Patent application number | Description | Published |
20090188023 | Air Vent Eyeglasses Construction - This invention discloses sports eyeglasses containing an inner removable sealing member, commonly referred to as eye cup, where the inner removable sealing member contains overlapping profile where the overlapping profile acts as attachment means to attach the inner removable sealing member to the main eyeglasses frame. | 07-30-2009 |
20090190087 | Flexible Auxiliary Clip-On Glasses Frame - An auxiliary clip-on frame for mounting on eyeglasses is disclosed. It includes an auxiliary glasses frame which includes a left frame part and a right frame part where each of said frame parts contains lens retaining portion, a bridge element, and at least one clamp. The front side of the auxiliary glasses frame is made with plastic or metal material and a back side of the auxiliary glasses frame is made with soft rubber like material. The auxiliary glasses frame capable of attaching to eyeglasses where the auxiliary glasses frame will not scratch the surface of the eyeglasses when the auxiliary glasses frame is attached to the eyeglasses. | 07-30-2009 |
20130088772 | System and Method of Applying Infrared Dye on Sunglasses and Other Lenses - Methods of making eyeglasses lens are disclosed where the layers of the lenses include an infrared dye absorbed coating layer to provide an additional layer of protection against infrared, wherein the said coating decreases damage to the retina and cornea, improves contrast of color, increases visibility, and improves aesthetics of the lens. | 04-11-2013 |
Patent application number | Description | Published |
20090084670 | Light Emitting Diode Vacuum Coating by Magnetized Mask - The present invention discloses an improved method of LED reflector manufacturing process where the method includes providing a substrate, wherein said substrate comprises a reflector unit, and a Light Emitting Diode; providing a shield member with ferromagnetic property; placing said shield member over the desired area of over the substrate; providing a magnet where said shield member is attracted to; placing said magnet immediately below the substrate wherein said magnet is capable of immobilizing the shield member over the substrate; performing a vacuum deposition coating; and removing the magnet and the shield member. | 04-02-2009 |
20110134388 | Wraparound Corrective Lens - A corrective wraparound lens is provided for a wearer where the wraparound lens has a non-corrective lens element and a corrective lens element where the curvature of the non-corrective lens element is different from the curvature of the corrective lens element. Such lens has the ability to correct the defect in eyesight while capable of contouring to the face of the wearer thus able to protect the face of the wearer. In addition, a method to correct defect in eye is provided using a corrective wraparound lens for a wearer comprising a non-corrective lens element and a corrective lens element wherein a first curvature of said non-corrective lens element is different than a second curvature of said corrective lens element. | 06-09-2011 |
20110193248 | Method and Appartus for Making Retarder in Stereoscopic Glasses - A 3-D stereoscopic viewing lens which the retarder film is made of a PVA film. A 3-D stereoscopic viewing lens having a linear polarized film, one or more lens substrate layers, and an epoxy layer. A process of making retarder film including mounting a PVA film to an assembly line; wetting, cleaning, and washing the PVA film through said assembly line; softening, expanding and stretching the PVA film's x-axis through said assembly line; adding gap filling agent to the PVA film; stretching the PVA film's y-axis through a width frame holder and as a result transforming the PVA film into a retarder film. | 08-11-2011 |
20110194179 | Method and Appartus for Making Retarder in Stereoscopic Glasses - A 3-D stereoscopic viewing lens which the retarder film is made of a PVA film. A 3-D stereoscopic viewing lens having a linear polarized film, one or more lens substrate layers, and an epoxy layer. A process of making retarder film including mounting a PVA film to an assembly line; wetting, cleaning, and washing the PVA film through said assembly line; softening, expanding and stretching the PVA film's x-axis through said assembly line; adding gap filling agent to the PVA film; stretching the PVA film's y-axis through a width frame holder and as a result transforming the PVA film into a retarder film. | 08-11-2011 |
20110221993 | Method and Apparatus for Improved Retarder of 3D Glasses - A process of creating a retarder using thin-stretched polymer film to perfectly conform to a curved mold and achieving nearly-crystallized lamination thanks to minimized thickness of said retarder using PVA film; thus, achieving greatly-enhanced optical clarity, contrast, and 3-D effect during stereoscopic image viewing and greatly-reduced user discomfort. A 3-D stereoscopic viewing lens having a retarder film using a PVA film filled with a gap filling agent to create a refringent effect, a polarized film and a base material. | 09-15-2011 |
20120090776 | METHOD AND APPARATUS FOR CURVED CIRCULARLY POLARIZED LENS - A curved circularly polarized lens is used in a passive 3D system to view 3D multimedia. The lens is created in an advanced delicate process whereby two lens pieces are combined with a special glue and molded to a specific conformation. This unique method of production of curved circularly polarized lenses retains the molecular arrangement of the lens, reduces or eliminates optical distortion and physical warping, and eliminates movement between the lens layers. | 04-19-2012 |
