Patent ID: 8070902

Claim:
In a method for adhering a solar cell module to a vehicle sunroof using a laminator, a method for manufacturing a solar cell module for a vehicle sunroof, comprising: a step in which a curvature area of a sunroof curved glass is computed for a full contact of a solar cell to the sunroof curved glass; a step in which the solar cell is cut into multiple pieces so that the solar cell is closely contacted with the sunroof curved glass based on a computed curvature area of the sunroof curved glass; a step in which a solar cell module is arranged in a sequence of a sunroof curved glass, a lower EVA film, a solar cell, an upper EVA film, and a backseat including the cut solar cell; a step in which the arranged solar cell module is mounted so that the sunroof curved glass is positioned on a bottom plate of the laminator; a step in which an upper chamber (cover) of the laminator is closed and operates, and the upper and lower EVA films are melted based on an electric heating operation of the bottom plate contacting with the sunroof curved glass; and a step in which the solar cell module is adhered using the upper and lower EVA films which melt as the solar cell module is pressurized by means of the compressed air supplied from the upper chamber of the laminator, wherein said bottom plate of the laminator is formed as a module mounting plate contacting with a sunroof curved glass among the solar cell module to be mounted and a support bottom plate supporting the module mounting plate are integrally formed, and said module mounting plate is made in a channel shaped frame structure of a copper material same as the support bottom plate, and a powder of a phosphorus bronze and an aluminum is inputted into the interior of the frame, and the inputted phosphorous bronze and aluminum powders are heated using the heat from the support bottom plate and are pressurized on the sunroof curved glass for thereby obtaining the same curvature as the sunroof curved glass.