Manufacturing method for raw edge V-belt

What is claimed is: 1. A production method of a raw edge V-belt having a compressed rubber layer which forms an inner peripheral side, in a thickness direction, of the raw edge V-belt, the compressed rubber layer including a surface rubber layer constituting a surface portion of the compressed rubber layer and a core rubber layer constituting an inner portion of the compressed rubber layer, the method comprising: a step of forming a shaped structure having a cylindrical shape, made of a first uncrosslinked rubber composition, and having, on its outer peripheral surface, a plurality of ridges extending in the circumferential direction and arranged adjacent to one another in an axial direction; a step of forming compressed rubber layer-forming portions after forming the ridges, each of the compressed rubber layer-forming portions to be the compressed rubber layer, by covering the formed ridges with a second uncrosslinked rubber composition, which is to be the surface rubber layer; a step of molding a cylindrical belt slab, using a belt mold having a plurality of compressed rubber layer-shape grooves arranged adjacent to one another in a groove width direction, by heating and pressing, toward the belt mold, and thereby crosslinking the shaped structure, formed in the step of forming the shaped structure, together with the second uncrosslinked rubber composition and thereby integrating the shaped structure and the second uncrosslinked rubber composition, while having each of the compressed rubber layer-forming portions, which are formed in the step of forming the compressed rubber layer-forming portions, fitted in an associated one of the compressed rubber layer-shape grooves of the belt mold; and a step of cutting the belt slab, molded in the step of molding the belt slab, into ring-shaped pieces such that one ring-shaped piece corresponds to one compressed rubber layer-forming portion. 2. The production method of claim 1 , wherein the belt mold has a cylindrical shape having, on an inner peripheral surface thereof, the plurality of compressed rubber layer-shape grooves each extending in the circumferential direction and arranged adjacent to one another in the axial direction, and the shaped structure is placed inside the belt mold. 3. The production method of claim 1 , wherein prior to the covering of the ridges with the second uncrosslinked composition, the second uncrosslinked composition is subjected to a pleating process so that a cross section of the second uncrosslinked composition has same pitches as pitches of the ridges, and portions of the second uncrosslinked composition which protrude toward the ridges are located at grooves between the ridges. 4. The production method of claim 1 , wherein prior to the covering of the ridges with the second uncrosslinked composition, the second uncrosslinked composition is formed into a shape that fits surfaces of the ridges. 5. The production method of claim 1 , wherein each of the compressed rubber layer-forming portions is fitted in an associated one of the compressed rubber layer-shape grooves prior to the heating the shaped structure and pressing the shaped structure toward the belt mold. 6. The production method of any one of claim 2 , wherein the pressing of the shaped structure toward the belt mold is carried out by expanding an expansion sleeve located radially inward of the shaped structure and pressing the shaped structure from radially inside by the expansion sleeve. 7. The production method of claim 6 , wherein a tensile member is provided between the shaped structure and the expansion sleeve, the tensile member being comprised of a third uncrosslinked rubber composition having a cylindrical shape in which a cord is embedded so as to form a helical pattern having pitches in the axial direction. 8. The production method of claim 7 , wherein the tensile member is provided on the expansion sleeve prior to the expansion of the expansion sleeve. 9. The production method of claim 7 , wherein a space is formed between the tensile member and the expansion sleeve prior to the expansion of the expansion sleeve. 10. The production method of claim 8 , wherein the shaped structure and the tensile member are brought into contact with each other prior to the expansion of the expansion sleeve. 11. The production method of claim 8 , wherein a space is formed between the shaped structure and the tensile member prior to the expansion of the expansion sleeve. 12. The production method of claim 1 , further comprising a step of forming a rubber sheet made of the first uncrosslinked rubber composition having the plurality of ridges arranged adjacent to one another, the rubber sheet being used as the shaped structure. 13. The production method of claim 12 , wherein the step of forming the compressed rubber layer-forming portions is carried out after the step of forming the shaped structure. 14. The production method of claim 2 , wherein the second uncrosslinked rubber composition is in contact with an inside of the belt mold prior to the pressing of the shaped structure toward the belt mold. 15. The production method of claim 14 , wherein the second uncrosslinked rubber composition is in contact with the inside of the belt mold at locations apart from each other in an axial direction of the belt mold. 16. A production method of a raw edge V-belt having a compressed rubber layer which forms an inner peripheral side, in a thickness direction, of the raw edge V-belt, the compressed rubber layer including a surface rubber layer constituting a surface portion of the compressed rubber layer and a core rubber layer constituting an inner portion of the compressed rubber layer, the method comprising: a step of forming a rubber sheet made of a first uncrosslinked rubber composition and having a plurality of ridges extending parallel to one another and arranged adjacent to one another, each of the plurality of ridges to be the core rubber layer; a step of forming compressed rubber layer-forming portions, each of which is to be the compressed rubber layer, by covering the plurality of ridges of the rubber sheet formed in the step of forming the rubber sheet with a second uncrosslinked rubber composition, which is to be the surface rubber layer; a step of forming a cylindrical object from an object formed to have the compressed rubber layer-forming portions in the step of forming the compressed rubber layer-forming portions by covering the plurality of ridges of the rubber sheet with the second uncrosslinked rubber composition, the cylindrical object having the compressed rubber layer-forming portions on its outer peripheral surface, the compressed rubber layer-forming portions extending in a circumferential direction and arranged adjacent to one another in an axial direction; a step of molding a cylindrical belt slab, using a belt mold having a plurality of compressed rubber layer-shape grooves arranged adjacent to one another in a groove width direction, by heating and pressing, toward the belt mold, and thereby crosslinking the cylindrical object, formed in the step of forming the cylindrical object, while having each of the compressed rubber layer-forming portions fitted in an associated one of the compressed rubber layer-shape grooves of the belt mold; and a step of cutting the belt slab, molded in the step of molding the belt slab, into ring-shaped pieces such that one ring-shaped piece corresponds to one compressed rubber layer-forming portion. 17. The production method of claim 16 , wherein the belt mold has a cy