Wrapped joined V-belt

The invention claimed is: 1. A wrapped joined V-belt, comprising: a plurality of wrapped V-belt portions; and a tie band, wherein outer peripheral surfaces of the wrapped V-belt portions are coupled via the tie band, each of the wrapped V-belt portions comprises a tension member layer comprising a tension member, a tension rubber layer laminated on the tension member layer at a belt outer peripheral side, a compression rubber layer laminated on the tension member layer at a belt inner peripheral side, and an outside cloth covering an entire outer surface of the belt, wherein in each of the wrapped V-belt portions, the compression rubber layer comprises a first compression rubber layer laminated at the belt outer peripheral side and a second compression rubber layer laminated at the belt inner peripheral side, and in a V-shaped cross section of the wrapped V-belt portion, a side where a belt width is wide is the belt outer peripheral side, and a side where the belt width is narrow is the belt inner peripheral side, the tension rubber layer has a rubber hardness that is higher than a rubber hardness of the second compression rubber layer, the first compression rubber layer has a rubber hardness that is higher than the rubber hardness of the tension rubber layer, in each of the wrapped V-belt portions, the first compression rubber layer has an average thickness of from 90% to 50% with respect to an average thickness of the entire compression rubber layer, and a difference in rubber hardness Hs (JIS A) between the first compression rubber layer and the tension rubber layer is from 3 to 10. 2. The wrapped joined V-belt according to claim 1 , wherein in each of the wrapped V-belt portions, the tension rubber layer has a rubber hardness Hs (JIS A) measured in accordance with a spring hardness test (A type) specified in JIS K6253 (2012) in the range of from 85 to 93, the first compression rubber layer has a rubber hardness Hs (JIS A) measured in accordance with the spring hardness test (A type) specified in JIS K6253 (2012) in the range of from 90 to 95, the second compression rubber layer has a rubber hardness Hs (JIS A) measured in accordance with the spring hardness test (A type) specified in JIS K6253 (2012) in the range of from 72 to 78, and a difference in the rubber hardness Hs (JIS A) between the first compression rubber layer and the second compression rubber layer is from 12 to 20. 3. The wrapped joined V-belt according to claim 1 , wherein in each of the wrapped V-belt portions, the tension rubber layer has a tensile elastic modulus (modulus) in a belt width direction in accordance with JIS K6251 (1993) being from 25 MPa to 50 MPa, the first compression rubber layer has a tensile elastic modulus (modulus) in the belt width direction in accordance with JIS K6251 (1993) being from 25 MPa to 50 MPa, and the second compression rubber layer has a tensile elastic modulus (modulus) in the belt width direction in accordance with JIS K6251 (1993) being from 12 MPa to 20 MPa. 4. The wrapped joined V-belt according to claim 1 , wherein in each of the wrapped V-belt portions, the outside cloth serving as a power transmission surface has a coefficient of friction of from 0.91 to 0.96. 5. The wrapped joined V-belt according to claim 1 , further comprising, in each of the wrapped V-belt portions, a reinforcing cloth layer interposed between an inner peripheral surface of the compression rubber layer and the outside cloth. 6. The wrapped joined V-belt according to claim 1 , wherein each of the wrapped V-belt portions has a width of an outer peripheral surface of the belt being from 15 mm to 35 mm, and a thickness of from 10 mm to 20 mm.