A test device is disclosed for verifying the accuracy of a pick and place process. The test device includes a surface configured to receive components, and a ferromagnetic layer located under the surface. A system is further disclosed including the test device and a plurality of components each including a magnetic element, the plurality of components configured to be received by a plurality of pockets of the test device. A method of picking and placing a component onto the test device is further disclosed.

When being sealed, insulating glass blanks (5) are held in a sealing station (2) gripped at the base by grippers (17) of a gripper arrangement (16) and/or by suction heads (15) and rest at the top against a roller beam (7) fitted with rollers (8). As the insulating glass blank (5) is sealed, only the nozzle (11) of a sealing assembly (10) moves along the outer edge of the insulating glass blank (5), which is stationary during the sealing process. When the lower edge of an insulating glass blank (5) is sealed, grippers (17) engaging the lower edge are released and move away downwards. Sealed insulating glass is removed from the sealing station (2) by a removal robot (24) onto the side opposite the sealing assembly (10), moved to a temporary store and placed therein on A-bearing supports (29) and fan frames (30) sorted according to production lots.

When being sealed, insulating glass blanks (5) are held in a sealing station (2) gripped at the base by grippers (17) of a gripper arrangement (16) and/or by suction heads (15) and rest at the top against a roller beam (7) fitted with rollers (8). As the insulating glass blank (5) is sealed, only the nozzle (11) of a sealing assembly (10) moves along the outer edge of the insulating glass blank (5), which is stationary during the sealing process. When the lower edge of an insulating glass blank (5) is sealed, grippers (17) engaging the lower edge are released and move away downwards. Sealed insulating glass is removed from the sealing station (2) by a removal robot (24) onto the side opposite the sealing assembly (10), moved to a temporary store and placed therein on A-bearing supports (29) and fan frames (30) sorted according to production lots.

Methods and apparatus provide for supporting a source glass sheet and defining an at least partially non-straight cutting line that establishes a closed pattern that circumscribes a desired final shape; scoring the glass sheet at an initiation line using a mechanical scoring device; applying a laser beam to the glass sheet starting at the initiation line and continuously moving the laser beam relative to the glass sheet along the cutting line to elevate a temperature of the glass sheet at the cutting line to a substantially consistent temperature, where the laser beam is of a circular shape; and applying a cooling fluid simultaneously with the application of the laser beam, such that the cooling fluid at least reduces the temperature of the glass sheet in order to propagate a fracture in the glass sheet along the cutting line.

A scribing apparatus 1 includes a horizontal table 3 on which a glass plate 2 is placed and fixed under vacuum suction; a feed screw 5 and a Y-axis control motor 6 for moving the table 3 along a pair of guide rails 4 under scribe numerical control; a guide rail device body 7 installed above the table 3 along an X-axis direction; a carriage 8 mounted on the guide rail device body 7 so as to move in the X-axis direction while being guided; a feed screw and an X-axis control motor 9 for moving the carriage 8 in the X-axis direction under numerical control; and a scribe head 10 installed on the carriage 8.

The present invention provides a method for cutting a single sheet of glass substrate, which includes the following steps: (1) providing a single sheet of glass substrate (10) to be cut and a cutting platform (20); (2) fixing the single sheet of glass substrate (10) on the cutting platform (20); (3) rotating the cutting platform (20) to have the single sheet of glass substrate (10) located under the cutting platform (20); (4) providing a cutting head (30) under the cutting platform (20) to proceed with a cutting operation on the single sheet of glass substrate (10) and also providing a vacuum suction device (40) and a static electricity elimination device (50) to remove glass chips generated by the cutting head (30) cutting the single sheet of glass substrate (10); and (5) after the cutting operation, moving the cutting platform (20) away from the cutting head (30), the vacuum suction device (40), and the static electricity elimination device (50) and rotating the cutting platform (20) to have the cut single sheet of glass substrate (10) located above the cutting platform.

In a glass plate working apparatus 1, a carrying-in position 3, a scribing position 4, a removing position 5, a grinding position 6, and a discharging position 7 are arranged at equal intervals linearly along a transporting direction, and a transporting device 8 for transporting glass plates 2 is additionally provided.

A glass plate separating apparatus, as one example, includes: a trigger device that forms a start point flaw in a first main surface of a glass ribbon on a division-planned line; a pair of holding members disposed at the first main surface side of the glass ribbon; and a heater disposed at a second main surface side of the glass ribbon. The pair of holding members, each of which extends parallel to the division-planned line, is brought into contact with the glass ribbon at both sides of the division-planned line while being lowered together with the glass ribbon. The heater extends along the division-planned line, and is brought into contact with and pressed onto the glass ribbon on the division-planned line while being lowered together with the glass ribbon.

The present invention provides a pick-and-place apparatus for display panels and a pick-and-place method thereof The pick-and-place apparatus for display panels comprises: an air injection unit for injecting air; and a supporting unit for extending under the display panel to support the display panel, which has a top side for supporting the display panel and an inserting side for firstly extending under the display panel, and comprises a plurality of first openings disposed at the inserting side and being communicated with the air injection unit, and a plurality of second openings disposed at the top side and being communicated with the air injection unit. With the pick-and-place apparatus for display panels of the invention, the problem of damages on display panels in the prior technology of picking and placing display panels would be solved.

Disclosed herein is an adsorption device that adsorbs battery cells loaded in a loading bin and sequentially removes and transports the battery cells. The adsorption device includes a base plate capable of moving vertically and horizontally; a suction unit coupled to the base plate for adsorbing a battery cell located at a lower part of the base plate; and a push unit coupled to the base plate for striking the battery cell to produce a vibration in the battery cell adsorbed by the suction unit. The push unit includes a rod that is lifted up and down and strikes the top surface of the adsorbed battery cell to the lower end part, and the rod descends by the elastic force of a spring.