KR200343926Y1 - A ring structure of gasket mould for manufacturing polarizing lens - 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.

In the present invention, in the use of a ring, which has not been attempted with the structural change of a gasket mold, which has been used in the related art, the structure was made possible by allowing the polarizing film to be embedded on the raw material of the lens without crying during the manufacturing of the lens. .

At this time, the ring to be used could be configured by the same configuration on the curved surface of the polarizing lens and the curved surface of the protruding jaw of the gasket mold.

Description

Jig structure of polarizing lens manufacturing gasket {A RING STRUCTURE OF GASKET MOULD FOR MANUFACTURING POLARIZING LENS}

The present invention relates to a structure of a jig for applying to a gasket device for manufacturing a polarizing lens, and more particularly to a structure of a ring for applying to a gasket device for manufacturing a polarizing lens using a polymer synthetic resin as a raw material. It is about.

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.

In order to solve this problem, the applicant has developed Korean Patent Application No. 2003-57617.

By the way, in the case of the above-mentioned line application, since the ring is used while supporting the entire edge of the polarizing film and does not support the entire edge of the polarization film, a problem in which wrinkles occur in the polarizing film is sometimes found if attention is not paid. There was this.

The present invention is to solve the problems of the pre-application as described above.

The present invention was made possible by incorporating a polarizing film on the raw material of the lens at the time of manufacture of the lens through the use of a ring that has not been attempted with the structural change of the gasket mold used in the past to solve the above problems. The above-described ring was configured in the same manner as the curved structure of the curved surface of the polarizing film and the protruding jaw of the gasket mold, and by dividing the above-mentioned ring as needed, using only a part thereof.

Since the polarizing film manufactured through the present invention is embedded in the raw materials constituting the lens, the surface of the polarizing film can be processed without damaging the polarizing film for effects of making the lens impossible. Therefore, 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.

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

2 is a cross-sectional structural view of a gasket mold used in the present invention,

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

Figure 3b is a cross-sectional view of the glass lower mold used in the present invention.

Figure 4a is a cross-sectional structure diagram of a polarizing film used in the present invention,

Figure 4b is a planar structure diagram of a polarizing film used in the present invention,

5 is a reference perspective view of the jig used in the present invention,

6 is a cross-sectional structure diagram of a jig used in the present invention,

7 is another embodiment of a jig used in the present invention,

8 is an embodiment showing an example of assembly of the manufacturing apparatus using the present invention,

9 is a cross-sectional structural view of a polarizing lens manufactured according to the embodiment of FIG. 8.

<Explanation of symbols for main parts of drawing>

1: gasket mold 2: glass upper mold

3: lower glass mold 4: polarizing film

5: ring 10: protruding jaw

11, 12: curved surface 14: groove

55: curved surface 57: split ring

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 present invention, a gasket and a mold required 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 composed of the upper and lower surfaces of the curved surface 11, 12, the curved surface 11, 12 is the glass, the lower mold (2), the end of the (3) Will be located respectively.

And at the point where the curved surfaces 11, 12 and the gasket mold 1 meet, a protrusion 13 having a state larger than the thickness height of the polarizing film 4 is formed.

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.

Meanwhile, in the present invention, the grooves 14 are formed to be long inward at positions opposing each other in configuring the polarizing film 4.

The lower surface of the ring 5 has the same curved surface 55 as that of the curved surfaces 11 and 12 and the polarizing film 4 of the protruding jaw 1, and the upper surface 56 is It can be formed horizontally or used as a curved surface.

In addition, if necessary, the ring 5 may use a divided ring 57 having a size sufficient to support the end edge of the polarizing film 4, rather than using a ring that maintains a perfectly circular shape. do.

At this time, the ring (5) and the divided ring (57) can maintain its shape even at high temperature, such as polypropylene, polyester or Teflon, and is made of a material that can be easily separated from the raw material for lens manufacturing. As an injection hole formed on the center side of the gasket mold 1, it is used to inject raw materials through the inside of the gasket mold 1 and through it.

