KR100482299B1 - Manufacturing method for polarizing lens, gasket mould structure used in this method, and polarizing lens made thereby - Google Patents

Abstract

In general, polarized lenses made by using polarizer to overcome glare of reflected light by compensating the weak point of sunglasses that can narrow the field of vision and make it difficult to distinguish objects and the amount of light but can not prevent glare by reflected light. Is being used.

Conventionally, the polarizing film is adhered to the front and back of the CR39 lens manufactured by the casting method. However, this method is affected by the adhesive and the polarizing film. Have.

The present invention is intended to solve the above problems.

In the present invention, it was possible to provide a method of manufacturing a polarizing film embedded in the raw material of the lens at the time of manufacturing the lens through the use of a ring which has not been attempted with the structural change of the gasket mold that has been used in the prior art, The polarizing film manufactured through this is built in the raw material of the lens, so that the polarizing film cannot be damaged and the surface can be processed without damaging the polarizing film for the degree of lens. It can be used.

Description

MANUFACTURING METHOD FOR POLARIZING LENS, GASKET MOULD STRUCTURE USED IN THIS METHOD, AND POLARIZING LENS MADE THEREBY}

The present invention relates to a manufacturing method of a polarizing lens, a device used in the manufacturing method and a polarizing lens produced by them, and more particularly, a method of manufacturing a polarizing lens for manufacturing a polarizing lens using a polymer synthetic resin as a raw material The present invention relates to an apparatus used for the production method and a polarizing lens produced by them.

In general, a polarizing lens is typically used a polymer resin polarizing lens using a glass and a polymer synthetic resin as a main raw material.

In this case, the polymer synthetic resin spectacle lens is used to produce a lens that can not be practically used when manufacturing a polarizing lens.

Looking at the manufacturing method of such a conventional polarizing lens, it is manufactured by a method of adhering a polarizing film on the front and rear of the CR39 lens manufactured by the conventional casting method.

However, this method is affected by the adhesive and the polarizing film, and has a limitation of mass production due to the reduction in time and production efficiency required for manufacturing.

In other words, the vertical polarizing film blocks the polarized dazzling reflective interfering rays that enter the field of vision by maximizing the reflection of refraction from various reflectors that cannot be blocked by ordinary sunglasses. In addition to the shortcomings in the method of mass distribution, the polarizing film is adhered to the spectacle lens surface, so it is difficult to accurately place the polarizing film in the middle of the lens and the polarizing film is easily damaged by external impact. Due to this, there is a disadvantage in that the function as glasses falls.

In addition, a polarized lens using a PC lens is a non-lensable lens, which adds only a polarization function to a simple sunglasses effect, and is manufactured by an injection method, not a casting method, and has a limit in terms of the eyeglass lens for correcting vision of a person.

That is, the disadvantage is that it is inconvenient to process according to the image disturbance phenomenon and vision because it is manufactured by injection.

The present invention is intended to solve the above problems.

In order to achieve such a conventional problem, in the present invention, it was possible to incorporate a polarizing film on the raw material of the lens at the time of manufacture of the lens through the use of a ring which has not been attempted with the structural modification of the gasket mold used in the prior art.

Since the polarizing film manufactured through this method is embedded in the raw materials constituting the lens, it is impossible to damage the polarizing film, and the surface processing is possible without damaging the polarizing film for the water of the manufactured lens. It can be suitably used for people with high muscle and hyperopia, and also has a feature that can be mass-produced because it provides a polarizing lens by injection through a gasket mold.

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

First, in order to manufacture a polarizing lens by the method of the present invention, a gasket and a mold necessary for casting are essentially required.

1, 2, 3a, 3b, 4a, 4b and 5 attached to the structure of the gasket mold (1), glass, lower mold (2), (3), polarizing film (4) ) And the structure of the ring (5) will be described.

In the gasket mold 1 having a ring shape, a protruding jaw 10 is formed in the inner center of the ring to form a glass shape, a lower mold 2, and 3.

At this time, the protruding jaw 10 is the upper surface is composed of a horizontal surface 11 and the lower surface is composed of a curved surface 12, but this curved surface 12 is a glass lower mold (3) because the end of the lower glass mold (3) is located It is formed in the same manner as the curved portion formed at the end of the), and the projection 13 is formed at a point where the curved surface 12 and the gasket mold (1) larger than the thickness height of the polarizing film (4).

