Constant velocity joint

What is claimed is: 1. A constant-velocity rotary joint for torque transmission, comprising: an outer joint portion with several outer ball tracks, an inner joint portion with several inner ball tracks, torque-transmitting balls, which are each guided in track pairs of outer ball tracks and inner ball tracks, and a cage, which accommodates the torque-transmitting balls in circumferentially distributed cage windows and retains them in a common joint center plane when the constant-velocity rotary joint is straight, wherein the outer joint portion has a longitudinal axis and, situated axially opposite each other, an opening side and a connecting part, and paths of the centers of the torque-transmitting balls is in each case defined as a center line of the respective ball track, and a first type of track pairs of ball tracks is configured so that the centers of curvature of the center lines of the ball tracks are situated in the joint center plane when the joint is straight, while a second type of track pairs of ball tracks is configured so that their center lines have at least two portions, and the respective center line of the outer ball tracks of the second type of track pairs has at least one inner portion and one outer portion, wherein the inner portion is situated on a connection side of the outer joint portion, while the outer portion is situated on an opening side of the outer joint portion, and the inner portion is curved and a center of curvature of the inner portion, when the joint is straight, is situated within a hollow volume of the outer joint portion, offset from the joint center plane towards the opening side, while the center line of the outer ball tracks of the second type of track pairs widens through the outer portion towards the opening side. 2. The constant-velocity rotary joint of claim 1 , wherein the center line of the outer ball tracks of the second type of track pairs widens in a linear manner through the outer portion. 3. The constant-velocity rotary joint of claim 1 , wherein each of the at least two portions of the second type of track pairs of ball tracks are curved in opposite directions and the center of curvature of an outer portion of the at least two portions of the second type of track pairs of ball tracks is situated outside the hollow volume of the outer joint portion. 4. The constant-velocity rotary joint of claim 3 , wherein the ratio of a curvature radius of the inner portion of the at least two portions of the second type of track pairs of ball tracks to the diameter of an associated ball is between 1.5 and 2.5. 5. The constant-velocity rotary joint of claim 3 , wherein the ratio of a curvature radius of the outer portion of the at least two portions of the second type of track pairs of ball tracks to the diameter of an associated ball is between 1.0 and 10. 6. The constant-velocity rotary joint of claim 3 , wherein the center of curvature of the outer portion of the at least two portions of the second type of track pairs of ball tracks is offset from the joint center plane towards the opening side. 7. The constant-velocity rotary joint of claim 3 , wherein the at least two portions of the second type of track pairs of ball tracks form an S-shaped course that is defined by the curvature of the outer portion and the curvature of the inner portion. 8. The constant-velocity rotary joint of claim 7 , wherein the longitudinal axis of the outer joint portion intersects the joint center plane at the joint center point and wherein the S-shaped course has a tangential transition point that is positioned between the curvature of the inner portion and the curvature of the outer portion with an angle δ between the joint center plane and a line between the joint center point and the tangential transition point that is greater than 8°. 9. The constant-velocity rotary joint of claim 8 , wherein the angle δ is between 16° and 18°. 10. The constant-velocity rotary joint of claim 8 , wherein the angle δ is substantially 17°. 11. The constant-velocity rotary joint of claim 1 , wherein the ratio of a curvature radius of the center lines of the first type of track pairs to the diameter of an associated ball is between 1.5 and 2.5. 12. The constant-velocity rotary joint of claim 1 , wherein an equal number of track pairs of both first type and second type is provided and the track pairs of the first type and the second type alternate. 13. The constant-velocity rotary joint of claim 1 , wherein the number of torque-transmitting balls is at least eight.