KR20110092535A - Method for manufacturing polarizing lens - Google Patents

Abstract

PURPOSE: A method for manufacturing a polarizing lens is provided to simultaneously form and attach a polarizing film without a protection film. CONSTITUTION: A Polaroid film is placed and fixed between a exterior lens(10) and a inner lens(30) which form one lens by being overlapped. The inner lens is compressed in a fixed Polaroid film(20) using a mold so that the fixed Polaroid film is shaped and adhered to the exterior side of the inner lens in a lens shape. The inner side of the exterior lens is adhered to the exterior(Polaroid film part) of the inner lens in which the Polaroid film is adhered.

Description

[0001] The present invention relates to a method for manufacturing polarizing lens,

The present invention relates to a polarizing lens manufacturing method, and more particularly, to a polarizing lens manufacturing method capable of preventing damage of a polarizing film due to heat and pressure when manufacturing a polarizing lens in which a polarizing film is included between two- .

It is possible to reduce the glare by wearing a polarizing lens that applies the principle of polarization (polarized light). Here, the term " polarized light " refers to a wave of light that is transmitted in only one direction through a polarizer and oscillates only in a specific direction. The polarizing lens can reduce the glare by blocking the reflected light and the refracted light at the time of sunrise or sunset, and the visible distance for viewing the object is lengthened. In addition, when a polarized lens is worn when driving a vehicle, unnecessary light is blocked, thereby securing a wide field of view, thereby assisting safe driving.

Conventional polarizing lenses on the market have a polarizing film (polarizer) attached to the surface of a plastic or glass lens, or a polarizing film is formed in advance into a lens form, and CR-39 (allyl diglycol carbonate) A polarizing sheet obtained by laminating a protective film such as a polycarbonate film on both surfaces of a polarizing film is molded into a lens form, and then a molded polarizing sheet Is inserted into an injection machine and the thickness is reinforced through insert injection.

However, in the polarizing lens having the polarizing film attached to the surface of the lens, since the polarizing film is exposed on the surface of the lens, the polarizing film is easily damaged due to external impact or scratching and the polarizing effect may not be exhibited. The method of incorporating the polarizing film between the lenses of the layers increases the durability of the polarizing film between the lenses. However, since heat of 150 DEG C or more is transmitted to the polarizing film in the polarizing sheet forming process and the insert injection process, There is a possibility that the polarization performance is lowered due to thermal decomposition of the film.

In addition, when a polarizing lens is manufactured by attaching a molded polarizing film or polarizing sheet with an adhesive between two layers of plastic or glass lenses, both the dimensions of the lens and the polarizing film or the polarizing sheet must match, It is difficult to use it in the production of a polarizing lens because the variation of the dimension is significant during the molding process and the defect rate is high in the bonding process.

Accordingly, it is an object of the present invention to provide a polarizing film in which polarizing films can be formed and adhered at a low temperature (from room temperature to 120 deg. C) when a polarizing lens in which polarizing films are incorporated between polarizing films between two polarizing films, And preventing degradation of the polarized light.

Another object of the present invention is to provide a polarizing lens manufacturing method which is simple and economical in the process.

In order to achieve the above object, the present invention provides a method of manufacturing a polarizing film, comprising the steps of: (a) positioning and fixing a polarizing film between an outer lens and an inner lens, (b) pressing the inner surface lens onto the fixed polarizing film using the inner surface lens as a mold so that the fixed polarizing film is formed and adhered to the outer surface of the inner surface lens in a lens shape; And (c) adhering the inner surface of the outer surface lens to the outer surface (polarizing film portion) of the inner surface lens to which the polarizing film is adhered, wherein the adhering is performed on the inner surface of the outer surface lens and the outer surface of the inner surface lens, Wherein the polarizer is formed of an adhesive applied on both sides.

