Constant-velocity joint

What is claimed is: 1. A constant-velocity rotary joint for torque transmission comprising: an outer joint portion comprising a plurality of outer ball tracks; an inner joint portion comprising a plurality of inner ball tracks; balls configured to transmit torque, each of the ball being guided in a track pair formed by one of the plurality of outer ball tracks and one of the plurality of inner ball tracks; and a cage comprising cage windows which are configured to accommodate and to retain the balls in a common joint center plane when the constant-velocity rotary joint is straight, wherein, each of the plurality of outer ball tracks comprise an outer ball track center line and a track base line which extends equidistantly to the outer ball track center line, each of the plurality of inner ball tracks comprise an inner ball track center line and a track base line which extends equidistantly to the inner ball track center line, the outer joint portion further comprises a longitudinal axis, an opening, and a connecting part, the opening and the connecting part being arranged axially opposite to each other, each outer ball track center line comprises at least one concavely curved inner portion and an outer portion arranged opposite thereto, the outer portion being configured to widen in a direction towards the opening of the outer joint portion and with respect to the longitudinal axis of the outer joint portion, each inner ball track center line comprises at least one convexly curved outer portion and an inner portion arranged opposite thereto, the inner portion being configured to widen in a direction towards the connecting part of the outer joint portion and with respect to the longitudinal axis of the outer joint portion, when the constant-velocity rotary joint is maximally deflected, one of the balls contacts the outer portion of one of the plurality of outer ball tracks and the inner portion of one of the plurality of inner ball tracks, and when the constant-velocity rotary joint is straight, the inner ball track center line and the outer ball track center line of the track pair intersect in an intersection point and are not mirror-symmetrical with respect to a mirror plane through the intersection point, the mirror plane being arranged in the joint center plane or parallel thereto, and the inner portion of the inner ball track center line widens more, with respect to the longitudinal axis of the outer joint portion, than the outer portion of the outer ball track center line. 2. The constant-velocity rotary joint as recited in claim 1 , wherein, each outer ball track center line further comprises further portions adjacent to at least one of the at least one concavely curved inner portion and the outer portion, and each inner ball track center line further comprises portions adjacent to at least one of the at least one convexly curved inner portion and the outer portion. 3. The constant-velocity rotary joint as recited in claim 2 , wherein the further portions are formed in a linear manner or in a curved manner. 4. The constant-velocity rotary joint as recited in claim 1 , wherein, the outer portion of each outer ball track center line widens linearly with respect to the longitudinal axis of the outer joint part, and the inner portion of each inner ball track center line widens linearly with respect to the longitudinal axis of the outer joint part. 5. The constant-velocity rotary joint as recited in claim 4 , wherein, with respect to the longitudinal axis of the outer joint portion, a slope of the inner portion of each inner ball track center line is greater than a slope of the outer portion of each outer ball track center line. 6. The constant-velocity rotary joint as recited in claim 4 , wherein, when each inner ball track center line is mirrored on the mirror plane, an entire mirrored inner portion of each inner ball track center line mirrored is closer to the connecting part than an entire outer portion of each outer ball track center line. 7. The constant-velocity rotary joint as recited in claim 1 , wherein, the outer portion of each outer ball track center line widens in a curved manner with a first radius, and the inner portion of each inner ball track center line widens in a curved manner with a second radius. 8. The constant-velocity rotary joint as recited in claim 7 , wherein the second radius is smaller than the first radius. 9. The constant-velocity rotary joint as recited in claim 7 , wherein, when each inner ball track center line is mirrored on the mirror plane, a center point of a circle associated with the second radius is closer to a connecting part than a center point of a circle associated with the first radius. 10. The constant-velocity rotary joint as recited in claim 1 , wherein, the longitudinal axis of the outer joint portion and the joint center plane intersect in a joint center point, the cage further comprises a spherical outer cage surface and a spherical inner cage surface, the outer joint portion further comprises a spherical inner joint surface and a spherical outer joint surface, the spherical outer cage surface is in a surface contact with the spherical inner joint surface of the outer joint portion, the spherical inner cage surface is in a surface contact with the spherical outer joint surface of the inner joint portion, and center points of the spherical inner cage surface and of the spherical outer cage surface are located on the longitudinal axis on opposite sides of the joint center point. 11. The constant-velocity rotary joint as recited in claim 10 , wherein the center points of the spherical inner cage surface and of the spherical outer cage surface are located at a same distance from the joint center point. 12. The constant-velocity rotary joint as recited in claim 10 , wherein, the longitudinal axis of the outer joint portion and the joint center plane intersect in the joint center point, and center points of the at least one concavely curved inner portion of the plurality of outer ball tracks and center points of the at least one convexly curved outer portion of the plurality of inner ball tracks are located on the longitudinal axis on opposite sides of the joint center point. 13. The constant-velocity rotary joint as recited in claim 12 , wherein the center points of the at least one concavely curved inner portion of the plurality of outer ball tracks and the center points of the at least one convexly curved outer portions of the plurality of inner ball tracks are each located at a greater distance from the joint center point than the center points of the spherical inner cage surface and of the spherical outer cage surface.