Method and apparatus for producing flexible OLED device

The invention claimed is: 1. A method for producing a flexible OLED device, comprising: providing a multilayer stack which has a first surface and a second surface, the multilayer stack including a glass base which defines the first surface, a functional layer region including a TFT layer and an OLED layer, a synthetic resin film provided between the glass base and the functional layer region and bound to the glass base, the synthetic resin film including a flexible substrate region supporting the functional layer region and an intermediate region surrounding the flexible substrate region, and a protection sheet which covers the functional layer region and which defines the second surface; dividing the intermediate region and the flexible substrate region of the synthetic resin film from each other; irradiating an interface between the synthetic resin film and the glass base with laser light; and separating the multilayer stack into a first portion and a second portion by increasing a distance from a stage to the glass base while the second surface of the multilayer stack is kept in contact with the stage, wherein the first portion of the multilayer stack includes the intermediate region of the synthetic resin film and an OLED device which are adhered to the stage, the OLED device including the functional layer region and the flexible substrate region of the synthetic resin film, and the second portion of the multilayer stack includes the glass base, and the method further comprises removing the intermediate region of the synthetic resin film adhered to the stage from the stage while the OLED device is kept adhered to the stage. 2. The method of claim 1 further comprising, after removing the intermediate region of the synthetic resin film from the stage, performing a process on the OLED device which is in contact with the stage. 3. The method of claim 2 , wherein the process includes any of attaching a dielectric and/or electrically-conductive film to the OLED device, cleaning or etching the OLED device, and mounting an optical part and/or an electronic part to the OLED device. 4. The method of claim 1 , wherein separating the multilayer stack into the first portion and the second portion is carried out while the stage holds the second surface of the multilayer stack. 5. The method of claim 4 , wherein irradiating the interface between the synthetic resin film and the glass base with the laser light is carried out while the stage holds the second surface of the multilayer stack. 6. The method of claim 1 , wherein a surface of the stage includes a first region which is to face the OLED device and a second region which is to face the intermediate region of the synthetic resin film, and suction in the first region is higher than suction in the second region. 7. The method of claim 1 , further comprising, before bringing the second surface of the multilayer stack into contact with the stage, placing a suction sheet on the stage, the suction sheet having a plurality of openings, wherein the stage includes a porous plate on which the suction sheet is to be placed, and the suction sheet includes a first region which is to be in contact with the plurality of OLED devices and a second region which is to face the intermediate region of the synthetic resin film, an aperture ratio of the first region being higher than an aperture ratio of the second region. 8. An apparatus for producing a flexible OLED device, comprising: a stage for supporting a multilayer stack which has a first surface and a second surface, the multilayer stack including a glass base which defines the first surface, a functional layer region including a TFT layer and an OLED layer, a synthetic resin film provided between the glass base and the functional layer region and bound to the glass base, the synthetic resin film including a flexible substrate region supporting the functional layer region and an intermediate region surrounding the flexible substrate region, and a protection sheet which covers the functional layer region and which defines the second surface, the intermediate region and the flexible substrate region of the synthetic resin film being divided from each other; a lift-off light irradiation unit for irradiating with laser light an interface between the synthetic resin film and the glass base in the multilayer stack supported by the stage, and an actuator for increasing a distance from the stage to the glass base while the stage is kept in contact with the second surface of the multilayer stack, thereby separating the multilayer stack into a first portion and a second portion, wherein the first portion of the multilayer stack includes the intermediate region of the synthetic resin film and an OLED device which are adhered to the stage, the OLED device including the functional layer region, and the OLED device including the flexible substrate region of the synthetic resin film, and the second portion of the multilayer stack includes the glass base, wherein the stage comprises means for removing the intermediate region of the synthetic resin film adhered to the stage from the stage while the OLED device is kept adhered to the stage. 9. The apparatus of claim 8 , wherein the stage has a recess which allows holding of the intermediate region at a position which is to face part of the intermediate region of the synthetic resin film included in the first portion of the multilayer stack supported by the stage. 10. The apparatus of claim 8 , wherein the stage includes a first region which is to face the plurality of OLED devices and a second region which is to face the intermediate region of the synthetic resin film, and suction in the first region is higher than suction in the second region. 11. The apparatus of claim 8 , wherein the stage includes a porous plate, and a suction sheet placed on the porous plate, the suction sheet having a plurality of openings, and the suction sheet includes a first region which is to be in contact with the plurality of OLED devices and a second region which is to face the intermediate region of the synthetic resin film, an aperture ratio of the first region being higher than an aperture ratio of the second region. 12. The apparatus of claim 8 , wherein the stage has a plurality of ejection holes in a region which is to face the intermediate region of the synthetic resin film.