A virtual or augmented reality headset is provided having a frame, a pair of virtual or augmented reality eyepieces, and an interpupillary distance adjustment mechanism. The frame includes opposing arm members and a bridge positioned intermediate the opposing arm members. The adjustment mechanism is coupled to the virtual or augmented reality eyepieces and operable to simultaneously move the eyepieces to adjust the interpupillary distance of the eyepieces.

A virtual or augmented reality headset is provided having a frame, a pair of virtual or augmented reality eyepieces, and an interpupillary distance adjustment mechanism. The frame includes opposing arm members and a bridge positioned intermediate the opposing arm members. The adjustment mechanism is coupled to the virtual or augmented reality eyepieces and operable to simultaneously move the eyepieces to adjust the interpupillary distance of the eyepieces.

Disclosed are eyeglasses adapted to a wearer, including two half-frames interconnected by a bridge, each half-frame including at least a branch and an ophthalmic lens. The bridge of the eyeglasses is made of a separated element attached to each of the half-frames, the bridge having at least one geometrical feature determined by taking into account a morphologico-geometric parameter of the wearer. Also disclosed is a kit and a method for manufacturing the eyeglasses and a method for ordering the eyeglasses.

An ergonomic surgical loupe consists of a housing, an objective lens, a mirrored Littrow prism, an ocular lens, and an adjustment mechanism. Light travels through the objective lens, is reflected through the Littrow prism, passes through the ocular lens and strikes the user's eye, enabling a 60 degree viewing angle for performing dental work or similar procedures. Occupational strain on the neck and back of the user is reduced by allowing the user to maintain an upright, neutral head and back position while performing work significantly below eye level.

Self-locking eyeglass system, comprising at least one locking element and at least one frame element, wherein the frame element additionally comprises a connection element, which is intended for connecting with a locking element, and wherein the frame element is non-interrupted in its external circumference, and wherein the connection element is provided on the inner side, wherein the self-locking eyeglass system additionally comprises two hinge elements, which each comprises an adapter element, which matches a recess in the frame element, wherein each hinge element has a connection element, which coincides with the frame element's connection element, when the hinge elements are mounted in the at least one frame element's recess, and wherein each hinge element is secured to the at least one frame element by a locking element, whereby a convenient, flexible and uncomplicated way to assemble, separate, replace and service a self-locking eyeglass system is achieved.

Embodiments of the present disclosure related to a head mounted display (HMD) that enable adjustment of lenses for a particular consumer. In some example embodiments, the HMD enables up to three-degrees of freedom of lens alignment with a consumer's pupils. For example, the HMD includes an actuation device or rotatable disc, both of which are in slidable engagement with at least one elongated members. Ends of the elongated members are coupled to a mirror/lens such that actuation of the actuation device or rotation of the disc translates the elongated member along an axis, which is in general alignment with a pupillary distance (PD) of the consumer. Additionally, the elongated members include mirror/lens interfaces to which the lenses are coupled. The mirror/lens interfaces are slidably and rotatably coupled to the elongated members thereby providing additional degrees of freedom for movement of the lenses.

An eyeglass-type display apparatus includes an eyeglass-front to be placed in front of the eyes of a user, left and right temples connected to the eyeglass-front and worn on the head of the user, a connector that adjusts the inclination of the eyeglass-front by rotating the eyeglass-front relative to the left and right temples, and an image display unit that is fixed to the eyeglass-front and projects image light onto an eyeball of the user. An axis of rotation of the connector is positioned on the eyeglass-front side of the center of the user's eyeball as viewed from the side.

Self-locking eyeglass system, comprising at least one locking element and at least one frame element, wherein the frame element additionally comprises a connection element, which is intended for connecting with a locking element, and wherein the frame element is non-interrupted in its external circumference, and wherein the connection element is provided on the inner side, wherein the self-locking eyeglass system additionally comprises two hinge elements, which each comprises an adapter element, which matches a recess in the frame element, wherein each hinge element has a connection element, which coincides with the frame element's connection element, when the hinge elements are mounted in the at least one frame element's recess, and wherein each hinge element is secured to the at least one frame element by a locking element, whereby a convenient, flexible and uncomplicated way to assemble, separate, replace and service a self-locking eyeglass system is achieved.

Embodiments of the present disclosure related to a head mounted display (HMD) that enable adjustment of lenses for a particular consumer. In some example embodiments, the HMD enables up to three-degrees of freedom of lens alignment with a consumer's pupils. For example, the HMD includes an actuation device or rotatable disc, both of which are in slidable enagement with at least one elongated members. Ends of the elongated members are coupled to a mirror/lens such that actuation of the actuation device or rotation of the disc translates the elongated member along an axis, which is in general alignment with a pupillary distance (PD) of the consumer. Additionally, the elongated members include mirror/lens interfaces to which the lenses are coupled. The mirror/lens interfaces are slidably and rotatably coupled to the elongated members thereby providing additional degrees of freedom for movement of the lenses.

Artificial-reality devices may include left and right eyecups for respectively viewing left and right images. A flexible shroud membrane may be connected to the left and right eyecups. The artificial-reality devices may also include an interpupillary distance adjustment mechanism for adjusting a distance between the left and right eyecups and a force-offsetting mechanism configured to augment a force applied to adjust the distance between the left and right eyecups. Various other devices, systems, and methods are also disclosed.