A polarizing lens manufacturing method according to the present invention is a method of manufacturing a polarizing lens comprising a polarizing film (polarizer) including a polarizing film (polarizer) between two layers of lenses, in particular a polarizing film between two lenses having a hemispherical shape or a deopter The polarizing film is molded at a low temperature (from room temperature to 120 deg. C) to prevent thermal damage to the polarizing film, so that discoloration and deformation of the polarizing film, deterioration of the polarizing effect, and the like can be prevented. In addition, since the polarizing film is adhered to the inner surface lens at the same time of molding, defects due to the difference in dimension between the polarizing film and the lens and defects in adhesion can be prevented, and the polarizing film forming and adhering steps The process is simple and economical.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 shows a method of manufacturing a polarizing lens according to an embodiment of the present invention. Fig.
2 is a cross-sectional view of a polarizing lens according to an embodiment of the present invention;

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a view illustrating a method of manufacturing a polarizing lens according to an embodiment of the present invention. 1, a polarizing lens manufacturing method according to the present invention comprises the steps of (a) positioning a polarizing film 20 between an outer lens 10 and an inner lens 30 overlapping to form one lens Wherein the fixed polarizing film (20) is molded and adhered to the outer surface of the inner lens (30) in the form of a lens, (b) (C) adhering the inner surface of the outer surface lens 10 to the outer surface (polarizing film portion) of the inner surface lens 30 to which the polarizing film 10 is adhered.

The outer lens 10 and the inner lens 30 used in the present invention can form one lens by overlapping, and the normal lens is divided into two layers. The outer surface lens 10 and the inner surface lens 30 may be variously used in glasses, sunglasses, goggles, camera lenses, and the like. Materials used for the lenses include, for example, polycarbonate, glass, CR-39 (allyl diglycol carbonate), acrylic, mixtures thereof, and the like.

The polarizing film 20 used in the present invention is capable of transmitting only light having a vibration plane in a certain direction among the natural light having a vibration plane of 360 ° in all directions and absorbing the remaining light to obtain polarized light, For example, a polyvinyl alcohol (PVA) film obtained by dyeing and coloring iodine, an organic dye or the like and stretching orientation can be used.

In the step (a), first, the convex surface of the inner surface lens 30 is directed upward to the press 40, and then each corner of the polarizing film 20 is placed on the inner surface lens 30, The outer lens 10 can be positioned and fixed on the fixing device 42 of the lens 40 so that the outer lens 10 is precisely overlapped with the inner lens 30 on the fixed polarizing film 20. [

In order to form a polarizing lens, the outer lens 10, the inner lens 30, and the polarizing film 20 are arranged in a region of the outer lens 10, An adhesive is applied to both sides of the outer surface or the polarizing film 20. The adhesive may be a conventional adhesive. Examples of the adhesive include an acrylic adhesive, a urethane adhesive, an epoxy adhesive, an ultraviolet ray-curing adhesive, a thermosetting adhesive, and the like, which are capable of bonding polyvinyl alcohol (PVA) and polycarbonate Mixed adhesive, etc. may be used

The step (b) is a step of forming the polarizing film 20 into a lens shape and bonding the polarizing film 20 to the outer surface of the inner lens 30, The inner surface lens 30 acts as a mold to form the fixed polarizing film 20 in the form of the inner surface lens 30 while gradually moving to the polarizing film 20, . The molding temperature of the polarizing film 20 may vary depending on the radius of the lens and the state of the PVA polarizing film when the lens is semi-spherical, for example, from room temperature to 100 ° C, preferably 50 to 80 ° C, The moving speed (compression speed) of the inner surface lens 30 may vary depending on the radius of the lens when the lens is hemispherical, but may be, for example, 1 to 100 mm / min, preferably 10 to 80 mm / And preferably 10 to 30 mm / min. If the molding temperature of the polarizing film 20 is out of the above range, the polarizing film 20 may not be formed due to breakage or discoloration and deformation of the polarizing film 20 due to heat damage to the polarizing film 20, If the moving speed (compression speed) of the inner surface lens 30 is too low, the motor of the pressing machine may be overloaded, there is no particular advantage that it is economical, and if it is too early, The lens 20 may not be formed into a lens shape and may be broken to cause defects, wrinkles, cracks, whitening, etc.

