TW201017254A - Contact lens structure and its manufacturing process method - Google Patents

Abstract

The present invention provides a contact lens structure and its manufacturing process method, which is to place the contact lens material into the cavity of the mold and then utilize the die block of the auxiliary jig to press into the cavity to press against the lens material, and carries out the curing processing on the lens material, such that it adheres onto the die block of auxiliary jig; and through the film coating treatment, the outer surface of the lens is formed with a metallic-material film, while the metallic-material film is covered and laminated thereon with another lens. By means of the protective metallic-material film of another lens to be firmly adhered to the lens and an inspection process, the lens of contact lens is molded. When the user wears on the contact lens, through the film-coating treated metallic-material film on the lens outer layer, the eyes can be made to present the light-reflecting effect with metallic gloss.

Description

201017254 VI. Description of the Invention: [Technical Field] The present invention provides a contact lens structure and a method for manufacturing the same, in particular, a coating film can be used to form a surface of the outer surface of the lens with a metal film, and the metal film is coated on the film. There is another lens that gives the eye a metallic color that produces a special visual effect. [Previous technology], according to the development of the urbanized society, children living in the city have less chance to have contact with the outdoors. 'You can't see the distant landscape, let the eyes relax, and the children growing in the city. I usually want to see the distance, I can only see the opposite high-rise buildings and buildings, and usually work at close distances such as reading books, writing, playing electric toys, playing computer, playing the piano, painting, so, the eyes are difficult to relax. As the population of myopia has fallen rapidly and the population of myopia has increased, the number of people who shouted glasses has risen in a straight line. For contact lenses, the demand is also more. In recent years, Wei, Due to the development of color contact lenses, in addition to the original medical function of vision renewal, it also adds the functions of beauty and makeup. 'There are not many occasions for the use of initial color contact lenses'. Most of them are used for dances and acting, but they are used. Near-silk contact lenses have gradually become a trend. Many young people wear colored contact lenses to discolor their eyes even if they don’t have myopia. The wearing time and frequency of colored contact lenses increase, but 'the current contact lenses on the market only have different color-changing shape changes' lack of more advanced and different changes, so there is still a great improvement of 3 201017254 ·< * This is the goal of the inventor and those who are engaged in this industry. SUMMARY OF THE INVENTION Therefore, the inventors are concerned with the above-mentioned problems and deficiencies, and collect relevant information. Through multi-party evaluation and consideration, and to engage in the research and development experience of materials in this industry, through continuous trial and modification, the invisible design is designed. The birth of the glasses structure and its manufacturing method. ❹ The purpose of this (4) is to _ Mirror material, the mold of the human mold, and then the spectacles of the lion's mold, and the lens material in the mold is cured to make it adhere. On the module of the auxiliary fixture, the outer surface of the lens is formed into a metal film through the treatment of the mineral film, and the metal film (four) film is coated with another lens to protect the gold (four) material by another lens. In the system, after the miscellaneous recording, the system of the micro-mirror is formed. When the spectacles are worn, the metal film which is chrome-plated through the outer layer of the lens enables the eye to exhibit a metallic color reflection effect. The secondary object of the present invention is that after the completion of the treatment, the electron beam can be emitted from the electron beam apparatus, and the metal film of the outer layer of the contact lens is engraved with the preset position and shape, and the axis increases the appearance of the hidden mirror. [Embodiment] In order to achieve the above object and structure, the technical means and effects thereof used in the present invention, the implementation of the method (the fourth step) and its function 201017254 -1 are as follows, and the profit is fully understood. Ming also refers to the first, second, third, fourth and fifth figures, which are the side view of the invention, the side view sub-anatomy, the flow chart, the side cross-sectional view, the side view decomposition profile of the mold and the auxiliary fixture. ®, it can be clearly seen from the towel, the contact lens structure of the present invention and the manufacturing method thereof are composed of a mold 1 and an auxiliary jig 2, wherein: the mold 1 is concavely provided with a cavity 丄i, and the cavity is in the shape of a circular arc, and forms a sharp-shaped chamfered edge 111 on the outer periphery of the top, and is provided with a plurality of micro-convexs on the periphery of the chamfered