초록 ▼

A fixed type constant velocity universal joint is capable of reducing the size and weight of a cage while keeping the strength of the cage, and is also capable of improving the high angle strength and the durability. An offset angle θCAGE of the cage, which is defined by lines that connect a center

A fixed type constant velocity universal joint is capable of reducing the size and weight of a cage while keeping the strength of the cage, and is also capable of improving the high angle strength and the durability. An offset angle θCAGE of the cage, which is defined by lines that connect a center curvature of an inner spherical surface and a center curvature of an outer spherical surface of the cage and centers of torque transmission balls, and a line that connects the centers of the torque transmission balls and a joint center in a state where a joint operating angle is 0°, is set in a range of 2.7°≦θCAGE5.7°.

대표청구항 ▼

1. A fixed type constant velocity universal joint, comprising: an outer joint member in which six track grooves that extend in an axial direction of the outer joint member are formed on an inner spherical surface of the outer joint member;an inner joint member in which six track grooves that extend

1. A fixed type constant velocity universal joint, comprising: an outer joint member in which six track grooves that extend in an axial direction of the outer joint member are formed on an inner spherical surface of the outer joint member;an inner joint member in which six track grooves that extend in an axial direction of the inner joint member are formed on an outer spherical surface of the inner joint member;six torque transmission balls which are arranged in a plurality of ball tracks, each of the ball tracks being formed by one of the track grooves of the outer joint member and one of the track grooves of the inner joint member; anda cage that is interposed between the inner spherical surface of the outer joint member and the outer spherical surface of the inner joint member to hold the torque transmission balls,wherein a center curvature of an outer spherical surface of the cage is offset to a joint opening side with respect to a joint center of the fixed type constant velocity universal joint, and a center curvature of an inner spherical surface of the cage is offset to a joint back side with respect to the joint center, the center curvature of the outer spherical surface and the center curvature of the inner spherical surface being at regular distances from the joint center in opposite directions along a central axis of the fixed type constant velocity universal joint, respectively,wherein the track grooves of the inner joint member are arranged at irregular pitches in a circumferential direction of the inner joint member, and a circumferential length of sections of an opening side end of the inner spherical surface of the outer joint member, which are disposed within a minimum pitch among a plurality of sections of the inner spherical surface of the outer joint member that are arranged between adjacent pairs of the track grooves of the outer joint member, is set to be smaller than a width of a pocket of the cage,wherein a phase of two pitches which are symmetrically positioned with respect to the joint center among pitches between adjacent pairs of the track grooves of the inner joint member is set to be smaller than 60°, a phase of a remaining four pitches is set to be larger than 60°, and the circumferential length of the sections of the opening side end of the inner spherical surface of the outer joint member, which are disposed within the pitches of the phase that are smaller than 60°, is set to be smaller than the width of the pocket of the cage,wherein at least a part of a pillar portion of the cage, which is disposed within the pitches of the phase that are smaller than 60°, is removed to form long pockets that each hold two of the torque transmission balls, and a circumferential length of the long pockets is set to be larger than a width of the inner joint member, andwherein an offset angle θCAGE of the cage, which is defined by a line that connects the center curvature of the inner spherical surface of the cage or the center curvature of the outer spherical surface of the cage and a center of one of the torque transmission balls along a plane that passes through and is parallel to the central axis, and a line that connects the center of the one of the torque transmission balls and the joint center along the plane in a state where a joint operating angle is 0°, is set in a range of 2.7°≦θCAGE≦5.7°. 2. A fixed type constant velocity universal joint according to claim 1, wherein center curvatures of the track grooves of the outer joint member are offset to the joint opening side with respect to the joint center, and center curvatures of the track grooves of the inner joint member are offset to the joint back side with respect to the joint center, the center curvatures of the track grooves of the outer joint member and the center curvatures of the track grooves of the inner joint member being at other regular distances from the joint center in opposite directions along the central axis, respectively, andwherein an offset angle θTRACK of the track grooves of the outer and inner joint members, which is defined by a line that connects the center curvatures of the track grooves of the inner joint member or the outer joint member and a center of one of the torque transmission balls along the plane, and a line that connects the center of the one of the torque transmission balls and the joint center along the plane, is set to be substantially identical with the offset angle θCAGE of the cage. 3. A fixed type constant velocity universal joint according to claim 1, wherein a ratio r1 (=PCDBALL/DBALL) of a pitch circle diameter (PCDBALL) of the torque transmission balls and a diameter (DBALL) of the torque transmission balls is set in a range of 3.0≦r1≦3.3. 4. A fixed type constant velocity universal joint according to claim 1, wherein a ratio r2 (=DOUTER/DBALL) of an outer diameter (DOUTER) of the outer joint member and a diameter (DBALL) of the torque transmission balls is set in a range of 4.6≦r2≦4.8. 5. A fixed type constant velocity universal joint according to claim 1, wherein the at least the part of the pillar portion of the cage, which is disposed within the pitches of the phase that are smaller than 60°, is removed by press working. 6. A fixed type constant velocity universal joint according to claim 1, wherein the at least the part of the pillar portion of the cage, which is disposed within the pitches of the phase that are smaller than 60°, is removed by a milling process. 7. A fixed type constant velocity universal joint according to claim 1, wherein a terminal edge of at least one of the track grooves of the inner joint member towards the joint back side has a notch portion formed therein. 8. A fixed type constant velocity universal joint according to claim 7, wherein the notch portion is formed by plastic forming. 9. A fixed type constant velocity universal joint according to claim 1, wherein the fixed type constant velocity universal joint is of an undercut free type and each of bottom surfaces of the track grooves of the inner joint member and the outer joint member has a straight portion. 10. A fixed type constant velocity universal joint according to claim 1, wherein each of bottom surfaces of the track grooves of the inner joint member and the outer joint member has a tapered portion. 11. A fixed type constant velocity universal joint according to claim 1, wherein at least one of the track grooves of the outer joint member and the track grooves of the inner joint member are formed by plastic forming. 12. A fixed type constant velocity universal joint according to claim 1, wherein at least one of the track grooves of the outer joint member and the track grooves of the inner joint member are formed by a grinding process or a quenching steel cutting process. 13. A fixed type constant velocity universal joint, comprising: an outer joint member in which six track grooves that extend in an axial direction of the outer joint member are formed on an inner spherical surface of the outer joint member;an inner joint member in which six track grooves that extend in an axial direction of the inner joint member are formed on an outer spherical surface of the inner joint member;six torque transmission balls which are arranged in a plurality of ball tracks, each of the ball tracks being formed by one of the track grooves of the outer joint member and one of the track grooves of the inner joint member; anda cage that is interposed between the inner spherical surface of the outer joint member and the outer spherical surface of the inner joint member to hold the torque transmission balls,wherein a cage thickness at a pocket center position of the cage is tCAGE, a pitch circle radius of the torque transmission balls when an operating angle is 0° is PCRBALL, and tCAGE/PCRBALL which is a ratio of the cage thickness and the pitch circle radius is equal to or higher than 0.20 and equal to or lower than 0.23, andwherein a ratio r1 (=PCDBALL/DBALL) of a pitch circle diameter (PCDBALL) of the torque transmission balls and a diameter (DBALL) of the torque transmission balls is set in a range of 3.0