Disclosed is an elastic-fit fingernail-attached stylus, held to the end-portion of the user's fingernail (or to a fingernail extension) principally by an elastic fit around the fingernail/extension. The portion of the sleeve on the underside of the fingernail/extension includes a substantially transverse extension pointing in the direction of the user's fingertip and is designed to contact the flesh of the user's finger, when in use. A substantially spherical projection is on the opposite side of the sleeve with the forward most portion of the sphere and is designed to make contact with the touchscreen (or the keys of the touchscreen keyboard). The stylus is preferably formed of an elastomer, e.g., a silicone rubber composition, preferably including a conducting material.

Example embodiments of the compositions for manicures and nail enhancements and methods of use disclosed herein include applying a colored base coat and dipping the nails in a clear acrylic powder. Instead of creating hundreds of colors of powder, the dipping glue/powder manicure and nail enhancement may be accomplished by applying colored base coats on a nail of a finger (or toe) and then dipping the nail into clear acrylic powder or applying clear acrylic powder onto base coat. Colored base coats 120 may be made of a glue base including a pigment and other ornamental attributes. The glue base may include cyanoacrylate.

Example embodiments of the compositions for manicures and nail enhancements and methods of use disclosed herein include applying a colored base coat and dipping the nails in a clear acrylic powder. Instead of creating hundreds of colors of powder, the dipping glue/powder manicure and nail enhancement may be accomplished by applying colored base coats on a nail of a finger (or toe) and then dipping the nail into clear acrylic powder or applying clear acrylic powder onto base coat. Colored base coats 120 may be made of a glue base including a pigment and other ornamental attributes. The glue base may include cyanoacrylate.

Methods and devices for producing artificial nails are disclosed, comprising: automatically recognizing user nail information by means of a 3D scanner (S100); recognizing a selected nail decoration design of a 2D or 3D form by means of a UV 3D printer (S200); a step in which the UV 3D printer, equipped with a device capable of adjusting a Z axis, forms a decoration layer corresponding to a curved surface of a user's nail shape with the nail decoration design recognized in step S200, on the basis of the user nail information recognized in step S100 (S300); a step in which the UV 3D printer forms an adhesive layer to be attached with the decoration layer produced in step S300; and a step of completely curing the decoration layer and the adhesive layer in a short time by subjecting same to heat treatment by using a UV lamp of the UV 3D printer, thereby printing an artificial nail in which the adhesive layer is coupled to the bottom of the decoration layer.

Methods and devices for producing artificial nails are disclosed, comprising: automatically recognizing user nail information by means of a 3D scanner (S100); recognizing a selected nail decoration design of a 2D or 3D form by means of a UV 3D printer (S200); a step in which the UV 3D printer, equipped with a device capable of adjusting a Z axis, forms a decoration layer corresponding to a curved surface of a user's nail shape with the nail decoration design recognized in step S200, on the basis of the user nail information recognized in step S100 (S300); a step in which the UV 3D printer forms an adhesive layer to be attached with the decoration layer produced in step S300; and a step of completely curing the decoration layer and the adhesive layer in a short time by subjecting same to heat treatment by using a UV lamp of the UV 3D printer, thereby printing an artificial nail in which the adhesive layer is coupled to the bottom of the decoration layer.

An order reception apparatus according to an embodiment of the disclosure includes a receiving section and a transmitting section. The receiving section receives order information including identification information of a nail tip or a nail sticker, and user information. The transmitting section transmits the identification information and the user information received by the receiving section to a first external apparatus. Here, the first external apparatus corrects nail tip or nail slicker shape data corresponding to the identification information on the basis of measurement data of a nail corresponding to the user information, to thereby generate original nail tip or original nail sticker shape data.

An order reception apparatus according to an embodiment of the disclosure includes a receiving section and a transmitting section. The receiving section receives order information including identification information of a nail tip or a nail sticker, and user information. The transmitting section transmits the identification information and the user information received by the receiving section to a first external apparatus. Here, the first external apparatus corrects nail tip or nail slicker shape data corresponding to the identification information on the basis of measurement data of a nail corresponding to the user information, to thereby generate original nail tip or original nail sticker shape data.

A light-emitting wearable device is provided. The device includes a thin profile light-emitting element having a top and a bottom. The light-emitting element has a first thin layer light emitter and a second thin layer power source electrically coupled to the light emitter. The device further includes a first covering layer over the top of the light-emitting element and a second covering layer over the bottom of the light-emitting element. The light-emitting wearable may be configured as a lens to be worn on the eye or as a fingernail cover.

A light-emitting wearable device is provided. The device includes a thin profile light-emitting element having a top and a bottom. The light-emitting element has a first thin layer light emitter and a second thin layer power source electrically coupled to the light emitter. The device further includes a first covering layer over the top of the light-emitting element and a second covering layer over the bottom of the light-emitting element. The light-emitting wearable may be configured as a lens to be worn on the eye or as a fingernail cover.

The present invention relates to a process for manufacturing a false nail, comprising the following steps: a) producing by additive manufacture, from 3D digital data originating from the acquisition of a relief, especially that of the finger intended to receive the false nail, a mold using a first material, b) depositing onto the mold a layer formed from at least one adhesive composition, c) depositing onto the mold at least one layer of a coating of a second material, different from the first, so as to form the false nail.