Friction drive belt and manufacturing method therefor

The invention claimed is: 1. A friction drive belt comprising a belt body made of a rubber composition, and wrapped around pulleys to transmit power, wherein a pulley contact-side surface of the belt body is covered with a fabric layer which is integrated with the pulley contact-side surface by way of the rubber composition of the belt body having soaked partially into the fabric layer, and the fabric layer retains powder embedded between fibers of the fabric layer without an additional rubber composition or adhesive. 2. The friction drive belt of claim 1 , wherein the fabric layer is made of any one of nonwoven fabric, woven fabric, or knit fabric, and part of the fabric layer is embedded in the belt body. 3. The friction drive belt of claim 1 , wherein the powder is made of at least one of PTFE, montmorillonite, talc, calcium carbonate, silica, or layer silicate. 4. The friction drive belt of claim 1 , wherein the rubber composition of the belt body having soaked partially into the fabric layer forms a pulley contact-side surface rubber layer containing a material that reduces a friction coefficient, the fabric layer being located on a surface of the pulley contact-side surface rubber layer, and the belt body further includes an inner rubber layer stacked on an inner surface of the pulley contact-side surface rubber layer. 5. The friction drive belt of claim 2 , wherein the powder is made of at least one of PTFE, montmorillonite, talc, calcium carbonate, silica, or layer silicate. 6. The friction drive belt of claim 2 , wherein the rubber composition of the belt body having soaked partially into the fabric layer forms a pulley contact-side surface rubber layer containing a material that reduces a friction coefficient, the fabric layer being located on a surface of the pulley contact-side surface rubber layer, and the belt body further includes an inner rubber layer stacked on an inner surface of the pulley contact-side surface rubber layer. 7. The friction drive belt of claim 3 , wherein the rubber composition of the belt body having soaked partially into the fabric layer forms a pulley contact-side surface rubber layer containing a material that reduces a friction coefficient, the fabric layer being located on a surface of the pulley contact-side surface rubber layer, and the belt body further includes an inner rubber layer stacked on an inner surface of the pulley contact-side surface rubber layer. 8. A friction drive belt comprising a belt body made of a rubber composition, and wrapped around pulleys to transmit power, wherein a pulley contact-side surface of the belt body is covered with a fabric layer which is integrated with the pulley contact-side surface by way of the rubber composition of the belt body having soaked partially into the fabric layer, a surface of the fabric layer is covered with powder, and embedded between fibers of the fabric layer without an additional rubber composition or adhesive, at least part of the powder is integrated with and stuck to the rubber composition seeped from the belt body. 9. The friction drive belt of claim 8 , wherein the fabric layer is made of any one of nonwoven fabric, woven fabric, or knit fabric, and part of the fabric layer is embedded in the belt body. 10. The friction drive belt of claim 8 , wherein the powder is made of at least one of PTFE, montmorillonite, talc, calcium carbonate, silica, or layer silicate. 11. The friction drive belt of claim 8 , wherein the rubber composition of the belt body having soaked partially into the fabric layer forms a pulley contact-side surface rubber layer containing a material that reduces a friction coefficient, the fabric layer being located on a surface of the pulley contact-side surface rubber layer, and the belt body further includes an inner rubber layer stacked on an inner surface of the pulley contact-side surface rubber layer. 12. A friction drive belt comprising a belt body made of a rubber composition, and wrapped around pulleys to transmit power, the friction drive belt formed by in a belt forming mold, pressing a non-crosslinked rubber composition for forming the belt and a fabric layer covering a surface of the non-crosslinked rubber composition against a layer of powder provided on a molding surface configured to form a pulley contact-side portion of the belt body and crosslinking the non-crosslinked rubber composition which the fabric layer covering the surface is being in contact with the layer of powder and stretched, and thereby causing a fabric layer covering a pulley contact-side surface of the belt body to retain the powder embedded between fibers of the fabric layer without an additional rubber composition or adhesive. 13. The friction drive belt of claim 12 , wherein the fabric layer is made of any one of nonwoven fabric, woven fabric, or knit fabric, and part of the fabric layer is embedded in the belt body. 14. The friction drive belt of claim 12 , wherein the powder is made of at least one of PTFE, montmorillonite, talc, calcium carbonate, silica, or layer silicate. 15. The friction drive belt of claim 12 , wherein the rubber composition of the belt body having soaked partially into the fabric layer forms a pulley contact-side surface rubber layer containing a material that reduces a friction coefficient, the fabric layer being located on a surface of the pulley contact-side surface rubber layer, and the belt body further includes an inner rubber layer stacked on an inner surface of the pulley contact-side surface rubber layer.