A pair of glasses with multiple pivoting arms provides size adjustability to fit on different sized and dimensioned heads. The glasses enhance functionality, ergonomic comfort, tethering capacity, and aesthetics. A frame retains a pair of lenses. In some embodiments, the frame bifurcates to enable interchanging the lenses. A frame adjustment fastener may engage a recess in the frame to tighten and loosen the frame around the lenses. A pair of forward arms hingedly join the frame. A pair of rearward arms may hingedly join the forward arms. The forward and rearward arms pivot laterally and independently of each other. Hinge adjustment fasteners loosen and tighten the pivoting motion of the arms in some embodiments. Stress cavities absorb pressure applied by the hinge adjustment fasteners. Vents at the forward arms disrupt air flow behind the frame to minimize moisture accumulation at the lenses.

Eyewear comprises a first frame portion that is configured to retain a first lens therein, a second frame portion that is configured to retain a second lens therein, a first temple that is coupled to the first frame portion, a second temple that is coupled to the second frame portion, and a flexible bridge that is positioned intermediate the first frame portion and the second frame portion. In some embodiments, the flexible bridge is formed from a flexible polymer material and a shape-retaining alloy metal at least partially embedded in the flexible polymer material.

Eyewear comprises a first frame portion that is configured to retain a first lens therein, a second frame portion that is configured to retain a second lens therein, a first temple that is coupled to the first frame portion, a second temple that is coupled to the second frame portion, and a flexible bridge that is positioned intermediate the first frame portion and the second frame portion. In some embodiments, the flexible bridge is formed from a flexible polymer material and a shape-retaining alloy metal at least partially embedded in the flexible polymer material.

The invention relates to a pair of spectacles (1) comprising a frame (2), said frame (2) having at least one lens-receiving opening (3) for a lens, and having a right nose section (5) of the frame and a left nose section (6) of the frame, wherein a right eye-capturing camera (7) is arranged in the right nose section (5) of the frame, and a left eye-capturing camera (8) is arranged in the left nose section (6) of the frame.

This method of manufacturing an element forming part of an eyeglass frame includes the steps of: manufacturing by molding by injection of plastic material two layers of the element to be manufactured of the eyeglass frame; overmolding by means of these two layers a central core, to obtain an eyeglass frame element comprising three layers, its first and second layers forming external layers and its central core forming an internal layer.

This method of manufacturing an element forming part of an eyeglass frame includes the steps of: manufacturing by molding by injection of plastic material two layers of the element to be manufactured of the eyeglass frame; overmolding by means of these two layers a central core, to obtain an eyeglass frame element comprising three layers, its first and second layers forming external layers and its central core forming an internal layer.

A pair of glasses with multiple pivoting arms provides size adjustability to fit on different sized and dimensioned heads. The glasses enhance functionality, ergonomic comfort, tethering capacity, and aesthetics. A frame retains a pair of lenses. In some embodiments, the frame bifurcates to enable interchanging the lenses. A frame adjustment fastener may engage a recess in the frame to tighten and loosen the frame around the lenses. A pair of forward arms hingedly join the frame. A pair of rearward arms may hingedly join the forward arms. The forward and rearward arms pivot laterally and independently of each other. Hinge adjustment fasteners loosen and tighten the pivoting motion of the arms in some embodiments. Stress cavities absorb pressure applied by the hinge adjustment fasteners. Vents at the forward arms disrupt air flow behind the frame to minimize moisture accumulation at the lenses.

An eyeglass temple of composite material mainly includes an aluminum-alloy made temple body and non-metallic material combined together. The temple body is form integral with a pivotal seat, molding projections, molding ornamental pieces and an elongated tail. The non-metallic material is injection molded on the aluminum-alloy temple body to form different senses of texture and further elevate practical value of the eyeglass temple of composite material.

An eyeglass temple of composite material mainly includes an aluminum-alloy made temple body and non-metallic material combined together. The temple body is form integral with a pivotal seat, molding projections, molding ornamental pieces and an elongated tail. The non-metallic material is injection molded on the aluminum-alloy temple body to form different senses of texture and further elevate practical value of the eyeglass temple of composite material.

An electronic eyewear device having temples that are lightweight, aesthetically pleasant, and include thermal management. The temples each have a thermally conductive stiffener with a non-thermally conductive overmolded material forming a window. The window in each temple exposes interior components, such the stiffener to ambient air, and allows heat generated by electronic components to be released to ambient air to cool the components through convection. The windows also allow the stiffeners to be coupled to tooling and are easily overmolded. The windows provide both an aesthetic feature and a functional feature.