edge 1 1 1 The convexity of the auxiliary fixture 2 is convexly provided with the module 21, and the module 21 has an arc shape, and is provided with an inclined resisting surface 2丄i at the outer peripheral edge of the top, and is outside the module 21 The fixture space 2 2 is formed, and the outer ring of the fixture 2 2 is provided with a package plane 2 3 . ❷ When the above components are used, the contact lens material 3 can be placed in the cavity 11 of the mold 1 and the contact lens material 3 is a hydrogel having a color or transparency, and the cavity 11 is used for the auxiliary fixture 2 The module 21 cooperates with the pressing, and uses the relative pressing of the cavity 11 and the module 21 to spread and extend the eyeglass material 3 along the arc surface of the cavity 1 1 and the module 21, and squeeze the excess lens material 3 into the die. The cutting edge rim 111 of the top of the sixth 11 is outside and covered on the outside of the coupling protrusion 12, and the chamfered edge 111 is further abutted against the abutting surface 211 of the top of the module 21, that is, the chamfered edge 111 is used. The eyeglass material 3 at the top of the overflow cavity 11 5 201017254 ·* t is cut off, and the excess eyeglass material 3 is bonded to the bonding protrusion 12, and the eyeglass material 3 in the cavity 11 can be polymerized by heating and UV ultraviolet rays. For the lens 3, the auxiliary jig 2 is separated from the mold 1, and the lens 31 is attached to the arc surface of the module 21 of the auxiliary jig 2, and then the lens 31 is led to the coating device 4 for transmission. Sputtering or vapor deposition on the outer surface of the lens 31 is coated with a metal film 3 3 (please also refer to 6 and 7), and the electron beam device 5 emits an electron beam to remove unnecessary portions of the metal film 3 3 to form one or an uncoated region 34 or a pattern (see also In the eighth and ninth diagrams, in addition, in the coating process, the photomask 6 having the through hole 6 can be blocked outside the lens 31 (please refer to the tenth figure at the same time), and the mask 6 is used. The hole 61 allows the coating device 4 to be plated with the metal film 3 3 on the lens 31, and the through hole 61 of the mask 6 is shielded by the mask 6 corresponding to the position of the lens 3, so that the metal material is not plated. 3. Therefore, the metal film 3 3 ' can be formed directly at the position corresponding to the through hole 61 by means of ruthenium plating or vapor deposition, and the uncoated region 34 can be located at the center of the lens 31 and corresponding to the pupil position of the eye or at least one of the lenses 31. The central peripheral position, and the uncoated area 34 located at the pupil position of the eye is shaped to conform to the shape of the pupil of the eye, and one or more uncoated areas 34 of the central peripheral position of the lens 31 may be star-shaped, irregularly shaped, multilateral And various pattern shapes; then the lens material 3 of another lens 36 having color or transparency is placed in the cavity 11 of the mold 2 (please refer to the tenth-picture at the same time) for the auxiliary fixture 2 to be attached 6 201017254 * The module 21 having the metal film 3 3 lens 31 is matched, and the outer layer of the metal material film 33 is covered with the other lens 36 (please refer to FIG. 12 at the same time), and the lens material 3 is along The cavity of the cavity and the arc of the module 2 1 are scattered and extended, and the multi-ship material 3 is pushed out of the chamfered edge 111, and the periphery of the cavity is cut by the cavity. Cut off and separate a little eyeglass material 3 outside the cut edge rim 111 to form a residual material 3 2 (see also the figure of the thirteenth figure), so that the sticker can be combined with another lens. 3 6 and metal material _3 3 lens 3 1 module 2 1 outer mouth P fixture space 2 2 into the buffer 7 (please also refer to the fourteenth figure), and at the same time outside the fixture space 22 The package plane 23 is bonded by the film 8 (please also refer to the fifteenth figure), that is, the production is completed. The outer layer of the contact lens is finished with a metal film 3 3 chrome plating process. 'The electron beam 1 (such as laser light) can be emitted by the electron beam device 5 (such as a laser beam), and the metal film 3 on the outer layer of the contact lens. The above is removed to show the pattern and shape preset by the unnecessary range, thereby increasing the appearance change of the contact lens, providing consumers with more choices. In addition, the metal material film 3 3 may be a metal material, a composite metal material or a metal material having an oxide, wherein the metal material may be a material such as gold (A u ) aluminum (A 1 ) or 鈥 (τ i). The composite metal material may be made of aluminum-bismuth alloy (A 1 -S i), aluminum-titanium alloy (A丨-butylene), and the metal material with oxide may be alumina (A12〇3), oxygen 7 201017254 ▲ * , , Dream (S i 〇 2), titanium oxide (τ 〇 2) and other materials. Please also refer to the first, second, third, fourth, fifth, sixth, seventh, eighth, ninth, tenth, eleventh, twelfth, thirteenth, fourteenth and fifteenth drawings, which are the three-dimensional appearance of the present invention. Side view, anatomical closure, flow paste, side cross-sectional view, side