Thermal print head, thermal printer, and method for manufacturing thermal print head

The invention claimed is: 1. A thermal print head comprising: a substrate made of a single crystal semiconductor and including an obverse surface facing in one sense of a thickness direction; a resistive layer supported by the substrate and including a plurality of heat generating parts arranged side by side in a main scanning direction; a wiring layer supported by the substrate and forming a conductive path to the plurality of heat generating parts; an insulating layer supported by the substrate; and a protective layer covering the resistive layer and the wiring layer, wherein the wiring layer includes a conductive part and a heat generating sub-part for each of the plurality of heat generating parts, the conductive part having a lower resistance value per unit length in a sub-scanning direction than the heat generating part, the heat generating sub-part having a resistance value per unit length in the sub-scanning direction that falls between the respective resistance values of the heat generating part and the conductive part, the substrate includes a ridge raised from the obverse surface and extending in the main scanning direction, the heat generating part, the heat generating sub-part and the conductive part are disposed on the ridge, the heat generating sub-part is located between the heat generating part and the conductive part in the sub-scanning direction, the ridge includes a top part that is most distant from the obverse surface, an upstream-side first slope connected to the top part on an upstream side in the sub-scanning direction, a downstream-side first slope connected to the top part on a downstream side in the sub-scanning direction, and a downstream-side second slope connected to the downstream-side first slope on an opposite side from the top part in the sub-scanning direction, the upstream-side first slope and the downstream-side first slope are inclined to the obverse surface at a first inclination angle, the heat generating part extends from the downstream-side first slope to the top part, and the insulating layer is in contact with the protective layer above the downstream-side second slope. 2. The thermal print head according to claim 1 , wherein the ridge includes an upstream-side second slope connected to the upstream-side first slope on an opposite side from the top part in the sub-scanning direction, the upstream-side second slope and the downstream-side second slope are inclined to the obverse surface at a second inclination angle, and the second inclination angle is greater than the first inclination angle. 3. The thermal print head according to claim 2 , wherein the heat generating sub-part includes an upstream-side heat generating sub-part located upstream from the heat generating part in the sub-scanning direction, and a downstream-side heat generating sub-part located downstream from the heat generating part in the sub-scanning direction. 4. The thermal print head according to claim 3 , wherein the conductive part includes an upstream-side conductive part adjacent to the upstream-side heat generating sub-part on an opposite side from the heat generating part in the sub-scanning direction, and a downstream-side conductive part adjacent to the downstream-side heat generating sub-part on an opposite side from the heat generating part in the sub-scanning direction. 5. The thermal print head according to claim 4 , wherein the upstream-side heat generating sub-part is disposed on the top part. 6. The thermal print head according to claim 5 , wherein the upstream-side conductive part extends from the top part along the upstream-side first slope and the upstream-side second slope to reach the obverse surface. 7. The thermal print head according to claim 4 , wherein the downstream-side heat generating sub-part extends from the downstream-side second slope to the downstream-side first slope. 8. The thermal print head according to claim 7 , wherein the downstream-side conductive part is disposed on the downstream-side second slope. 9. The thermal print head according to claim 1 , wherein the wiring layer and the resistive layer overlap with each other at least in part as viewed in the thickness direction, and each of the plurality of heat generating parts is formed by a part of the resistive layer not overlapping with the wiring layer as viewed in the thickness direction. 10. The thermal print head according to claim 9 , wherein the wiring layer includes a first conductive layer and a second conductive layer stacked in the thickness direction, the conductive part is formed by a part where the second conductive layer is present, and the heat generating sub-part is formed by a part of the first conductive layer not overlapping with the second conductive layer as viewed in the thickness direction. 11. The thermal print head according to claim 10 , wherein the resistive layer is disposed on the substrate, the first conductive layer is disposed on the resistive layer such that a part of the resistive layer remains exposed, and the second conductive layer is disposed on the first conductive layer such that a part of the first conductive layer remains exposed. 12. The thermal print head according to claim 10 , wherein the first conductive layer is disposed on the substrate, the second conductive layer is disposed on the first conductive layer such that a part of the first conductive layer remains exposed, and the resistive layer is disposed on the substrate and at least overlaps with the part of the first conductive layer exposed from the second conductive layer as viewed in the thickness direction. 13. The thermal print head according to claim 10 , wherein the first conductive layer is thinner than the second conductive layer. 14. The thermal print head according to claim 10 , wherein the first conductive layer is made of a material having a lower heat conductivity than that of the second conductive layer. 15. The thermal print head according to claim 9 , wherein the wiring layer includes a thicker part and a thinner part having mutually different dimensions in the thickness direction, the heat generating sub-part is formed by the thinner part, and the conductive part is formed by the thicker part. 16. The thermal print head according to claim 15 , wherein the thinner part is patterned as viewed in the thickness direction. 17. The thermal print head according to claim 1 , wherein the single crystal semiconductor is Si. 18. A thermal printer comprising: the thermal print head according to claim 1 ; and a platen directly opposite the thermal print head. 19. A method for manufacturing a thermal print head, comprising: a substrate preparing step of preparing a substrate made of a single crystal semiconductor; a substrate processing step of processing the substrate to form an obverse surface facing in one sense of a thickness direction and a ridge that is raised from the obverse surface and extends in a main scanning direction; a resistive layer forming step of forming a resistive layer that is supported by the substrate and includes a plurality of heat generating parts arranged side by side in the main scanning direction; an insulating layer preparing step of preparing an insulating layer supported by the substrate; a wiring layer forming step of forming a wiring layer that is supported by the substrate and forms a conductive path to the plurality of heat generating parts; and a protective layer preparing step of preparing a protective layer covering the resistive layer and the wiri