An eye glass shield includes a goggle frame having a center. A lens is positioned in the center of the goggle frame and is constructed of a transparent material. A pair of temples comprising of a left temple and a right temple is coupled to the goggle frame. The left temple is coupled to a left edge of the goggle frame, and the right temple is coupled to a right edge of the goggle frame. A pair of temple clips is coupled to a respective one of the pair of temples. A top base is coupled to a top edge of the goggle frame and protruding there from. A bottom base is coupled to a bottom edge of the goggle frame and extending there from. A cut-out in the goggle frame creates a bridge in the top center of the goggle frame.

A side shield for use with an eyeglass frame includes an attachment body having an upper portion and a lower portion. The attachment body is sized and configured to be insertable within a respective inner periphery of the eyeglass frame. An upper projection extends from the upper portion of the attachment body and is configured to be engageable with a respective lens frame body. A lower projection extends from the lower portion of the attachment body and is configured to be engageable with the respective lens frame body. A side shielding wall is connected to the attachment body and includes an upper edge at least partially defining a void sized to allow for pivotal movement of a respective one of the pair of temple arms when the upper and lower projections are engaged with the respective lens frame body.

The present disclosure provides a removable eyewear shielding device, an eyewear comprising a removable eyewear shielding device, and methods of uses thereof for reducing eye radiation exposure, reducing ipsilateral brain radiation exposure, reducing FGI-induced lens opacification, reducing cataract development, or protecting an eye or ipsilateral brain from radiation exposure.

This disclosure relates generally to mixed reality, and more particularly to augmented reality systems and methods for the visually impaired. In one embodiment, an augmented-reality electronic glass apparatus is disclosed, comprising: a smart frame, comprising: a printed circuit board, a light emitting diode, a battery, and a communication module with integrated antenna; and a digital lens, comprising: a liquid crystal device display, a lens assembly, a magnetic stackable optic, an eye tracking system, a camera module, a lidar module, wherein the digital lens is magnetically attached to the smart frame.

Provided is a disassembly and assembly structure of a glasses side cover, including a pair of glasses and at least one side cover. The glasses have a frame and two temples. At least one temple is provided with a chute with an opening adjacent to the pivot portion. The chute forms a first end and a second end along the length direction, and an end of the opening adjacent to the first end is provided with a resisting portion. The at least one side cover has a guide seat and a first plate arranged below the guide seat. The guide seat detachably straddles an outer edge of the opening, and is provided with an operating member received in the chute. The front end of the operating member is provided with a positioning block. When the operating member slides to the first end, the positioning block is embedded between the first end and the resisting portion to be fixed according to the elasticity of the material. When the operating member is pressed, the positioning block is detached from the fixation and slid to the second end such that the side cover can be detached from the temple.

In one aspect, a user-wearable illumination assembly includes eyeglass frames and a headlamp removably coupled to the eyeglass frames. Electrical circuitry may be integrated with the eyeglass frames. The headlamp and the eyeglass frames have mounting structure that cooperate to removably support the headlamp thereon. A light source is disposed within the headlamp and electrical communication between the light source and the electrical circuitry of the eyeglass frames is provided by electrical contacts associated with the mounting structures of the headlamp and eyeglass frames. In another aspect, a user-wearable illumination assembly for use with eyeglass frames includes a clip assembly that is selectively removably couplable to a bridge portion of the eyeglass frames, and a headlamp coupled to the clip assembly. The illumination assembly further includes a battery that is selectively removably couplable to the eyeglass frames and at least one electrical conductor coupling the battery to the headlamp.

The present invention relates to a low-cost, magnetically detachable, durable, and flexible opthalmic shield for use with customized eyeglasses or eye goggles. It provides a seal between both the shield and the eyeglass frames, and between the shield and a user’s face to adequately protect the user’s eyes from particulates, allergens, and other environmental factors.

A glasses frame structure includes a chassis, a pair of temples, a pair of hinges, and a plurality of fasteners. The chassis has a pair of front rims and a pair of side rims respectivey next to the front rims. Each of the side rims of the chassis can receive a first side lens. Each temple has a rimmed portion adjacent to one of the side rims of the chassis. The rimmed portion of each of the temples can receive a second side lens. The hinges can pivotally connect the temples to the chassis. Some of the fasteners can fix the hinges and the first side lenses to the chassis, while some of the fasteners can fix the hinges and the second side lenses to the temples. With the glass frame structure, the side lenses can be installed more easily and firmly.

An article of personal protective equipment (PPE) for covering a wearer's face when wearing loupes and/or a light mounted to an eyeglass frame, the apparatus including a set of adapters, each adapter mounted or configured for mounting to an eyeglass frame, wherein each adapter has an outward extending protrusion; and a transparent face shield with opposing sidewalls joined by a convex front with upper and lower portions angled inward to cover the wearer's face when wearing the loupes and/or light, each sidewall configured to engage one of the protrusions to align an apex of the convex with the loupes and/or light.

A common problem with eyewear is the lack of protection from external elements as chemicals, foreign objects or sunlight. Another common problem with eyewear is known as back-glare. There is provided an eyewear frame comprising lens retainers, a pair of arms, a nose bridge portion and side shields attached to the pair of arms. The side shields consist of attachment members which can be inserted into to recesses formed in the arms. The side shields can be made from an anti-reflective material which provides protection against external elements as chemicals, foreign objects or sunlight. The side shields made from anti-reflective materials also reduce the amount of back-glare.