Vacuum lamination machine suitable for all generations and operation method thereof

摘要

The present invention relates to a vacuum lamination machine suitable for all generations and an operation method thereof. The vacuum lamination machine suitable for all generations includes a stage on which a transfer device, a positioning device, an adhesive application device, a turn-over device, and at least one vacuum lamination device are arranged. The stage has a size that is sufficiently large for all sizes of substrate. The transfer device includes a fork that is adjustable for spacing distance to suit for substrate sizes. The turn-over device includes sufficiently densely arranged vacuum suction pins to suit for substrate sizes. The positioning device includes a size identification system that identifies a rough location of a substrate on the stage and a mark position identification system that carries out precise alignment of the substrate. The vacuum lamination machine supports substrate pairs of various sizes and improves flexibility of use.

主权项

1. An operation method for a vacuum lamination machine, comprising the following steps:
Step 20: an operator manually entering a substrate size corresponding to a substrate positioned on a stage and a size identification system generating a virtual simulation frame having a size corresponding to the entered substrate size and displaying the virtual simulation frame on a control screen that is separate from the stage, a detector arranged on the stage automatically detecting a right-angle and borderlines of a substrate positioned on the stage and displaying the right-angle and the borderlines on the control screen, the size identification system moving the simulation frame on the control screen to match the right-angle or the borderlines of the substrate detected by the detector and displayed on the control screen, whereby, under a condition that the substrate is not moved on the stage, while the virtual simulation frame is moved on the control screen, location of the substrate on the stage is determined according to location of the simulation frame on the control screen and the size of the substrate is confirmed; Step 30: determining a substrate zone for precise alignment through determination of relative position of the substrate and the stage, moving alignment CCD (charge coupling device) and a vacuum lamination device to the substrate zone; Step 40: manually entering a precise location of a mark on the substrate through a mark position identification system and moving the alignment CCD and the vacuum lamination device to the mark location according to entered information of mark location and carrying out precise alignment for the substrate according to the mark; and Step 50: starting a lamination operation after precise alignment.