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

The polarizing film 4 is positioned on the curved surface 11 of the protruding jaw 10 of the gasket mold 1.

At this time, the polarizing film 4 is aligned with the groove 14 of the polarizing film 4 to the protrusion 13 so as to closely contact the polarizing film 4 to the curved surface 11 of the gasket mold 1. Let's do it.

In this state, the upper surface of the polarizing film 4 is installed on the upper surface of the polarizing film 4 by the ring 5, and the curved surface 55 of the lower surface of the ring 5 is the end of the polarizing film 4 and the curved surface of the protruding jaw 10 ( 11) Place it with care to be in close contact with it.

In this case, the curved surface 55 of the ring 5 has the same curved surface as the curved surface 11 of the polarizing film 4 and the curved surface 11 of the protruding jaw 10, and thus the curved surface 55 as a whole. Is located at the end of the polarizing film 4 and the curved surface 11 of the protruding jaw 10 can be installed without causing the adhesiveness and wrinkles on the polarizing film (4) to support the polarizing film (4). Will be.

In this state, the glass upper mold 2 is installed on the upper surface 56 of the ring 5, but is fitted in close contact with the side surface of the gasket mold 1.

In this case, the ring 5 may use a ring having a structure as shown in FIG. 5 and a split ring 57 as shown in FIG. 7 as necessary. do.

However, when using the divided ring 57 is positioned at least two so as to be located in a position opposite to each other.

In this case, the glass upper mold 2 is positioned at an upper portion by the thickness of the ring 5, and is positioned at an upper and lower portions by the thickness of the polarizing film 4 and the ring 5.

Then, the lower glass mold 3 is installed on the curved surface 12 of the protruding jaw 10, but is fitted in close contact with the side surface of the gasket mold 1.

In this assembling state, it is important that the polarizing film is carefully aligned so as 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 the polarizing film 4 is installed. Assemble so that deformation does not occur in the form of (4).

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), 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 the supply of such a series of raw materials is completed, 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). The manufacturing of the polarizing lens 7 is completed.

It can be seen that the polarizing lens 7 manufactured according to the present invention has a polarizer film 4 embedded therein in a state impregnated therein as described above, and the thickness at which the polarizing film 4 is located is lower It can be seen that it is embedded inside the distance (c) by the thickness of the ring (5) divided from.

The polarization lens 7 according to 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 after long-term use. Can be solved completely.

What has been described above shows that the polarizing lens 7 is manufactured by placing the flat film 4 at the lower part of the ring 5, which can be implemented even if the lower part is positioned as necessary. .

The embodiment of 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, it is clear that the scope of the present invention is not limited only to the examples described above.

As described above, as in the salping bar, 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 produced inside the raw material 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 is a very useful design that can be used for people with near and far field, and can also be mass-produced because it provides a polarizing lens by injection through a gasket mold.

Claims (2)

Position the polarizing film 4 having the groove 14 formed at a position opposite to the curved surface 11 of the protrusion 10 formed on the inner side of the gasket mold 1, and on the upper portion of the polarizing film 4 After the ring 5 is installed, the upper glass mold 2 is positioned on the upper portion of the ring 5, and the lower glass mold 3 is installed on the curved surface 12 positioned below the protrusion 10. In the assembly structure to the lens gasket mold (1) through the side of the raw material for manufacturing the lens between the glass, the lower mold (2), (3) in manufacturing the lens, The lower surface of the ring 5 has a structure having a curved surface 11, 12 of the protrusion 10 and the same curved surface 55 as the curved surface of the polarizing film 4 Jig structure of the gasket. The method according to claim 1, The jig structure of the polarizing lens manufacturing gasket, characterized in that the ring (5) is divided into a ring (57) divided and installed in a plurality of positions facing each other.