Composite material panel structure and manufacturing method

The invention claimed is: 1. A composite material panel structure formed from a composite material panel containing reinforcing fibers, the composite material panel comprising: a fiber-reinforced base material impregnated with a matrix resin; a conductive mesh sheet disposed on one surface side of the fiber-reinforced base material; and a bag film which is disposed on the one surface side of the fiber-reinforced base material so that the conductive mesh sheet is placed between the fiber-reinforced base material and the bag film, wherein the conductive mesh sheets of a plurality of the composite material panels are electrically connected to each other, and the conductive mesh sheet disposed on one surface side of the fiber-reinforced base material is interposed between the bag film and the fiber-reinforced base material in an entire region where the bag film overlaps the fiber-reinforced base material. 2. The composite material panel structure according to claim 1 , wherein the composite material panel comprises a conductive connecting end on which an end portion of the conductive mesh sheet that is not covered by said bag film is exposed, and the conductive connecting ends of adjacent composite material panels contact each other. 3. The composite material panel structure according to claim 1 , wherein the composite material panel comprises a conductive connecting end formed by exposing an end portion of the conductive mesh sheet that is not covered by said bag film, and the conductive connecting ends of a plurality of the composite material panels are electrically connected to each other via a conductive member. 4. The composite material panel structure according to claim 3 , wherein the conductive member is a coupling tool for coupling a plurality of the composite material panels. 5. A wind turbine generator comprising a nacelle cover which is constituted by the composite material panel structure according to claim 1 . 6. The composite material panel structure according to claim 1 , wherein said bag film is configured to form a molding space between the bag film and a mold for molding said composite material panels when molding the composite material panels, the molding space being configured to receive the liquid matrix resin when molding the composite material panels. 7. A manufacturing method for a composite material panel structure formed from a composite material panel containing reinforcing fibers, comprising the steps of: placing a fiber-reinforced base material on a mold and disposing a conductive mesh sheet on an upper surface of the fiber-reinforced base material; covering the fiber-reinforced base material and the conductive mesh sheet with a bag film so that the conductive mesh sheet is placed between the fiber-reinforced base material and the bag film in an entire region where the bag film overlaps the fiber-reinforced base material; reducing a pressure in a molding space formed between the mold and the bag film; introducing a matrix resin into the reduced-pressure molding space; curing the matrix resin; removing a composite material panel obtained by integrating the fiber-reinforced base material, the conductive mesh sheet, and the bag film from the mold when the matrix resin is cured; and electrically connecting the conductive mesh sheets of a plurality of the composite material panels to each other. 8. The manufacturing method for the composite material panel structure according to claim 7 , wherein the composite material panel comprises a conductive connecting end at which an end portion of the conductive mesh sheet is exposed without being covered by the bag film, and in the connecting step, the conductive connecting ends of adjacent composite material panels are electrically connected to each other. 9. The manufacturing method for the composite material panel structure according to claim 8 , further comprising a step of removing at least a part of said bag film positioned on said end portion of the conductive mesh sheet so that said end portion of the conductive mesh sheet is exposed. 10. A manufacturing method for a composite material panel structure formed from a composite material panel containing reinforcing fibers, the method comprising: placing a fiber-reinforced base material on a mold and disposing a conductive mesh sheet on an upper surface of the fiber-reinforced base material; covering the fiber-reinforced base material and the conductive mesh sheet with a bag film so that the conductive mesh sheet is placed between the fiber-reinforced base material and the bag film; reducing a pressure in a molding space formed between the mold and the bag film; introducing a matrix resin into the reduced-pressure molding space; curing the matrix resin; removing a composite material panel obtained by integrating the fiber-reinforced base material, the conductive mesh sheet, and the bag film from the mold when the matrix resin is cured; and electrically connecting the conductive mesh sheets of a plurality of the composite material panels to each other, wherein the bag film remains on the conductive mesh sheet in each of said composite material panels of said composite material panel structure obtained through said connecting step.