TH55751B - Non-sliding constant speed soft joint - Google Patents

Abstract

The DC60 (26/02/15) is equipped with a non-sliding fixed velocity coupling that can reduce size and weight while maintaining the strength of the cage. and can improve the strength at large angles and Better durability as well. in non-sliding fixed velocity joints center of curvature of the outer spherical surface (28a) of the cage (28) indented towards the opening of the joint relative to the point center of joint and the center of curvature of the inner spherical surface (28b) of the cage (28) is indented towards the rear of the joint relative to the center of the joint. with a uniform distance on the opposite side In the axial direction, respectively, the cage theta CAGE eccentric angle (28), bounded by the line Connect the center of curvature of the inner spherical surface (28b) and the center of curvature of the surface. The outer sphere (28a) of the cage (28) and the center of the torque sphere (27) and the connecting line The center of the torque ball (27) and the center of the joint in the condition that the working angle of the joint is 0 degrees is defined in the range of 2.7 degrees less than or equal to Theta CAGE less than or equal to 5.7 degrees. Edit Summary of Invention 26/02/2015 What is provided is a non-sliding fixed velocity flexible joint that can reduce size and weight while maintaining the strength of the cage. and can improve the strength at large angles and Better durability as well. in non-sliding fixed velocity joints center of curvature of the outer spherical surface (28a) of the cage (28) indented towards the opening of the joint relative to the point center of joint and the center of curvature of the inner spherical surface (28b) of the cage (28) is indented towards the rear of the joint relative to the center of the joint. with a uniform distance on the opposite side each other in the axial direction, respectively, the eccentric angle ?CAGE of the cage (28), bounded by the line Connect the center of curvature of the inner spherical surface (28b) and the center of curvature of the surface. The outer sphere (28a) of the cage (28) and the center of the torque sphere (27) and the connecting line The center of the torque ball (27) and the center of the joint in the condition that the working angle of the joint is 0? is defined in the range of 2.7 ? ? CAGE ? 5.7? --------------------------------- ---------------------------------- What is provided is a fixed velocity coupling Non-sliding which can reduce the size and weight while maintaining the strength of the cage. and can improve the strength at large angles and Better durability as well. in non-sliding fixed velocity joints center of curvature of the outer spherical surface (28a) of the cage (28) indented towards the opening of the joint relative to the point center of joint and the center of curvature of the inner spherical surface (28b) of the cage (28) is indented towards the rear of the joint relative to the center of the joint. with a uniform distance on the opposite side each other in the axial direction, respectively. CAGE's offset angle (formula) (28), which is bounded by the line Connect the center of curvature of the inner spherical surface (28b) and the center of curvature of the surface. The outer sphere (28a) of the cage (28) and the center of the torque sphere (27) and the connecting line The center of the torque ball (27) and the center of the joint in the condition that the working angle of the joint is (formula) is defined in the range of 2.7 ° (formula) (formula) CAGE (formula) 5.7. ํ

Claims (4)

Claims (all) which will not appear on the advertisement page It includes: an outer joint assembly piece which Six trough grooves protruding in the axial direction are formed on the inner spherical surface. An inner joint assembly in which six rail grooves protruding in the axial direction are formed. on the outer spherical surface Six torque orbs are provided one by one in the rail. Get a ball that has been formed by a pair of rail grooves of the outer joint assembly. and the tracks of Inner joint assembly and a cage that has been arranged between the inner spherical surfaces of The outer joint assembly and the outer spherical surface of the inner joint assembly to hold the ball, deliver torque, where the pitch distance in the direction along the circumference of the ball is for each pair of orbs. address adjacent in the circumferential direction, and the pairs of spheres are positioned symmetrically. of a pair of spheres relative to the center of the joint is determined to be smaller than any other pitch in the direction. along the circumference of the sphere by the pitch of a pair of orbs in the circumferential direction of The orbs are equalized and the pitch of the other orb pairs. in the direction along the circumference which will is designated larger to be equalized, where each trough groove of the inner joint assembly and the outer joint assembly is provided at an uneven pitch in the circumferential direction corresponding to the position was prepared of the ball and the length along the circumference of the opening end of the spherical surface The inner which is arranged within the lowest pitch among the provided inner spherical surfaces. Between adjacent