Constant velocity joint

What is claimed is: 1. A constant velocity joint comprising: a tubular outer joint member; an inner joint member disposed inward of the outer joint member; a plurality of balls to transmit torque between the outer joint member and the inner joint member; and a cage disposed between an inner peripheral surface of the outer joint member and an outer peripheral surface of the inner joint member, the cage including windows each configured to hold an associated one of the balls, wherein the outer joint member includes outer ball grooves each extending in an inclined direction relative to a central axis of the outer joint member, the inner joint member includes inner ball grooves each extending in an inclined direction relative to a central axis of the inner joint member, each of the balls is rollably supported by an associated one of the outer ball grooves and an associated one of the inner ball grooves, the associated outer ball groove and the associated inner ball groove facing each other such that the inclined direction of the associated outer ball groove relative to the central axis of the outer joint member is opposite to the inclined direction of the associated inner ball groove relative to the central axis of the inner joint member, and the inner joint member further includes escape portions configured to allow escape of the balls from the inner ball grooves to a first side of the central axis of the inner joint member, each of the escape portions being provided at least between an end face of the inner joint member located at the first side of the central axis of the inner joint member and a rolling guide lateral surface of an associated one of the inner ball grooves that forms an acute angle with the end face. 2. The constant velocity joint according to claim 1 , wherein the inner joint member is coupled to a stub shaft extending to the first side of the central axis of the inner joint member, with the stub shaft coaxial with the central axis of the inner joint member, and each of the escape portions is provided only between the end face located at the first side of the central axis of the inner joint member and the rolling guide lateral surface of an associated one of the inner ball grooves that forms an acute angle with the end face. 3. The constant velocity joint according to claim 1 , wherein a maximum outside diameter of the inner joint member is smaller than a minimum bore diameter of the cage. 4. The constant velocity joint according to claim 1 , wherein each of the escape portions guides an associated one of the balls in an inclined direction relative to the central axis of the inner joint member, the inclined direction being opposite to the inclined direction of an associated one of the inner ball grooves. 5. The constant velocity joint according to claim 4 , wherein an inclination angle of each of the escape portions relative to the central axis of the inner joint member is set to be equal to or greater than a maximum joint angle formed between the central axis of the inner joint member and the central axis of the outer joint member.