This turbine engine compressor comprises a separating nose extended by inner and outer annular walls defining in cooperation an annular volume (V) of separation of a primary flow (F1) and a secondary flow (F2). This volume (V) comprises a plurality of annular segments in the form of cells separated
This turbine engine compressor comprises a separating nose extended by inner and outer annular walls defining in cooperation an annular volume (V) of separation of a primary flow (F1) and a secondary flow (F2). This volume (V) comprises a plurality of annular segments in the form of cells separated in pairs by blades of a first fan, these blades passing through both the primary flow (F1) and the secondary flow (F2). These cells are fixed to an upstream annular collar and a downstream annular collar driven rotationally by the aforementioned blades.
대표청구항▼
The invention claimed is: 1. A turbine engine compressor, comprising: a separating nose extended by an inner annular wall and an outer annular wall defining in cooperation an annular volume and the nose is configured to separate a primary flow from a secondary flow, wherein said volume comprises a
The invention claimed is: 1. A turbine engine compressor, comprising: a separating nose extended by an inner annular wall and an outer annular wall defining in cooperation an annular volume and the nose is configured to separate a primary flow from a secondary flow, wherein said volume comprises a plurality of annular segments in the form of cells separated in pairs by blades of a first fan, said blades of a first fan passing through both said primary flow and said secondary flow, said cells being fixed to an upstream annular collar and a downstream annular collar driven rotationally by said blades. 2. The turbine engine compressor according to claim 1, wherein the compressor comprises a second fan with a first series of blades upstream of said separating nose, and a second series of blades positioned in said primary flow, the first fan and the second fan being counter-rotating. 3. A cell configured to be connected to a fan blade within a turbine engine compressor, comprising: two first opposite walls, each of the two first opposite walls having a shape adapted to define a segment of an annular volume of separation of a primary flow and a secondary flow in the compressor; second opposite walls, each of the second opposite walls comprising means of fixing to an upstream annular collar and a downstream annular collar, one of the second opposite walls configured to be attached to a separating nose through an inner annular wall and an outer annular wall defining in cooperation the annular volume of separation; and two opposite sides separated by a distance substantially less than a distance separating two consecutive blades of said first fan and with shapes corresponding to a profile of said blades, wherein said volume comprises a plurality of annular segments in the form of cells separated in pairs by blades of a first fan, said blades passing through both said primary flow and said secondary flow, said cells being fixed to an upstream annular collar and a downstream annular collar driven rotationally by said blades. 4. The cell according to claim 3, wherein at least one strut of which each of two ends of each of the at least one strut comprises a screw thread, said strut being arranged so that said screw threads are aligned with two through holes in said second opposite walls. 5. The cell according to claim 3, wherein said fixing means comprise at least one bushing inserted in a thickness of each of said second walls. 6. The cell as claimed in claim 3, wherein the cell consists of composite material. 7. A set of annular collars configured to be connected to a fan blade within a turbine engine compressor, each collar of the set of annular collars comprising: a plurality of notches, each of the plurality of notches being adapted to receive an edge of a fan blade of a first fan of the compressor and the plurality of notches are configured to enable each of the annular collars to be driven rotationally by said blades of the first fan; and means for fixing said collar to a plurality of cells of said compressor, each of the annular collars configured to be connected to a plurality of cells separated in pairs by blades of the first fan, wherein the set of annular collars includes an upstream annular collar and a downstream annular collar, the upstream annular collar formed of an inner annular wall and an outer annular wall defining in cooperation an annular volume separating a primary flow and a secondary flow, the upstream annular collar extended by a separating nose configured to separate the primary flow and the secondary flow, the set of annular collars configured to enable the annular volume to be comprised of a plurality of annular segments formed of cells separated in pairs by blades of the first fan, and the set of annular collars configured to allow the blades of the first fan to pass through both said primary flow and said secondary flow. 8. The set of annular collars according to claim 7, wherein said notches connected to said upstream annular collar are adapted to receive a leading edge of the blade of said first fan, wherein said upstream annular collar comprises an upstream end forming a support for said nose separating the primary flow and secondary flow in said compressor. 9. The set of annular collars according to claim 8, wherein the upstream annular collar comprises a plurality of radial blades positioned in said primary flow. 10. A turbine engine, comprising: a compressor including a separating nose extended by an inner annular wall and an outer annular wall defining in cooperation an annular volume of separation of a primary flow and a secondary flow, wherein said volume comprises a plurality of annular segments in the form of cells separated in pairs by blades of a first fan, said blades passing through both said primary flow and said secondary flow, said cells being fixed to an upstream annular collar and a downstream annular collar driven rotationally by said blades.
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