The protrusion 13 has a close relationship with the formation of the axis of the polarizing film 4, and gives ease of determination in the axial direction during assembly, and also facilitates the smoothing of the polymer synthetic resin monomer, which is a raw material of the lens, through the axis of the polarizing film 4. It is intended to be able to be supplied by movement.

On the other hand, the height h of the protruding jaw 10 is configured to be longer than the height of the protruding jaw of the gasket mold used in the related art, in order to secure the center or variable thickness of the spectacle lens.

On the other hand, in the present invention in forming the polarizing film 4, the grooves 14 are formed long inwardly at positions opposing each other, and the grooves 14 are formed slightly larger than the protrusions 13 described above.

In addition, the ring (5) can maintain its shape even at high temperatures such as polypropylene, polyester or Teflon, and is made of a material that can be easily separated from the raw material for lens manufacturing. Reference numeral 15 denotes the gasket mold (1). As an injection hole formed on the side center, it penetrates into the inside of the gasket mold 1 and is used to inject raw materials therethrough.

In order to manufacture a polarizing lens using the gasket mold (1), glass, lower mold (2) and (3), polarizing film (4) and ring (5) having such a structure, the above-described components must be assembled. The accompanying drawings will be described with reference to FIG. 6 as follows.

The glass upper mold 2 is fitted in a state of being closely fixed to the horizontal surface 11 of the protruding jaw 10 of the gasket mold 1.

The grooves 14 of the polarizing film 4 are aligned with the protrusions 13, and the polarizing film 4 is closely aligned with the curved surface 12 of the gasket mold 1.

In this state, the ring 5 is positioned below it.

At this time, the ring 5 is in a state of being in close contact with the inner surface of the gasket mold (1) takes the form of fixing.

And through the process of placing the glass lower mold (3) in the lower portion of the ring (5) to complete a series of assembly configuration for manufacturing a polarizing lens by the method of the present invention.

In this case, the glass lower mold 3 is positioned below the thickness of the ring 5 and is positioned below the thickness of the polarizing film 4 and the ring 5.

The curved surface of the polarizing film 4 and the curved surface of the lower glass mold 3 are the same, and as described above, the end curved surface of the lower glass mold 3 is the curved surface 12 of the gasket mold 1. Is the same as

In this assembling state, it is important to be careful not to disturb the curved surface of the polarizing film 4 at the same time to exactly fit the projection 13 in order to prevent the flow of the polarizing film 4 when installing the polarizing film 4, In addition, the ring 5 located at the lower portion of the polarizing film 4 may be touched by the projection 13 without touching the polarizing film 4 or by the ring 5 which may touch the polarizing film 4. The assembly is carried out with care not to cause deformation in the form.

By this assembly, as shown in the accompanying drawings, an upper space (a) is formed between the upper glass mold (2) and the polarizing film (4), and the polarizing film (4) and the lower glass mold (3) It can be seen that the lower space (b) is formed between, the upper space (a) and the lower space (b) is communicated by the grooves 14 formed in the polarizing film (4).

Therefore, it can be seen that the projection 13 is smaller in size than the groove 14.

In this state, a liquid raw material for administering the lens is administered through the inlet 15.

This raw material is supplied to the lower space b through the above-described grooves 14 communicating with the upper space a and the lower space b.

Through the supply of the raw material, the polarizing film 4 located between the upper space a and the lower space b is in a state of being embedded in the raw material.

After fully supplying the series of raw materials, the raw materials are sufficiently solidified, and then the upper and lower glass molds (2), (3), and the ring (5) are removed from the gasket mold (1) to remove the polarization lens of the present invention. 7) to complete the manufacture.

It can be seen that the polarizing lens 7 manufactured by the method of the present invention has the polarizing film 4 embedded therein as described above, and the thickness of the polarizing film 4 is located. It can be seen that the lower part is embedded in the space (c) by the thickness of the ring (5).

The polarization lens 7 according to the method of the present invention is used again as a lens such as sunglasses with a degree of processing by processing the surface or the end for the frequency.

Since the polarizing film 4 of the present invention is manufactured in a state of being embedded in the lens, there is no fear of damaging the polarizing film 4, and the effectiveness of the polarizing film 4 is poor even when used for a long time. Can be solved completely.

What has been described above shows that the polarizing lens 7 is manufactured by placing the ring 5 at the bottom thereof, which can be practiced even if the top of the ring 5 is positioned as necessary.

