A glass manufacturing system including a scoring assembly. The scoring assembly including a scoring device disposed along a first surface of a glass ribbon and a backing device disposed along a second surface of the glass ribbon directly opposite the scoring device. The scoring assembly is configured to delineate a peripheral region from a central region of the glass ribbon by forming a vertical score line along the first surface as the glass ribbon moves downward in a y-axial direction between the scoring device and the backing device.

Equipment for the logistics of slab-shaped articles comprises supply line(s) of slab-shaped article(s) and outlet line(s) of the slab-shaped article(s); robotic gripping assembly(s) of the slab-shaped article(s) provided with at least three degrees of freedom and positioned between the supply line(s) and the outlet line(s); first movement device/unit/component/etc. of the gripping assembly(s) along a direction(s) of movement; where the supply line(s) and said outlet line(s) are substantially aligned to each other along the direction(s) of movement. Equipment also comprises temporary storage stations of the slab-shaped article(s) arranged laterally to the gripping assembly and substantially aligned to each other to define at least one row substantially parallel to the direction of movement, wherein the gripping assembly(s) picks the slab-shaped article(s) coining from the supply line(s); positions the slab-shaped article(s) on the storage station(s); and picks the slab-shaped article(s) from the storage station(s) and bring it to the outlet line(s).

The present application discloses a cutting method and a cutting machine table for cutting a substrate, where the cutting method includes following steps: cutting a large substrate to be cut to obtain a finished substrate falling on a second cutting machine table; after the cutting, driving the second cutting machine table according to a preset parameter to enable a driving-away height difference to be formed between the second cutting machine table and the first cutting machine table; driving the second cutting machine table away from the first cutting machine table; and resetting the second cutting machine table to an initial state.

Disclosed are a carrier device and a placement machine, where the carrier device includes a body and a positioner. A positioning sucker mechanism is disposed on the body, and a sliding sucker mechanism is slidably disposed on the body, where the sliding sucker mechanism includes a sucker group, a positioning block connected to one end of the sucker group, and a first suction piece provided on the positioning block. The positioner is arranged on one side of the body and adjacent to the positioning block, and includes a driver and a clamping assembly connected to the driver, where the clamping assembly is provided with a second suction piece mutually attracted to the first suction piece. The carrier device of the present disclosure improves the efficiency of clamping the sucker group by the clamping assembly.

In a machine and in a method for processing lateral edges of glass plates, plates of stone material, and plates of synthetic material, there is a group of gripping members of the plate configured to hold a plate in a horizontal position. The plate is caused to advance in a conveying longitudinal direction, in such a way as to bring a lateral edge of the plate to engage in succession an aligned series of grinding tools forming part of a stationary machining unit. In one example, the group of gripping members of the plate is rotatably carried around a vertical axis by a carriage, which is movable in the conveying longitudinal direction and in a transverse direction orthogonal to the longitudinal direction. The gripping members are carried by the carriage in such a way as to be adjustable in position, by means of electronically-controlled actuator devices, with respect to the carriage and relative to each other.

Methods are provided for laser processing arbitrary shapes of molded 3D thin transparent brittle parts from substrates with particular interest in substrates formed from strengthened or non-strengthened Corning Gorilla® glass (all codes). The developed laser methods can be tailored for manual separation of the parts from the panel or full laser separation by thermal stressing the desired profile. Methods can be used to form 3D surfaces with small radii of curvature. The method involves the utilization of an ultra-short pulse laser that may be optionally followed by a CO.sub.2 laser for fully automated separation.

A modular accessory for panel adherence devices that rigidly supports a panel during handling operations, which includes one or more bridge or span rails each being positioned alongside and connecting to the panel adherence device and respectively having recessed portions or outward arms for engaging one or more box rails. The modular accessory further includes peripheral devices in the form of an end rail and a spacing bar for connecting together multiple box rails, a bridge rail clamp for unifying connectivity between the bridge rail and box rail, a box rail lock for advancing connectivity between the box rail and panel, a corner support for establishing a pre-set orientation and connection of a pair of box rails, and one or more moveable handles individually attached to an end of the box rail to supplement handles integrally associated with the structure of the bridge or span rail as well as with those possibly existing with the panel adherence device.

An automatic identification and classification production line for mobile terminal liquid crystal display (LCD) screens includes a size and posture identification adjustment part, a model identification part, and a classification storage device. The size and posture identification adjustment part can transport a mobile terminal LCD screen, identify front and back surfaces of the mobile terminal LCD screen, size of the mobile terminal LCD screen, and orientation of the mobile terminal LCD screen, and adjust the front surface of the mobile terminal LCD screen to face up and the orientation of the mobile terminal LCD screen to be the same as the transportation direction during transportation. The model identification part transports the mobile terminal LCD screen after adjustment of the posture, and identifies model of the mobile terminal LCD screen according to the size during transportation. The classification storage device classifies and stores mobile terminal LCD screens according to different models.

When a laser beam is used to perform shape processing on an edge surface of a disk-shaped glass plate, in order to suppress strain (retardation values) in the main surface of the glass plate, the disk-shaped glass plate is floated above a base, and the edge surface of the glass plate is processed into a target shape by irradiating the edge surface with the laser beam while contactlessly heating the glass plate in a state where the glass plate is floated, and moving the laser beam relative to the edge surface in the circumferential direction of the disk-shaped glass plate.

A laser irradiation apparatus (1) according to one embodiment includes a laser generating device (14) that generates a laser beam, a flotation unit (10) that causes a workpiece (16) that is to be irradiated with the laser beam to float, and a conveying unit (11) that conveys the floating workpiece (16). The conveying unit (11) conveys the workpiece (16) with the conveying unit (11) holding the workpiece (16) at a position where the conveying unit (11) does not overlap an irradiation position (15) of the laser beam. The laser irradiation apparatus (1) according to one embodiment makes it possible to suppress uneven irradiation with a laser beam.