The invention relates to a method for producing at least one nose pad of view detection glasses. According to the invention, a topography of at least the nasal ridge of a person is detected and topography data are generated. In a scaling step, at least one position value of the person's eyes is captured by means of the eye capturing cameras of the view detection glasses, and thus, the non-scaled topography data are converted into scaled topography data. In a modeling step, production data are generated from the scaled topography data for at least one nose pad of the view detection glasses adapted to the nasal ridge. In a fabrication step, the production data of the modeling step are transmitted to a digital fabricator, and based on the production data, at least one nose pad is produced.

A glass frame structure and a wearable device having the glass frame structure are provided. The glass frame structure includes a nose pad, a glass frame body, and a limiting member. The nose pad includes one of a hook structure or a slot structure, and the glass frame body includes the other one of the hook structure or the slot structure. The limiting member is located at a first position or a second position. When the limiting member is located at the first position, the limiting member avoids the hook structure, and the hook structure is located in the slot structure and is movable in the slot structure; and when the limiting member is at the second position, the limiting member abuts against the hook structure and the hook structure is locked in the slot structure.

The present invention relates to an organic nose pad for an eyeglass frame. The organic nose pad is configured to attach to any conventional or smart eyeglass frame and prevents slippage of the eyeglass to which the nose pad is mounted. The nose pad includes a front surface, a rear surface, and an adhesive layer or a central groove to mount the nose pad to an eyeglass frame. The nose pad has a textured surface to prevent slippage of the nose pad. The nose pad is made of a soft and flexible material that also removes oil and sweat from a user’s skin. The nose pad is commercially available in pairs to secure the eyeglasses around both sides of a user’s nose.

A visual perception device is described. The visual perception device has corrective optics for viewing virtual and real-world content. An insert for the corrective optics is attached using a magnetic set, pins and/or a nose piece. Interchangeable nose pieces allow for height adjustments to accommodate different users. The visual perception device has pliable components to absorb forces exerted on a nose piece and a protective barrier for limiting electric shock or ingress of dirt.

Three dimensional (3D) glasses suited for wearers with varying facial geometries are disclosed. A particular embodiment includes a frame adapted to position spectrally filtering lenses at a particular distance from the eyes of the wearer. In a more particular embodiment, the 3D glasses include a means for adjusting the distance between the lenses and the eyes of the wearer. In another particular embodiment, the lenses include positive runout.

Three dimensional (3D) glasses suited for wearers with varying facial geometries may include a frame adapted to position spectrally filtering lenses at a particular distance from the eyes of the wearer. The 3D glasses may include a means for adjusting the distance between the lenses and the eyes of the wearer. The lenses may include positive runout.

To alleviate the load on the eyeglasses type electronic device, the present disclosure provides an electronic device comprising an optical driving assembly configured to emit image light corresponding to augmented reality information, an optical element in which the emitted image light is incident to form an output area, a front frame coupled to the optical element, a side frame coupled to the front frame to form a body of an eyeglasses shape together with the front frame, and a support member of a pad type coupled to the front frame to support at least one region of a wearer's nose, in which the support member includes a fixing area fixed to two left points and two right points of the front frame, and a flexible area deformable to closely fit the wearer's nose between the two left fixing areas and the two right fixing areas.

A headset can include at least one display; virtual reality circuitry operatively coupled to the at least one display; and a display frame that includes a nosepiece coupling and a nosepiece received in part by the nosepiece coupling, where the nosepiece includes a ball, an extension, a carrier and nose pads coupled to the carrier, where the carrier is rotatable via the ball and translatable via the extension.

This disclosure provides a nose bridge for eyewear including a flexible shell, a filler comprising a gel or viscous fluid, and where the shell is substantially filled with the filler. The flexible shell may include an elastomeric material and the filler may include silicone, silicone gel, and/or a saline solution. The flexible shell may preferably include silicone rubber, polyurethane, and/or polyethylene.

A slip-resistant eyewear system comprising an angular adjustment screw configured to couple to a first hinge of an eyewear frame such that an angle of the eyewear frame is adjustable relative to a first bow and a unitary eyewear retainer comprising a first end configured to couple to the first bow and a second end configured to couple to a second bow such that a tension is maintained on the unitary eyewear retainer when the unitary eyewear retainer extends around a back of a head of a user.