The invention relates to a stator vane assembly.
Stator vane assemblies are known. They are provided, for example, in aeroengines.
U.S. Pat. No. 4,832,568 discloses an alternative method for mounting vanes in a stator vane assembly. Each vane is connected to the outer ring by locating its end in a recess provided in a mounting fairing of the outer ring. An elastomeric potting medium may be provided between the vane end and the inner walls of the recess.
Welding the vanes to stubs provided on the inner ring, as shown in
The method disclosed in U.S. Pat. No. 4,832,568 is designed for rapid assembly and disassembly of vanes in the assembly. Disadvantageously, it does not provide much flexibility in positioning the blades.
According to the invention, there is provided a stator vane assembly comprising: an inner vane support; an outer vane support; and a plurality of vanes extending radially between the inner vane support and the outer vane support; wherein each of the inner and outer vane supports has openings for receiving respective first and second ends of the vanes and each said vane is connected to the inner vane support at its first end by a first vane boot received in a said opening and to the outer vane support at its second end by a second vane boot received in another said opening, wherein each vane boot has a rim portion shaped to locate the boot within the corresponding opening in the vane support, the rim portion engaging with the inner surface defining the opening, an abutting portion for abutting against the vane support in the region surrounding the opening, and a vane pocket for accommodating the end of the vane, wherein the vane pockets of the first and second vane boots of a said vane are shaped so as to position the vane with a predetermined stagger angle.
Advantageously, a vane boot is provided for both ends of the vane, i.e. so as to attach the vane to each of the first and second vane supports. Each such pair of boots can be selected so as to mount its associated vane with a particular stagger angle.
In one embodiment, an elastomeric damping medium is provided in the vane pocket of at least some of the vane boots. Preferably the thickness of the elastomeric damping medium varies at different locations in the vane pocket so as to provide tuned damping of the vibrations. More preferably, each vane boot has the elastomeric damping medium in its vane pocket.
In a further embodiment, fastening means are provided for fastening each vane boot to the inner or outer vane support. The fastening means may include openings provided in the vane support and the boot for receiving a screw.
Preferably, the fastening means is adjustable so as to enable adjustment of the position of the vane boot on the vane support, thereby varying the stagger (vane yaw) angle of the vane boot and hence the vane.
In one such embodiment the fastening means comprises a pivot connecting the vane boot to the vane support at a first position on the vane boot and a pin and slot arrangement connecting the vane boot to the vane support at a second position on the vane boot.
The pin and slot arrangement allows simple adjustment of the vane yaw angle. The pin may be provided on the vane support and the slot on the vane boot. Alternatively, the pin may be provided on the vane boot and the slot on the vane support. Further alternatively, the pin may be a screw which passes through a slot on the boot and into the vane support.
In another such embodiment, the fastening means includes at least one adjustable fastening element which acts as a cam against the vane boot when adjusted. For example, a plurality of eccentric screws may be provided as the at least one adjustable fastening element. Adjustment of the eccentric screws acts on the vane boot, enabling the stagger angle to be varied.
In a further embodiment, the stagger angle of the vanes is set such that it varies between at least some of the vanes.
The invention also provides a method of mounting vanes in a stator vane assembly as described above, the method comprising: determining a desired stagger angle for each vane; providing first and second vane boots for each vane so as to set the vane at the desired stagger angle on the inner and outer vane supports, wherein the vane pocket formed within the first and second vane boots is formed to provide the desired stagger angle or wherein the first and second vane boots are positioned on the inner and outer vane supports using adjustable fastening means to provide the desired stagger angle; and assembling the vanes and vane boots within the inner and outer vane supports.
Advantageously, appropriate selection or adjustment of the first and second vane boots enables the desired stagger angle to be set for each vane. Further, when changing the arrangement it is only necessary to change the vane boots, which are smaller, lower cost parts.
Reference is now made, by way of example only, to the accompanying drawings in which:
In the stator vane assembly, each end of each vane is provided with a vane boot 40. Each vane is therefore connected to the inner ring through a first vane boot and to the outer ring through a second vane boot. The vane pocket 42 of each vane boot is shaped so as to hold the vane at a particular angle. In this regard, the first and second vane boots form a pair which are selected so as to mount the vane in the stator vane assembly with a given stagger angle. The boot fixing holes 43 are provided at the same position on each boot for attachment of the boot 40 to the inner or outer ring. Due to the common location of the fixing holes, the vane stagger of a vane can be easily changed by replacing a boot, rather than having to re-machine either or both of the inner and outer rings.
Preferably, different types of boot are provided, each type of vane boot having a different profile for its vane pocket. Accordingly, by selecting appropriate vane boot pairs the stagger angle of each vane can be set to a desired angle. Further, the boot 40 is a small component which can be made quickly, e.g. by machining or injection moulding, and which is relatively cheap. By contrast, the rings are much larger and require specialist casting and machining facilities with much longer lead times. Thus, boots having the desired vane pocket profile can be readily made.
Further, the use of such boots 40 in the stator vane assembly makes it possible to adjust the stagger angle of one vane relative to that of an adjacent vane, for example to compensate for upstream/downstream struts/airflow disturbances, by selection of the boots for each vane.
The outer ring shown in
Advantageously, the arrangement shown in
Further, it enables adjustments to be readily made during the development phase. Because the boots 40 can be easily manufactured, the profiles of the vane pockets 42 of the boots can be readily changed. In this way, during development, vane stagger and vane camber can be readily altered so as to optimise these factors. This can be used to set a vane at a different stagger angle to its neighbour, if desired. Similarly, vane damping can be adjusted easily during the development phase by varying the thickness of the damping medium 45 in the manufactured boots. For example, the dimensions X and Y of the damping medium shown in
The arrangement of the vane boots on the outer ring is the same as described above with reference to the inner ring.
The vane boot is fastened to the inner or outer ring at the hole 43 by means of a screw, in similar fashion to the fastening in
The stagger angle can therefore be readily changed within a predetermined range without having to replace the vane boot. This advantageously reduces the time and cost needed to make changes.
By adjustment of the eccentric screws, the stagger angle of the boot (and hence of the vane) can be varied. The stagger angle can therefore be readily changed without having to replace the vane boot. This advantageously reduces the time and cost needed to make changes, for example during development. It could also be used to make fine adjustments in situations such as racing, where the engine is tuned for the particular race conditions.
Number | Date | Country | Kind |
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0905729.0 | Apr 2009 | GB | national |