V-belt and production method therefor

The invention claimed is: 1. A V-belt comprising a rubber composition forming a portion to be V-shaped side faces of the V-belt, wherein the rubber composition includes nanofibers and organic short fibers oriented along a belt width of the V-belt, the nanofibers including polyethylene terephthalate (PET) fibers having a fiber diameter ranging from 300 nm to 900 nm, and the organic short fibers having a fiber diameter of 10 μm or larger, and in the rubber composition, a ratio of a storage modulus in a grain direction along the belt width to a storage modulus in a cross-grain direction along a belt length of the V-belt is 5 or greater, the storage modulus in the grain direction being measured based on JIS K6394 with the rubber composition stretched at a mean strain which is a strain under a load 1.3 times greater than a load at a strain of 1%, a strain amplitude of 0.1%, a frequency of 10 Hz, and a test temperature of 100° C., and the storage modulus in the cross-grain direction being measured based on JIS K6394 with the rubber composition stretched at the mean strain of 5%, the strain amplitude of 1%, the frequency of 10 Hz, and the test temperature of 100° C. 2. The V-belt of claim 1 , wherein in the rubber composition, the ratio of the storage modulus in the grain direction along the belt width to the storage modulus in the cross-grain direction along the belt length is 10 or smaller, the storage modulus in the grain direction being measured based on JIS K6394 with the rubber composition stretched at the mean strain that is the strain under the load 1.3 times greater than the load at the strain of 1%, the strain amplitude of 0.1%, the frequency of 10 Hz, and the test temperature of 100° C., and the storage modulus in the cross-grain direction being measured based on JIS K6394 with the rubber composition stretched at the mean strain of 5%, the strain amplitude of 1%, the frequency of 10 Hz, and the test temperature of 100° C. 3. The V-belt of claim 1 , wherein in the rubber composition, a total sum of a content mass of the nanofibers and a content mass of the organic short fibers ranges from 1.0 part by mass to 25.0 parts by mass for 100 parts by mass of the rubber component. 4. The V-belt of claim 1 , wherein in the rubber composition, the content mass of the nanofibers is smaller than or equal to the content mass of the organic short fibers. 5. The V-belt of claim 1 , wherein in the rubber composition, a total sum of a volume fraction of the nanofibers and a volume fraction of the organic short fibers ranges from 5% by volume to 8% by volume. 6. The V-belt of claim 1 , wherein in the rubber composition, the volume fraction of the nanofibers is smaller than or equal to the volume fraction of the organic short fibers. 7. The V-belt of claim 1 , wherein the nanofibers have a fiber length ranging from 0.3 mm to 5 mm, and a ratio of the fiber length to a fiber diameter ranging from 500 to 10,000. 8. The V-belt of claim 1 , wherein the organic short fibers have a fiber length ranging from 1.5 mm to 10 mm, and a ratio of the fiber length to a fiber diameter ranging from 100 to 500. 9. The V-belt of claim 1 , wherein the nanofibers and the organic short fibers are different in kind. 10. The V-belt of claim 9 , wherein the organic short fibers include 6,6-nylon short fibers or para-aramid short fibers. 11. The V-belt of claim 1 , wherein the organic short fibers include PET short fibers. 12. A method for producing the V-belt of claim 1 , the method comprising: preparing a kneaded body, the preparing including kneading a rubber component with a composite material having a matrix-domain structure, including (i) a matrix having thermoplastic resin and (ii) domains formed of a bundle of nanofibers including polyethylene terephthalate (PET) fibers having a fiber diameter ranging from 300 nm to 900 nm, at a temperature higher than or equal to a melting point or a softening temperature of the thermoplastic resin in the composite material so that the kneaded body is prepared, the kneaded body being made of an uncrosslinked rubber composition including the rubber component in which the nanofibers and organic short fibers are dispersed, and the organic short fibers having a fiber diameter of 10 μm or greater; rolling the kneaded body, of the uncrosslinked rubber composition, prepared in the preparing to produce an uncrosslinked rubber composition sheet to be used for forming the portion to be the V-shaped side faces; and forming a belt product out of the uncrosslinked rubber composition sheet produced in the rolling such that a grain direction of the uncrosslinked rubber composition sheet is oriented along a width of the V-belt, and crosslinking the formed belt. 13. The method for producing the V-belt of claim 12 , wherein the composite material is made of conjugated fibers cut into rods, the conjugated fibers having the matrix including the nanofibers separately arranged in parallel with one another as the domains. 14. The method for producing the V-belt of claim 12 , wherein the rubber component includes ethylene-α-olefin elastomer, and the thermoplastic resin in the composite material includes polyethylene resin.