trough grooves of the outer joint assembly are designated smaller than the width of the cage of the cage. The center of curvature of the outer spherical surface of the cage is indented towards the opening of the cage. joint relative to the center of the joint and the center of curvature of the inner spherical surface of the cage. indented towards the back of the joint relative to the center of the connector with a consistent distance in the opposite each other in the axial direction, respectively, and where the eccentric angle (formula)CAGE of the cage, bounded by the line connecting the center of curvature of The inner spherical surface and the center of curvature of the outer spherical surface of the cage and the point The center of the orb sends a torque. and the line connecting the center of the torque orb and the center A joint in a condition where the working angle of the joint is 00 is defined in the range of 2.70 ? (Formula) CAGE ? 5.70 2. Non-sliding fixed velocity joints according to claim 1, where the center of curvature of the body of the outer joint assembly is indented towards the The opening of the joint relative to the center of the joint and the center of curvature of the track groove of the piece The inner joint frame is indented towards the rear of the joint relative to the joint center with a uniform distance on the opposite side in the respective axial direction, and where the offset angle (formula) CAGE of the rail groove, which The boundary is defined by the line connecting the center of curvature. of each rail groove of the inner joint assembly and the outer joint assembly and the center of the torque ball and the line connecting the center of the torque orb and the center Joints in a state in which the working angle of the joint is 00 are determined to be substantially equal to the CAGE CAGE offset angle (formula). or 2 where the r1 ratio (-PCDBALL/DBALL) of the pitch circle diameter (PCDBALL) of the orb transmits torque. and the diameter (DBALL) of the torque ball will be set in the range 3.0 < r1 ? 3.3 where the r2 ratio (= DOUTHR/DBALL) of the outer diameter (DOUTHR) of the outer joint assembly and the diameter (DBALL) of the torque ball is defined in the range of 4.6 ? r2 ? 4.8. where the phases of the two pitch phases are positioned symmetrically with respect to the center. joints in the middle of the pitch between each of the adjacent rail grooves of the inner joint assembly and The outer joint assembly is designated smaller than 600, the phase of the remaining four pitches is designated larger than 600, and the circumferential length of the opening end of the inner spherical surface of the The outer coupling assembly, which is arranged within a pitch with a phase smaller than 600, is designated short. than the width of the cage cavity. A long foot capable of holding two torque spheres has been formed in a cage, and the length along The circumference of the long socket is determined. shall be greater than the width of the inner joint assembly. 7. Non-sliding fixed velocity joints according to claim 5, where part of the cage support rod section which is placed within the pitch with a phase smaller than 600 has been eliminated. A socket capable of holding two Tor spheres has been formed in the cage, and the length along the circumference of the socket is determined to be greater than the width of the piece. Assemble the inner joint. 8. Non-sliding fixed velocity joint pursuant to clause 6 or 7 where the cage support rod which is placed within the pitch with a phase smaller than 600 has been eliminated. by forging work 9. Non-sliding fixed velocity joints according to claim 6 or 7 where the cage support rod which are arranged within the pitch with a phase smaller than 600 are eliminated by the method of arrangement 1 0. The non-sliding fixed velocity coupling according to claims 1 to 9. where a slope or step is formed in the dorsal edge of the joint of at least one of the rail grooves of the inner joint assembly 1 1. Non-sliding fixed velocity joints pursuant to Clause 10, where a slope or step section is formed by Plastic Forming 1 2. Non-sliding fixed velocity coupling in accordance with one of Claims 1 to 11. where the pre-coupling is free-undercut where straight sections are arranged in each of the rail grooves of the Inner joint assembly and outer joint assembly 1 3. Non-sliding fixed velocity joints according to claims 1 to 11. where the test sections are arranged in each rail groove of the inner joint assembly and Outer joint assembly 1 4. Non-sliding fixed velocity joints according to claims 1 to 13. where the groove of the outer joint assembly and the groove of the inner joint assembly At least one rail groove is formed by a plastic forming process 1. 