초록 ▼

An environmental control system, includes an air cycle machine for conditioning an interior space with cooling air, the air cycle machine including a fan coupled to a shaft that rotates about a shaft axis, the fan being located at a distal end of the air cycle machine; a speed sensor module having a

An environmental control system, includes an air cycle machine for conditioning an interior space with cooling air, the air cycle machine including a fan coupled to a shaft that rotates about a shaft axis, the fan being located at a distal end of the air cycle machine; a speed sensor module having a speed sensor for sensing a rotational speed of the shaft; wherein the speed sensor module includes an outer portion having a first bore aligned on the shaft axis, an intermediate portion having a second bore aligned on the shaft axis, and an inner portion aligned on the shaft axis; and a diffuser assembly including a cylindrical assembly for ducting a first portion of the cooling air to an inlet side of the fan and for communicating a second portion of the cooling air directly to a discharge side of the fan without passing the inlet side.

대표청구항 ▼

1. An environmental control system, comprising: an air cycle machine for conditioning an interior space with cooling air, the air cycle machine including a fan coupled to a shaft that rotates about a shaft axis, the fan being located at a distal end of the air cycle machine;a speed sensor module hav

1. An environmental control system, comprising: an air cycle machine for conditioning an interior space with cooling air, the air cycle machine including a fan coupled to a shaft that rotates about a shaft axis, the fan being located at a distal end of the air cycle machine;a speed sensor module having a speed sensor for sensing a rotational speed of the shaft; wherein the speed sensor module includes an outer portion having a first bore aligned on the shaft axis, an intermediate portion having a second bore aligned on the shaft axis, an inner portion aligned on the shaft axis, a proximal end of the speed sensor module, and a distal end of the speed sensor module; anda diffuser assembly including a cylindrical assembly for ducting a first portion of the cooling air to an inlet side of the fan and for communicating a second portion of the cooling air directly to a discharge side of the fan without passing the inlet side, wherein the proximal end of the speed sensor module is coupled to the air cycle machine and the distal end of the speed sensor module is coupled to the diffuser assembly. 2. The environmental control system of claim 1, wherein the outer portion includes a first end proximate to the distal end of the air cycle machine and a second end diametrically opposite the first end. 3. The environmental control system of claim 1, wherein the cylindrical assembly is operatively coupled to the diffuser assembly for facilitating the communicating of the second portion of the cooling air. 4. The environmental control system of claim 1, wherein the outer portion is configured for receiving each of the intermediate portion and the inner portion within the first bore. 5. The environmental control system of claim 1, wherein the intermediate portion is configured for receiving the inner portion within the second bore. 6. The environmental control system of claim 1, further comprising at least one air foil traversing each of the outer, intermediate, and inner portions. 7. The environmental control system of claim 6, wherein a longitudinal axis of the at least one air foil is orthogonal to of the shaft axis of each of the outer, intermediate, and inner portions. 8. The environmental control system of claim 6, wherein the at least one air foil comprises an aperture that is longitudinally coextensive with a body portion of the at least one air foil. 9. The environmental control system of claim 8, wherein the aperture is configured for receiving an electrical connection for the speed sensor. 10. The environmental control system of claim 1, wherein the speed sensor module is configured for receiving the speed sensor within an inner cavity located in the inner portion. 11. The environmental control system of claim 2, wherein the cylindrical assembly includes a first cylindrical portion proximate to the second end of the speed sensor module and at least a second cylindrical portion diametrically opposed to the first cylindrical portion, wherein the first cylindrical portion being coupled to the second cylindrical portion and including a second bore aligned along a second bore axis. 12. The environmental control system of claim 1, wherein the diffuser assembly comprises an axially extending outer housing configured for mounting to the outer portion of the speed sensor module and an axially extending inner housing disposed coaxially within the outer housing, the inner housing being configured for connecting to the second cylindrical portion. 13. A speed sensor module in an environmental control system, comprising: an outer portion aligned having a first bore aligned on a shaft axis;an intermediate portion having a second bore aligned on the shaft axis;an inner portion aligned on the shaft axis, the inner portion including a speed sensor for sensing a rotational speed of the shaft;a proximal end of the speed sensor module; anda distal end of the speed sensor module;wherein the outer portion is configured for surrounding each of the intermediate portion and the inner portion within the first bore, and the proximal end of the speed sensor module is configured to be coupled to an air cycle machine and the distal end of the speed sensor module is configured to be coupled to a diffuser assembly. 14. The speed sensor module of claim 13, wherein the intermediate portion is configured for surrounding the inner portion within the second bore. 15. The speed sensor module of claim 13, further comprising at least one air foil traversing each of the outer, intermediate, and inner portions. 16. The speed sensor module of claim 15, wherein the at least one air foil is orthogonal to a tangent at respective surfaces of each of the outer, intermediate, and inner portions. 17. The speed sensor module of claim 15, wherein the at least one air foil comprises an aperture that is longitudinally coextensive with a body portion of the at least one air foil. 18. The speed sensor module of claim 17, wherein the aperture is configured for receiving an electrical connection for the speed sensor. 19. The speed sensor module of claim 13, wherein the speed sensor module is configured for receiving the speed sensor within an inner cavity disposed in the inner portion.