That is, in the accompanying drawings, FIGS. 8A and 8B, the edge polarizing film 8 is used, which shows that the edge 18 has an edge 18 as shown, and the width of the edge 18 is the gasket mold. The length of the horizontal plane 11 of (1) is at least equal to or less than the width length.

And this too long groove 14 is formed in the opposite position.

In the case of using the edge polarizing film 8, the polarizing lens of the present invention is manufactured by assembling as shown in FIG. 9.

First, the edge polarizing film 8 is installed on the horizontal surface 11 of the gasket mold 1, and the edge 18 is installed on the horizontal surface 11.

In this state, by placing the ring 5 on the upper portion of the edge 18, the ring 5 supports the edge 18 to fix the edge polarizing film 8.

In this case, too, the ring 5 is fixed in a state of being positioned in close contact with the inner surface of the gasket mold (1).

In this state, while placing the upper glass mold (2) on the upper portion of the ring (5) to be in close contact with the gasket mold (1), the lower glass mold (3) is in close contact with the curved surface 12 position To fix it.

In this state, as shown in FIG. 9, the upper space a is formed between the upper glass mold 2 and the edge polarizing film 8, and the edge polarizing film 8 is formed by such assembly. It can be seen that the lower space (b) is formed between and the lower glass mold (3), the upper space (a) and the lower space (b) by the grooves 14 formed by the polarizing film (4) It can be seen that the state of communication.

In this state, a liquid raw material for administering the lens is administered through the inlet 15.

This raw material is supplied to the upper space a through the grooves 14 formed in the edge planar film 8 which communicates with the lower space b while supplying through the lower space b.

Through the supply of the raw materials, the edge polarizing film 8 positioned between the upper space a and the lower space b is embedded in the raw material.

After fully supplying the series of raw materials, the raw materials are sufficiently solidified, and then the upper and lower glass molds (2), (3), and the ring (5) are removed from the gasket mold (1) to remove the polarization lens of the present invention. 7) to complete the manufacture.

As shown in FIG. 10, the polarizing lens 7 manufactured by the method of the present invention can be seen that the edge polarizing film 9 is embedded in the state impregnated therein, and the edge polarizing film ( It can be seen that the thickness at which 8) is located is internally built at a distance d from the top by the thickness d of the ring 5.

The polarization lens 7 according to the method of the present invention is used again as a lens such as sunglasses with a degree of processing by processing the surface or the end for the frequency.

Meanwhile, the present invention can be used by changing the structure of the protruding jaw 10 formed in the gasket mold 1, which will be described with reference to FIG.

At this time, the protruding jaw 10 has both upper and lower surfaces with curved portions, wherein the upper curved portion 20 and the lower curved portion 21 positioned at the upper portion are all attached to FIGS. 4A and FIG. The polarizing film 4 as shown in 4b is used.

In this case, the curved surfaces of the upper curved portion 20 and the lower curved portion 21 are configured in the same manner as the end curved surfaces of the polarizing film 4 and the end curved surfaces of the upper glass molds 2 and the lower glass molds 3. The protrusions 13 are selectively formed on the upper curved portion 20 and the lower curved portion 21, respectively.

An assembly configuration for manufacturing the polarizing lens according to the present invention through the gasket mold 1 having such a shape is to install the polarizing film 4 to the upper curved portion 20 by FIG. 12 and polarized by FIG. The case where the film 4 is attached to the lower curved portion 21 will be described.

First, as shown in FIG. 12, the projections 13 formed on the upper curved portion 20 are installed in a state in which the grooves 14 of the polarizing film 4 are fitted.

In this state, the ring 5 is positioned on the polarizing film 4 so that the ring 5 supports the polarizing film 4 and is fixed to the upper curved portion 20.

In this state, while holding the upper glass mold (2) in the upper portion of the ring (5) in close contact with the gasket mold (1), the lower glass mold (3) in close contact with the lower curved portion 21 To fix it.

In this case, too, the ring 5 is fixed by positioning the gasket mold 1 in close contact with the inner surface.

In this state, as shown in FIG. 12, the upper space a is formed between the upper glass mold 2 and the polarizing film 4 by the assembly, and the polarizing film 4 and the lower part are formed. It can be seen that the lower space (b) is formed between the glass mold (3), the upper space (a) and the lower space (b) is in communication by the grooves 14 formed in the polarizing film (4). It can be seen that the state.

