Fixed type constant velocity universal joint

The invention claimed is: 1. A fixed type constant velocity universal joint, comprising: an outer joint member having a spherical inner peripheral surface in which a plurality of track grooves is formed so as to extend in an axial direction of the outer joint member, the outer joint member having an opening side and an interior side spaced apart from each other in the axial direction; an inner joint member having a spherical outer peripheral surface in which a plurality of track grooves is formed so as to be paired with the plurality of track grooves of the outer joint member; a plurality of balls for transmitting torque, the plurality of balls being interposed between the plurality of track grooves of the outer joint member and the plurality of track grooves of the inner joint member; and a cage comprising pockets for receiving the plurality of balls, the cage having a spherical outer peripheral surface and a spherical inner peripheral surface, which are fitted to the spherical inner peripheral surface of the outer joint member and the spherical outer peripheral surface of the inner joint member, respectively, wherein the plurality of track grooves of the outer joint member comprises: first track groove portions ( 7 a ) positioned on the interior side; and second track groove portions ( 7 b ) positioned on the opening side, wherein each of the first track groove portions ( 7 a ) comprises an arc part having a curvature center that is positioned without being offset in the axial direction with respect to a joint center (O), wherein the first track groove portions ( 7 a ) are inclined in a peripheral direction of the outer joint member with respect to a joint axial line (N-N) and are adjacent to each other in the peripheral direction with inclination directions opposite to each other, wherein each of the second track groove portions ( 7 b ) is formed into a different shape from a shape of each of first track groove portions ( 7 a ) so as to increase an effective track length at a maximum operating angle, wherein each of first track groove portions ( 7 a ) and each of the second track groove portions ( 7 b ) are connected to each other at a position on the opening side with respect to the joint center (O), wherein each of the plurality of track grooves of the inner joint member is formed so as to be mirror-image symmetrical with a corresponding one of the plurality of track grooves of the outer joint member with respect to a plane (P) including the joint center (O) at an operating angle of 0°, and wherein a pocket clearance (δ) is set within a range in which the plurality of balls and the pockets of the cage are fitted with an interference fit or a clearance fit. 2. The fixed type constant velocity universal joint according to claim 1 , wherein the pocket clearance (δ) is within a range of −30 μm≦δ≦40 μm. 3. The fixed type constant velocity universal joint according to claim 1 , wherein an angle (β) formed by a straight line (L) connecting the joint center (O)and a connection point between each of the first track groove portions ( 7 a ) and each of the second track groove portions ( 7 b ) with respect to the plane (P) including the joint center (O) at the operating angle of 0° is 3° to 10°. 4. The fixed type constant velocity universal joint according to claim 1 , wherein the curvature center of the arc part of each of the first track groove portions ( 7 a ) is arranged on the joint axial line (N-N). 5. The fixed type constant velocity universal joint according to claim 1 , wherein the curvature center of the arc part of each of the first track groove portions ( 7 a ) is offset in a radial direction with respect to the joint axial line (N-N). 6. The fixed type constant velocity universal joint according to claim 1 , wherein each of the second track groove portions ( 7 b ) comprises an arc part. 7. The fixed type constant velocity universal joint according to claim 1 , wherein an arc part of each of the second track groove portions ( 7 b ) has a curvature center offset to a radially outer side with respect to each of the first track groove portions ( 7 a ) and offset to the opening side with respect to the joint center (O). 8. The fixed type constant velocity universal joint according to claim 1 , wherein each of the second track groove portions ( 7 b ) comprises a linear part, and the linear part is formed with an inclination so as to come closer to the joint axial line (N-N) as a distance to the opening side becomes smaller. 9. The fixed type constant velocity universal joint according to claim 2 , wherein an angle (β) formed by a straight line (L) connecting the joint center (O) and a connection point between each of the first track groove portions ( 7 a ) and each of the second track groove portions ( 7 b ) with respect to the plane (P) including the joint center (O) at the operating angle of 0° is 3° to 10°. 10. The fixed type constant velocity universal joint according to claim 2 , wherein the curvature center of the arc part of each of the first track groove portions ( 7 a ) is arranged on the joint axial line (N-N). 11. The fixed type constant velocity universal joint according to claim 2 , wherein the curvature center of the arc part of each of the first track groove portions ( 7 a ) is offset in a radial direction with respect to the joint axial line (N-N). 12. The fixed type constant velocity universal joint according to claim 2 , wherein each of the second track groove portions ( 7 b ) comprises an arc part. 13. The fixed type constant velocity universal joint according to claim 2 , wherein an arc part of each of the second track groove portions ( 7 b ) has a curvature center offset to a radially outer side with respect to each of the first track groove portions ( 7 a ) and offset to the opening side with respect to the joint center (O). 14. The fixed type constant velocity universal joint according to claim 2 , wherein each of the second track groove portions ( 7 b ) comprises a linear part, and the linear part is formed with an inclination so as to come closer to the joint axial line (N-N) as a distance to the opening side becomes smaller.