view exploded view of mold and lion fixture, schematic diagram of coating, schematic diagram of mine film finish, schematic diagram of laser engraving, laser engraving Schematic diagram, schematic diagram when blocked by light, lens of metal (4) film combined with another lens * Intention, lens with metal film combined with mirror of the other lens, lens with metal film to cut another lens The schematic diagram of the remaining material, the auxiliary jig injection _ liquid side view _, _ jig package side view of the side view of the figure can be clearly seen from the drawings, the contact lens of the present invention into m: The process of manufacturing can be carried out by the following steps: Step (1 〇 1) The contact lens material 3 having color or transparency is first placed in the cavity 11 of the mold 1. ❹ Step (10 2) by the mold of the mold 1! Then, the auxiliary jig 2 is press-fitted with the mold 21, and the lens material 3 in the cavity 11 is pressed and pressed. Step (10 3) when the module 21 is pressed against the lens material 3 in the cavity 11, and the lens material 3 can be diffused and extended upward along the arc surface of the cavity 11 and the module 2, and the excess glasses material is used. 3 Push out the outside of the cut corner rim 111. Step (1〇4) is provided by the angle rim edge 1 1 1 of the periphery of the cavity 11 for the abutting surface 2} of the outer layer of the module 21 to be adhered to further overflow the edge of the chamfered edge iii A small amount of the lens material 3 is cut and separated to form a residual material 3 2 〇 Step (10 5) The lens material 3 in the cavity u of the mold i is subjected to a curing process. Step (10 6) separates the mold 1 from the auxiliary jig 2, and causes the cured eye β mirror material 3' to be attached to the surface of the module 2 of the auxiliary jig 2, and formed into a lens 3 2 for the next step. The coating process is performed, and the remnant remaining material 3 2 is left at the chamfered edge 111 of the cavator 1 and is bonded to the bonding protrusion 12 by a cover. In the step (10), the lens 3 attached to the auxiliary jig can be treated by a film processing method to form a metal film 33 on the outer surface of the lens 3 i by sputtering or evaporation. Step (10 8), the contact lens material 3 having the color or transparency of the other lens 36 is placed in the cavity 1 of the mold 1 for the auxiliary fixture 2 to be fitted with the module 21 having the metal film 3 3 lens 31 attached thereto. Pressing in and causing the lens material 3 of the other lens 36 to spread and extend upward along the arcuate surface of the cavity 11 and the module 21, and push the excess lens 3 3 into the cut edge Outside the side 111. 9 201017254 Step (10 9) By cutting the edge rim i of the cavity 1i, the other lens 36 of the lens 36 outside the kerf edge 111 is cut off and separated to form a residual material 3 2 . v (110) is further formed into a contact lens by inspection, and a buffer 7' is injected into the jig space 2 2 outside the module 21 of the auxiliary jig 2 and the jig space 2 2 in the auxiliary jig 2 On the outer package plane 2 3 , the film 8 is bonded to perform packaging work. The contact lens structure is formed on the surface of the outer surface of the lens having a color or transparency, and the metal material film 3 3 is formed, and the metal material film 3 3 can be made according to the needs of use, and the metal material f film 3 3 It can have the effect of being permeable or opaque, and is coated on the outer surface of the metal (4) film 3 3 with a color or transparent lens 3 3, so that the metal film 3 3 is coated on the lens 31 and the other lens 3 Between the 6 and the metal film 3 3 can be formed with one or more than the shape of the uncoated area 3 4 'to make the metal film 3 3 form a preset hollow and ugly shape The film area 34 4, in turn, increases the appearance change of the contact lens, and then the color of the metal film 3 3 and the other lens 36 is matched by the color of the lens 3 for the user to wear, which enables the eye to exhibit a metallic color. Reflective effect. In the manufacturing process of the contact lens described above, the coating treatment method is such that the lens 31 can be led to the coating device 4, and the metal film 3 3 is plated on the outer surface of the lens 31 by sputtering or evaporation; Through the electron beam device 5 of 201017254, an electron beam (such as laser light) is emitted to remove unnecessary portions of the metal film 3 3 to form one or more uncoated regions 3 4 having a pattern; in addition, During the processing of the mineral film, the photomask 6 having the through hole 61 is shielded from the outside of the lens 31, and the coating device 4 is plated with a thin metal material 3 3 on the lens 31 by using the through hole 61 of the photomask 6. The outside of the through hole 61 of the cover 6 and corresponding to the position of the lens 31 are blocked by the reticle 6, so that the metal film 3 3 is not plated, and the one or one ❹ can be formed with a fine sample. Therefore, the metal material film 3 3 can be formed directly at the position corresponding to the through hole 61 by sputtering or vapor deposition. In addition, the contact lens is configured to have a color or transparency. The outer surface of the contact lens 31 is covered with a metal film 33, and the metal material thin layer 3 3 