Coated cutting tool

1 .- 18 . (canceled) 19 . A coated cutting tool which comprises a substrate and a coating layer formed on a surface of the substrate, at least one layer of the coating layer being a coarse grain layer having an average grain diameter Lx measured at a direction parallel to an interface of the coating layer and the substrate exceeding 200 nm, and a composition of which being represented by (Al a Ti b M c )X, wherein: M represents at least one kind of an element(s) selected from the group consisting of Zr, Hf, V, Nb, Ta, Cr, Mo, W, Y, B and Si, X represents at least one kind of an element(s) selected from the group consisting of C, N and O, a represents an atomic ratio of an Al element based on a total of the Al element, a Ti element and an M element, b represents an atomic ratio of a Ti element based on a total of an Al element, the Ti element and an M element, c represents an atomic ratio of an M element based on a total of an Al element, a Ti element and the M element, a, b and c each satisfy 0.30≦a≦0.65, 0.35≦b≦0.70, 0≦c≦0.20 and a+b+c=1, and an average layer thickness of the coarse grain layer being 0.2 to 10 μm. 20 . The coated cutting tool according to claim 19 , wherein a, b and c each satisfy 0.30≦a≦0.50, 0.50≦b≦0.70, 0≦c≦0.20 and a+b+c=1. 21 . The coated cutting tool according to claim 19 , wherein X of the coarse grain layer represents N. 22 . The coated cutting tool according claim 19 , wherein an average grain diameter Lx of the coarse grain layer measured at a direction parallel to an interface of the coating layer and the substrate is in the range of 400 nm to 1,000 nm. 23 . The coated cutting tool according to claim 19 , wherein a grain diameter ratio (Ly/Lx) of an average grain diameter Ly of the coarse grain layer measured at a direction perpendicular to an interface between the coating layer and the substrate to an average grain diameter Lx of the coarse grain layer measured at a direction parallel to an interface between the coating layer and the substrate is 0.7 or more and less than 1.5. 24 . The coated cutting tool according to claim 19 , wherein the coarse grain layer is cubic. 25 . The coated cutting tool according to claim 24 , wherein a full width at half maximum intensity (FWHM) of an X-ray diffraction peak of a (200) plane of the coarse grain layer is 0.6° or less. 26 . The coated cutting tool according to claim 19 , wherein the coating layer contains a lower layer formed on a surface of the substrate and a coarse grain layer formed on a surface of the lower layer, and the lower layer is a single layer or a multilayer containing at least one kind of a material(s) selected from a metal containing at least one kind of metallic elements selected from the group consisting of Ti, Zr, Hf, V, Nb, Ta, Cr, Mo, W, Y, Al and Si, and a compound containing at least one kind of these metallic elements and at least one kind of nonmetallic elements selected from the group consisting of carbon, nitrogen, oxygen and boron. 27 . The coated cutting tool according to claim 1 , wherein the coarse grain layer is an uppermost layer. 28 . A coated cutting tool which comprises a substrate and a coating layer formed on a surface of the substrate, at least one layer of the coating layer being a coarse grain layer having an average grain diameter Lx measured at a direction parallel to an interface between the coating layer and the substrate exceeding 200 nm, and a composition of which being represented by (Al d Cr e L f )Z, wherein: L represents at least one kind of an element(s) selected from the group consisting of Ti, Zr, Hf, V, Nb, Ta, Mo, W, Y, B and Si, Z represents at least one kind of an element(s) selected from the group consisting of C, N and O, d represents an atomic ratio of an Al element based on a total of the Al element, a Cr element and an L element, e represents an atomic ratio of a Cr element based on a total of an Al element, the Cr element and an L element, f represents an atomic ratio of an L element based on a total of an Al element, a Cr element and the L element, d, e and f each satisfy 0.25≦d≦0.70, 0.30≦e≦0.75, 0≦f≦0.20 and d+e+f=1, and an average layer thickness of the coarse grain layer being 0.2 to 10 μm. 29 . The coated cutting tool according to claim 28 , wherein d, e and f each satisfy 0.40≦d≦0.70, 0.30≦e≦0.50, 0≦f≦0.20, d≦e and d+e+f=1. 30 . The coated cutting tool according to claim 28 , wherein Z of the coarse grain layer represents N. 31 . The coated cutting tool according to claim 28 , wherein an average grain diameter Lx of the coarse grain layer measured at a direction parallel to an interface between the coating layer and the substrate is in the range of 400 nm to 1,000 nm. 32 . The coated cutting tool according to claim 28 , wherein a grain diameter ratio (Ly/Lx) of an average grain diameter Ly of the coarse grain layer measured at a direction perpendicular to an interface between the coating layer and the substrate to an average grain diameter Lx of the coarse grain layer measured at a direction parallel to an interface between the coating layer and the substrate is 0.7 or more and less than 1.5. 33 . The coated cutting tool according to claim 28 , wherein the coarse grain layer is cubic. 34 . The coated cutting tool according to claim 33 , wherein a full width at half maximum intensity (FWHM) of an X-ray diffraction peak at a (200) plane of the coarse grain layer is 0.6° or less. 35 . The coated cutting tool according to claim 28 , wherein the coating layer contains a lower layer formed on a surface of the substrate and a coarse grain layer formed on a surface of the lower layer, and the lower layer is a single layer or a multilayer containing at least one kind of a material(s) selected from a metal containing at least one kind of metallic elements selected from the group consisting of Ti, Zr, Hf, V, Nb, Ta, Cr, Mo, W, Y, Al and Si, and a compound containing at least one kind of these metallic elements and at least one kind of nonmetallic elements selected from the group consisting of carbon, nitrogen, oxygen and boron. 36 . The coated cutting tool according to claim 28 , wherein the coarse grain layer is an uppermost layer.