An actuator system for shifting a control device that is pressure-loaded in the direction opposite the shift direction. The actuator system comprises an actuator element capable of being axially moved in the shift direction within a system enclosure by a rotating spindle of an advance mechanism. The
An actuator system for shifting a control device that is pressure-loaded in the direction opposite the shift direction. The actuator system comprises an actuator element capable of being axially moved in the shift direction within a system enclosure by a rotating spindle of an advance mechanism. The rotating spindle is connected to a rotating sleeve that is pivot-mounted in the system enclosure and surrounds the rotating spindle. The rotating sleeve is locked in position in the direction opposite the direction of advance rotation of the rotating spindle by a volute spring. The volute spring is associated with an emergency release unit for resetting the actuator element against the shift direction. The emergency release unit comprises a tensioning sleeve for the volute spring. The tensioning sleeve rotates between a tensioned and a relaxed position and is pressure-loaded in the direction of its relaxed position. The volute spring is releasably retained in the tensioning sleeve's tensioned position.
대표청구항▼
1. An actuator system for shifting a control device that is pressure-loaded in the direction opposite the shift direction, said actuator system comprising:an actuator element capable of being axially moved in the shift direction within a system enclosure by a rotating spindle of an advance mechanism
1. An actuator system for shifting a control device that is pressure-loaded in the direction opposite the shift direction, said actuator system comprising:an actuator element capable of being axially moved in the shift direction within a system enclosure by a rotating spindle of an advance mechanism; the rotating spindle being slidingly connected to and rotating with a rotating sleeve that is pivot-mounted in the system enclosure and surrounds the rotating spindle, the rotating sleeve, relative to a circular flange rigidly connected to the system enclosure, being locked in position in the direction opposite the direction of advance rotation of the rotating spindle by means of a volute spring; the volute spring being associated with an emergency release unit for resetting the actuator element against the shift direction; the emergency release unit being provided with a tensioning sleeve for the volute spring; the tensioning sleeve being rotatable between a tensioned and a relaxed position and being pressure-loaded in the direction of its relaxed position, said volute spring being releasably retained in the tensioning sleeve's tensioned position. 2. The actuator system as in claim 1, whereinthe advance mechanism includes an electric motor for turning the rotating spindle. 3. The actuator system as in claim 2, whereina positional sensor is provided in the advance mechanism and specifically connected to the electric motor with the spindle. 4. The actuator system as in claim 2, whereinthe rotating sleeve extends essentially from the ball nut to an exit end of the system enclosure opposite the electric motor, the said rotating sleeve featuring at least two guide slots in which matching guide lugs, protruding radially relative to the rotating spindle, can be moved in an axial direction. 5. The actuator system as in claim 4, whereinthe guide lugs are mounted on a spindle head that is removably attached to one end of the rotating spindle. 6. The actuator system as in claim 5, whereinthe spindle head is provided on its side facing away from the rotating spindle with a rotary mount for supporting one end of the actuator element. 7. The actuator system as in claim 1, whereinthe rotating spindle is in the form of a revolving-ball screw and the electric motor drives a ball nut which supports the rotating spindle. 8. The actuator system as in claim 1, whereina drive assembly is interpositioned between the electric motor and the ball nut. 9. The actuator system as in claim 8, whereinthe electric motor and the drive assembly constitute a motor drive unit attached, particularly in removable fashion, to an annular disk horizontally mounted in the system enclosure. 10. The actuator system as in claim 9, whereinthe annular disk is provided on its side facing the ball nut with a ring extension in which a connecting sleeve is pivot-mounted, one end of which latter is detachably connected to the motor-drive unit while its other end is removably attached to the ball nut. 11. The actuator system as in claim 10, whereina casing surrounds the ring extension and the connecting sleeve and is removably attached to the annular disk. 12. The actuator system as in claim 11, whereinthe rotating sleeve is rotatable relative to the casing and that the volute spring is positioned between these two components. 13. The actuator system as in claim 11, whereinthe rotating sleeve and the casing feature manually facing end sections having an essentially identical outer diameter and supporting the volute spring. 14. The actuator system as in claim 10, whereinan additional volute spring is located between the connecting sleeve and the ring extension. 15. The actuator system as in claim 1 whereinan enclosure lid with a guide bore for the actuator element is located at the exit end of the system enclosure. 16. The actuator system as in claim 15, whereinthe enclosure lid is provided with at least one sleeve insert protruding into the system enclosure and surrounding the rotating sleeve while pivot-supporting the rotating sleeve. 