An adjustable visual optical element is provided, which may be supported, for example, by an eyeglass. The optical element is preferably adjustable in each of the X, Y, and Z axes to allow the wearer to optimize projection of the optical element. A view axis of the display is preferably also angularly adjustable with respect to a wearer's straight ahead normal line of sight. Source electronics may be carried onboard the eyeglasses, or may be connectable to the eyeglasses via either a hardwire, optical guide, or radiofrequency link.

A modular electronic communication system is disclosed with interchangeable components attachable on eyewear. A plurality of pre-existing eyewear models can each be retrofitted by attachment of one or more of such interchangeable components to that eyewear. Such components can be configured for custom attachment with a particular eyewear or such components can be configured for universal attachment with one or more different eyewear models. The communication system can be configured to produce an adjustable heads-up display for the wearer of the eyewear. The electronic communication system can comprise a plurality of interchangeable, electronically interconnected components, such as a first optical module, a first base module, a base link, a second base module, and/or a second optical module. In some embodiments, one or more or all of the components of the electronic communication system are integrally and permanently attached to an eyewear and are not interchangeable or modular.

An eyewear article for wearing outside of the human eye includes a flexible, transparent interference filter film with a multi-layer structure, wherein the interference filter film includes at least one filter layer with a layer thickness dimensioned to reduce a transmission of light of a selected range of wavelengths by optical interference. The interference filter film may have a static cling surface configured for removable attachment to a lens surface or an attachment layer affixed to the interference filter film for temporary or permanent attachment to a lens surface, for example by adhesion. The interference filter film may alternatively be bonded to an optical lens or form a separate structure for mechanical or magnetic mounting on eyeglasses.

Provided is an eyeglasses structure, including a mounting groove provided inside at least one side of a frame, wherein the mounting groove has a perforation inside. When an electronic device passes through the perforation, the electronic device is fastened to the mounting groove. In addition, the electronic device has a switch that is exposed to the mounting groove.

A simplified rimless or semi-frame eyewear is disclosed. The eyewear comprises a frame and a pair of lenses that slide into or engage a slotted connection in the frame. The lenses are held in place in a corresponding frame with a retainer.

An eyewear system according to the present disclosure may include at least one temple, and a temple guide provided on the at least one temple, wherein the temple guide comprises a guide surface defined by a ferromagnetic material of the temple, and wherein the temple guide is configured to magnetically retain an electronic wearable device in slidable attachment therewith and to restrict lateral movement of the electronic wearable device relative to the temple when the electronic wearable device is engaged with the temple guide.

Methods and devices for wired charging and communication with a wearable device are described. In one embodiment, a symmetrical contact interface comprises a first contact pad and a second contact pad, and particular wired circuitry is coupled to the first and second contact pad to enable charging as well as receive and transmit communications via the contact pads as part of various device states.

Eyeglasses for nearsighted that include a right lens with a cut-off-section in its lower-left-side area, and a left lens with a cut-off-section in its lower-right-side area. The user can look through the cut-off-sections for reading. The size area of the lenses is larger than the cut-off-sections area by at least three times. Reading glasses that includes a right frame with a right-corner lens that is positioned in its lower-left-corner, and a left frame with a left-corner lens that is positioned in its lower-right-corner. Empty areas that are enclosed in the right and the left frames except the lenses areas are clear of lenses. The user can look through the corner lenses for reading from up close and to look through the empty areas for distance. The empty areas size is larger than the lenses areas size by at least three times.

Disclosed herein are devices and methods for the design and manufacturing of electronic eyeglasses and associated components thereof. Electronic eyeglasses consist of electro-active lenses, receiving electrical signals that turn them on and off from an electronic control module. The electronic control module is embedded within a temple of the eyeglass frame, and is powered by a removable power source pack residing at a temple tip through a flexible cable. Various methods describe the interconnection schemes between the components of the electronic eyeglasses.

A one-piece, composite eyewear article including a frame having two temples, two eye wires, a bridge and two hinges, the entire frame composed of a single integral piece of cured liquid silicone rubber consisting of a liquid dimethyl polysiloxane polymer thermoset, a lens situated within the two eye wires and extending across the bridge, the lens composed of a single integral piece of optical grade cured liquid silicone rubber consisting of a liquid dimethyl polysiloxane polymer thermoset, and wherein the frame and lens are molded via a two-material molding process, such that the frame auto-adheres to the lens during curing.