The inner surface of the outer lens 10 is fixed to the outer surface of the inner lens 30 to which the polarizing film 10 is adhered, that is, the molded polarizing film 20 ) Portion, which can be performed almost simultaneously with the step (b). The polarizing film 20 and the inner lens 30, which are formed and adhered to the outer lens 10 positioned on the polarizing film 20 in the step (a), are bonded by an adhesive previously coated on the surface, The polarizing film 20 surface opposite to the inner surface lens 30 and the inner surface of the outer surface lens 10 can be bonded at substantially the same time. If necessary, after the step (c), the obtained polarizing lens can be finally obtained through an additional process such as hard coating or the like and cutting such as cutting the outer wall.

The polarizing lens manufacturing method according to the present invention does not require a temperature condition of 250 占 폚 or more like insert injection, which is a conventional polarizing lens manufacturing method, because a lens is used as a mold, , It is not necessary to use a polarizing sheet formed by laminating a protective film such as a polycarbonate film on both sides of a polarizing film (polarizer) for insert injection in advance into a lens shape at a high temperature of 150 DEG C or higher. Therefore, the polarizing lens manufactured according to the present invention can prevent the discoloration and deformation of the polarizing film due to high temperature, the deterioration of the polarizing effect, and the like, as compared with the polarizing lens produced by insert injection, and the polycarbonate There is no deterioration in the optical characteristics of the lens and there is no need to worry about the decrease in the adhesive force due to heat. In addition, the process is simple and economical, and can be applied variously to polarizing lenses used in glasses, sunglasses, goggles, camera lenses and the like, depending on the shape of the lens, the molding temperature and the pressing speed. Here, in the case of a lens having a hemispherical shape, the molding temperature and the pressing speed are preferably such that the molding temperature is higher and the pressing speed is slower as the radius is larger, and the pressure applied to the polarizing film may be lowered depending on the radius and shape of the lens .

2 is a cross-sectional view of a polarizing lens according to an embodiment of the present invention. 2, the polarizing lens according to the present invention includes grooves 12 (see FIG. 2), in which the excess adhesive remaining in the inner surface of the outer surface lens 10 and the outer surface of the inner surface lens 30, , 32). The grooves 12 and 32 are used for bonding the inner surface of the outer lens 10, the outer surface of the inner lens 30 or both surfaces of the polarizing film 20 in the process of manufacturing the polarizing lens, The extra adhesive after adhesion on the inner surface of the outer surface lens 10 and the adhesive applied on the upper surface of the polarizing film 20 is not adhered to the inner surface of the outer surface lens 10, An excess adhesive is adhered to the grooves 32 on the outer surface of the inner surface lens 30 in the groove 12 in the adhesive applied on the lower surface of the polarizing film 20 and the outer surface of the inner surface lens 30, It is possible to prevent the lens from flowing out of the lens.

Claims (4)

(a) positioning and fixing a polarizing film between an outer lens and an inner lens that are overlapped to form one lens;
(b) pressing the inner surface lens onto the fixed polarizing film using the inner surface lens as a mold so that the fixed polarizing film is formed and adhered to the outer surface of the inner surface lens in a lens shape; And
(c) adhering the inner surface of the outer surface lens to the outer surface (polarizing film portion) of the inner surface lens to which the polarizing film is adhered,
Wherein the adhesion is caused by an adhesive applied on the inner surface of the outer lens and on the outer surface of the inner lens or on both surfaces of the polarizing film, such as polarized glasses, polarized sunglasses, polarized goggles and polarized camera lenses. The polarizing film as claimed in claim 1, wherein the outer lens and the inner lens are made of a compound selected from the group consisting of polycarbonate, glass, urethane, CR-39, acrylic and mixtures thereof, and the polarizing film comprises iodine, Staining, coloring and stretched orientation of the polarizing film. The polarized lens manufacturing method according to claim 1, wherein the forming temperature of the polarizing film in the step (b) is from room temperature to 120 ° C, and the moving speed (compression speed) of the inner surface lens is 1 to 100 mm / min. The method according to claim 1, wherein the polarizing lens includes a groove in which an extra adhesive is used for bonding to the inner surface of the outer surface lens and the outer surface of the inner surface lens.

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