Thrust bearing

1 . A thrust bearing disposed so as to face a thrust collar provided on a rotary shaft, the thrust bearing comprising: a top foil disposed so as to face the thrust collar; a back foil disposed so as to face a surface of the top foil opposite to another surface of the top foil facing the thrust collar, and supporting the top foil; and an annular plate-shaped base plate disposed on a side of the back foil opposite to the top foil, and supporting the back foil; wherein the back foil includes a plurality of back foil pieces arranged in a circumferential direction of the base plate, wherein the top foil includes a plurality of top foil pieces disposed on the plurality of back foil pieces, and wherein a leading side of a top foil piece in a rotation direction of the rotary shaft is provided with a fixed part fixed to the base plate, an inner circumferential edge side of the top foil piece is provided with an inner circumferential edge-side thin part in which a part is removed from a surface of the top foil piece facing a back foil piece, and the inner circumferential edge-side thin part is formed so as to be thinner than an outer circumferential edge side of the top foil piece. 2 . The thrust bearing according to claim 1 , wherein a fixed part-side thin part is formed in the fixed part and in a vicinity of the fixed part of the top foil piece on a trailing side of the fixed part in the rotation direction of the rotary shaft and is formed so as to be thinner than the outer circumferential edge side of the top foil piece. 3 . The thrust bearing according to claim 1 , wherein the top foil piece is formed in an arc sheet shape obtained by dividing an annular sheet in a circumferential direction thereof, and wherein a borderline between the inner circumferential edge-side thin part and the outer circumferential edge side thereof is formed in an arc shape extending in a circumferential direction of the inner circumferential edge of the top foil piece. 4 . The thrust bearing according to claim 2 , wherein the top foil piece is formed in an arc sheet shape obtained by dividing an annular sheet in a circumferential direction thereof, and wherein a borderline between the inner circumferential edge-side thin part and the outer circumferential edge side thereof is formed in an arc shape extending in a circumferential direction of the inner circumferential edge of the top foil piece. 5 . The thrust bearing according to claim 1 , wherein the fixed part includes a linear fixed edge positioned at a trailing side of the fixed part in the rotation direction of the rotary shaft, wherein the back foil piece is formed of a wave sheet-shaped bump foil piece in which peak parts and valley parts are alternately formed, and is disposed such that an arrangement direction of the peak parts crosses with the fixed edge, and wherein a portion of the top foil piece facing a valley part is provided with a valley part-side thin part in which a part is removed from a surface of the top foil piece facing the bump foil piece, and the valley part-side thin part is formed so as to be thinner than a portion of the top foil piece facing a peak part. 6 . The thrust bearing according to claim 2 , wherein the fixed part includes a linear fixed edge positioned at a trailing side of the fixed part in the rotation direction of the rotary shaft, wherein the back foil piece is formed of a wave sheet-shaped bump foil piece in which peak parts and valley parts are alternately formed, and is disposed such that an arrangement direction of the peak parts crosses with the fixed edge, and wherein a portion of the top foil piece facing a valley part is provided with a valley part-side thin part in which a part is removed from a surface of the top foil piece facing the bump foil piece, and the valley part-side thin part is formed so as to be thinner than a portion of the top foil piece facing a peak part. 7 . The thrust bearing according to claim 3 , wherein the fixed part includes a linear fixed edge positioned at a trailing side of the fixed part in the rotation direction of the rotary shaft, wherein the back foil piece is formed of a wave sheet-shaped bump foil piece in which peak parts and valley parts are alternately formed, and is disposed such that an arrangement direction of the peak parts crosses with the fixed edge, and wherein a portion of the top foil piece facing a valley part is provided with a valley part-side thin part in which a part is removed from a surface of the top foil piece facing the bump foil piece, and the valley part-side thin part is formed so as to be thinner than a portion of the top foil piece facing a peak part. 8 . The thrust bearing according to claim 4 , wherein the fixed part includes a linear fixed edge positioned at a trailing side of the fixed part in the rotation direction of the rotary shaft, wherein the back foil piece is formed of a wave sheet-shaped bump foil piece in which peak parts and valley parts are alternately formed, and is disposed such that an arrangement direction of the peak parts crosses with the fixed edge, and wherein a portion of the top foil piece facing a valley part is provided with a valley part-side thin part in which a part is removed from a surface of the top foil piece facing the bump foil piece, and the valley part-side thin part is formed so as to be thinner than a portion of the top foil piece facing a peak part. 9 . The thrust bearing according to claim 5 , wherein the peak parts are formed such that the height of the peak parts gradually increases from the fixed edge side toward a trailing side of the back foil piece in the rotation direction of the rotary shaft. 10 . The thrust bearing according to claim 6 , wherein the peak parts are formed such that the height of the peak parts gradually increases from the fixed edge side toward a trailing side of the back foil piece in the rotation direction of the rotary shaft. 11 . The thrust bearing according to claim 7 , wherein the peak parts are formed such that the height of the peak parts gradually increases from the fixed edge side toward a trailing side of the back foil piece in the rotation direction of the rotary shaft. 12 . The thrust bearing according to claim 8 , wherein the peak parts are formed such that the height of the peak parts gradually increases from the fixed edge side toward a trailing side of the back foil piece in the rotation direction of the rotary shaft. 13 . The thrust bearing according to claim 1 , wherein each of support areas of the base plate, the support areas supporting the back foil pieces, is provided with an inclined surface whose height gradually increases from the fixed edge side toward an edge on a trailing side of the top foil piece in the rotation direction of the rotary shaft. 14 . The thrust bearing according to claim 13 , wherein the back foil piece is formed of a wave sheet-shaped bump foil piece in which peak parts and valley parts are alternately formed, and is disposed such that an arrangement direction of the peak parts is the same as an inclination direction of the inclined surface. 15 . The thrust bearing according to claim 5 , wherein an edge on a trailing side of the bump foil piece in the rotation direction of the rotary shaft is fixed to the base plate. 16 . The thrust bearing according to claim 6 , wherein an edge on a trailing side of the bump foil piece in the rotation direction of the rotary shaft is fixed to the base plate. 17 . The thrust bearing according to claim 7 , wherein an edge on a trailin