A hydraulic rotary actuator including a stator housing having a through bore to position a rotor assembly. A rotor assembly includes an output shaft and at least a first rotary piston member disposed radially about the output shaft. The rotary piston member includes an vane element. A continuous sea
A hydraulic rotary actuator including a stator housing having a through bore to position a rotor assembly. A rotor assembly includes an output shaft and at least a first rotary piston member disposed radially about the output shaft. The rotary piston member includes an vane element. A continuous seal is disposed on peripheral longitudinal faces and lateral end faces of the rotary piston element. The bore through the stator housing includes an interior cavity with surfaces adapted to receive the rotor assembly and contact the continuous seal. With rotation fluid ports blocked, the housing cavity is sealed with the continuous piston seal for hydraulic blocking, preventing actuator displacement by external forces. A method of operation and method of assembly is disclosed.
대표청구항▼
1. A hydraulic rotary actuator comprising: a stator housing comprising a seamless body having a bore disposed axially therethrough, the bore having: a first end bore portion having a first diameter;a second end bore portion having a second diameter; andat least a middle bore portion disposed between
1. A hydraulic rotary actuator comprising: a stator housing comprising a seamless body having a bore disposed axially therethrough, the bore having: a first end bore portion having a first diameter;a second end bore portion having a second diameter; andat least a middle bore portion disposed between the first end bore portion and the second end bore portion, said middle bore portion having: a first semi-cylindrical surface having a third diameter larger than the first diameter;a second semi-cylindrical surface having a fourth diameter less than the third diameter and larger than at least one of the first diameter and the second diameter, wherein the second semi-cylindrical surface is disposed inward radially along a portion of a perimeter of the middle bore;a first interior end surface between the middle bore portion and the first end bore portion; anda second interior end surface between said second bore portion and the middle bore portion;a rotor assembly comprising: an output shaft;a first rotary piston member disposed radially about the output shaft, said first rotary piston member having: a vane,a portion adapted to connect to the output shaft when the first rotary piston member is disposed radially about the output shaft,a first peripheral longitudinal face,a second peripheral longitudinal face, said second peripheral longitudinal face positioned axially on the vane,a first peripheral lateral face,a second peripheral lateral face, anda first continuous seal disposed on the first and second peripheral longitudinal faces and the first and second peripheral lateral faces of the first rotary piston member; anda second rotary piston member disposed radially about the output shaft, said second rotary piston member having: a vane,a portion adapted to connect to the output shaft when the second rotary piston member is disposed radially about the output shaft,a third peripheral longitudinal face,a fourth peripheral longitudinal face, said fourth peripheral longitudinal face positioned axially on the vane,a third peripheral lateral face,a fourth peripheral lateral face, anda second continuous seal disposed on the third and fourth peripheral longitudinal faces and the third and fourth peripheral lateral faces of the second rotary piston member;wherein when the rotor assembly is assembled and rotated in the bore of the stator housing, a portion of the first continuous seal positioned on the first peripheral longitudinal face contacts the second semi-cylindrical surface of the middle bore portion, a portion of the first continuous seal positioned on the second peripheral longitudinal face contacts the first semi-cylindrical surface of the middle bore portion, a portion of the first continuous seal positioned on the first peripheral lateral face contacts the first interior end surface, and a portion of the first continuous seal positioned on the second peripheral face contacts the second interior end surface. 2. The actuator of claim 1 wherein the vane of the first rotary piston member and the vane of the second rotary piston member are disposed longitudinally adjacent to each other and parallel to a longitudinal axis of the output shaft. 3. The actuator of claim 1 wherein each of the rotary piston members is adapted to pass through the first end bore portion before being coupled to the rotor output shaft in the middle bore portion. 4. The actuator of claim 3 wherein the portions of the rotary piston members include a plurality of slots adapted to receive a plurality of teeth on the output shaft thereby coupling the rotary piston members to the output shaft. 5. The actuator of claim 1 wherein at least one of the first continuous seal and the second continuous seal is selected from the group consisting of an O-ring, an X-ring, a Q-ring, a D-ring, and an energized seal. 6. The rotary actuator of claim 1 wherein the first rotary piston member and the second rotary piston member and the stator housing define two adjacent pressure chambers inside of the middle bore portion. 7. The actuator of claim 1 wherein a first external pressure source provides a fluid at a first pressure for contacting the vane of the first rotary piston member and a second external pressure source provides a fluid at a second pressure for contacting the vane of the second rotary piston member. 