The disclosure relates generally to gas turbine engine combustors and, more particularly, to a floating collar therefor.
Gas turbine combustors are typically provided with floating collars or seal assemblies for mounting igniters or fuel nozzles to the combustor, in order to facilitate relative movement of igniters or fuel nozzles with controlled leakage therebetween during engine operation. Conventional floating collar configurations include the floating collar being trapped between a heat shield and combustor liner or the floating collar being encased in a fabricated boss assembly that is permanently attached to the combustor liner. Such configurations may cause an increase in durability issues or an increase in part costs due to multiple piece retaining assemblies and required joining operations. There is, thus, a need for alternative floating collar mounting arrangements.
In one aspect, there is provided a floating collar assembly for receiving a fuel nozzle or an igniter, the floating collar assembly comprising: a floating collar configured for mounting outside the combustor shell and having an opening configured and sized for alignment with an opening in the combustor shell for receiving the fuel nozzle or the igniter, and a retaining bracket configured for mounting to studs extending outwardly of the combustor shell, the floating collar configured to be trapped between the combustor shell or other external structure and the retaining bracket when the bracket is mounted to the combustor shell.
In another aspect, there is provided a gas turbine engine combustor comprising: a combustor having a combustor shell circumscribing a combustion chamber, the combustor shell having a dome defining at least one nozzle opening for receiving a fuel nozzle, heat shields lining an inner surface of the dome, the heat shields having studs projecting through the combustor shell for engagement with corresponding fasteners outside the combustor shell, and at least one floating collar retained in position outside the dome of the combustor shell by a retaining bracket mounted to some of the studs of the heat shields and secured in position by the fasteners, the at least one floating collar being trapped between the dome of the combustor shell or other external structure and the retaining bracket.
In a further aspect, there is provided a method of mounting a floating collar to a combustor shell of a combustor of a gas turbine engine, the combustor shell having an inner surface lined with heat shields having studs projecting through the combustor shell for engagement with fasteners outside of the combustor shell, the method comprising: aligning the floating collar with a corresponding opening in the combustor shell, and securing a retaining bracket to at least some of the studs of the heat shields, the floating collar being trapped between the combustor shell or other external structure and the retaining bracket.
Reference is now made to the accompanying Figures in which:
The combustor 16 is housed in a plenum 17 supplied with compressed air from the compressor 14. The combustor 16 comprises a combustor shell 20, typically formed by sheet metal inner and outer liners, defining a combustion chamber 21. A plurality of circumferentially spaced-apart fuel nozzles 28 (
Circumferentially distributed dome heat shields 30 (only one shown in
Still referring to
Still referring to
The floating collar 42 is axially retained in position by a retaining bracket 50 adapted to be mounted some of the studs 32 of the heat shields 30 as for instance shown in
The retaining bracket 50 can adopt various configurations. In accordance with one particular embodiment shown in
In view of the foregoing, it can be appreciated that a given floating collar 42 may be assembled by first positioning the floating collar 42 so the opening 44 thereof is aligned with a corresponding dome opening 26 in the combustor dome 22, then engaging the bracket 50 on heat shield studs 32 projecting outwardly from the combustor dome 22, the floating collar being trapped between the combustor dome 22 and the bracket 50, and lastly engaging and tightening the nuts 34 on the studs 32.
In accordance with a general aspect of the present disclosure, there is provided a floating collar retaining feature whereby a retaining bracket is mounted outside of the combustor shell and secured thereto via existing heat shield studs and nuts. The bracket may be attached to as many studs as required to meet assembly and dynamic requirements.
According to another general aspect, there is provided a method of retaining a fuel nozzle floating collar comprising: using a retaining bracket outside of a combustor shell and attached to the combustor shell using existing combustor heat shield studs and nuts. By utilizing this type of mounting arrangement, the durability of the floating collar may be improved due to lower thermal loading on the floating collar in comparison to configurations where the floating collar is sandwiched between the combustor heat shield and combustor liner.
In addition, the above described mounting arrangement does not require joining operations such as welding or brazing, thereby reducing costs for the overall assembly. With the exemplified assembly procedure using the existing heat shield studs 32 and nuts 34, the floating collars 42 are readily accessible and removable/replaceable by simply removing the nuts 34.
The above description is meant to be exemplary only, and one skilled in the art will recognize that changes may be made to the embodiments described without departing from the scope of the invention disclosed. For example, the floating collar assembly could be used to accommodate an igniter instead of a fuel nozzle as described hereinabove. The size and shape of the two central openings 56 of the retaining bracket 50 could be optimized to accommodate variable floating collar float. Also, it is understood that the bracket size could be configured to support any number of floating collars per bracket. Furthermore, the number of support tabs 58 used to mount the retaining bracket 50 to the heat shield studs could be varied. Other modifications which fall within the scope of the present invention will be apparent to those skilled in the art, in light of a review of this disclosure, and such modifications are intended to fall within the equivalents accorded to the appended claims.