A fuel injector system with a fuel feed arm extending inwardly from an outer casing of combustion equipment of a gas turbine engine to a flame tube of the equipment, which ends in an injection nozzle which penetrates a head of the tube to deliver fuel. The system has a swirler arranged coaxially wit
A fuel injector system with a fuel feed arm extending inwardly from an outer casing of combustion equipment of a gas turbine engine to a flame tube of the equipment, which ends in an injection nozzle which penetrates a head of the tube to deliver fuel. The system has a swirler arranged coaxially with the nozzle at the head of the tube, including one or more circuits which produce flows of swirling air around the fuel. A seal ring seals the nozzle to the swirler, the nozzle being removably inserted into the ring. The ring has a flange portion, and the swirler has a pair of spaced retention grooves at a front face thereof. Opposite edges of the flange portion slidingly locate in the grooves so it sealingly engages to the front face. The swirler has a spring mechanism which retains the flange portion in the grooves.
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1. A fuel injector system having: a fuel feed arm which, in use, extends inwardly from an outer casing of combustion equipment of a gas turbine engine to a flame tube of the combustion equipment, the fuel feed arm ending in an injection nozzle which penetrates a head of the flame tube to deliver fue
1. A fuel injector system having: a fuel feed arm which, in use, extends inwardly from an outer casing of combustion equipment of a gas turbine engine to a flame tube of the combustion equipment, the fuel feed arm ending in an injection nozzle which penetrates a head of the flame tube to deliver fuel into the flame tube;a swirler which, in use, is arranged coaxially with the injection nozzle at the head of the flame tube, the swirler having one or more air swirler circuits which produce respective flows of swirling air around the fuel delivered by the nozzle; anda seal ring which seals the injection nozzle to the swirler, the injection nozzle being removably inserted into the seal ring for sealing engagement therewith;wherein the seal ring has a flange portion , and the swirler has a pair of spaced retention grooves at a front face thereof, opposite edges of the flange portion slidingly locating in the grooves such that the flange portion sealingly engages to the front face,wherein the swirler has a spring mechanism which retains the flange portion in the grooves,wherein the grooves extend along a direction parallel to a radial direction of the engine, such that the seal ring can be slid radially inwardly to fit the seal ring to the swirler and slid radially outwardly to remove the seal ring from the swirler, andwherein the grooves are formed by respective lipped rails at the front face of the swirler, the lipped rails being attached to the swirler, the grooves defined between the respective lipped rails and the front face of the swirler. 2. A fuel injector system according to claim 1, wherein the flange portion is at a downstream end of the seal ring. 3. A fuel injector system according to claim 1, wherein the injection nozzle has an outer surface which increases in diameter for sealing engagement with the seal ring. 4. A fuel injector system according to claim 1, wherein the spring mechanism includes a cantilever spring that is shaped such that it is initially urged outwardly by the seal ring as the flange portion slides along the grooves, and such that it subsequently resiles inwardly to retain the flange portion in the grooves when the flange portion slides further along the grooves. 5. A fuel injector system according to claim 4, wherein the lipped rails provides the cantilever spring. 6. A fuel injector system according to claim 1, wherein the opposite edges of the flange portion are formed as flats which cooperate with the grooves to prevent rotation of the seal ring. 7. A fuel injector system according to claim 1, wherein an upstream end of the seal ring is flared to provide a lead-in for insertion of the injection nozzle. 8. A fuel injector system according to claim 1, wherein the swirler is integrally formed with the head of the flame tube. 9. A fuel injector system according to claim 1, wherein the swirler is formed by additive layer manufacturing. 10. A fuel injector system according to claim 1, wherein the fuel feed arm has an integral mounting flange at an opposite end from the injection nozzle, the mounting flange being configured for attachment to an external surface of the outer casing of the combustion equipment. 11. Combustion equipment of a gas turbine engine, the equipment having: the outer casing;the flame tube inwardly of the outer casing; andone or more fuel injector systems according to claim 1. 12. A gas turbine engine having the combustion equipment of claim 11. 13. A fuel injector system according to claim 1, wherein the swirler has a bore, and the bore of the swirler is race-track shaped and has a long axis, the long axis of the race-track being arranged radially to allow relative radial movement between the swirler and the nozzle. 14. A fuel injector system having: a fuel feed arm which, in use, extends inwardly from an outer casing of combustion equipment of a gas turbine engine to a flame tube of the combustion equipment, the fuel feed arm ending in an injection nozzle which penetrates a head of the flame tube to deliver fuel into the flame tube;a swirler which, in use, is arranged coaxially with the injection nozzle at the head of the flame tube, the swirler having one or more air swirler circuits which produce respective flows of swirling air around the fuel delivered by the nozzle; anda seal ring which seals the injection nozzle to the swirler, the injection nozzle being removably inserted into the seal ring for sealing engagement therewith,wherein the seal ring has a flange portion, and the swirler has a pair of spaced retention grooves at a front face thereof, opposite edges of the flange portion slidingly locating in the grooves such that the flange portion sealingly engages to the front face,wherein the swirler has a spring mechanism which retains the flange portion in the grooves,wherein the grooves are formed by respective lipped rails at the front face of the swirler, the lipped rails being attached to the swirler, the grooves defined between the respective lipped rails and the front face of the swirler, andwherein the lipped rails are substantially parallel to a radial direction of the engine. 15. A fuel injector system according to claim 14, wherein the grooves extend along a direction parallel to the radial direction of the engine, such that the seal ring can be slid radially inwardly to fit the seal ring to the swirler and slid radially outwardly to remove the seal ring from the swirler.
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