Described are a gas turbine engine fan blade platform, related rotor assembly and gas turbine engine, as well as a method of assembling the same. The platform has a forward portion proximal to an axis of rotation, an aft portion, and a transition portion between the forward and aft portions. The for
Described are a gas turbine engine fan blade platform, related rotor assembly and gas turbine engine, as well as a method of assembling the same. The platform has a forward portion proximal to an axis of rotation, an aft portion, and a transition portion between the forward and aft portions. The forward portion has a forward interface surface facing axially forward, the aft portion has an aft interface surface facing radially outward, and the transition portion has at least one mounting feature. For the method of assembly, an aft support is installed on a fan disk and booster spool assembly. A plurality of fan blades are installed into a fan disk, followed by installing a fan platform between adjacent blades and securing the mounting features to the disk, thereby filling the annulus of the fan disk. Finally, a forward support is installed on the fan disk.
대표청구항▼
1. A gas turbine engine rotor assembly comprising: a disk having a disk rim, a plurality of dovetail slots, and a plurality of disk posts, each disk post having at least one disk post hook, wherein the disk posts are circumferentially disposed around the rim and the dovetail slots are disposed circu
1. A gas turbine engine rotor assembly comprising: a disk having a disk rim, a plurality of dovetail slots, and a plurality of disk posts, each disk post having at least one disk post hook, wherein the disk posts are circumferentially disposed around the rim and the dovetail slots are disposed circumferentially between disk posts;a plurality of fan blades having dovetail roots disposed in the dovetail slots,a plurality of fan platforms, each of the fan platforms having a forward portion having a forward interface surface facing axially forward, an aft portion having an aft interface surface facing radially outward, and a transition portion having at least one mounting feature, the mounting feature having at least one engagement tang, wherein the transition portion is connectively disposed between the forward portion and aft portion, wherein the fan platforms are circumferentially disposed between the fan blades; anda plurality of captured clips, each captured clip having an engagement end, wherein each of the captured clips are circumferentially disposed between the fan blades and radially disposed between the disk and the fan platform, whereby the engagement end couples the engagement tangs to the disk post hooks. 2. A gas turbine engine rotor assembly in accordance with claim 1, whereby the captured clips have shapes which permit relative circumferential motion between the fan platform and the disk posts. 3. A gas turbine engine rotor assembly in accordance with claim 1, wherein the forward portion and aft portion are adapted to be fastenerless. 4. A gas turbine engine comprising a bypass fan, said bypass fan including a gas turbine engine rotor assembly comprising: a disk having a disk rim, a plurality of dovetail slots, and a plurality of disk posts, wherein the disk posts are circumferentially disposed around the rim and the dovetail slots are disposed circumferentially between disk posts;a plurality of fan blades having dovetail roots disposed in the dovetail slots;a plurality of fan platforms, each of the fan platforms having a forward portion having a forward interface surface facing axially forward, an aft portion having an aft interface surface facing radially outward, and a transition portion having at least one mounting feature, wherein the transition portion is connectively disposed between the forward portion and aft portion, wherein the fan platforms are circumferentially disposed between the fan blades; anda plurality of attachment members, wherein each of the attachment members are circumferentially disposed between the fan blades and connectively disposed between the platform transition portions and disk posts, the attachment members comprising a plurality of captured clips, each captured clip having an engagement end, wherein each of the captured clips are circumferentially disposed between the fan blades and radially disposed between the disk and the fan platform, whereby the engagement end couples the engagement tangs to the disk post hooks. 5. A gas turbine engine in accordance with claim 4, wherein the mounting features and the attachment members are adapted to receive at least one fastener. 6. A gas turbine engine in accordance with claim 4, wherein the attachment members have shapes which permit relative circumferential motion between the fan platform and the disk posts. 7. A gas turbine engine in accordance with claim 4, wherein the forward portions and aft portions are adapted to be fastenerless. 8. A gas turbine engine comprising a bypass fan, said bypass fan including a gas turbine engine rotor assembly comprising: a disk having a disk rim, a plurality of dovetail slots, and a plurality of disk posts, each disk post having at least one disk post hook, wherein the disk posts are circumferentially disposed around the rim and the dovetail slots are disposed circumferentially between disk posts;a plurality of fan blades having dovetail roots disposed in the dovetail slots,a plurality of fan platforms, each of the fan platforms having a forward portion having a forward interface surface facing axially forward, an aft portion having an aft interface surface facing radially outward, and a transition portion having at least one mounting feature, the mounting feature having at least one engagement tang, wherein the transition portion is connectively disposed between the forward portion and aft portion, wherein the fan platforms are circumferentially disposed between the fan blades; anda plurality of captured clips, each captured clip having an engagement end, wherein each of the captured clips are circumferentially disposed between the fan blades and radially disposed between the disk and the fan platform, whereby the engagement end couples the engagement tangs to the disk post hooks. 9. A gas turbine engine in accordance with claim 8, whereby the captured clips have shapes which permit relative circumferential motion between the fan platform and the disk posts. 10. A gas turbine engine in accordance with claim 8, wherein the forward portion and aft portion are adapted to be fastenerless. 11. A method of assembling a gas turbine engine rotor assembly, the method comprising the steps: a) providing a fan disk and booster spool assembly;b) installing an aft support on the booster spool;c) installing a fan blade into the fan disk;d) installing a fan blade into the fan disk adjacent to the fan blade in step c);e) installing a fan platform including a mounting feature between the adjacent fan blades;f) securing the mounting feature to the fan disk using a captured clip;g) repeating steps c) through f) until the fan disk is populated with fan blades and secured mounting features; andh) installing a forward support onto the fan disk.
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이 특허에 인용된 특허 (11)
Belmonte, Olivier; Goga, Jean-Luc Christian Yvon, Aircraft turbomachine fan comprising a balancing flange concealed by the inlet cone.
Sean Joel Corrigan ; Jeffrey Clayton Potter ; Joseph Timothy Stevenson ; Jay L. Cornell ; James Michael Forrester ; Rolf Robert Hetico, Non-integral fan platform.
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