Scroll compressor

What is claimed is: 1 . A scroll compressor comprising: a shaft rotated by a drive source; an eccentric bush having a recess, into which a first end of the shaft is inserted, and an eccentric portion eccentric to the shaft; an orbiting scroll operatively connected to the eccentric portion for orbiting; a fixed scroll engaged with the orbiting scroll; and a buffer member interposed between the first end of the shaft and the recess. 2 . The scroll compressor according to claim 1 , wherein: a buffer member's one end insertion groove is formed on a tip surface of the first end of the shaft so that a first end of the buffer member is inserted into the buffer member's one end insertion groove; a buffer member's other end insertion groove is formed on a base surface of the recess facing the tip surface of the first end of the shaft so that a second end of the buffer member is inserted into the buffer member's other end insertion groove; a clearance is present between an inner peripheral surface of the recess and an outer peripheral surface of the first end of the shaft and between an inner peripheral surface of the buffer member's other end insertion groove and an outer peripheral surface of the second end of the buffer member; and the clearance allows the outer peripheral surface of the second end of the buffer member to come into contact with the inner peripheral surface of the buffer member's other end insertion groove before the inner peripheral surface of the recess comes into contact with the outer peripheral surface of the first end of the shaft. 3 . The scroll compressor according to claim 2 , wherein when the recess is located at a position concentric with the first end of the shaft, a gap between the inner peripheral surface of the recess and the outer peripheral surface of the first end of the shaft is constant, a gap between the inner peripheral surface of the buffer member's other end insertion groove and the outer peripheral surface of the second end of the buffer member is constant, and the gap between the inner peripheral surface of the buffer member's other end insertion groove and the outer peripheral surface of the second end of the buffer member is smaller than the gap between the inner peripheral surface of the recess and the outer peripheral surface of the first end of the shaft. 4 . The scroll compressor according to claim 3 , wherein the buffer member is made of a material having a Shore hardness smaller than the buffer member's one end insertion groove and the buffer member's other end insertion groove. 5 . The scroll compressor according to claim 4 , wherein the gap between the inner peripheral surface of the buffer member's other end insertion groove and the outer peripheral surface of the second end of the buffer member is formed in proportion to the Shore hardness of the buffer member. 6 . The scroll compressor according to claim 5 , wherein when assuming that the gap between the inner peripheral surface of the buffer member's other end insertion groove and the outer peripheral surface of the second end of the buffer member is G 2 and the Shore hardness of the buffer member is H, they are formed to satisfy a relation of 0<G 2 ≤(0.02 mm/Shore hardness of 1 unit)*H−1.2 mm. 7 . The scroll compressor according to claim 6 , wherein: the buffer member is made of a material having a Shore hardness of 70 units; and the gap between the inner peripheral surface of the buffer member's other end insertion groove and the outer peripheral surface of the second end of the buffer member is greater than zero (0) and less than or equal to 0.2 mm. 8 . The scroll compressor according to claim 6 , wherein: the buffer member is made of a material having a Shore hardness of 80 units; and the gap between the inner peripheral surface of the buffer member's other end insertion groove and the outer peripheral surface of the second end of the buffer member is greater than zero (0) and less than or equal to 0.4 mm. 9 . The scroll compressor according to claim 2 , wherein: the inner peripheral surface of the buffer member's other end insertion groove has a decreasing inner diameter in an axial direction from the tip surface of the first end of the shaft; and when the recess is located at a position concentric with the first end of the shaft, a gap between the inner peripheral surface of the recess and the outer peripheral surface of the first end of the shaft is constant, a gap between the inner peripheral surface of the buffer member's other end insertion groove and the outer peripheral surface of the second end of the buffer member is constant, and a minimum gap between the inner peripheral surface of the buffer member's other end insertion groove and the outer peripheral surface of the second end of the buffer member is smaller than the gap between the inner peripheral surface of the recess and the outer peripheral surface of the first end of the shaft. 10 . The scroll compressor according to claim 9 , wherein the inner diameter of the inner peripheral surface of the buffer member's other end insertion groove is linearly decreased in the axial direction from the tip surface of the first end of the shaft. 11 . The scroll compressor according to claim 2 , wherein a tip surface of the second end of the buffer member is spaced apart from a base surface of the buffer member's other end insertion groove. 12 . The scroll compressor according to claim 11 , wherein a tip surface of the first end of the buffer member is spaced apart from a base surface of the buffer member's one end insertion groove. 13 . The scroll compressor according to claim 2 , wherein at least one of an inner peripheral surface of the buffer member's one end insertion groove and an outer peripheral surface of the first end of the buffer member has an irregularity formed thereon to prevent separation of the buffer member from the buffer member's one end insertion groove. 14 . The scroll compressor according to claim 2 , wherein: the eccentric bush further comprises a balance weight disposed on an opposite side of the eccentric portion with respect to the recess; a center of gravity of the balance weight is formed on an opposite side of a center of the eccentric portion with respect to a center of the recess; and on an imaginary straight line connecting a center of the buffer member's other end insertion groove to the center of the recess and the center of gravity of the balance weight, the buffer member's other end insertion groove is located between the center of the recess and the center of gravity of the balance weight. 15 . The scroll compressor according to claim 14 , wherein the buffer member's other end insertion groove is formed symmetrically with respect to the center of the buffer member's other end insertion groove. 16 . The scroll compressor according to claim 14 , wherein when the recess is located at a position concentric with the first end of the shaft, the buffer member's one end insertion groove faces the buffer member's other end insertion groove and the buffer member's one end insertion groove is formed symmetrically with respect to a center of the buffer member's one end insertion groove.