is formed with one or more uncoated regions 3 4 having a shape. The metal film 33 on the lens 31 is coated with another lens 36 having a color or transparency. When the user wears the contact lens, the metal film 3 3 ' formed by the outer layer of the lens 31 enables the eye to exhibit a metallic color reflective effect, and can be formed on the lens 3 by the coating device 4. The metal film 3 3 of different thicknesses and the like, the metal film 3 3 can have the effect of being permeable to light and opaque to produce a special visual effect, and the metal film 3 3 is permeable to light, and more By means of the metal film 3 3 of the outer layer of the lens 3 2, the eye protection effect is achieved, and the excessively strong or harmful light is prevented from directly shining to the eyes, and the shape and pattern of the surface of the metal film 3 3 of the lens 31 can be matched with the surface 11 201017254 < It creates a distinctive visual perception that enhances the competitiveness of the product. In addition, the outer surface of the metal film 3 3 of the lens 31 can be coated with a color or transparent double lens 3 6 , and when the other m 6 is colored, the metal film 3 3 outer layer attached to the lens 31 When the color of the metal film 3 3 is prevented from falling out of the lens 31 and the immersion in the buffer 7 for a long time, the buffer 7 can be prevented from corroding the metal film 3 . 3, effectively protect the metal material film φ 3 3, extend the service life. Please also refer to Articles 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28 Twenty-nine rides, which are the flow chart of the best performance, the side view exploded view of the print head and the mold, the side view exploded view after the pad printing, and the side view Side view of the mold and auxiliary fixture, side view of the mold and lion fixture, schematic view of the film, trace of the film, β _, laser _ time, lens with metal film A schematic diagram of combining another lens, a schematic diagram of a lens with a metal film combined with another lens, a schematic diagram of a mirror with a metal film, and a side view of the auxiliary solution injection buffer, The U-side diagram of the encapsulation method of the auxiliary jig 'If you want to add the contact lens to the color pigment, the processing procedure of the mineral film is carried out. The steps are as follows: Step (2 〇 1) Pattern paint 9 work using transfer method , by a pad printing head 9 dipped in the pattern pigment 9i, and then by the pad printing head 9 12 201017254 Transfer the adhered pattern pigment 91 to the cavity 1 of the mold 1 〇Step (2 0 2) Place the contact lens material 3 with color or transparency into the cavity 11 of the mold 1 and locate it. The center of the pattern pigment 91. In the step (203), the auxiliary jig 2 is press-fitted by the mold 21 by the cavity 11 of the mold 1, and the lens material ® 3 in the cavity 11 is pressed and pressed. Step (2, 04) when the module 21 is pressed against the lens material 3 in the cavity 11, and the lens material 3 can be diffused and extended upward along the arc surface of the cavity 11 and the module 2, and the excess glasses material is used. 3 Push out the outside of the cut corner rim 111. Step (205), by means of the chamfered edge 111 of the periphery of the cavity 11, the abutting surface 211 of the outer portion of the module 21 can be brought into abutment to further absorb a little eyeglass material 3 outside the chamfered edge 1i Excision and separation are carried out to form a residual material 3 2 0 step (2 0 6 ) to the cavity of the mold 1; [the optical material 3 in the i is subjected to a curing process. Step (2 0 7) separates the mold 1 from the auxiliary jig 2, and causes the cured lens material 3 to be attached to the surface of the module 2 of the auxiliary jig 2, and formed into a colored lens 35, and the remaining material is cut off. 13 201017254 3 2 is left at the cut edge rim 111 of the cavity 11 and is attached to the joint protrusion 12 by a cover. 'Spoke (2 0 8) will be attached to the auxiliary lens 2 color lens 35 can be treated with a bond film to sputter or vapor deposition on the outer surface of the colored lens 3 5 metal film 3 3, and then metal The material film 3 3 removes the unnecessary range portion to show the uncoated region 34 of the predetermined pattern and shape. Step (2 0 9 ) Then, the lens 3 material having the color or the sun and the moon is placed in the cavity 11 of the mold 1 for the auxiliary fixture 2 to be attached with the metal film 3 3 lens. The module 21 of the 3 1 is press-fitted, and the lens material 3 of the other lens 3 β is spread and extended upward along the arc surface of the cavity 11 and the module 21, and the excess lens 3 3 glasses material 3 Pushing out the cutting edge rim 111 outer step (210) by cutting the edge rim rim 11 of the cavity 11 to cut off and separate a little lens 3 material 3 outside the kerf edge 111 The remaining material 3 2 . After the step (211) is formed into the lens of the contact lens by the inspection, the buffer 7 is inserted into the jig space 2 2 outside the module 21 of the auxiliary jig 2, and outside the jig space 2 2 of the auxiliary jig 2 On the package plane 2 3, the bonded film 8 is subjected to a 14 201017254 package operation. The contact lens structure is formed on the outer surface of the color lens 35 having a color or a transparent