8. The actuator of claim 1 further including a third rotary piston member and a fourth rotary piston member each including a respective vane member, and wherein the stator housing and the first, second, third and fourth rotary piston members define four pressure chambers. 9. The actuator of claim 1 wherein the output shaft is configured to connect to a rotary valve stem. 10. The actuator of claim 1 wherein the output shaft is adapted for connection to an aircraft control surface. 11. The actuator of claim 8 wherein the first semi-cylindrical surface disposed inward radially along a portion of the middle bore includes a first terminal end adapted to contact the vane of the second rotary piston member. 12. The actuator of claim 11 wherein the middle bore portion includes a second semi-cylindrical surface disposed inward radially along a portion of the middle bore portion and opposite the first semi-cylindrical surface, said second semi-cylindrical surface having a first terminal end adapted to contact the vane of the first rotary piston member. 13. The actuator of claim 12 wherein the vanes of the first and second rotary piston members and the two semi-cylindrical surfaces are configured to define opposing pressure chambers. 14. The actuator of claim 13 wherein each pair of opposing pressure chambers defined by the housing and rotor have equal surface areas as the rotor assembly rotates within the housing. 15. The actuator of claim 13 wherein a first pair of opposing pressure chambers is adapted to be connected to a first external pressure source and a second pair of opposing pressure chambers is adapted to be connected to a second external pressure source. 16. The actuator of claim 15 wherein the first external pressure source provides a fluid at a first pressure for contacting the vane of the first rotary piston member and the second external pressure source provides a fluid for contacting the vane of the second rotary piston member. 17. The actuator of claim 12 wherein the first terminal end of the first semi-cylindrical surface further includes a first fluid port formed therethrough and the first terminal end of the second semi-cylindrical surface includes a second fluid port formed therethrough and the first fluid port is connected to a fluid provided at a first pressure and the second fluid port is connected to a fluid provided at a second pressure. 18. The actuator of claim 1 wherein the first diameter is greater than or equal to the second diameter. 19. The actuator of claim 1 wherein the second diameter is greater than or equal to the first diameter. 20. A method of rotary actuation comprising: providing a stator housing comprising a seamless body having a bore disposed axially therethrough, the bore having a first end bore portion having a first diameter, a second end bore portion having a second diameter, and at least a middle bore portion disposed between the first end bore portion and the second end bore portion, said middle bore portion having a first semi-cylindrical surface having a third diameter larger than the first diameter, a second semi-cylindrical surface having a fourth diameter less than the third diameter and larger than at least one of the first diameter and the second diameter, wherein the second semi-cylindrical surface is disposed inward radially along a portion of a perimeter of the middle bore, a first interior end surface between the middle bore portion and the first end bore portion, and a second interior end surface between said second bore portion;providing a rotor assembly comprising: an output shaft,a first rotary piston member disposed radially about the output shaft, said first rotary piston member having: a vane,a portion adapted to connect to the output shaft when the first rotary piston member is disposed radially about the output shaft,a first peripheral longitudinal face,a second peripheral longitudinal face, said second peripheral longitudinal face positioned axially on the vane,a first peripheral lateral face,a second peripheral lateral face,a first continuous seal disposed on the first and second peripheral longitudinal faces and the first and second peripheral lateral faces of the first rotary piston member; anda second rotary piston member disposed radially about the output shaft, said second rotary piston member having: a vane,a portion adapted to connect to the output shaft when the second rotary piston member is disposed radially about the output shaft,a third peripheral longitudinal face of the rotary piston member,a fourth peripheral longitudinal face of the rotary piston member, said fourth peripheral longitudinal face positioned axially on the vane,a third peripheral lateral face,a fourth peripheral lateral face, anda second continuous seal disposed on the third and fourth peripheral longitudinal faces and the third and fourth peripheral lateral faces of the second rotary piston member;providing a first fluid at a first pressure and contacting the vane of the first rotary piston member with the first fluid;providing a second fluid at a second pressure and contacting the vane of the second rotary piston member; androtating the rotor assembly in a first direction of rotation such that when the rotor assembly is rotated in the bore of the stator housing, a portion of the first continuous seal positioned on the first peripheral longitudinal face contacts the second semi-cylindrical surface of the middle bore portion, a portion of the first continuous seal positioned on the second peripheral longitudinal face contacts the first semi-cylindrical surface of the middle bore portion, a portion of the first continuous seal positioned on the first peripheral lateral face contacts the first interior end surface, and a portion of the first continuous seal positioned on the second peripheral face contacts the second interior end surface. 