Dye-sensitized solar cell module

The invention claimed is: 1. A dye-sensitized solar cell module comprising a plurality of dye-sensitized solar cells electrically connected in series, each of the dye-sensitized solar cells comprising: a first electrode that comprises a transparent substrate, and a transparent conductive film provided on the transparent substrate; a second electrode that faces the first electrode; an oxide semiconductor layer that is provided on the first electrode or the second electrode; and an annular sealing section that joins the first electrode and the second electrode, wherein the transparent substrate is composed of a transparent substrate that is common to the plurality of dye-sensitized solar cells, the second electrodes of two adjoining dye-sensitized solar cells are separated apart from each other, the sealing section includes an annular first sealing section that is provided between the first electrode and the second electrode the first sealing sections that are adjoining are integrated together, the sealing section further comprises an annular second sealing section that is provided so as to overlap with the first sealing section in the direction perpendicular to the surface of the transparent substrate that faces the second electrode, and an edge of the second electrode is sandwiched between the annular second sealing section and the first sealing section, the second sealing sections of two adjoining dye-sensitized solar cells are integrated together, the second sealing section is adhered to the first sealing section through a gap between the second electrodes of two adjoining dye-sensitized solar cells, the dye-sensitized solar cell further comprises an insulating material that is provided between the first sealing section and the transparent substrate, the thickness of the insulating material is larger than the thickness of the transparent conductive film, and the melting point of the insulating material is higher than the melting point of the first sealing section. 2. The dye-sensitized solar cell module according to claim 1 , wherein the second sealing section has a melting point higher than that of the first sealing section. 3. The dye-sensitized solar cell module according to claim 1 , wherein the sealing section comprises a resin. 4. The dye-sensitized solar cell module according to claim 1 , wherein in two adjoining dye-sensitized solar cells, the transparent conductive film in one of the dye-sensitized solar cell comprises: a main body section; a protruding section that protrudes from the main body section over the sealing section laterally to the direction of arrangement of the plurality of dye-sensitized solar cells; and an extending section that is extended from the protruding section to a position lateral to the main body section of the other dye-sensitized solar cell on the outside of the sealing section of the other dye-sensitized solar cell, the second electrode comprises a metal substrate, and the extending section of the transparent conductive film in one of the dye-sensitized solar cell and the metal substrate of the second electrode in the other dye-sensitized solar cell are connected through a conductive material. 5. The dye-sensitized solar cell module according to claim 4 , wherein the conductive material is a metal film. 6. The dye-sensitized solar cell module according to claim 1 , wherein the area that is provided between two adjoining dye-sensitized solar cells in the first sealing section is formed of a low heat conductive material having lower heat conductivity than the area that is not provided between two adjoining dye-sensitized solar cells. 7. The dye-sensitized solar cell module according to claim 1 , wherein the first electrode further comprises a wiring section that is provided between the first sealing section and the transparent substrate, the wiring section comprises a current collector wire that is provided on the transparent conductive film of two adjoining dye-sensitized solar cells; and a wiring protective layer that protects the current collector wire from the electrolyte by covering the current collector wire and is joined to the first sealing section, and in the first sealing section or the wiring protective layer, the area that is provided between two adjoining dye-sensitized solar cells is formed of a low heat conductive material having lower heat conductivity than the area that is not provided between two adjoining dye-sensitized solar cells. 8. The dye-sensitized solar cell module according to claim 6 , wherein the low heat conductive material comprises a resin.