5. Non-slip fixed velocity joints according to one of Claims 1 to 13. where the groove of the outer joint assembly and the groove of the inner joint assembly At least one trough is formed by grinding process. or the process of cutting steel through quenching ------------------------------------------ ----------------------- 1. Non-sliding fixed velocity flexible joint that includes The piece assembles the outer joint which Six rail grooves protruding in the axial direction are formed on the inner spherical surface. An inner joint assembly in which six rail grooves protruding in the axial direction are formed. on the outer spherical surface Six torque orbs are provided one by one in the rail. Get a ball that has been formed by a pair of rail grooves of the outer joint assembly. and the tracks of Inner joint assembly and a cage that has been arranged between the inner spherical surfaces of The outer joint assembly and the outer spherical surface of the inner joint assembly to hold the ball, deliver torque, where the pitch in the direction along the circumference of each pair of spheres is located. adjoining in the circumferential direction, and the pairs of spheres are positioned symmetrically. of a pair of spheres relative to the center of the joint is determined to be smaller than any other pitch in the direction. according to the circumference of the sphere by the pitch of a pair of orbs in the circumferential direction of The spheres are equalized and the pitch of the other sphere pairs in the circumferential direction which will is designated larger to be equalized, where each trough groove of the inner joint assembly and the outer joint assembly is provided at an uneven pitch in the circumferential direction corresponding to the position was prepared of the ball and the circumferential length of the opening end of the spherical surface The inner which is arranged within the lowest pitch among the provided inner spherical surfaces. Between adjacent trough grooves of the outer joint assembly are designated smaller than the width of the cage of the cage. The center of curvature of the outer spherical surface of the cage is indented towards the opening of the cage. joint relative to the center of the joint and the center of curvature of the inner spherical surface of the cage. indented towards the back of the joint relative to the center of the joint with a consistent distance in the opposite each other in the axial direction, respectively, and where the eccentric angle (formula)CAGE of the cage, bounded by the line connecting the center of curvature of The inner spherical surface and the center of curvature of the outer spherical surface of the cage and the point The center of the orb sends a torque. and the line connecting the center of the torque orb and the center A joint in a condition where the working angle of the joint is 0 o is defined in the range of 2.7 o (formula) (formula) CAGE (formula) 5.7 o. 2. Non-sliding fixed velocity joints according to claim 1, where the center of curvature of the rail groove of the outer joint assembly is indented towards the The opening of the joint relative to the center of the joint and the center of curvature of the track groove of the piece The inner joint assembly is indented towards the rear of the joint relative to the center of the joint, with a uniform distance on the opposite side in the respective axial direction, and where the eccentric angle (formula) of the track groove, which The boundary is defined by the line connecting the center of curvature. of each rail groove of the inner joint assembly and the outer joint assembly and the center of the torque ball and the line connecting the center of the torque orb and the center The state joint in which the working angle of the joint is (formula) is determined to be essentially equal to the cage's CAGE offset angle (formula). 1 or 2 where the ratio r1 (= PCDBALL/DBALL) of the circle diameter (PCDBALL) of the torque sphere is assigned. and the diameter (DBALL) of the torque ball will be set in the 3.0 range 3. Non-sliding fixed velocity joints according to the claim and outer joint assembly Inner joint assembly where the coupling is unselectable where straight sections are arranged in each body groove of 1. Where the ramp or step section is formed by plastic forming 10 Non-slip velocity joints according to claim 1 1. Of at least one rail groove of the part. Assemble the inner joint where a slope or step section is formed in the rear end edge of the joint 9 or 1 0. By the bending process, it is eliminated ํ 60 which is arranged within the pitch with a smaller phase. where the cage support rod part 7 6 9. Non-sliding fixed velocity coupling by press forming has been eliminated. Assemble the inner joint and the circumferential length of the long socket is determined greater than the width of the cage. A long socket capable of holding two torque spheres has been formed in where part of the cage support rod part 5 The circumferential length of the long socket is determined greater than the width of the inner joint assembly, and the socket capable of holding two torque spheres is formed in the cage. Non-sliding fixed velocity joints according to the claim than the width of the cage will be shortened The outer coupling assembly, which is arranged within a pitch with a smaller phase. and the circumferential length of the opening end of the inner spherical surface of the larger, the phase of the remaining four pitches is determined. The outer joint assembly is designated smaller. joints in the middle of the pitch between each of the near rail grooves of the inner joint assembly and where the phases of the two pitch phases are positioned symmetrically relative to the center 4 5. Non-sliding fixed velocity joints pursuant to clause 4.8. 4. Non-sliding fixed velocity joints according to claim>