None.
1. Field of the Invention
The present invention relates generally to a gas turbine engine, and more specifically to a variable inlet guide vane and an actuator for the variable inlet guide vane.
2. Description of the Related Art Including Information Disclosed Under 37 CFR 1.97 and 1.98
A gas turbine engine includes a compressor with multiple rows of rotor blades spaced between multiple rows of stator vanes to gradually compress air for delivery to a combustor. Many gas turbine engines include a first stage of inlet guide vanes that are variable in order to change the angle of each guide vane.
In many engines with variable inlet guide vanes, each vane is pivotably connected to an actuator in which a radial extending pin passes through a hole formed within the casing that is attached to an actuator or to a linkage that is attached to an actuator. Each guide vane includes a pin that extends through a separate hole formed in the casing so that each guide vane can be moved together. Because each guide vane requires a hole in the casing, leakage of the air flow passing through the guide vanes is high.
In the variable inlet guide vanes of the prior art in which each guide vane includes a linkage to connect it to the driving motor, the linkage is complex with several linkages that create a complex assembly, and that will involve large tolerances especially when wear occurs between the links.
Another issue with the prior art variable inlet guide vanes is that the actuator used to drive the guide vanes is a rather large piston cylinder that is both heavy and takes up a lot of space. In an aero engine of the type used to power an aircraft, both weight and size are important matters related to the engine efficiency. Space is limited for the engine and its components. The prior art actuators are large linear piston actuators that drive the linkage connecting the guide vanes.
It is an object of the present invention to provide for a variable inlet guide vane assembly with a reduced number of openings in the casing to connect the guide vanes to the driving motor that results in high leakage.
It is another object of the present invention to provide for a variable inlet guide vane assembly with linkages between the actuator motor and the guide vanes that is less complex than is the prior art linkages.
It is another object of the present invention to provide for a variable inlet guide vane assembly with a less complex assembly of links.
It is another object of the present invention to provide for a variable inlet guide vane assembly with a lightweight and compact actuator to drive the guide vanes over that found in the prior art guide vane actuators.
The above objectives and more are achieved in the variable inlet guide vane assembly of the present invention in which each variable guide vane is connected to a linkage that is fully contained within the casing. an inner facing circumferential groove is formed within the casing in which an annular sync ring moves in a circumferential direction. Each guide vane is connected to the sync ring within the casing. The sync ring is connected to a driving motor through a hole in the casing so that a minimal number of holes are used to reduce leakage. Circumferential movement of the sync ring pivots each guide vane to change the angle.
A sync ring 16 is used to move the vanes within the shroud assembly. The sync ring 16 is a full 360 degree annular piece that slides within an inner facing annular groove 17 arranged within the outer shroud 14 member as seen in
In one embodiment, the sync ring 16 includes a radial pin that slides within a slot formed within the casing to connect the sync ring 16 to the actuator outside of the casing. In this embodiment, the driving linkage 19 would be connected to the actuator outside of the casing. In another embodiment, the driving linkage would be contained within the casing and another connection would be used to connect the actuator to the driving linkage through a hole or slot within the casing.
The leading edge side pins 13 are pivotable within a slider 21 that is formed as a loader slot bearing to allow for both circumferential movement and axial movement of the pins 13 when the guide vanes are moved. The slider linkage 21 includes a spherical piece that slides within a spherical hole formed within the outer shroud, and a cylindrical hole formed within the spherical piece in which the pin 13 rotates. Because the trailing edge side pins connected to the sync ring 16 only follows a circumferential motion, the leading edge side pins 13 must be allowed to move in both the circumferential direction and the axial direction (the axis of the engine) when the vanes are pivoted.
The sync ring 53 can be connected to the pancake actuator described above for actuating the sync ring 53. When the sync ring 53 is moved in the circumferential direction, the pivot arms 56 are rotated so that the shroud segments 51 are moved in the radial direction of the engine to control the guide vane tip clearance. If the two position pancake actuator 30 is used, then the vane tip clearance control has two positions: a first position with the vane tips moved the further inward and a second position with the vane tips moved furthest outward.
The pancake actuator of the present invention can be supplied with a differential pressure that is bled off from the compressor using one of the stages that has a pressure level high enough to drive the actuator and move the sync ring. Since the actuator is of the type with a high pressure side and a low pressure side, connecting the low pressure chamber to the ambient while connecting the high pressure side to the compressor stage will provide enough differential pressure to drive the actuator. Since a differential pressure is being used as the motive power source, very little fluid flow is used so that the compressed air from the compressor is not wasted. Also, more than one pancake actuator can be placed around the outer shroud and connected to the sync ring in order to produce enough driving force to rotate the sync ring. In one embodiment, four pancake actuators can be evenly spaced at around 90 degrees from each other around the outer shroud casing and all connected to the sync ring by a separate actuator arm. If more power is needed or the use of less that four pancake actuators is required, the actuator vanes can be easily replaced with larger or taller vanes and the rotor can be replaced with one that accommodates the taller vanes in order to produce more power from the same differential pressure source.
This application claims the benefit to an earlier filed Provisional Application 61/098,322 filed Sep. 19, 2008 and entitled VARIABLE INLET GUIDE VANE WITH ACTUATOR.
Number | Name | Date | Kind |
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3318513 | Johnson | May 1967 | A |
Number | Date | Country | |
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61098322 | Sep 2008 | US |