Hard alloy and cutting tool

The invention claimed is: 1. A hard alloy comprising: a hard phase and a binder phase, the hard phase comprising a main component, a WC phase and a composite hard phase, wherein: the main component contains with respect to total mass of the hard alloy: 50 to 70 mass % of WC; 15 to 30 mass % of TiCN; and 0 to 10 mass % of at least one kind of carbide, nitride, and carbonitride of one or more metals of Groups IV, V, and VI of periodic table, other than W and Ti; the binder phase contains 6 to 12 mass % of at least one of Co and Ni as a main component with respect to total mass of the hard alloy; a surface portion having a WC content higher than a WC content of an internal portion of the hard alloy is located at a surface of the hard alloy; and an average size of grains in the WC phase in the surface portion is larger than an average size of grains in the WC phase in the internal portion. 2. The hard alloy according to claim 1 , wherein the average size of grains in the WC phase in the surface portion is 1.1 to 1.5 times as high as the average size of grains in the WC phase in the internal portion. 3. The hard alloy according to claim 1 , wherein a thickness of the surface portion is 5 to 20 μm. 4. The hard alloy according to claim 1 , wherein a high hardness portion having a hardness that is higher than a hardness of the internal portion of the hard alloy is located directly underneath the surface portion. 5. The hard alloy according to claim 4 , wherein a content of the WC phase in the high hardness portion is lower than a content of the WC phase in the internal portion. 6. The hard alloy according to claim 4 , wherein an average size of grains in the composite hard phase in the high hardness portion decreases from the surface portion toward the internal portion. 7. The hard alloy according to claim 1 , wherein Vickers hardness in a middle within surface portion in a thickness direction is 0.8 to 1.0 times as high as an average Vickers hardness in the internal portion. 8. The hard alloy according to claim 4 , wherein a maximum Vickers hardness in the high hardness portion is 1.2 to 1.3 times as high as an average Vickers hardness in the internal portion. 9. The hard alloy according to claim 1 , wherein a nitrogen content of the binder phase in the surface portion is higher than a nitrogen content of the binder phase of the internal portion, and is higher than a nitrogen content of the composite hard phase. 10. The hard alloy according to claim 9 , wherein the nitrogen content of the binder phase in the surface portion is by 1.1 times or more higher than the nitrogen content of the binder phase in the internal portion. 11. A cutting tool, comprising the hard alloy according to claim 1 . 12. The cutting tool according to claim 11 , further comprising a coating layer on a surface of the hard alloy. 13. The cutting tool according to claim 12 , wherein the coating layer comprises: a TiCN layer on the surface of the hard alloy, having a thickness of 4 to 10 μm; and an Al 2 O 3 layer on the TiCN layer, having a thickness of 3 to 8 μm.