In this state, a liquid raw material for administering the lens is administered through the inlet 15.

This raw material is supplied to the upper space a through the grooves 14 formed in the flat film 4 communicating with the lower space b while being supplied through the lower space b.

Through the supply of such raw materials, the polarizing film 4 located between the upper space a and the lower space b is embedded in the raw material.

After fully supplying the series of raw materials, the raw materials are sufficiently solidified, and then the upper and lower glass molds (2), (3), and the ring (5) are removed from the gasket mold (1) to remove the polarization lens of the present invention. 7) to complete the manufacture.

As shown in FIG. 14, the polarizing lens 7 manufactured by the method of the present invention can be seen that the polarizing film 4 is embedded in the state impregnated therein, and the polarizing film 4 It can be seen that the thickness is located in the interior at a distance (e) by the thickness of the ring (5) at the top.

The polarization lens 7 according to the method of the present invention is used again as a lens such as sunglasses with a degree of processing by processing the surface or the end for the frequency.

13, the grooves 14 of the polarizing film 4 are installed in the projection 13 formed on the lower curved portion 21.

In this state, the ring 5 is positioned below the polarizing film 4 so that the ring 5 supports the polarizing film 4 and fixed to the lower curved portion 21.

In this case, too, the ring 5 is fixed to be positioned in close contact with the inner surface of the gasket mold (1).

In this state, while placing the lower glass mold (3) in the lower portion of the ring 5 in close contact with the gasket mold (1), and the upper glass mold (2) in close contact with the upper curved portion 20 again To fix it.

In this state, as shown in FIG. 13, the upper space a is formed between the upper glass mold 2 and the polarizing film 4, and the polarizing film 4 and the lower part are formed by the assembly. It can be seen that the lower space (b) is formed between the glass mold (3), the upper space (a) and the lower space (b) is in communication by the grooves 14 formed in the polarizing film (4). It can be seen that the state.

In this state, a liquid raw material for administering the lens is administered through the inlet 15.

This raw material is supplied to the lower space b through the grooves 14 of the flat film 4 communicating with the upper space a while supplying the upper material a.

Through the supply of such raw materials, the polarizing film 4 located between the upper space a and the lower space b is embedded in the raw material.

After fully supplying the series of raw materials, the raw materials are sufficiently solidified, and then the upper and lower glass molds (2), (3), and the ring (5) are removed from the gasket mold (1) to remove the polarization lens of the present invention. 7) to complete the manufacture.

As shown in FIG. 15, the polarizing lens 7 manufactured by the method of the present invention can be seen that the polarizing film 4 is embedded in the state impregnated therein, and the polarizing film 4 It can be seen that the thickness is located in the interior at a distance f as much as the thickness of the ring (5) at the top.

The polarization lens 7 according to the method of the present invention is used again as a lens such as sunglasses with a degree of processing by processing the surface or the end for the frequency.

On the other hand, the present invention can also be used when the thickness of the lens due to the high myopia to be made thick, which can be used by changing the structure of the projection jaw 10 formed in the gasket mold (1).

This will be described with reference to FIG. 16.

The upper surface of the protruding jaw 10 constitutes the horizontal surface portion 23 and the curved surface forming portion 24 at the same time, and at the same time between the horizontal surface portion 23 and the curved surface forming portion 24 protrudes at a position opposite to each other ( 13).

The lower curved portion 21 is formed at the lower portion.

In the state in which the gasket mold 1 having such a structure is provided, the assembly is performed as shown in FIG. 17 to manufacture the polarizing lens 7.

First, the polarizing film 4 is placed on the curved surface forming part 24, but the grooves 14 of the polarizing film 4 are aligned with the protrusions 13, and then the ring 5 is positioned on the ring. The polarizing film 4 is fixed to the curved surface forming part 24 by the support of the polarizing film 4.

At this time, the ring 5 is fixed in a state of being pressed against the inner surface of the gasket mold (1).

In this state, while holding the upper glass mold (2) in the upper portion of the ring (5) in close contact with the gasket mold (1), the lower glass mold (3) in close contact with the lower curved portion 21 To fix it.

In this state, an upper space (a) is formed between the upper glass mold (2) and the polarizing film (4), and a lower space (b) is formed between the polarizing film (4) and the lower glass mold (3). As can be seen, it can be seen that the upper space (a) and the lower space (b) is in communication with the groove 14 formed by the polarizing film (4).