and patterned pigment, and a metal film 3 3 is formed, and the metal material 3 3 can be made into different thickness according to the requirements of the shape. Change, so that the metal material sense 3 3 can have the effect of being permeable or opaque, and the outer surface of the metal material film 3 3 is covered with a color or the other lens 3 6 ' is coated with the metal material film 3 3 Between the color lens 35 and the other lens 3 6 , the metal film 3 3 can be formed with one or more uncoated regions 34 of the patterned pattern, so that the metal film 3 3 has its uncoated region 3 4 and the pattern pigment g1 produces a multi-level combination, which in turn increases the appearance of the contact lens, and then through the metal material _3 3 and the other - lens 3 6 color matching secret mixed with a variety of colors, for users to wear, can Allows the eye to exhibit a multi-reflective effect with metallic color. In the manufacturing process of the above colored contact lens, the coating treatment method is such that the shirt color lens 35 can be led to the coating device 4, and the metal material film 3 3 is plated on the outer surface of the lens 31 by sputtering or vapor deposition; The unnecessary portion of the metal film 3 3 formed on the outer layer of the shirt lens 35 is removed, so that the metal film can be removed by the electron beam (for example, laser light) after the coating process is performed by the electron beam device 5. 3 3 is not necessary for the outer layer of the lens, and one or more unplated regions 3 4 are formed on the metal film 3 3; or the metal material 15 2010 17254 formed on the outer layer of the color lens 35 The unnecessary part is removed. In the coating process, the photomask 6 having at least one or more through holes can be shielded from the outside of the color lens 35. The coating device 4 is used by the through hole 61 of the mask 6. The metal film 3 3 ' is bonded to the color lens 35 and the through hole 61 of the mask 6 is externally received by the mask 6 corresponding to the position of the color lens 35, so that the metal film 3 3 ' is not formed by the metal film 3 3 ' - or More than one uncoated area 34' having a styling pattern can be formed directly on the corresponding through hole 6 ❹ 1 by means of a metal material _33, so that the colored lens 3 5 can be seen through the uncoated body area 34. The color of the outer layer, and the overlapping position of the colored lens 35 and the metal film 3 3 can produce a reflective color with metallic and pigment colors 'with different preset color lenses 3 3 and metal film 3 3 multi-level matching' A variety of preset colors of reflective color, resulting in a different visual perception. The lens material 3 in the mold 1 is cured by ultraviolet light (UV) irradiation, heat treatment, or the like, and the lens material 3 is polymerized after the light energy is polymerized. The lens material 3 can be colored or transparent. Hydrogel or material with ultraviolet light (UV) curing material and heat curing material; further auxiliary fixture 2 on the job plane 2 3 on the county material (4) can be (4), film, etc. . In addition, the structure of the contact lens is a contact lens lens 31' which can have a color or transparency, and the outer layer is covered with a metal film 3 3, and the one or more uncoated films formed on the metal film 3 3 are formed. In the area 201017254 34, a pattern pigment 91 is further disposed between the glasses material 3 and the metal material film 33 and located at the periphery of the pupil, and the metal material film 3 3 on the lens 3 i is coated with another lens 3 6 having color or transparency. . The color lens 3 5 metal material _3 3 outer layer can be coated and attached to another: the lens 3 6, by the other - the lens 3 6 can prevent the metal material film 3 3 from falling off the lens 31 'and long-term soaking in the buffer When liquid 7 is used, it can also prevent buffer 7 from considering metal film 3 3, and effective (4) metal film "©' to extend the service life. In addition, the above-mentioned auxiliary fixture 2 has a circular arc surface of module 2, which can be processed. The processing is combined with the affinity of the glasses material, and the processing can be performed by various surface processing operations such as corona (c 〇r 〇na) processing, flame treatment or UV treatment, and the surface and the series of the module 2 i are added. Affinity of the material 3. The above-mentioned contact lens structure and the method of the same according to the present invention have the following advantages in practical use, such as: (1) The lens 31 is formed by a coating process to form a metal film 33 on the outer surface of the lens 3 The metallic material film 33 produces a metallic color reflective effect, which produces a special visual perception and can also achieve eye protection. (2) The colored lens 35 can be used as a color lens 3 5 outer metal material in the coating process. The film 3 3 is formed with a predetermined shape uncoated area 3 4 ' so that the uncoated area 3 4 can see the color of the outer layer of the color lens 35 201017254, and the color lens 35 and the metal material 3 3 overlap position ' Produces a reflective color with metallic and pigment colors, and with the combination of the pattern pigment 91 on the lens 35 and the metal film 3 3 in different preset colors, it can produce