The spectacle frame has a front face, with two lateral stubs, and two temples which each extend from a front end, arranged against one of the front-face stubs, to a free rear end, each temple having on the inside a rod whose front end is immobilized at the front end of the temple, the temple having driving and shaping means for driving the movable rear end of the rod by displacement in the free rear end of the temple and for thus modifying the curvature of the temple. The front end of the rod is connected to the front-face stub against which is arranged the front end of the temple, inside of which the rod extends.

A wearable device includes a casing member, a lifting assembly, an elastic element, and a pressing member. The casing member has a supporting portion. The lifting assembly is housed in the casing member and is liftable above the casing member. The elastic element is connected to the casing member and the lifting assembly. The pressing member faces toward the supporting portion. The pressing member is movably connected to the lifting assembly and is configured to move along with the lifting assembly, whereby the temple is capable of being clamped between the pressing member and the supporting portion.

A wearable device includes a casing member, a lifting assembly, an elastic element, and a pressing member. The casing member has a supporting portion. The lifting assembly is housed in the casing member and is liftable above the casing member. The elastic element is connected to the casing member and the lifting assembly. The pressing member faces toward the supporting portion. The pressing member is movably connected to the lifting assembly and is configured to move along with the lifting assembly, whereby the temple is capable of being clamped between the pressing member and the supporting portion.

A method of manufacturing spectacle arms includes grooving an inner face of a first cover plate to form grooves and providing a gauge with longilineal inserts. Front and rear bridges join front and rear ends of the longilineal inserts and provide front and rear indexing. The gauge is set on the inner face of the first cover plate such that the longilineal inserts are disposed in the grooves and a second cover plate is pressed and bonded on the inner face of the first plate such that the longilineal inserts are inserted between the first and second cover plates. The plates are cut around the longilineal inserts with a cutting tool after the cutting tool is positioned and held in place using corresponding front and rear tool indexing.

A method of manufacturing spectacle arms includes grooving an inner face of a first cover plate to form grooves and providing a gauge with longilineal inserts. Front and rear bridges join front and rear ends of the longilineal inserts and provide front and rear indexing. The gauge is set on the inner face of the first cover plate such that the longilineal inserts are disposed in the grooves and a second cover plate is pressed and bonded on the inner face of the first plate such that the longilineal inserts are inserted between the first and second cover plates. The plates are cut around the longilineal inserts with a cutting tool after the cutting tool is positioned and held in place using corresponding front and rear tool indexing.

Spectacle having two temples which are each articulated via a pivot connection to an optical central section which covers the field of vision in the position of use and can be pivoted from a storage state, in which the temples are applied to the optical central section, to an operating state, in which the temples are folded out from the central section, the optical central section being manufactured from a flexurally elastic material. The two temples are each articulated to the central section via a curved pivot axis of the pivot connection or via at least two linear pivot axes of the pivot connection arranged transversely to one another. In this way, glasses can be produced in which, in the position of use, light entering laterally, which does not cross the optical central section but nevertheless reaches the eye of the wearer, is largely suppressed.

Spectacle having two temples which are each articulated via a pivot connection to an optical central section which covers the field of vision in the position of use and can be pivoted from a storage state, in which the temples are applied to the optical central section, to an operating state, in which the temples are folded out from the central section, the optical central section being manufactured from a flexurally elastic material. The two temples are each articulated to the central section via a curved pivot axis of the pivot connection or via at least two linear pivot axes of the pivot connection arranged transversely to one another. In this way, glasses can be produced in which, in the position of use, light entering laterally, which does not cross the optical central section but nevertheless reaches the eye of the wearer, is largely suppressed.

An optical mount includes a frame adapted to support display optical systems and heat emitting electronic components. The mount includes a first portion housing the electronic components and one or more support components extending away from the electronic components. The one or more support components may include temple arms adapted to support the frame on the head of a wearer of the optical mount. The frame may be comprised of a thermally conductive material coupled to the electronic components. The support components include a first side and a second side, and at least one void positioned between the first side and the second side adapted to convey heat away from the electronic components. The void may define a bifurcated region in the support component.

An optical mount includes a frame adapted to support display optical systems and heat emitting electronic components. The mount includes a first portion housing the electronic components and one or more support components extending away from the electronic components. The one or more support components may include temple arms adapted to support the frame on the head of a wearer of the optical mount. The frame may be comprised of a thermally conductive material coupled to the electronic components. The support components include a first side and a second side, and at least one void positioned between the first side and the second side adapted to convey heat away from the electronic components. The void may define a bifurcated region in the support component.

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.