In this state, a liquid raw material for administering the lens is administered through the inlet 15.

This raw material is supplied to the upper space a through the grooves 14 formed in the flat film 4 communicating with the lower space b while being supplied through the lower space b.

Through the supply of such raw materials, the polarizing film 4 located between the upper space a and the lower space b is embedded in the raw material.

After fully supplying the series of raw materials, the raw materials are sufficiently solidified, and then the upper and lower glass molds (2), (3), and the ring (5) are removed from the gasket mold (1) to remove the polarization lens of the present invention. 7) to complete the manufacture.

It can be seen that the polarizing lens 7 manufactured by the method of the present invention eventually contains the polarizing film 4 impregnated therein.

The thickness of the polarizing lens 7 manufactured in the method of the present invention is manufactured as thick as the thickness of the lens for those with high myopia by adjusting the height h of the protrusion 10 as described above. Of course you can.

Such embodiments in the present invention can be carried out by changing the structure of the protrusion of the gasket mold, and the position adjustment of the polarizing film located inside the polarizing lens can be adjusted by the thickness of the ring. Able to know.

Therefore, the scope of the present invention is not limited only to the examples described above.

As described above, in the present invention, in the present invention, a polarizing lens in which a polarizing film is embedded on a raw material of the lens at the time of manufacture of the lens through the use of a ring which has not been attempted, together with a structural change of a gasket mold used in the related art. By providing, the polarizing film manufactured is embedded in the raw materials constituting the lens, so that the damage of the polarizing film is impossible, and the surface processing is possible without damaging the polarizing film for the water of the manufactured lens. It is a very useful invention that can be suitably used for those with near and far field, and can also be mass-produced because it provides a polarizing lens by injection through a gasket mold.

1 is a reference perspective view of a gasket mold used in the method of the present invention;

2 is a cross-sectional structural view of a gasket die used in the method of the present invention;

Figure 3a is a cross-sectional structural view of the glass upper mold used in the method of the present invention.

3B is a cross-sectional structural view of the glass lower mold used in the method of the present invention.

4A is a cross-sectional structure diagram of a polarizing film used in the method of the present invention;

4B is a planar structural diagram of a polarizing film used in the method of the present invention;

5 is a reference perspective view of a ring used in the method of the present invention;

6 is an assembled cross-sectional structural view for manufacturing a polarizing lens by the method of the present invention using Figs. 1, 2, 3a, 3b, 4 and 5,

7 is a cross-sectional structural view of the polarizing lens manufactured by FIG. 6;

8A is a cross-sectional structural view of the edge polarizing film used in the method of the present invention;

8B is a planar structural diagram of an edge polarizing film used in the method of the present invention;

9 is another embodiment of the present invention,

10 is a cross-sectional structural view of a polarizing lens manufactured according to the embodiment of FIG. 9;

11 is a cross-sectional structural view of another embodiment of a gasket mold used in the present invention;

12 and 13 show another embodiment of the present invention according to FIG.

14 and 15 are cross-sectional structural views of polarizing lenses manufactured according to the embodiments of FIGS. 12 and 13, respectively;

16 is a cross-sectional structural view of still another embodiment of a gasket mold used in the present invention;

17 is another embodiment of the present invention according to FIG.

<Explanation of symbols for main parts of drawing>

1: gasket mold 2: glass upper mold

3: lower glass mold 4, 8: polarizing film

5: ring 10: protruding jaw

11: horizontal surface 12: curved surface

13: turning 14: home

Claims (10)