multi-level changes and achieve different visual perceptions. (3) The color lens 3 5 metal material film 3 3 outer layer can be coated with another lens 3 6 which can have a preset color, can produce the reflective color of different preset color β colors, can be prevented by the other lens 3 6 When the metal film 3 3 falls off the lens 31 and is immersed in the buffer 7 for a long time, the buffer 7 can be prevented from corroding the metal film 3 3 , and the metal film 3 3 can be effectively protected, thereby prolonging the use period. In order to mainly form the outer surface of the lens with a metal film by the coating treatment, the eye can exhibit a metallic reflective color throwing, and the outer layer of the metal material 3 3 can be coated with another lens 3 6 The metal film 3 3 can be prevented from falling off the lens 31 by the other lens 36. In addition, the uncoated region 34' of the predetermined pattern and shape can be formed on the metal film 3 3 to match different presets. The color lens is multi-layered and can be reflected by the color of the other-mirror 3 6 mixed shirt color. However, the above description is only a preferred embodiment of the present invention, which cannot be limited by this. The scope of the present invention, therefore, the use of the present specification and the contents of the drawings for the sake of the succinct decoration and the like, is still included in the scope of the patent covered by the present invention, and is combined with Chen Ming. 18 201017254 This is the effect and purpose of this, so this (four) Cheng is = invention, in fact, in line with the invention price < practical! Health excellence, seeking and application requirements, 提出 legally filed an application, hope that the trial committee will grant this case as soon as possible to protect The inventor's hard work, if there is any doubt in the fishing bureau, "I don't want to inform the inventor to make every effort to cooperate, the real sense is 0 Φ 参 19 201017254 [Simplified illustration] The first picture is the three-dimensional appearance of the inventionThe second tether is a side elevational cross-sectional view of the invention. The second figure is a flow chart of the present invention. The fourth figure is a side cross-sectional view of the present invention. The fifth® is a side view exploded view of the mold and the auxiliary fixture of the present invention.

The sixth system is a schematic diagram of the mine of the present invention. The seventh® is a schematic diagram of the mineral film of the present invention. The eighth® is a schematic diagram of the laser engraving of the present invention. The ninth® is a schematic diagram of the laser engraving of the present invention. The tenth® is a schematic diagram of the invention when it is blocked by the light. The eleventh ® is a schematic view of the lens of the metal film of the present invention combined with another mirror. The twelfth® is a schematic view of the lens of the metal film of the present invention combined with the other-mirror. The thirteenth® is a schematic view of the lens of the metal film of the present invention after the other lens is removed. The fourteenth + silk tree off _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Sixteenth is a flow chart of a preferred embodiment of the invention. 20 201017254 « « Tenth® is the side view of the pad and die of the invention. The eighteenth aspect is a side elevational exploded cross-sectional view of the pad printing head of the present invention. The nineteenth aspect is a side cross-sectional view of a preferred embodiment of the present invention. The twentieth® is a side cross-sectional circle of the mold and the auxiliary jig of the preferred embodiment of the present invention. The tenth® is a side view Φ exploded cross-sectional view of the mold and the auxiliary jig of the preferred embodiment of the present invention. The twenty-second figure is a schematic view of the mineral film of the preferred embodiment of the present invention. The eleventh drawing is a schematic view of the bell film of the preferred embodiment of the present invention. The fourteenth embodiment is a schematic view of a laser engraving of a preferred embodiment of the present invention. The fifteenth embodiment is a schematic view of a lens having a metallic film in combination with another lens in accordance with a preferred embodiment of the present invention. The first sixteenth embodiment is a schematic view of a lens with a metal film according to a preferred embodiment of the present invention. The seventeenth embodiment is a schematic view of a lens having a metal film according to a preferred embodiment of the present invention after the remaining lens material is removed. Figure 28 is a side cross-sectional view showing the auxiliary jig injection buffer of the preferred embodiment of the present invention. Figure 19 is a side cross-sectional view showing the package of the auxiliary jig of the preferred embodiment of the present invention. 21 201017254 • · [Main component symbol description] 1. Mold 1 1 , cavity 11 1 , chamfered edge 2 , auxiliary fixture 2 1 , module ❿ 2 1 1 , resisting surface 3 , glasses material 3 1 , lens 3 2. Residual material 3 3. Metal film*, coating equipment5, electron beam equipment 6, mask 6 1, through hole 12, combined protrusion 2, fixture space 23, package plane 3 4, unmineralized Membrane area 35, colored lens 36, another lens 7, buffer 22 201017254 8, film 9, pad printing head 9, 1 pattern pigment

