Method and apparatus for ophthalmic devices including hybrid alignment layers and shaped liquid crystal layers
First Claim
1. An ophthalmic lens device with a variable optic insert positioned within at least a portion of an optical zone of the ophthalmic lens device, wherein the variable optic insert comprises:
- a curved front surface and a curved back surface wherein the front surface and the back surface are configured to bound at least a portion of one chamber;
an energy source embedded in the variable optic insert in at least a region comprising a non-optical zone; and
a layer containing liquid crystal material positioned within the at least one chamber, wherein liquid crystal molecules within the layer containing liquid crystal material are aligned in a hybrid pattern wherein an alignment pattern of liquid crystal molecules proximate to the curved front surface differs from an alignment pattern of liquid crystal molecules proximate to the curved back surface.
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Accused Products
Abstract
The present invention discloses methods and apparatus for providing a variable optic insert into an ophthalmic lens. The variable optic insert may have surfaces within that have differing radii of curvature. A liquid crystal layer may be used to provide a variable optic function and in some embodiments, an alignment layer for the liquid crystal layer may be patterned in a hybrid manner. The patterning may allow for the lowering of the minimum electrical potential required to cause a shift in orientation of liquid crystal molecules within the ophthalmic device. An energy source is capable of powering the variable optic insert included within the ophthalmic lens. In some embodiments, an ophthalmic lens is cast-molded from a silicone hydrogel. The various ophthalmic lens entities may include electroactive liquid crystal layers to electrically control optical characteristics.
21 Citations
40 Claims
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1. An ophthalmic lens device with a variable optic insert positioned within at least a portion of an optical zone of the ophthalmic lens device, wherein the variable optic insert comprises:
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a curved front surface and a curved back surface wherein the front surface and the back surface are configured to bound at least a portion of one chamber; an energy source embedded in the variable optic insert in at least a region comprising a non-optical zone; and a layer containing liquid crystal material positioned within the at least one chamber, wherein liquid crystal molecules within the layer containing liquid crystal material are aligned in a hybrid pattern wherein an alignment pattern of liquid crystal molecules proximate to the curved front surface differs from an alignment pattern of liquid crystal molecules proximate to the curved back surface. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. An ophthalmic lens device with a variable optic insert positioned within at least a portion of an optical zone of the ophthalmic lens device, wherein the variable optic insert comprises:
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a curved first front surface and a curved first back surface wherein the first front surface and the first back surface are configured to bound at least a portion of a first chamber; a curved second front surface and a curved second back surface wherein the second front surface and the second back surface are configured to bound at least a portion of a second chamber; a layer containing liquid crystal material positioned within at least one of the first chamber and the second chamber, wherein liquid crystal molecules within the layer containing liquid crystal material are aligned in a hybrid pattern wherein an alignment pattern of liquid crystal molecules proximate to the curved front surface differs from an alignment pattern of liquid crystal molecules proximate to the curved back surface; and an energy source embedded in the insert in at least a region comprising a non-optical zone. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
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19. A contact lens device with a variable optic insert positioned within at least a portion of an optical zone of the contact lens device, wherein the variable optic insert comprises:
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a curved first front surface and a curved first back surface wherein the first front surface and the first back surface are configured to form at least a first chamber; a first layer of electrode material proximate to the curved first front surface; a second layer of electrode material proximate to the curved first back surface; a first layer containing liquid crystal material positioned within the first chamber, wherein liquid crystal molecules within the first layer containing liquid crystal material are aligned in a hybrid pattern wherein an alignment pattern of liquid crystal molecules proximate to the curved first front surface differs from an alignment pattern of liquid crystal molecules proximate to the curved first back surface, and wherein the first layer of liquid crystal material varies its index of refraction affecting a ray of light traversing the first layer of liquid crystal material when an electric potential is applied across the first layer of electrode material and the second layer of electrode material; a curved second front surface and a curved second back surface wherein the second front surface and the second back surface are configured to form at least a second chamber; a third layer of electrode material proximate to the curved second front surface; a fourth layer of electrode material proximate to the curved second back surface; a second layer containing liquid crystal material positioned within the second chamber, wherein liquid crystal molecules within the second layer containing liquid crystal material are aligned in a hybrid pattern wherein an alignment pattern of liquid crystal molecules proximate to the curved second front surface differs from an alignment pattern of liquid crystal molecules proximate to the curved second back surface, and wherein the second layer of liquid crystal material varies its index of refraction affecting a ray of light traversing the first layer of liquid crystal material when an electric potential is applied across the third layer of electrode material and the forth layer of electrode material; an energy source embedded in the insert in at least a region comprising a non-optical zone; and an electrical circuit comprising a processor, wherein the electrical circuit controls the flow of electrical energy from the energy source to one or more of the first, second, third or fourth electrode layers; and wherein the variable optic insert alters a focal characteristic of the ophthalmic lens.
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20. A contact lens device with a variable optic insert positioned within at least a portion of an optical zone of the contact lens device, wherein the variable optic insert comprises:
a layer containing liquid crystal material positioned within the variable optic insert, wherein liquid crystal molecules within the layer containing liquid crystal material are aligned in a hybrid pattern, and wherein at least a first surface of the layer is curved.
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21. An ophthalmic lens device with a variable optic insert positioned within at least a portion of an optical zone of the ophthalmic lens device, wherein the variable optic insert comprises:
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an insert front curve piece and an insert back curve piece, wherein a back surface of the front curve piece has a first curvature and a front surface of the back curve piece has a second curvature; an energy source embedded in the insert in at least a region comprising the non-optical zone; and a layer containing liquid crystal material, wherein liquid crystal molecules within the layer containing liquid crystal material are aligned in a hybrid pattern wherein an alignment pattern of liquid crystal molecules proximate to the front curve piece differs from an alignment pattern of liquid crystal molecules proximate to the back curve piece. - View Dependent Claims (22, 23, 24, 25, 26, 27, 28, 29, 30)
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31. An ophthalmic lens device with a variable optic insert positioned within at least a portion of an optical zone of the ophthalmic lens device, wherein the variable optic insert comprises:
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an insert front curve piece, at least a first intermediate curve piece and an insert back curve piece, wherein a back surface of the front curve piece has a first curvature and a front surface of the first intermediate curve piece has a second curvature; an energy source embedded in the insert in at least a region comprising the non-optical zone; and the variable optic insert comprising a layer containing liquid crystal material, wherein liquid crystal molecules within the layer containing liquid crystal material are aligned in a hybrid pattern wherein an alignment pattern of liquid crystal molecules proximate to the front curve piece differs from an alignment pattern of liquid crystal molecules proximate to the back curve piece. - View Dependent Claims (32, 33, 34, 35, 36, 37, 38, 39, 40)
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Specification