Method and apparatus for sequentially laminating optical film including polarizing film, to rectangular-shaped panel

What is claimed is: 1. A method of sequentially laminating a carrier film-attached optical film laminate to a rectangular-shaped panel having a long side and a short side, using the optical film laminate which comprises an optical film including at least a polarizing film having a thickness of 10 μm or less, and a carrier film attached to the optical film through an adhesive layer under a condition that an adhesion force of the carrier film with respect to the adhesive layer is weaker than an adhesion force of the optical film with respect to the adhesive layer, wherein the polarizing film has optical characteristics satisfying the following conditions: P >−(10 0.929T−42.4 −1)×100 (where T< 42.3); and P≧ 99.9 (where T≧ 42.3) wherein T is a single layer transmittance, and P is a polarization rate, the method comprising the steps of: sequentially forming a plurality of slits in the optical film laminate in a width direction thereof at lengthwise intervals corresponding to one of the long and short sides of the panel, to extend from a surface of the optical film on a side opposite to the carrier film to a depth reaching a surface of the carrier film adjacent to the optical film to thereby form an optical film sheet supported by the carrier film, between lengthwisely adjacent two of the slits; sequentially feeding a plurality of the panels to a lamination position; feeding the optical film laminate having the slits formed therein, toward the lamination position, in such a manner that each of the optical film sheets is fed in synchronization with a respective one of the panels being sequentially fed to the lamination position; and laminating each of the optical film sheets to a respective one of the panels through the adhesive layer, with peeling the optical film sheet from the carrier film at a location sufficiently close to the lamination position that a leading end of the optical film sheet is on the panel fed to the lamination position while a rear end of the optical film sheet is in contact with the carrier film, while allowing the adhesive layer to be left on the side of the optical film sheet, while holding at least the leading end of the optical film sheet in a moving direction thereof. 2. The method as defined in claim 1 , wherein: the polarizing film is prepared by a process including the steps of: subjecting a laminate comprising a continuous web of a thermoplastic resin substrate and a polyvinyl alcohol type resin layer formed on the substrate, to a 2-stage lengthwise uniaxial stretching consisting of a preliminary in-air stretching and an in-boric-acid-solution stretching to attain a total stretching ratio of 5.0 to 8.5; and subjecting the stretched laminate to dyeing with a dichroic material to allow the polyvinyl alcohol type resin layer to be formed as the polarizing film on the thermoplastic resin substrate; the optical film being a laminate comprising the thermoplastic resin substrate and the polarizing film formed on the substrate. 3. The method as defined in claim 1 , wherein an overall thickness of the optical film laminate is 170 μm or less. 4. The method as defined in claim 1 , wherein the optical film laminate is formed to have a width corresponding to a dimension of a remaining one of the long and short sides of the panel. 5. The method as defined in claim 1 , wherein the holding of the optical film sheet in the step of laminating is performed by means of vacuum suction. 6. The method as defined in claim 5 , wherein the vacuum suction is produced by designing a laminating roller for pressing and laminating the optical film sheet to the panel, to serve as a vacuum suction roller. 7. The method as defined in claim 5 , wherein the vacuum suction is produced by a vacuum suction plate disposed just before the lamination position. 8. The method as defined in claim 1 , wherein the optical film is a laminate having an optically functional film bonded to a surface thereof on a side opposite to the carrier film. 9. The method as defined in claim 1 , wherein the optical film is a laminate having a second optically functional film disposed between the polarizing film and the adhesive layer. 10. The method as defined in claim 1 , wherein a surface of the carrier film in contact with the adhesive layer has an adhesion force with respect to the adhesive layer, which is weaker than an adhesion force between the optical film and the adhesive layer. 11. The method as defined in claim 2 , wherein the polarizing film is formed to have optical characteristics satisfying the following conditions: T≧ 42.5; and P≧ 99.5 wherein T is a single layer transmittance, and P is a polarization rate. 12. The method as defined in claim 2 , wherein the stretching ratio under the preliminary in-air stretching is 3.5 or less. 13. The method as defined in claim 2 , wherein the impregnation of the dichroic material is performed by immersing the polyvinyl alcohol type resin layer in a dyeing solution containing iodine in a water solvent in an iodine concentration ranging from 0.12 to 0.30 weight %. 14. A method of sequentially laminating a carrier film-attached optical film laminate to a rectangular-shaped panel having a long side and a short side, using the optical film laminate which comprises an optical film including at least a polarizing film having a thickness of 10 μm or less, and a carrier film attached to the optical film through an adhesive layer under a condition that an adhesion force of the carrier film with respect to the adhesive layer is weaker than an adhesion force of the optical film with respect to the adhesive layer, the method comprising the steps of: sequentially forming a plurality of slits in the optical film laminate in a width direction thereof at lengthwise intervals corresponding to one of the long and short sides of the panel, to extend from a surface of the optical film on a side opposite to the carrier film to a depth reaching a surface of the carrier film adjacent to the optical film to thereby form an optical film sheet supported by the carrier film, between lengthwisely adjacent two of the slits; sequentially feeding a plurality of the panels to a lamination position; feeding the optical film laminate having the slits formed therein, toward the lamination position, in such a manner that each of the optical film sheets is fed in synchronization with a respective one of the panels being sequentially fed to the lamination position; and laminating each of the optical film sheets to a respective one of the panels through the adhesive layer, with peeling the optical film sheet from the carrier film at a location sufficiently close to the lamination position that a leading end of the optical film sheet is on the panel fed to the lamination position while a rear end of the optical film sheet is in contact with the carrier film, while allowing the adhesive layer to be left on the side of the optical film sheet, while holding at least the leading end of the optical film sheet in a moving direction thereof, wherein the holding of the optical film sheet in the step of laminating is performed by means of vacuum suction plate disposed just before the lamination position. 15. The method as defined in claim 14 , wherein the polarizing film has optical characteristics satisfying the following conditions: P >−(10 0.929T−42.4 −1)×100 (where T< 42.3); and P≧ 99.9 (where T≧ 42.3) wherein T is a single layer transmittance, and P is a polarization rate.