Patent application number | Description | Published |
20090152747 | Polarized Lens and Method of Making Polarized Lens - Method of making eyeglass lens are disclosed where the lens are made of layers which include an outer, convex hard coating, a layer of hard epoxy, a laminated PVA film where one of the layer of the PVA film is coated with Photochromic powder, a layer of soft epoxy, a base material, and an inner, concave hard coating. Other methods configuration of lens also include a camouflaged patterned lens, a layer of hard epoxy, a polyurethane mixture, a laminated PVA film where one of the layer of the PVA film is coated with Photochromic powder, a layer of soft epoxy, a base material, and an inner, concave hard coating. | 06-18-2009 |
20090174096 | Polarized Lens and Method of Making Polarized Lens - Method of making eyeglass lens are disclosed where the lens are made of layers which include an outer, convex hard coating, a layer of hard epoxy, a laminated PVA film where one of the layer of the PVA film is coated in the peripheral portion, a layer of soft epoxy, a base material, and an inner, concave hard coating. Other methods configuration of lens also include a camouflaged patterned lens, a layer of hard epoxy, a polyurethane mixture, a laminated PVA film where one of the layer of the PVA film is coated in the peripheral portion, a layer of soft epoxy, a base material, and an inner, concave hard coating. | 07-09-2009 |
20090278268 | Polarized Lens and Method of Making Polarized Lens - Method of making eyeglass lens are disclosed where the lens are made of layers which include an outer, convex hard coating, a layer of hard epoxy, a laminated PVA film where one of the layer of the PVA film is dipped in high contrast dye, a layer of soft epoxy, a base material, and an inner, concave hard coating. Other methods configuration of lens also include a camouflaged patterned lens, a layer of hard epoxy, a polyurethane mixture, a laminated PVA film where one of the layer of the PVA film is dipped with high contrast dye, a layer of soft epoxy, a base material, and an inner, concave hard coating. | 11-12-2009 |
Patent application number | Description | Published |
20090021688 | Floating eyewear and method of making floating eyewear - Eyewear, and more particularly floating eyewear such as eyeglasses and/or sunglasses may include a frame, temples, and lenses wherein the frame and/or temples may be formed form the combination of a blowing agent and a polymer so as to render the eyewear floating. A method for making floating eyewear is also contemplated wherein a heat-activated blowing agent is dry-blended with a plastic resin to form a mixture which is loaded into a hopper coupled to a cylinder, after which the mixture is heated to a molten form, injected into a mold, cooled, and then later ejected from the mold. | 01-22-2009 |
20090174093 | Polarized Lens and Method of Making Polarized Lens - Method of making eyeglass lens are disclosed where the lens are made of layers which include an outer, convex hard coating, a layer of hard epoxy, a layer of polyurethane mixture film, a PVA film wherein the color is dipped in water with Photochromic powder, a layer of soft epoxy, a base material, and an inner, concave hard coating. Other methods configuration of lens also include an outer, convex hard coating, a layer of hard epoxy, a layer of polyurethane mixture film, a PVA film wherein the color is dipped in water without color dye, a layer of soft epoxy, a base material, and an inner, concave hard coating. | 07-09-2009 |
20090174094 | Polarized Lens and Method of Making Polarized Lens - Method of making eyeglass lens are disclosed where the lens are made of layers which include an outer, convex hard coating, a layer of hard epoxy, a PVA film wherein the color is dipped in water without color dye, a layer of soft epoxy, a base material, and an inner, concave hard coating. Other methods configuration of lens also include a camouflaged patterned lens, a layer of hard epoxy, a polyurethane mixture, a PVA film wherein the color is dipped in water without color dye, a layer of soft epoxy, a base material, and an inner, concave hard coating. | 07-09-2009 |
20090174095 | Polarized Lens and Method of Making Polarized Lens - Method of making eyeglass lens are disclosed where the lens are made of layers which include an outer, convex hard coating, a layer of hard epoxy, a PVA film wherein the color is coated in the peripheral portion, a layer of soft epoxy, a base material, and an inner, concave hard coating. Other methods configuration of lens also include a camouflaged patterned lens, a layer of hard epoxy, a polyurethane mixture, a PVA film wherein the color is coated in the peripheral portion, a layer of soft epoxy, a base material, and an inner, concave hard coating. | 07-09-2009 |
20100012262 | Polarized Lens and Method of Making Polarized Lens - An eyeglass lens is made of layers which include an outer, convex hard coating, a layer of hard epoxy, a PVA film, a layer of soft epoxy, a layer of adhesive, a base material, and an inner, concave hard coating. The major steps in producing the lens are to 1: prepare a clean, soft PVA film; 2: form the PVA film into the desired curved shape using a convex mold; 3: add hard epoxy to the outer, convex side of the PVA film; 4: add soft epoxy to the inner, concave side; 5: add the base material to the inner, concave side; and 6: harden and package the lens. | 01-21-2010 |