A bleed valve having a piston with a sealing member, the piston being displaceable between a first position to seal an aperture of a fluid conduit and an opposed second position spaced apart from the aperture to allow the working fluid therethrough. The bleed valve also has a guiding assembly with a
A bleed valve having a piston with a sealing member, the piston being displaceable between a first position to seal an aperture of a fluid conduit and an opposed second position spaced apart from the aperture to allow the working fluid therethrough. The bleed valve also has a guiding assembly with at least one guide wheel mounted to the piston and being displaceable therewith along a guide rail. The guide wheel has a guide groove extending inwardly from an outer rolling surface. The guide rail has a rail surface with a guide protrusion. The guide groove and the guide protrusion are complementary and in rolling contact with one another. The bleed valve also has a displacement mechanism for displacing the piston between the first and second positions. A compressor with a bleed valve and method for controlling bleeding of a working fluid are also discussed.
대표청구항▼
1. A bleed valve for controlling bleeding of a working fluid through an aperture of a fluid conduit, the bleed valve comprising: a piston having a sealing member, the piston being displaceable between a first position where the sealing member seals the aperture, and an opposed second position wherei
1. A bleed valve for controlling bleeding of a working fluid through an aperture of a fluid conduit, the bleed valve comprising: a piston having a sealing member, the piston being displaceable between a first position where the sealing member seals the aperture, and an opposed second position wherein the sealing member is spaced apart from the aperture to allow the working fluid therethrough;a guiding assembly including at least one guide wheel mounted to the piston and being displaceable therewith along a guide rail, the guide wheel having an outer circumferential rolling surface having a guide groove extending inwardly therefrom, the guide rail including an elongated rail surface having a guide protrusion extending away therefrom along a length of the rail surface, the guide groove and the guide protrusion being complementary and in rolling contact with one another; andan actuator engaged to the piston to displace the piston between the first position and the second opposed position. 2. The bleed valve as defined in claim 1, wherein the guide groove is a V-shaped groove and the guide protrusion has a triangular cross-section. 3. The bleed valve as defined in claim 1, wherein the guide groove is defined between two circumferentially extending groove edges, the outer rolling surfaces including a respective circumferential surface portion extending on each side of the groove away from a respective one of the groove edges, the circumferential surface portions being inclined with respect to an axial direction of the wheel such that the groove edges define the radially outermost points of the wheel. 4. The bleed valve as defined in claim 1, wherein the guide rail comprises a respective elongated guide wall bordering each of two opposed elongated edges of the rail surface, the guide walls being angled with respect to the rail surface. 5. The bleed valve as defined in claim 1, wherein the guide protrusion is parallel to a path of the piston between the first position and the second opposed position. 6. The bleed valve as defined in claim 1, wherein the guide wheel comprises a bearing. 7. The bleed valve as defined in claim 1, wherein the guide protrusion further comprises a first extremity and an opposed second extremity, the first and second extremities being separated by a distance equivalent to a distance between the first and second positions. 8. The bleed valve as defined in claim 1, wherein the actuator includes a hydraulic actuator lever having one end engaged to the piston to displace the piston between the first position and the second opposed position. 9. A compressor for a gas turbine engine, the compressor comprising: a compressor housing including concentric inner and outer annular walls defining an annular gas flow path for circulating a working fluid, the compressor housing definingat least one bleed port extending through the housing in fluid communication with the gas flow path;at least one compressor rotor having a set of rotatable blades extending through the flow path, the bleed port being disposed downstream of the compressor rotor; andat least one bleed valve for controlling a bleeding of the working fluid from the gas flow path through the at least one bleed port, each bleed valve being mounted to the compressor housing and including:a piston having a sealing member, the piston being displaceable between a first position wherein the sealing member closes the at least one bleed port, and an opposed second position wherein the sealing member at least partially opens the at least one bleed port;a guiding assembly including at least one guide wheel mounted to the piston and being displaceable therewith along a guide rail, the guide wheel having an outer circumferential rolling surface having a guide groove extending inwardly therefrom, the guide rail including an elongated rail surface having a guide protrusion extending away therefrom along a length of the rail surface, the guide groove and the guide protrusion being complementary and in rolling contact with one another; andan actuator engaged to the piston to displace the piston between the first position and the second opposed position. 10. The compressor as defined in claim 9, wherein the piston is annular and the at least one guide wheel includes a plurality of circumferentially spaced apart guide wheels mounted to the piston. 11. The compressor as defined in claim 9, wherein the guide groove is a V-shaped groove and the guide protrusion has a triangular cross-section. 12. The compressor as defined in claim 9, wherein the guide groove is defined between two circumferentially extending groove edges, the outer rolling surfaces including a respective circumferential surface portion extending on each side of the groove away from a respective one of the groove edges, the circumferential surface portions being inclined with respect to an axial direction of the wheel such that the groove edges define the radially outermost points of the wheel. 13. The compressor as defined in claim 9, wherein the guide rail comprises a respective elongated guide wall bordering each of two opposed elongated edges of the rail surface, the guide walls being angled with respect to the rail surface. 14. The compressor as defined in claim 9, wherein the guide protrusion is parallel to a path of the piston between the first position and the second opposed position and extends at an angle of at least 45° and at most 65° with respect to a central longitudinal axis of the compressor when viewed in a plane perpendicular to a line extending radially between the longitudinal axis and the guide protrusion. 15. The compressor as defined in claim 9, wherein the guide wheel comprises a bearing. 16. The compressor as defined in claim 9, wherein the guide protrusion further comprises a first extremity and an opposed second extremity, the first and second extremities being separated by a distance equivalent to a distance between the first and the second opposed position. 17. The compressor as defined in claim 9, wherein the actuator includes a hydraulic actuator lever having one end engaged to the piston. 18. A method for controlling bleeding of a working fluid through an aperture of a fluid conduit, the method comprising: actuating a sealing member of a bleed valve with an actuator between a first position where the sealing member seals the aperture and a second position where the aperture is at least partially open; androlling a guide wheel of the bleed valve on a rail while a guide groove of the guide wheel is engaged with a complementary guide protrusion of the rail to operate the bleed valve. 19. The method as defined in claim 18, wherein the actuator is a hydraulic actuator.
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이 특허에 인용된 특허 (13)
Nash Dudley O. (Cincinnati OH) Clayton Thomas S. (Cincinnati OH), Actuation system for use on a gas turbine engine.
Hartmann, Martin; Küpper, Alexandra; Loch, Walter; Shevchenko, Vadim, Device for support of an adjusting ring which encompasses at a distance a circular blade carrier.
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