The present invention provides paper glasses and a method for manufacturing the same including a lens frame connected in parallel to both sides of a central bridge to fix a lens; glasses temples which are extended integrally from both sides of the lens frame and bent at an angle perpendicular to the lens frame to wear the lens frame on the face; and a support piece of which one end is fixed to the lens frame and the other end is fixed to the front end of the glasses temples to ensure a support force of the glasses temples and maintain a predetermined angle of the glasses temples.

Process for making a temple for an eyeglass frame, which comprises: a step of arranging an elongated body made of plastic material; a first heating step, in which the elongated body is heated up to its softening temperature; a step of housing the elongated body in a shaped concavity of a mold; a second step of heating a metallic core; a step of inserting the metallic core in the elongated body. In addition, the housing step is preceded by a step of positioning an ornamental element in a seat provided within the shaped concavity of the mold, in which the ornamental element is retained by means of shape coupling.

Process for making a temple for an eyeglass frame, which comprises: a step of arranging an elongated body made of plastic material; a first heating step, in which the elongated body is heated up to its softening temperature; a step of housing the elongated body in a shaped concavity of a mold; a second step of heating a metallic core; a step of inserting the metallic core in the elongated body. In addition, the housing step is preceded by a step of positioning an ornamental element in a seat provided within the shaped concavity of the mold, in which the ornamental element is retained by means of shape coupling.

A spectacle rod is provided, including a plate-shaped metal rod and a friction element located at an ear bend. In order to avoid inadvertent removal of the friction element from the metal rod, a protrusion and the recess are formed. The protrusion and recess include a first transverse protrusion at the outermost second end of the spectacle rod. This transverse protrusion, together with the spectacle rod, forms an outwardly open recess. This recess has a smaller cross-section at the opening than at a central part. Thereby, elastic compliant material from the friction element will be received in the recess. The elastic material will be compressed so that a clamping effect occurs, contributing to a retention which prevents accidental separation of the friction element and the metal rod.

A spectacle frame element is provided, including a reinforcement support, wherein the reinforcement support includes an electronic support part supporting at least an electronic component and a wire core part extending from the electronic support part through the spectacle frame element, the electronic support and the wire core part are embodied in the spectacle frame element.

A spectacle frame element is provided, including a reinforcement support, wherein the reinforcement support includes an electronic support part supporting at least an electronic component and a wire core part extending from the electronic support part through the spectacle frame element, the electronic support and the wire core part are embodied in the spectacle frame element.

Eyewear may include a frame having a body and temples. The frame may be configured to support and retain optical lenses. A suspension system may be mounted to the frame and configured to suspend the frame away from the user. The suspension system may include a nose suspension and ears suspensions. The nose suspension can be elastic and may be configured to suspend the frame away from the nose of the user. The ears suspensions also can be elastic and configured to suspend the frame away from the head and ears of the user.

Eyewear may include a frame having a body and temples. The frame may be configured to support and retain optical lenses. A suspension system may be mounted to the frame and configured to suspend the frame away from the user. The suspension system may include a nose suspension and ears suspensions. The nose suspension can be elastic and may be configured to suspend the frame away from the nose of the user. The ears suspensions also can be elastic and configured to suspend the frame away from the head and ears of the user.

An aspect includes a temple assembly that is configured to retain one or more lenses relative to a head of a user. The temple assembly may include a temple substrate and an insert. The temple substrate may be comprised of one or more polymers. The insert may be located at least partially within the temple substrate. The insert is configured to impose a spring force against the head of the user and is configured to allow at least a portion of the temple substrate to rotate axially about at least a portion of the insert such that the portion of the temple substrate deforms relative to the insert and at least partially independently of the insert.

An aspect includes a temple assembly that is configured to retain one or more lenses relative to a head of a user. The temple assembly may include a temple substrate and an insert. The temple substrate may be comprised of one or more polymers. The insert may be located at least partially within the temple substrate. The insert is configured to impose a spring force against the head of the user and is configured to allow at least a portion of the temple substrate to rotate axially about at least a portion of the insert such that the portion of the temple substrate deforms relative to the insert and at least partially independently of the insert.