Claims (1)

« 201017254 VII. Patent application scope: 1. A contact lens manufacturing method, the processing steps are as follows: (A) placing the contact lens material into the mold cavity; (B) the mold cavity can be used as an auxiliary fixture (C) curing the lens material in the mold; (D) separating the mold from the auxiliary fixture, the cured lens material is attached to the surface of the module of the auxiliary fixture, and formed into a lens; m (e) coating the lens attached to the auxiliary fixture to form a metal film on the outer surface of the lens; (F) placing the contact lens material of the other lens into the cavity of the mold for the auxiliary fixture (G) Applying a lens with a metal film to the other lens; (H) Forming the lens into a contact lens after inspection. ❹ 2, such as towels, please full-time (four)! The stealth mirror manufacturing method according to the item, wherein when the auxiliary jig is used in the module to cooperate with the pressure reading, the moving thin module resists the eyeglass material in the cavity and makes the eyeglass material along the arc surface of the cavity and the module. Spreading and extending upwards, and pushing the excess glasses material out of the edge of the chamfered edge, and then by the edge of the corner of the cavity, the resisting surface of the module can be pressed against the surface, and the step will be overflowed. A small amount of the lens material outside the corner edge is cut and separated to form a residual material. 3. The method of manufacturing a contact lens according to the scope of the patent application, wherein when the mold 24 201017254 _ « is separated from the auxiliary fixture, a small amount of the material of the cut-off lens material remains at the chamfered edge of the cavity. 4. The contact lens manufacturing method according to claim 1, wherein the coating process is performed by plating or vapor-depositing the lens on the outer surface of the lens with a metal film by a chrome plating apparatus. 5. The method for manufacturing a contact lens according to claim 4, wherein in the coating process, the reticle having at least one through hole can be shielded from the outside of the lens β, and the miscellaneous surface or the new handle can be used to make the green trajectory The position of the lens corresponding to the outer range is blocked by the reticle, and one or more uncoated areas are formed on the metal film. 6 The method for manufacturing a contact lens according to claim 4, wherein after the coating process, the electron beam is emitted through the electron beam device to remove the metal film from the unnecessary portion of the outer layer of the lens, and is formed on the metal film. One or more uncoated areas. Reference 7, as claimed in claim 1, wherein the metal material 4 film can be a metal material, a composite metal material or an oxide metal material, wherein the metal material can be gold (Au), Shao (Α1 ), Qin (Ti) and other materials, and composite metal material can be aluminum-bismuth alloy (Al_Si), aluminum-titanium alloy (A i-T1) and other materials, and the metal material with oxide can be oxidized Ming U 1 203), Oxygen cut (SiO 2 ), titanium oxide (τ i 〇 2) and other materials. 8. The contact lens manufacturing method according to the application of the patent specification, wherein the glasses 25 201017254 material curing process can be processed by using various curing procedures such as ultraviolet (UV) irradiation, addition, and processing. ',, 9, such as the application of paste _ 嶋 嶋 , 其中 其中 其中 其中 , , , , , , , , , , , , , , , , , , , , , , , , 辅助 辅助 辅助 辅助 辅助 辅助 辅助 辅助 辅助 辅助 辅助 辅助 辅助 辅助 辅助 辅助 辅助 辅助It can be used for various surface treatment methods such as corona processing 'flame treatment, UV treatment processing. Lu 11 1 〇 如 申请 申请 申请 申请 申请 申请 申请 申请 申请 申请 申请 申请 申请 申请 申请 申请 申请 申请 申请 申请 申请 申请 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨 峨The method for manufacturing a contact lens according to the first aspect of the invention, wherein the auxiliary module has a fixture space formed outside the fixture, and the outer surface of the fixture space is provided with a package plane' after the solution space is injected into the fixture space. The package surface of the auxiliary fixture can be directly packaged. 12 A method for manufacturing a contact lens, the steps of which are as follows: (A) printing the pattern pigment into the cavity of the mold; (B) placing the contact lens material into the cavity of the mold; (C) (A) the processing and processing of the glasses in the mold; (E) Separating the mold from the auxiliary fixture, the cured glasses material and the pattern pigment are attached to the auxiliary treatment The surface of the module is formed into a colored lens; (F) the colored lens attached to the auxiliary fixture is coated, and on the surface of the glass lens of 26 201017254, a metal film is formed on the outer surface of the colored lens, and then formed on the outer metal material of the colored lens. The unnecessary part of the film is removed, and one or more uncoated areas are formed on the metal film; (G) the contact lens material of the other lens is placed in the cavity of the mold for the auxiliary fixture A module with a metallic film color lens is fitted with a press; ❿ (Η) a color lens with a metal film is coated with another lens; (I) Glasses lens shape. 