The present invention is a method for producing a spectacle lens from a lens material, and includes: a marking step (step S10) of marking an identification mark for identifying the spectacle lens, and a processing information mark which is used to process a lens blank and includes a tray identification 2D code, a tray identification code, a shape line and a position mark by forming a hole or a groove in a convex surface of the lens material by laser; and a concave surface machining processing step (step S13) of reading the processing information mark, and machining a concave surface of the lens blank based on the read processing information mark.

Disclosed is a semi-finished lens including a first optical surface including a surface design associated with a first reference system and a second optical surface to be manufactured, the first and second optical surfaces are connected by an external periphery surface, the semi-finished lens further including a reference element provided on the second optical surface and/or on the external periphery surface, the position of the reference element being defined with respect to the first reference system. Also disclosed is a method and a device for manufacturing an optical lens from such a semi-finished lens.

An apparatus for facilitating manufacturing an optical fiber connector termination is disclosed. The apparatus may include a resin dispenser configured for dispensing a resin and including a resin dispenser outlet configured to be coupled with a resin inlet of a molded part. Further, the apparatus may include a vacuum generator configured for generating a negative pressure. Further, the vacuum generator may include a vacuum generator outlet configured to be coupled to at least one vacuum outlet of the molded part. Further, the vacuum generator may be configured for generating the negative pressure utilizing electrical energy. Further, the apparatus may include a controller electrically coupled to each of the resin dispenser and the vacuum generator. Further, the controller may be configured for controlling operation of the resin dispenser and the vacuum generator. Further, controlling operation of the vacuum generator may be based on at least one characteristic of the resin.

A method for producing a spectacle lens from a lens material and includes: a marking step of marking an identification mark for identifying the spectacle lens, and a processing information mark which is used to process a lens blank and includes a tray identification 2D code, a tray identification code, a shape line and a position mark by forming a hole or a groove in a convex surface of the lens material by laser; and a concave surface machining processing step of reading the processing information mark, and machining a concave surface of the lens blank based on the read processing information mark.

The invention relates to a method for manufacturing an ophthalmic lens having at least one optical function, comprising the step of providing a starting optical system of the lens, having a basic optical function and the step of additively manufacturing an additional optical element of the lens, by deposition of multiple predetermined bulking components made of at least one material having a predetermined refractive index, directly onto the front surface and/or the rear surface of the starting optical system; wherein the additive manufacturing step comprises the step of determining a manufacturing guideline for the additional optical element on the basis of the characteristics of said at least one optical function to be provided to the lens, the characteristics of said at least one basic optical function, the geometric characteristics of the starting optical system, and the predetermined refractive index of the material.

Method implemented by computer for optimizing a set of optical lens blanks used to manufacture a set of optical lenses, each optical lens comprising first and second optical surfaces, the first and second optical surfaces being connected by a external periphery surface, the method comprising: a data providing step during which a set of data for every optical lens of the set of optical lenses is provided, the data comprising at least contour data representative of an external periphery surface of the optical lens, a first dataset representative of the first optical surface of the optical lens and a second dataset representative of the second optical surface of the optical lens; a supply cost function providing step during which a supply cost function is provided, the supply cost function being a function of the number of different optical lens blank comprised in the set of optical lens blanks.

The invention relates to a method for manufacturing an ophthalmic lens having at least one optical function, comprising the step (200) of providing a starting optical system of the lens, having a basic optical function and the step (500) of additively manufacturing an additional optical element of the lens, by deposition of multiple predetermined bulking components made of at least one material having a predetermined refractive index, directly onto the front surface and/or the rear surface of the starting optical system; wherein the additive manufacturing step comprises the step of determining a manufacturing guideline for the additional optical element on the basis of the characteristics of said at least one optical function to be provided to the lens, the characteristics of said at least one basic optical function, the geometric characteristics of the starting optical system, and the predetermined refractive index of the material.

This system for selecting at least one ophthalmic lens manufacturing process to be used for manufacturing an ophthalmic lens, the manufacturing including additive manufacturing, includes at least one processor configured to determine in an automated manner, on the basis of a set of input data, at least two ophthalmic lens manufacturing processes differing by at least one manufacturing operation, which can be used for manufacturing the ophthalmic lens. It further includes at least one processor configured to select at least one ophthalmic lens manufacturing process to be used for manufacturing the ophthalmic lens, among the determined at least two ophthalmic lens manufacturing processes.

The present invention provides an automatic casting device for a lens monomer and a process thereof. When the lens monomer within a mold cavity reaches a liquid level monitoring point P, the cavity is exactly 50% filled with the lens monomer. The remaining of the casting process will be precisely controlled based on the obtained data from the past process to ensure an exact 100% monomer filling into the cavity.

A spectacle lens design system capable of suppressing deformation during finishing processing. The system (LDS100) is designed for a spectacle lens, wherein the spectacle lens design system comprises: a prescription data acquisition part 110 to acquire prescription data which includes prescribed power information, and designated lens thickness information relating to finishing processing information regarding finishing processing after shaping of a spectacle lens; an optical surface calculation part 122 to calculate an optical surface shape based on the prescribed power information of the prescription data, thereby generating optical surface shape data; an appropriate lens thickness information generation part 124 to generate appropriate lens thickness information regarding a lens thickness appropriate for performing the finishing processing, based on the finishing processing information of the prescription data; and a thickness calculation and shape adjustment part 127 to adjust lens shape data based on the optical surface shape data and the lens thickness information.