An installation, a carrier, and a method for coating eyeglass lenses are proposed, wherein a carrier with eyeglass lenses held in a rotatable manner is conveyed in succession in different coating devices or coating lines, in order to coat in an alternating manner opposite sides of the eyeglass lenses and/or to apply different coatings. In particular, the carriers with the eyeglass lenses are conveyed from a coating device or coating line by means of an evacuated transfer chamber to another coating device or coating line.

A real-time calculation system capable of computing the industrial optical performance and yields of a prescription laboratory is disclosed. The system uses statistical analysis to determine the compensation factors that can be applied to given products, Semi-Finish, materials, or lens designs to increase the lab yields. Using a monitoring and configuration system, the user tracks the evolution of the laboratory's performance and identifies areas in which yields are impacted. The user defines how the calculation system will optimize the laboratory's performance, such as by defining how the compensation factors will be calculated and applied.

An apparatus and a method for deblocking a lens, wherein the lens is blocked with a block material on a block piece. The block material is preheated by radiation. The blocked lens, the deblocked lens, and the deblocked block piece are handled by means of separate grippers. For deblocking, the lens and the block piece are held by opposing holding devices in a rotating manner, while a fluid jet acts on the block material from the side. After the deblocking, the lens and the block piece are cleaned simultaneously. Then, a holding device together with the deblocked lens pivot out from a working space. The deblocked lens is placed with the block side upward in a transport carrier. This makes possible a simple design and an optimized process sequence.

A device and a method for processing, in particular edge processing, an optical lens, wherein the device has a measuring system, a processing system, a loading system, an unloading system, an intermediate conveyor, and a belt conveyor. The loading system is arranged between the measuring system and the processing system. The unloading system is arranged on the opposite side of the processing system. A lens that is to be processed is picked up and oriented at the optical reference point that is determined by the measuring system in order to determine as precisely as possible the blocking point for the subsequent processing. The loading system and unloading system each have a linearly movable swiveling system with linearly movable suction devices arranged therein. The processing system is designed for the simultaneous processing of two lenses.

A device and a method for processing, in particular edge processing, an optical lens, wherein the device has a measuring system, a processing system, a loading system, an unloading system, an intermediate conveyor, and a belt conveyor. The loading system is arranged between the measuring system and the processing system. The unloading system is arranged on the opposite side of the processing system. A lens that is to be processed is picked up and oriented at the optical reference point that is determined by the measuring system in order to determine as precisely as possible the blocking point for the subsequent processing. The loading system and unloading system each have a linearly movable swiveling system with linearly movable suction devices arranged therein. The processing system is designed for the simultaneous processing of two lenses.

An installation and a method for processing optical lenses, whereby transport carriers and block pieces are conveyed backward after use in each case to a commissioning device or blocking device, and the lens carriers are fitted by machine with unblocked or blocked lenses in order to make possible an automated and optimized process sequence.

The invention relates to a loading system (LS) for an optical machine, that has a carrier (TR), which can be moved in a movement plane (x-y) by way of two linear guide units (LF1, LF2). At least one holder (H1, H2, H3) for a workpiece, block piece and/or tool is mounted on the carrier, which holder can be moved in a transverse direction (z), which is perpendicular to the movement plane. The linear guide units are designed and arranged in the manner of an H gantry or cross gantry, with two stationary drive motors (AM1, AM2) for driving a tension element (ZG) in the same direction or in opposite directions, which tension element is movably arranged on the linear guide units in an H shape or cross shape and is fastened to the carrier.

A method and a system for processing optical lenses in which the lenses are conveyed to individual processing apparatuses or processing lines corresponding to an assignment. The assignment takes into consideration maintenance that is due.

An article transport vehicle (200) has: a carrier base (202) configured for movement along a guideway and a pair of gripping arms (216), each gripping arm (216) having a first end (216a) connected to the carrier base (202) and a second end (216b) protruding from the carrier base (202). The pair of gripping arms (216) is movable between a closed position configured for holding an article (302) and an open position configured for releasing the article (302). The article transport vehicle (200) further has a closure mechanism (238) for moving the pair of gripping arms (216) between the closed position and the open position. The closure mechanism (238) is configured for biasing the pair of gripping arms (216) to the closed position and moving the pair of gripping arms (216) to the open position when the carrier base (202) is positioned at a predetermined portion of the guideway.

An installation and a method for processing optical lenses, whereby transport carriers and block pieces are conveyed backward after use in each case to a commissioning device or blocking device, and the lens carriers are fitted by machine with unblocked or blocked lenses in order to make possible an automated and optimized process sequence.