13. The method for manufacturing a contact lens according to claim 12, wherein when the auxiliary jig is fed with the mold hole of the pressing mold, the thief material in the paste module is pressed into the dust cavity, and the bribe machine is along the mold. The arc surface of the hole and the module spreads and extends upward, and the excess glasses material is pushed out by the cutting angle Φ, and the outer edge of the edge is used to pass the edge of the periphery of the cavity, which can be resisted by the outer surface of the module. Fit, step-by-step will cut off and separate a little eyeglass material outside the edge of the cut corner to form the remaining material. 14. The contact lens manufacturing method according to Item 12 of the patent scope, wherein when the mold and the auxiliary fixture are separated, the remaining material of the mold is left at the edge of the cut corner of the cavity. i 5, such as the contact lens manufacturing method described in the scope of the patent scope i i 2 wherein the film processing _ color H is by the plating or inspection method on 27 201017254 lens outer surface of the surface of the metal film. 16 as claimed The method for manufacturing a contact lens according to Item 12, wherein the metal material is thinly broken into a metal f of a composite metal thief with an oxide, wherein the metal material may be gold (Au), Shao (A1), or titanium. 1) and other materials, and composite metal materials can be used for alloys (a丄 A material such as Si) or a titanium alloy (A1_Ti), and the metal material having an oxide may be a material such as oxygen (A 1203), oxidized stone (Si 〇 2 ), or titanium oxide (T i 〇 2). 17. The method for manufacturing a contact lens according to claim 12, wherein the unnecessary portion of the outer shape of the thief formed in the color mirror is removed, and the coating process may have The reticle of at least one of the through holes is shielded from the outside of the color creation, and then the touch-recording process is performed, so that the position of the colored lens corresponding to the range outside the through-hole of the reticle is blocked by the reticle, and one or more are formed on the metal film. Uncoated area. 18. The method for manufacturing a contact lens according to claim 12, wherein the unnecessary portion of the metal film formed on the outer layer of the colored lens is removed, and the electron is emitted through the electron beam device after the coating process The beam removes the metal film from unnecessary portions of the outer surface of the colored lens, and forms one or more unplated regions on the metal film. 19. The contact lens manufacturing method according to claim 12, wherein the curing process of the optical material is processed by using ultraviolet light (uv) 28 201017254, and processing 4 various curing procedures. 2 〇=申(10) system item 12 __(10) method of making money, in which the aiding material is xianxian _ lining H ho wei Wei surface and glasses material affinity, and the surface processing system can be corona processing, flame treatment , uv processing and other surface treatment methods. For example, the method for manufacturing a contact lens according to claim 12, wherein the glasses material is a material which can be red or glazed, or a material of a light curing material or a heat curing material. 2. The method for manufacturing a contact lens according to item i 2 of the patent application scope, wherein a module space is formed outside the module of the auxiliary fixture, and a packaging plane is disposed outside the outer space of the fixture space, and is attached to the fixture space. After the buffer, the package surface of the auxiliary fixture can be directly packaged. A contact lens structure comprising a lens for a contact lens, wherein a metal film is formed on the surface of the outer layer of the lens, and another lens is coated on the outer surface of the metal material, so that the metal film is coated on the lens and Between the other lens. The contact lens structure of claim 2, wherein the metal material film is permeable or non-transmissive. The contact lens structure of claim 2, wherein the metal material film can form one or more uncoated areas with a patterned pattern. The contact lens structure according to claim 23, wherein the mirror 29 201017254 is formed with a ruthenium pigment between the sheet and the metal film and located at the periphery of the central pupil to form a colored lens. The contact lens structure according to claim 23, wherein the lens may be a color or transparent hydrogel, a material having an ultraviolet (UV) curing material or a heat curing material. 2. The contact lens structure of claim 23, wherein the other lens is a color or transparent hydrogel, a material having an ultraviolet (UV) ❿ curing material or a heat curing material. 2 9. The contact lens structure according to claim 23, wherein the metal film can be metal material, composite metal material or metal material with oxide, wherein the metal material can be gold (Au) or aluminum. (A1), titanium (T i) and other materials, and composite metal material can be aluminum-bismuth alloy (A i - S i), aluminum-titanium alloy (A 1 - Ti) and other materials, and the metal material with oxide can be Oxidation (A 120 3), oxidized stone (Si 〇 2 ❹ ), yttrium oxide (T i 〇 2) and other materials. 30