Stress-relieved acrylic optical lenses and methods of manufacture by injection coining molding
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0911135
(2001-07-23)
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발명자
/ 주소 |
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출원인 / 주소 |
- American Greetings Corporation
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
1 인용 특허 :
2 |
초록
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Stress-relieved molded acrylic opthalmic lenses, and injection-coining mold processes for molding stress-relieved plus and minus to high-minus diopter ophthalmic lenses of optically superior acrylic resin, able to pass standardized impact drop tests for use as eyeglass lenses, are described. The inj
Stress-relieved molded acrylic opthalmic lenses, and injection-coining mold processes for molding stress-relieved plus and minus to high-minus diopter ophthalmic lenses of optically superior acrylic resin, able to pass standardized impact drop tests for use as eyeglass lenses, are described. The injection-coining processes use two-plate and three-plate mold assemblies. The cavity of a two plate runnerless mold is partially filled under partial tonnage, and the movable half of the mold controlled to coin and densify the acrylic resin under secondary or full tonnage, when a velocity-pressure changeover point is reached. In a process which employs a three-plate mold assembly, the lens mold cavities are partially filled under less than total clamp tonnage, with a cavity plate held by hydraulic pressure against a movable half of the mold. The mold assembly is then closed under full tonnage when a velocity-pressure changeover point is reached, collapsing the cavity plate a stationary platen, bringing the mold assembly to a total stack height. The processes produce impact resistant acrylic ophthalmic lenses which are stress-relieved and without weld lines, even in the high minus diopter range, with center thickness' as low as one millimeter, and edge thickness' up to ten millimeters.
대표청구항
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1. A negative diopter lens for use as an opthalmic lens which is substantially stress-free by absence of fringes when analyzed with a strain tester, said lens being formed from an acrylic resin material by the steps of:providing an injection molding machine having a mold clamp, a mold material injec
1. A negative diopter lens for use as an opthalmic lens which is substantially stress-free by absence of fringes when analyzed with a strain tester, said lens being formed from an acrylic resin material by the steps of:providing an injection molding machine having a mold clamp, a mold material injection screw, and two mold plates with at least one mold cavity between the plates, wherein the injection molding machine is operatively controllable to exert variable clamping pressure against at least one of the two mold plates; preparing the injection molding machine for operation with an acrylic resin molding material by inputting control parameters into a control system, the control parameters including: plastic temperature, plastic flow rate, plastic pressure, plastic cooling rate, clamp closing velocity, velocity-pressure changeover position and coining stroke; initiating a mold process by closing the mold plates together under a specified primary clamp pressure; advancing the injection screw to partially fill the mold cavity with acrylic resin material and to reach a VP changeover position; applying a secondary clamp pressure greater than the primary clamp pressure to perform a coining operation on the acrylic resin material in the mold; holding the injection screw according to time and pressure control parameters; advancing the injection screw according to packing time and pressure control parameters; allowing the acrylic resin material to solidify and cool; separating the mold plates; and ejecting the negative diopter lens out of the mold cavity; the lens having an impact resistant strength sufficient to pass a standardized impact test ANZIZ80.-1995. 2. The lens of claim 1 wherein said acrylic resin is polymethylmethacrylate.3. The lens of claim 1 wherein molecules of the acrylic resin material are substantially aligned throughout the lens.4. The lens of claim 1 wherein a substantially uniform stress level exists throughout the lens.5. The lens of claim 1 having a diopter in an approximate range of ?0.25 to ?1.50.6. A negative diopter lens for use as an opthalmic lens which is substantially stress-free, the lens being formed from an acrylic resin material by a process comprising the steps of:providing an injection molding machine having a mold clamp, and a mold injection screw, at least three mold plates wherein at least one mold cavity is formed between at least two of the three plates, wherein the injection molding machine is operatively controllable to exert is variable clamping pressure against at least one of the at least three mold plates; preparing the injection molding machine for operation with an acrylic resin molding material by inputting control parameters into a control system, the control parameters including: plastic temperature, plastic flow rate, plastic pressure, plastic cooling rate, clamp closing velocity, velocity-pressure changeover position, and coining stroke; initiating a mold process by closing at least two of the at least three mold plates together under a specified primary clamp pressure; advancing the injection screw to partially fill the mold cavity with acrylic resin material and to reach a VP changeover position; applying a secondary clamp pressure greater than the primary clamp pressure, to perform a coining operation on the acrylic resin material in the mold cavity; holding the injection screw according to time and pressure control parameters; advancing the injection screw according to packing time and pressure control parameters; allowing the acrylic resin material to solidify and cool; separating two of the at least three mold plates; and ejecting the negative diopter lens out of the mold cavity; the lens having an impact resistant strength sufficient to pass a standardized impact test ANSI Z80.-1995. 7. The lens of claim 6 wherein said acrylic resin is polymethylmethacrylate.8. The lens of claim 6 wherein molecules of the acrylic resin material are substantially aligned throughout the lens.9. The lens of claim 6 wherein a substantially uniform stress level exists throughout the lens.10. The lens of claim 6 having a diopter in an approximate range of ?0.25 to ?10.00.
이 특허에 인용된 특허 (2)
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Ratkowski Donald J. (1954 E. Glencove Mesa AZ 85203), Injection molding of contact lenses.
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Maus Steven M. (Osseo MN) Galic George J. (Columbia Heights MN), Method for injection molding articles.
이 특허를 인용한 특허 (1)
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Ohshiro,Takeo, Injection compression molding method and machine for carrying out the same.
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