Tilting pad journal bearing

The invention claimed is: 1. A tilting pad journal bearing which supports a rotary shaft by a plurality of pads arranged around the rotary shaft so that the rotary shaft is rotatable, wherein an oil supply unit is provided in a portion of an opposite surface of at least one of the plurality of pads opposite the rotary shaft, the portion being located at a downstream end in a rotation direction of the rotary shaft, and the oil supply unit is formed along a portion of an isopleth of the distribution of pressure generated on the opposite surface by a lubricant caught between the rotary shaft and the opposite surface, the portion of the isopleth being located downstream of a maximum pressure point of the distribution of pressure in the rotation direction. 2. The tilting pad journal bearing according to claim 1 , wherein the portion of the isopleth located downstream is a portion of the opposite surface, which has a quarter of the length of the opposite surface from the downstream end of the opposite surface in the rotation direction. 3. The tilting pad journal bearing according to claim 1 , wherein at least one oil supply groove formed along the isopleth is provided as the oil supply unit. 4. The tilting pad journal bearing according to claim 3 , wherein the at least one oil supply groove includes a plurality of oil supply grooves arranged parallel to each other. 5. The tilting pad journal bearing according to claim 4 , wherein the at least one oil supply groove is divided into plural oil supply grooves in a direction along the isopleth. 6. The tilting pad journal bearing according to claim 3 , wherein the at least one oil supply groove is divided into plural oil supply grooves in a direction along the isopleth. 7. The tilting pad journal bearing according to claim 1 , wherein plural grooves each extending along the isopleth are connected to each other to form an oil supply groove having a closed shape, the oil supply groove being provided as the oil supply unit. 8. The tilting pad journal bearing according to claim 1 , wherein at least one row of oil supply holes, which is formed of plural oil supply holes and is formed along the isopleth, is provided as the oil supply unit. 9. The tilting pad journal bearing according to claim 8 , wherein the at least one row of oil supply holes includes a plurality of rows of oil supply holes. 10. The tilting pad journal bearing according to claim 1 , wherein the oil supply unit is provided in at least one of the pads, which receives a load acting on the rotary shaft. 11. The tilting pad journal bearing according to claim 1 , wherein an oil feeding tube through which the lubricant pumped from a pump flows is connected to an oil supply passage which is formed within each of the pads to supply the lubricant to the oil supply unit. 12. A tilting pad journal bearing which supports a rotary shaft by a plurality of pads arranged around the rotary shaft so that the rotary shaft is rotatable, wherein an oil supply unit is provided in a portion of an opposite surface of at least one of the plurality of pads opposite the rotary shaft, the portion being located at a downstream end in a rotation direction of the rotary shaft, and the oil supply unit is formed along a portion of an isopleth of the distribution of pressure generated on the opposite surface by a lubricant caught between the rotary shaft and the opposite surface, the oil supply unit in its entirety being located only downstream of a maximum pressure point of the distribution of pressure in the rotation direction. 13. The tilting pad journal bearing according to claim 12 , wherein the oil supply unit includes an oil supply groove. 14. The tilting pad journal bearing according to claim 12 , wherein the oil supply unit includes a plurality of oil supply grooves. 15. The tilting pad journal bearing according to claim 12 , wherein the oil supply unit includes a row of oil supply holes.