Manufacturing method for gas diffusion sheet

What is claimed is: 1. A manufacturing method for a gas diffusion sheet of a fuel cell in which a porous layer containing a conductive particle is formed on a conductive belt-shaped base material while the base material is conveyed by a roll-to-roll method, the manufacturing method comprising: joining a first film for conveyance to a front end portion of the base material in a conveyance direction, the front end portion serving as an unwinding start part of the base material that is wound in a roll shape; guiding the base material while the base material is conveyed as the first film is conveyed by the roll-to-roll method, and coating a surface of the base material with a paste material that contains at least the conductive particle; manufacturing the gas diffusion sheet as the porous layer is formed as the paste material applied is heated while the base material coated with the paste material is continuously conveyed; and joining a second film for conveyance to a rear end portion of the base material in the conveyance direction, the rear end portion serving as an unwinding end part of the base material, wherein: after the first film is wound, the gas diffusion sheet joined to the first film is wound, and further, the second film joined to the gas diffusion sheet is wound; for joining of the first film, a first joining material is made to penetrate a first overlapping portion where the first film and the base material are superimposed on each other, and the first film and the base material are thus physically joined to each other through the first joining material; and for joining of the second film, a second joining material is made to penetrate a second overlapping portion where the base material and the second film are superimposed on each other, and the second film and the base material are thus physically joined to each other through the second joining material; wherein the first joining material penetrates are arranged along both sides of the first overlapping portion and the first joining material penetrates for each side are arrayed in the conveyance direction, and the second joining material penetrates are arranged along both sides of the second overlapping portion and the second joining material penetrates for each side are arrayed in the conveyance direction. 2. The manufacturing method according to claim 1 , wherein; the first film and the base material are adhered to each other through a first adhesive when the first film and the base material are superimposed on each other so as to join the first film; and the base material and the second film are adhered to each other through a second adhesive when the base material and the second film are superimposed on each other so as to join the second film. 3. The manufacturing method according to claim 2 , wherein; the first film and the base material are adhered to each other through a first adhesive sheet when the first film and the base material are superimposed on each other so as to join the first film, the first adhesive sheet having the first adhesive applied on both surfaces of the first adhesive sheet, and then the first joining material is made to penetrate the first overlapping portion as well as the first adhesive sheet so that the first film and the base material are joined to each other; and the base material and the second film are adhered to each other through a second adhesive sheet when the base material and the second film are superimposed on each other so as to join the second film, the second adhesive sheet having the second adhesive applied on both surfaces of the second adhesive sheet, and then the second joining material is made to penetrate the second overlapping portion as well as the second adhesive sheet so that the second film and the base material are joined to each other. 4. The manufacturing method for a gas diffusion sheet of a fuel cell of claim 1 , wherein the first joining material is made to penetrate the first overlapping portion with a predetermined pitch. 5. The manufacturing method for a gas diffusion sheet of a fuel cell of claim 1 , wherein a plurality of the first joining material is fixed on both sides of the first overlapping portion so that the portions where the first joining material penetrates are arranged along the conveyance direction, and a plurality of the second joining material is fixed on both sides of the second overlapping portion so that the portions where the second joining material penetrates are arranged along the conveyance direction. 6. The manufacturing method for a gas diffusion sheet of a fuel cell of claim 5 , wherein the first joining material and the second joining material are made from a metal material. 7. The manufacturing method for a gas diffusion sheet of a fuel cell of claim 1 , wherein both sides of the first overlapping portion are sewn by the first joining material so that the portions where the first joining material passes through are arrayed along the conveyance direction, and both sides of the second overlapping portion are sewn by the second joining material so that the portions where the second joining material passes through are arrayed along the conveyance direction. 8. The manufacturing method for a gas diffusion sheet of a fuel cell of claim 7 , wherein the first joining material and the second joining material are made from continuous fiber. 9. The manufacturing method according to claim 1 , wherein the first joining material is fixed on both sides of the first overlapping portion, and the second joining material is fixed on both sides of the second overlapping portion.