RTM molding device, RTM molding method, and semi-molded body

The invention claimed is: 1. An RTM molding device including: a molding die inside of which a cavity is formed; and a resin injection line and a suction line that are connected to the cavity, the device being configured such that a fiber-reinforced base material is placed in the cavity, pressure inside the cavity is reduced, and a resin composition is injected into the cavity to impregnate the fiber-reinforced base material and form a molded body, wherein the RTM molding device further comprises: a surface molding layer for molding a surface and being disposed between the fiber-reinforced base material and the molding die, the surface molding layer having a plurality of through-holes formed therein, and having sufficient rigidity so that thickness does not substantially change under a pressure inside the cavity when the inside of the cavity is placed under reduced pressure; and resin diffusion means located on a side of the surface molding layer opposite the fiber-reinforced base material, the resin diffusion means defining a resin flow path connecting with the plurality of through-holes of the surface molding layer and allowing the resin composition to pass therethrough, wherein the surface molding layer and the resin diffusion means are configured to be provided on at least one surface of the fiber-reinforced base material, wherein the resin diffusion means is composed of at least a first resin diffusion layer, which has a plurality of through-holes formed therein, the through-holes having a larger diameter than the through-holes formed in the surface molding layer, wherein the first resin diffusion layer has sufficient rigidity so that thickness does not substantially change under the pressure, and the first resin diffusion layer is disposed between the surface molding layer and the molding die, wherein the through-holes formed in the first resin diffusion layer connect with two or more of the through-holes formed in the surface molding layer to form the resin flow path, wherein the resin diffusion means is composed of a second resin diffusion layer disposed adjacent to the first resin diffusion layer, the second resin diffusion layer having a plurality of through-holes formed therein, and wherein the through-holes formed in the surface molding layer and the first resin diffusion layer are formed with a different shape from through-holes formed in the second resin diffusion layer. 2. The RTM molding device according to claim 1 , wherein a diameter of the through-holes in the surface molding layer is not more than a predetermined value that ensures that a shape of the through-holes is not transferred to the molded body under a pressure that exists when the inside of the cavity is placed under reduced pressure. 3. The RTM molding device according to claim 1 , wherein the resin diffusion means is provided on at least one surface of the fiber-reinforced base material, on a side from which the resin is injected or a side from which the resin is discharged, and when the resin diffusion means is provided on the side of the fiber-reinforced base material from which the resin is injected, the resin flow path is connected to the resin injection line, whereas when the resin diffusion means is provided on the side of the fiber-reinforced base material from which the resin is discharged, the resin flow path is connected to the suction line. 4. The RTM molding device according to claim 1 , wherein the first resin diffusion layer is a porous plate formed from a punched metal. 5. The RTM molding device according to claim 1 , wherein the surface molding layer is a porous plate formed from a punched metal. 6. The RTM molding device according to claim 1 , wherein a diameter of the through-holes formed in the surface molding layer is not less than 0.3 mm and not more than 2 mm. 7. The RTM molding device according to claim 1 , wherein the through-holes formed in the surface molding layer and the first resin diffusion layer are formed with a phase offset relative to through-holes formed in the second resin diffusion layer. 8. The RTM molding device according to claim 1 , wherein the resin diffusion means further comprises a channel formed in a surface of the molding die on a side of the fiber-reinforced base material, and the channel is connected to the resin injection line and the through-holes of the second resin diffusion layer, thus forming the resin flow path. 9. The RTM molding device according to claim 1 , wherein the resin diffusion means further comprises a channel formed in a surface of the molding die on a side of the fiber-reinforced base material, and the channel is connected to the suction line and the through-holes of the second resin diffusion layer, thus forming the resin flow path. 10. The RTM molding device according to claim 1 , wherein the second resin diffusion layer is stacked on the first resin diffusion layer, and wherein each of the through holes formed in the second resin diffusion layer has a larger diameter than the through-holes formed in the first resin diffusion layer.