During actual processing, a common separable aluminizer can be placed into a nano-imprinting machine, a corresponding metal master plate is arranged on a compression roller of the nano-imprinting machine, the common separable aluminizer comprises a metal film layer 2 (aluminized layer), an image layer 3 with a nano-multicolor effect is obtained on the aluminized layer by utilizing the nano-imprinting machine for molding, the image layer 3 is a laser holographic laser layer, transfer glue is smeared on a lens body 5, the separable aluminizer with the laser holographic laser layer is pasted on the lens body 5 and is fully cured in an oven after being compressed by the compression roller, a cured transfer glue solid is an adhesive layer 4, the release film is taken out and cooled, and the metal film layer 2 and the image layer 3 are transferred onto the lens body 5 through the adhesive layer 4.

Alternatively, the metal film layer 2 may be specifically an aluminum plated layer, and as shown in fig. 3, the outer surface of the aluminum plated layer is an image layer 3, and the inner surface of the aluminum plated layer is an adhesive layer 4. During actual processing, the separable transparent film is placed into a nano-imprinting machine, a corresponding metal master plate is arranged on a compression roller of the nano-imprinting machine, the nano-imprinting machine is used for molding the separable transparent film to obtain a nano microstructure layer (namely, an image layer 3) with similar visual effect, an aluminum plated layer (namely, a metal film layer 2) is obtained through vacuum aluminum plating, then transfer glue is smeared on a lens body 5, the separable transparent film with the image layer 3 and the metal film layer 2 is pasted on the lens body 5, after the transfer glue is fully cured, a cured transfer glue solid matter is an adhesive layer 4, the separable film is torn off, namely, the metal film layer 2 and the image layer 3 are transferred onto the lens body 5 through the adhesive layer 4.

Image layer 3 is not limited in the position of lens 10, can set up in lens 10 according to the pattern of predesign, makes to present the illusion-colour pattern on the lens 10, forms and decorates the lens, also can be at the periphery or other assigned position of lens 10, does not influence middle eyes sight part.

The first hardened layer 1 and the second hardened layer 6 are formed by heating and curing preferred organosilicon hardening liquid, and the thickness can be controlled to be 1-10 mu m. After the metal film layer 2 is finished and the image layer 3 is combined with the lens body 5 through the adhesive layer 4, firstly, the surface is cleaned and decontaminated, then the lens body 5 attached with the image layer 3 is integrally placed into a container filled with organic silicon hardening liquid, the lens body 5 is slowly lifted upwards through a dipping lifting mode, the lifting speed is 2-3mm/s, the lens body is placed in an oven for drying, and then the lens body is taken out for cooling, namely a first hardening layer 1 and a second hardening layer 6 are formed, the surface hardness of the lens can be increased through the first hardening layer 1 and the second hardening layer 6, and the lens definition is prevented from being influenced by lens scratching.

The above detailed description describes the preferred embodiments of the present invention, but the present invention is not limited to the details of the above embodiments, and the technical idea of the present invention can be within the scope of the present invention, and can be right to the technical solution of the present invention, and these simple modifications all belong to the protection scope of the present invention.

Claims (9)

1. A nanometer magic color glasses is characterized in that: contain lens (10) and mirror holder (20), lens (10) fixed mounting is on mirror holder (20), lens (10) are including first sclerosis layer (1), metal film layer (2), image layer (3), adhesive layer (4), lens body (5) and second sclerosis layer (6), the surface at lens body (5) is established in adhesive layer (4), the internal surface or the surface of metal film layer (2) have image layer (3), image layer (3) are laser holographic layer or nanometer microstructure layer, the surface at adhesive layer (4) is established in image layer (3) and metal film layer (2), first sclerosis layer (1) is at image layer (3), the surface of metal film layer (2) and lens body (5), second sclerosis layer (6) is at the internal surface of lens body (5).

2. The nano-illusive-color glasses of claim 1 wherein: the frame (20) is a full, half, or rimless frame.

3. The nano magic color glasses as claimed in claim 1, wherein: the lens body (5) is made of resin materials.

4. The nano magic color glasses as claimed in claim 1, wherein: the adhesive layer (4) is optical-grade high-transparency adhesive.

5. The nano magic color glasses as claimed in claim 1, wherein: the adhesive layer (4) is one of UV glue, silica gel, polyurethane glue and epoxy glue.

6. The nano magic color glasses as claimed in claim 1, wherein: the metal film layer (2) is an aluminum plating layer, the outer surface of the aluminum plating layer is an image layer (3), and the inner surface of the aluminum plating layer is an adhesive layer (4).

7. The nano magic color glasses as claimed in claim 1, wherein: the metal film layer (2) is an aluminum-plated layer, the inner surface of the aluminum-plated layer is an image layer (3), and the inner surface of the image layer (3) is an adhesive layer (4).

8. The nano magic color glasses as claimed in claim 1, wherein: the first hardened layer (1) and the second hardened layer (6) are formed by heating and curing organosilicon hardening liquid.

9. The nano magic color glasses as claimed in claim 1, wherein: the lens body (5) adopts any one of a PC substrate, a glass substrate, a polycarbonate substrate, a nylon substrate, an acrylic substrate, an MR-8 substrate, an MR-7 substrate, a PET polyester substrate and a TAC polaroid substrate.

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