Starter, and formation of graphite cover layer for commutator surface

The invention claimed is: 1. A starter that is used for starting an engine, the starter comprising a motor provided with a brush and a commutator, the commutator having a surface that is a sliding portion; wherein the brush is configured of a sintered material being formed of graphite and copper powder, the commutator is formed of either one of copper and a copper alloy having a copper content of 99% or more, the surface of the commutator being the sliding portion that has sliding contact with the brush, has a graphite cover-layer formed thereon, and the graphite cover-layer contains graphite as a main component, a hard compound having a Vickers hardness that is higher that 10 GPa, and a metal sulfide solid lubricant. 2. The starter according to claim 1 , wherein the hard compound is carbide, and the hard compound contained in the graphite cover-layer formed on the surface of the commutator occupies a volume of 1% or more, relative to a volume of the graphite cover-layer. 3. The starter according to claim 2 , wherein the graphite cover-layer has, from a surface to 200 nm depth of the graphite cover-layer, a hardness of more than 4 GPa. 4. The starter according to claim 2 , wherein the motor has a field system being a magnetic field system. 5. The starter according to claim 2 , wherein the motor has an axial direction, a vertical direction that is perpendicular to the axial direction and a width direction that is perpendicular to the vertical direction; the brush has a sliding direction that is perpendicular to the width direction of the motor, and the commutator includes, formed on the sliding portion, a concave-convex member having a concave and convex formation that is parallel to the sliding direction of the brush. 6. The starter according to claim 2 , wherein the brush contains a hard compound and metal sulfide solid lubricant being the same as the hard compound and the solid lubricant incorporated into the surface of the commutator. 7. The starter according to claim 1 , wherein the graphite cover-layer has, from a surface to 200 nm depth of the graphite cover-layer, a hardness of more than 4 GPa. 8. The starter according to claim 7 , wherein the motor has a field system being a magnetic field system. 9. The starter according to claim 7 , wherein the motor has an axial direction, a vertical direction that is perpendicular to the axial direction and a width direction that is perpendicular to the vertical direction; the brush has a sliding direction that is perpendicular to the width direction of the motor, and the commutator includes, formed on the sliding portion, a concave-convex member having a concave and convex formation that is parallel to the sliding direction of the brush. 10. The starter according to claim 7 , wherein the brush contains a hard compound and metal sulfide solid lubricant being the same as the hard compound and the solid lubricant incorporated into the surface of the commutator. 11. The starter according to claim 1 , wherein the motor has a field system being a magnetic field system. 12. The starter according to claim 11 , wherein the motor has an axial direction, a vertical direction that is perpendicular to the axial direction and a width direction that is perpendicular to the vertical direction; the brush has a sliding direction that is perpendicular to the width direction of the motor, and the commutator includes, formed on the sliding portion, a concave-convex member having a concave and convex formation that is parallel to the sliding direction of the brush. 13. The starter according to claim 11 , wherein the brush contains a hard compound and metal sulfide solid lubricant being the same as the hard compound and the solid lubricant incorporated into the surface of the commutator. 14. The starter according to claim 1 , wherein the motor has an axial direction, a vertical direction that is perpendicular to the axial direction and a width direction that is perpendicular to the vertical direction; the brush has a sliding direction that is perpendicular to the width direction of the motor, and the commutator includes, formed on the sliding portion, a concave-convex member having a concave and convex formation that is parallel to the sliding direction of the brush. 15. The starter according to claim 14 , wherein the brush contains a hard compound and metal sulfide solid lubricant being the same as the hard compound and the solid lubricant incorporated into the surface of the commutator. 16. The starter according to claim 1 , wherein the brush contains a hard compound and metal sulfide solid lubricant being the same as the hard compound and the solid lubricant incorporated into the surface of the commutator. 17. A method of forming a graphite cover-layer on a surface of a commutator, comprising steps of: preparing the commutator which has a surface being formed of either one of copper and a copper alloy having a copper content of 99% or more; preparing a brush containing graphite and a metal sulfide solid lubricant, and performing a cover-layer formation process, wherein the cover-layer formation process is performed by an operation of a starter, the graphite and the metal sulfide solid lubricant contained in the brush are transferred onto the surface of the commutator by repeated operation of the starter, the graphite and the metal sulfide solid lubricant react with heat that is generated from electricity, sliding movement of the brush and the surface of the commutator, and sparks, whereby a graphite layer which contains hard compounds being carbides is formed on the surface of the commutator; the starter comprising a motor provided with the brush and the commutator, the commutator having the surface that is a sliding portion; wherein the brush is configured of a sintered material being formed of graphite and copper powder, the surface of the commutator being the sliding portion that has sliding contact with the brush, is formed thereon, and the graphite cover-layer contains the graphite as a main component, the hard compound having a Vickers hardness that is higher that 10 GPa, and the metal sulfide solid lubricant. 18. A commutator assembly comprising a commutator having a surface being a sliding portion; and a cover layer that is formed on the surface of the commutator, wherein the commutator is formed of either one of copper and a copper alloy having a copper content of 99% or more, the surface being the sliding portion of the commutator has sliding contact with a brush, containing graphite and a metal sulfide solid lubricant, and the cover layer of the commutator is a graphite cover-layer that contains a hard compound having a Vickers hardness that is higher that 10 GPa, and a metal sulfide solid lubricant.