초록 ▼

A fan inlet diffuser housing system includes an air cycle machine, a housing coupled to the air cycle machine, an inlet fan disposed on the air cycle machine and configured to pass inlet air into the fan inlet diffuser housing, a center tube disposed in the housing, a diffuser cone disposed around t

A fan inlet diffuser housing system includes an air cycle machine, a housing coupled to the air cycle machine, an inlet fan disposed on the air cycle machine and configured to pass inlet air into the fan inlet diffuser housing, a center tube disposed in the housing, a diffuser cone disposed around the center tube, an inboard strut supporting the inner tube within the diffuser cone, and an outboard strut supporting the inner tube within the diffuser cone, the outboard strut being integral with the diffuser cone, wherein the inboard strut is coupled to the inner tube with a first plurality of mechanical fasteners, and the outboard strut is coupled to the inner tube with a second plurality of mechanical fasteners.

대표청구항 ▼

1. A fan inlet diffuser housing (FIDH) system, comprising: an air cycle machine (ACM);an FIDH housing coupled to the ACM;an inlet fan disposed on the ACM and configured to pass inlet air into the FIDH;a center tube disposed in the FIDH housing, wherein the center tube further comprises acoustical fo

1. A fan inlet diffuser housing (FIDH) system, comprising: an air cycle machine (ACM);an FIDH housing coupled to the ACM;an inlet fan disposed on the ACM and configured to pass inlet air into the FIDH;a center tube disposed in the FIDH housing, wherein the center tube further comprises acoustical foam disposed therein;a diffuser cone disposed around at least a portion of the center tube;an inboard strut supporting the center tube within the diffuser cone, the inboard strut having a substantially Y-shaped cross-section and comprising three outer diameter walls and three inner diameter walls; andan outboard strut supporting the center tube within the diffuser cone, the outboard strut being integral with the diffuser cone, the outboard strut having a substantially Y-shaped cross-section and comprising three outer diameter walls and three inner diameter walls,wherein the three inner diameter walls of the inboard strut are coupled to the center tube with a first plurality of mechanical fasteners, the three inner diameter walls of the outboard strut are coupled to the center tube with a second plurality of mechanical fasteners, the three outer diameter walls of the inboard strut are coupled to the diffuser cone with a third plurality of mechanical fasteners, upset ends of the first and second plurality of mechanical fasteners are disposed in the acoustical foam, and the first plurality of mechanical fasteners comprises six rivets distributed in pairs at each of the three inner diameter walls of the inboard strut. 2. The system as claimed in claim 1 wherein the second plurality of mechanical fasteners comprises six rivets distributed in pairs at each of the three inner diameter walls of the outboard strut. 3. The system as claimed in claim 2 wherein the third plurality of mechanical fasteners comprises twelve rivets distributed in groups of four at each of the three outer diameter walls of the inboard strut. 4. The system as claimed in claim 1 wherein the diffuser cone further comprises acoustical foam. 5. The system as claimed in claim 4 wherein upset ends of the third plurality of mechanical fasteners are disposed in the acoustical foam of the diffuser cone. 6. The system as claimed in claim 1 wherein each location of coupling each of the inner diameter walls of the inboard strut to the center tube is on a distal side of the center tube relative to one of the outer diameter walls of the inboard strut aligned with the location on an opposite side of the center tube. 7. The system as claimed in claim 1 wherein the inner diameter walls and the outer diameter walls of the inboard strut are arranged in an alternating pattern circumferentially about the inboard strut. 8. A fan inlet diffuser housing (FIDH) apparatus, comprising: a housing;a center tube disposed in the housing, wherein the center tube further comprises acoustical foam disposed therein;a diffuser cone disposed around at least a portion of the center tube;an inboard strut supporting the center tube within the diffuser cone, the inboard strut having a substantially Y-shaped cross-section and comprising three outer diameter walls and three inner diameter walls; andan outboard strut supporting the center tube within the diffuser cone, the outboard strut being integral with the diffuser cone, the outboard strut having a substantially Y-shaped cross-section and comprising three outer diameter walls and three inner diameter walls,wherein the three inner diameter walls of the inboard strut are coupled to the center tube with a first plurality of mechanical fasteners, and the three inner diameter walls of the outboard strut are coupled to the center tube with a second plurality of mechanical fasteners, the three outer diameter walls of the inboard strut are coupled to the diffuser cone with a third plurality of mechanical fasteners, upset ends of the first and second plurality of mechanical fasteners are disposed in the acoustical foam, and the first plurality of mechanical fasteners comprises six rivets distributed in pairs at each of the three inner diameter walls of the inboard strut. 9. The apparatus as claimed in claim 8 wherein the second plurality of mechanical fasteners comprises six rivets distributed in pairs at each of the three inner diameter walls of the outboard strut. 10. The apparatus as claimed in claim 9 wherein the third plurality of mechanical fasteners comprises twelve rivets distributed in groups of four at each of the three outer diameter walls of the inboard strut. 11. The apparatus as claimed in claim 8 wherein the diffuser cone further comprises acoustical foam. 12. The apparatus as claimed in claim 11 wherein upset ends of the third plurality of mechanical fasteners are disposed in the acoustical foam of the diffuser cone. 13. The apparatus as claimed in claim 8 wherein each location of coupling each of the inner diameter walls of the inboard strut to the center tube is on a distal side of the center tube relative to one of the outer diameter walls of the inboard strut aligned with the location on an opposite side of the center tube. 14. The apparatus as claimed in claim 8 wherein the inner diameter walls and the outer diameter walls of the inboard strut are arranged in an alternating pattern circumferentially about the inboard strut. 15. A method for supporting a center tube in a diffuser cone of a fan inlet diffuser housing (FIDH), the method comprising: mechanically fastening three outer diameter walls of an inboard strut having a substantially Y-shaped cross-section to the diffuser cone;mechanically fastening three inner diameter walls of the inboard strut to the center tube, wherein the center tube further comprises acoustical foam disposed therein; andmechanically fastening three inner diameter walls of an outboard strut having a substantially Y-shaped cross-section to the center tube, the outboard strut being integral with the diffuser cone, wherein the three inner diameter walls of the inboard strut are mechanically fastened to the center tube with a first plurality of mechanical fasteners, the three inner diameter walls of the outboard strut are mechanically fastened to the center tube with a second plurality of mechanical fasteners, the three outer diameter walls of the inboard strut are mechanically fastened to the diffuser cone with a third plurality of mechanical fasteners, upset ends of the first and second plurality of mechanical fasteners are disposed in the acoustical foam, and the inner diameter walls and the outer diameter walls of the inboard strut are arranged in an alternating pattern circumferentially about the inboard strut. 16. The method as claimed in claim 15 wherein the three outer diameter walls of the inboard strut are mechanically fastened to the diffuser cone by twelve rivets distributed in groups of four at each of the three outer diameter walls of the inboard strut, the three inner diameter walls of the inboard strut are mechanically fastened to the center tube by six rivets distributed in pairs at each of the three inner diameter walls of the inboard strut, and the three inner diameter walls of the outboard strut are mechanically fastened to the center tube by six rivets distributed in pairs at each of the three inner diameter walls of the outboard strut. 17. The method as claimed in claim 15 wherein each location of mechanically fastening each of the inner diameter walls of the inboard strut to the center tube is on a distal side of the center tube relative to one of the outer diameter walls of the inboard strut aligned with the location on an opposite side of the center tube.