21. The method of claim 20 further including: increasing the second pressure and reducing the first pressure until the second pressure is greater than the first pressure; androtating the rotor assembly in an opposite direction to the first direction of rotation. 22. The method of claim 21 further including: stopping the rotation of the rotor assembly in the opposite direction by contacting a first terminal end of the first semi-cylindrical surface with the vane of the second rotary piston member. 23. The method of claim 20 wherein the first rotary piston member and a second rotary piston member isolates the first fluid and second fluid into a first chamber and a second chamber adjacent to the first chamber, and the method further comprises: providing the first fluid at the first pressure to a first chamber; andproviding the second fluid at the second pressure to a second chamber. 24. The method of claim 20, wherein a first terminal end of the first semi-cylindrical surface further includes a first fluid port formed therethrough and a first terminal end of a second semi-cylindrical surface includes a second fluid port formed therethrough, and wherein providing the first fluid at a first pressure is provided through the first fluid port and providing the second fluid at a second pressure is provided through the second fluid port. 25. The method of claim 21, further comprising stopping the rotation of the rotor assembly by contacting a first terminal end of a second semi-cylindrical surface with the vane of the second rotary piston member. 26. A method of assembling a hydraulic rotary actuator comprising: providing a stator housing comprising a seamless body having a bore disposed axially therethrough, the bore having a first end bore portion having a first diameter, a second end bore portion having a second diameter, and at least a middle bore portion disposed between the first end bore portion and the second end bore portion, said middle bore portion having a third diameter larger than the first diameter and a semi-cylindrical surface of the middle bore, and a first interior end surface between the middle bore portion and the first end bore portion, and a second interior end surface between said second bore portion and the middle bore portion, said middle bore further including a first arcuate ledge disposed inward radially along a portion of a perimeter of the middle bore, said arcuate ledge having a fourth diameter less that the third diameter of the middle bore and a semi-cylindrical surface;inserting a first rotary piston member through the first end bore portion of the housing and positioning the first rotary piston member in the middle bore portion of the housing, said first rotary piston member including: a vane,a portion adapted to connect to a rotor output shaft when the first rotary piston member is disposed radially about the rotor output shaft,a first peripheral longitudinal face of the first rotary piston member,a second peripheral longitudinal face of the first rotary piston member, said second peripheral longitudinal face positioned axially on the vane,a first peripheral lateral face,a second peripheral lateral face,a first continuous seal groove disposed in the first and second peripheral longitudinal faces and the first and second peripheral lateral faces of the first rotary piston member, anda first continuous seal disposed in the first continuous seal groove;inserting a second rotary piston member through either the first end bore portion or the second end bore portion of the housing and positioning the second rotary piston member in the middle bore portion of the housing with a vane longitudinally adjacent to the vane of the first rotary piston member, said second rotary piston member further including: a second portion adapted to connect to the rotor output shaft when the second rotary piston member is disposed radially about the rotor output shaft,a first peripheral longitudinal face of the second rotary piston assembly,a second peripheral longitudinal face of the second rotary piston member, said second peripheral longitudinal face positioned axially on the vane,a first peripheral lateral face,a second peripheral lateral face,a second continuous seal groove disposed on the first and second peripheral longitudinal faces and the first and second peripheral lateral faces of the second rotary piston member; anda second continuous seal disposed in the second continuous seal groove;inserting the rotor output shaft through at least one of the first end bore portion and the second end bore portion, and the middle bore portion of the housing; andcoupling the vane of the first rotary piston member and the vane of the second rotary piston member to the rotor output shaft when the rotor output shaft is positioned longitudinally inside the housing. 27. The method of claim 26, wherein a portion of the first continuous seal positioned on the first peripheral longitudinal face contacts the semi-cylindrical surface of the middle bore portion, a portion of the first continuous seal positioned on the second peripheral longitudinal face contacts the semi-cylindrical surface of the arcuate ledge, a portion of the first continuous seal positioned on the first peripheral lateral face contacts the first interior end surface, and a portion of the first continuous seal positioned on the second peripheral face contacts the second interior end surface.
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이 특허에 인용된 특허 (11)
Collier, Greg; Klassen, William; Lyons, Andy; McIlwain, Chris; Prince, Jeff; Schilling, Tyler; Whelan, Pat, Actuator with sealing assembly.
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