17. The actuator system as in claim 16, whereina return spring bearing on the tensioning sleeve in the direction of the relaxed position is situated between the tensioning sleeve and the system enclosure or a component rigidly attached relative to the system enclosure. 18. The actuator system as in claim 17 whereinsaid rigidly mounted component comprises the sleeve insert. 19. The actuator system as in claim 17, whereina cam protrudes inward in essentially radial fashion from the inside of the tensioning sleeve, said cam making contact with a coil end of the return spring. 20. The actuator system as in claim 16, whereinthe enclosure lid incorporates, opposite the sleeve insert, an outer sleeve which surrounds the actuator element. 21. The actuator system as in claim 20, whereinthe outer sleeve is provided at its free end with a detachable end cap featuring an exit hole for the essentially rod-shaped actuator element. 22. The actuator system as in claim 20, whereinthe outer sleeve is at least partly filled with a fluid, and at least one displacement element protrudes within the outer sleeve from the actuator element. 23. The actuator system as in claim 22, whereinthe displacement element is in the form of a displacement disk protruding radially from the actuator element and having at least one fluid-conducting aperture. 24. The actuator system as in claim 16 whereinthe tensioning sleeve is rotatably supported on the outside surfaces of the casing and the sleeve insert. 25. The actuator system as in claim 15, whereina fastening device is provided on an outside surface of the system enclosure in the area of the enclosure lid for removably attaching the control device. 26. The actuator system as in claim 1 whereinthe tensioning sleeve can be rotated by an electric tensioning motor comprising a step motor. 27. The actuator system as in claim 26 whereina cam is provided on the inside of the tensioning sleeve, making contact with one coil end of the volute spring. 28. The actuator system as in claim 26, whereinthe tensioning motor is housed in the system enclosure beside the casing. 29. The actuator system as in claim 1, whereinthe system enclosure is composed of at least two detachably connected enclosure sections. 30. The actuator system as in claim 29, whereinone enclosure section essentially constitutes the enclosure end cover housing the motor-drive unit. 31. An apparatus for resetting an actuator, the actuator having an enclosure and an advance mechanism for shifting axially an actuator element that is pressure-loaded in a direction opposite the shift direction, the actuator element being attached to the advance mechanism, the apparatus comprising:a rotating sleeve pivot-mounted in the enclosure and slidingly connected to and rotating with the actuator element; a volute spring locking said rotating sleeve in position in the direction opposite the direction of advance rotation of the rotating spindle; said volute spring being associated with an emergency release unit for resetting the actuator element against the shift direction; said emergency release unit being provided with a tensioning sleeve for said volute spring; and said tensioning sleeve being rotatable between a tensioned and a released position and being pressure-loaded in the direction of said relaxed position, said volute spring being releasably retained in said tensioned position. 32. An apparatus for resetting an actuator, the actuator having an enclosure and an advance mechanism for shifting axially an actuator element that is pressure-loaded in a direction opposite the shift direction, the actuator element being attached to the advance mechanism, the apparatus comprising:a sleeve rotatably mounted within the enclosure and being slidingly connected to the actuator element such that said sleeve does not rotate relative to the actuator element; a first spring having a first end fixed to the enclosure and a second end, said first spring having a first position allowing said sleeve to rotate with respect to the enclosure and allowing the actuator element to rotate, and a second position preventing said sleeve from rotating with respect to the enclosure and preventing the actuator element from rotating; a release unit having a tensioning sleeve engaging said second end of said first spring; a second spring having a first end fixed to the enclosure and a second end engaging said tensioning sleeve; a motor selectively rotating said tensioning sleeve in a first direction causing said second spring to tension and said first spring to move into said second position preventing rotation of said sleeve and the actuator element and in a second direction causing said second spring to untension and said first spring to move into said first position allowing rotation of said sleeve and actuator member; said motor holding said tensioning sleeve in position and said second spring in tension while said motor has power; said motor releasing said tensioning sleeve if said motor loses power thus allowing said second spring to untension and rotate said tensioning sleeve in said second direction to move said first spring into said first position allowing said sleeve and the actuator element to rotate; and the rotation of the actuator element allowing the pressure-loading in the direction opposite the shift direction to reset the actuator element.
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이 특허에 인용된 특허 (3)
McGregor Ronald W. ; Madrid Ronn G. ; Mackenzie Roy,GBX ; Weise Stanley A., Actuator assembly.
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