In the method of manufacturing a lens by installing the upper, lower glass, and lower mold of the protrusion formed on the inner side of the gasket mold, the raw material for lens manufacturing is introduced between the glass and the lower mold through the side of the gasket mold, Positioning the polarizing film having a groove formed in a position opposite to the upper portion of the protruding jaw of the gasket mold, After the ring is installed on the upper part of the polarizing film, the upper and lower glass molds are respectively installed on the upper and lower parts of the protruding jaw of the gasket mold so that the raw material for manufacturing the lens supplied through the side of the gasket mold is embedded with the polarizing film. Method for producing a polarizing lens characterized in that. In the method of manufacturing a lens by installing the upper, lower glass, and lower mold of the protrusion formed on the inner side of the gasket mold, the raw material for lens manufacturing is introduced between the glass and the lower mold through the side of the gasket mold, Positioning the polarizing film having a groove formed at a position opposite to the lower portion of the protruding jaw of the gasket mold, After the ring is installed on the lower part of the polarizing film, the upper and lower glass molds are respectively installed on the upper and lower parts of the protruding jaw of the gasket mold, so that the raw material for manufacturing the lens supplied through the side of the gasket mold is embedded with the polarizing film. Method for producing a polarizing lens characterized in that. Through the assembly of the upper, lower glass, lower mold (2), (3) of the protrusion 10 formed on the inner side of the gasket mold (1) through the side of the gasket mold (1) through the lens manufacturing raw material In manufacturing the lens by putting between the glass, the lower mold (2), (3), Positioning the polarizing film 4, the groove 14 is formed in a position opposite to the upper portion of the protruding jaw 10 of the gasket mold (1), After the ring 5 is installed on the polarizing film 4, the upper glass mold 2 and the lower glass mold 3 are installed on the upper and lower sides of the protruding jaw 10 of the gasket mold 1. And the ring (5) is made of an assembly tool which is pressed by the upper glass mold (2). The method according to claim 3, The protrusion 10 has a top surface is a horizontal surface 11 and the bottom surface is composed of a curved surface 12 having the same curved portion as the end surface of the lower glass mold (3), protruding inside the curved surface 12 (13) is formed, The manufacturing apparatus of the polarizing lens characterized by the above-mentioned. The method according to claim 3 or 4, The upper portion of the protrusion 10 is composed of the same upper curved portion 20 and the curved portion formed on the end of the upper glass mold (2), the lower portion of the curved portion formed on the end of the lower glass mold (3) Apparatus for producing a polarizing lens, characterized in that consisting of the same lower curved portion (21). The method according to claim 5, Apparatus for manufacturing a polarizing lens, characterized in that forming a projection (13) on the upper curved portion 20 and the lower curved portion (21). The method according to claim 5, Apparatus for manufacturing a polarizing lens, characterized in that the upper surface of the projecting portion 10 constitutes a horizontal surface portion 23 and the curved surface forming portion 24 at the same time. Through the assembly of the upper, lower glass, lower mold (2), (3) of the protrusion 10 formed on the inner side of the gasket mold (1) through the side of the gasket mold (1) through the lens manufacturing raw material In manufacturing the lens by putting between the glass, the lower mold (2), (3), Position the polarizing film 4 having the groove 14 formed at a position opposite to the lower portion of the protruding jaw 10 of the gasket mold 1, After installing the ring (5) in the lower portion of the polarizing film (4), the upper glass mold (2) and the lower glass mold (3) to the upper and lower sides of the projection jaw 10 of the gasket mold (1) And the ring (5) is made of an assembly tool which is pressed by the lower glass mold (3). Raw material for lens manufacturing through the side of the gasket mold (1) by assembling the upper, lower glass, lower mold (2), and (3) of the protruding jaw (10) formed on the inner side of the gasket mold (1), respectively. In the lens produced by inserting the glass between the lower mold (2), (3), Positioning the polarizing film 4, the groove 14 is formed in a position opposite to the upper portion of the protruding jaw 10 of the gasket mold (1), After the ring 5 is installed on the polarizing film 4, the upper glass mold 2 is positioned on the ring 5, and the lower portion of the gasket mold 1 is lowered below the protruding jaw 10. It characterized in that the polarizing film (4) is built by the lens manufacturing raw material supplied through the side of the gasket mold (1) by constituting the assembly for installing the glass mold (3) is embedded in the lens manufacturing raw material Polarized lenses. Raw material for lens manufacturing through the side of the gasket mold (1) by assembling the upper, lower glass, lower mold (2), and (3) of the protruding jaw (10) formed on the inner side of the gasket mold (1), respectively. In the lens produced by inserting the glass between the lower mold (2), (3), Position the polarizing film 4 having the groove 14 formed at a position opposite to the lower portion of the protruding jaw 10 of the gasket mold 1, After the ring 5 is installed on the lower portion of the polarizing film 4, the upper glass mold 2 is positioned above the protruding jaw 10 of the gasket mold 1, and the lower portion of the ring 5 is lowered. It characterized in that the polarizing film (4) is built by the lens manufacturing raw material supplied through the side of the gasket mold (1) by constituting the assembly for installing the glass mold (3) is embedded in the lens manufacturing raw material Polarized lenses.