Lubricating mechanism of pin connection pair of internal combustion engine

What is claimed is: 1. A lubricating mechanism of a pin connection pair of an internal combustion engine, the internal combustion engine comprising a piston, a pin, and a connecting rod, the piston having a cylindrical shape, an axial direction, a radial direction, and a circumferential direction, the piston including a piston top portion and a piston skirt portion connected to the piston top portion, the piston skirt portion extending from a peripheral portion of the piston top portion toward one side in the axial direction, the piston skirt portion having two pin seat portions matched with both ends of the pin, the both ends of the pin being mounted in a plurality of pin holes of the two pin seat portions such that the pin and one of the two pin seat portions form the pin connection pair, and an intermediate portion of the pin disposed between the both ends connected to the connecting rod, the lubricating mechanism comprising: a lubricating passage through which a lubricating medium is flowable, the lubricating passage formed inside the piston top portion; and an oil outlet orifice communicating with the lubricating passage, the oil outlet orifice disposed in the piston top portion spaced apart from the piston skirt portion; wherein an opening of the oil outlet orifice faces the one side in the axial direction and is disposed directly below a corresponding portion of the lubricating passage communicating with the oil outlet orifice such that the lubricating medium is flowable directly to a gap defined between the connecting rod and one of the two pin seat portions via the opening; and wherein, in a longitudinal direction of the oil outlet orifice, the oil outlet orifice has a tapered shape and a width that gradually decreases from one end to another end. 2. The lubricating mechanism of the pin connection pair of the internal combustion engine according to claim 1 , wherein the longitudinal direction of the oil outlet orifice extends along a direction intersecting with a central axis of at least one of the plurality of pin holes in a plan view viewed from the one side in the axial direction. 3. The lubricating mechanism of the pin connection pair of the internal combustion engine according to claim 2 , wherein: the lubricating passage has a guiding surface configured to guide the lubricating medium toward the oil outlet orifice; and the guiding surface is connected to the one end of the oil outlet orifice. 4. The lubricating mechanism of the pin connection pair of the internal combustion engine according to claim 3 , wherein the guiding surface extends obliquely toward another side in the axial direction, which is opposite the one side in the axial direction, while extending radially outward. 5. The lubricating mechanism of the pin connection pair of the internal combustion engine according to claim 1 , further comprising two oil outlet orifices including the oil outlet orifice; and wherein, in a direction along a central axis of at least one of the plurality of pin holes, the two oil outlet orifices are arranged between the two pin seat portions. 6. The lubricating mechanism of the pin connection pair of the internal combustion engine according to claim 5 , wherein: a first oil outlet orifice of the two oil outlet orifices faces a first gap defined between the connecting rod and a first pin seat portion of the two pin seat portions; and a second oil outlet orifice of the two oil outlet orifices faces a second gap defined between the connecting rod and a second pin seat portion of the two pin seat portions. 7. The lubricating mechanism of the pin connection pair of the internal combustion engine according to claim 1 , further comprising an oil inlet orifice communicating with the lubricating passage, wherein the oil inlet orifice opens toward the one side in the axial direction and is disposed in the piston top portion spaced apart from the piston skirt portion. 8. The lubricating mechanism of the pin connection pair of the internal combustion engine according to claim 7 , wherein the oil inlet orifice and the oil outlet orifice are arranged on opposite sides of a pin seat portion of the two pin seat portions such that the pin seat portion is disposed therebetween. 9. A piston for an internal combustion engine, comprising: a piston top portion; a piston skirt portion connected to the piston top portion and protruding axially from a peripheral portion of the piston top portion; the piston skirt portion including two pin seat portions structured and arranged to receive opposite ends of a pin connected to a connecting rod such that each of the two pin seat portions and the pin form a pin connection pair; a lubricating mechanism for the pin connection pair, the lubricating mechanism including: a lubricating passage through which a lubricating medium is flowable, the lubricating passage disposed within and extending inside the piston top portion; and an oil outlet orifice in fluid communication with the lubricating passage, the oil outlet orifice disposed in the piston top portion and arranged spaced apart from the piston skirt portion; wherein the oil outlet orifice has an opening facing axially away from the piston top portion; wherein the opening is disposed directly below a corresponding portion of the lubricating passage such that, via the opening, the lubricating medium is flowable directly to a gap that is defined between one of the two pin seat portions and the connecting rod when the pin is received in the two pin seat portions; and wherein the oil outlet orifice is tapered such that a width of the oil outlet orifice gradually decreases from a first end to a second end. 10. The piston according to claim 9 , wherein the oil outlet orifice extends longitudinally in a direction that is transverse to (i) a central axis of a pin hole of one of the two pin seat portions and (ii) an axial direction. 11. The piston according to claim 10 , wherein: the lubricating passage has a guiding surface configured to guide the lubricating medium toward the oil outlet orifice; and the guiding surface is connected to the first end of the oil outlet orifice. 12. The piston according to claim 11 , wherein the guiding surface extends obliquely toward the piston top portion in the axial direction while extending radially outward. 13. The piston according to claim 9 , further comprising two oil outlet orifices including the oil outlet orifice, wherein the two oil outlet orifices are arranged between the two pin seat portions in a direction of a central axis of a pin hole of one of the two pin seat portions. 14. The piston according to claim 13 , wherein: a first oil outlet orifice of the two oil outlet orifices faces a first gap defined between a first pin seat portion of the two pin seat portions and the connecting rod when the pin is received in the first pin seat portion; and a second oil outlet orifice of the two oil outlet orifices faces a second gap defined between a second pin seat portion of the two pin seat portions and the connecting rod when the pin is received in the second pin seat portion. 15. The piston according to claim 9 , further comprising an oil inlet orifice in fluid communication with the lubricating passage, wherein: the oil inlet orifice is disposed in the piston top portion spaced apart from the piston skirt portion; and the oil inlet orifice has an opening facing axially away from the piston top portion. 16. The piston according to claim 15 , wherein the oil inlet orifice and the oil outlet orifice are arranged on opposite sides of the two pin seat portions such tha