Upper axial retention for a cascade-type thrust reverser with sliding vanes of D-shaped structure

What is claimed is: 1. A nacelle for use in an aircraft having a turbojet engine, said turbojet engine comprising a fan casing and a suspension pylon connecting said nacelle to a wing of the aircraft, said nacelle comprising: an upstream air inlet section; a median section, in a downstream extension of said upstream air inlet section, comprising a fan cowl, an annular space comprised between the fan cowl and the fan casing of the turbojet engine defining an annular envelope; a D-shaped structure downstream section embedding a thrust reverser device, said D-shaped structure downstream section comprising cascades vanes movable relative to the fan casing between a first retracted position wherein the cascades vanes are housed in said annular envelope of the median section and a first deployed position wherein said cascades vanes are displaced downstream of said annular envelope, said D-shaped structure downstream section comprising two D-shaped half-structures each comprising: an outer half-cowl movable in translation during activation of an actuator along a substantially longitudinal axis of a propulsion unit between a second retracted position providing aerodynamic continuity with the fan cowl and an annular flow path for an operation of the nacelle in direct jet and a second deployed position opening an annular passage in the nacelle for an operation of the nacelle in reverse jet; a connector between the cascades vanes and said outer half-cowl, arranged such that the cascades vanes are displaced simultaneously with said outer half-cowl during the activation of said actuator; a twelve o'clock half-bifurcation; an inner half-structure defining an inner portion of the annular flow path of the nacelle when the nacelle is in operation, said inner half-structure being connected to said outer half-cowl by said twelve o'clock half-bifurcation; and a twelve o'clock half-beam mounted on said twelve o'clock half-bifurcation, said twelve o'clock half-beam supporting a translational sliding rail of the outer half-cowl and articulated on said suspension pylon, wherein the nacelle includes an axial retention device for axial retention of the D-shaped structure downstream section of the nacelle, with respect to the turbojet engine, said axial retention device being configured to provide a connection defining an axial retention between at least one of said respective twelve o'clock half-beams of the D-shaped half-structures and a fixed element of the fan casing of the turbojet engine. 2. The nacelle according to claim 1 , wherein said twelve o'clock half-beam is articulated on said suspension pylon by a set of hinges, said set of hinges including yokes on said twelve o'clock half-beams, wherein the axial retention device includes at least one retention rod, which first end is attached to at least one of said yokes and which second end is attached to the fixed element of the fan casing of the turbojet engine, said at least one retention rod being configured to define a double-acting abutment between at least one of said yokes and said fixed element of the fan casing of the turbojet engine. 3. The nacelle according to claim 2 , wherein said at least one retention rod includes a longitudinal axis coaxial with a longitudinal axis of said at least one of said yokes on which said at least one retention rod is attached. 4. The nacelle according to claim 2 , wherein the fixed element of the fan casing of the turbojet engine includes a retention lug having a bore which longitudinal axis is coaxial with a longitudinal axis of said at least one of said yokes on which said at least one retention rod is attached. 5. The nacelle according to claim 4 , wherein said at least one retention rod is mounted in the retention lug of the fixed element of the fan casing of the turbojet engine such that a radial clearance between said at least one retention rod and the bore of said retention lug is defined. 6. The nacelle according to claim 1 , wherein the axial retention device is configured to provide a connection defining an axial retention between an upstream edge of said at least one of said respective twelve o'clock half-beams and the fixed element of the fan casing of the turbojet engine. 7. The nacelle according to claim 1 , wherein the fan casing of the turbojet engine includes in its downstream portion a deflection edge, wherein the fixed element of the fan casing of the turbojet engine includes said deflection edge and wherein the axial retention device is configured to provide a connection defining an axial retention between at least one of said respective twelve o'clock half-beams and said deflection edge of the fan casing of the turbojet engine. 8. An aircraft comprising at least one propulsion unit having a nacelle according to claim 1 . 9. A nacelle for use in an aircraft having a turbojet engine, said turbojet engine comprising a fan casing and a suspension pylon connecting said nacelle to a wing of the aircraft, said nacelle comprising: an upstream air inlet section; a median section, in a downstream extension of said upstream air inlet section, comprising a fan cowl, an annular space comprised between the fan cowl and the fan casing of the turbojet engine defining an annular envelope; a D-shaped structure downstream section embedding a thrust reverser device, said D-shaped structure downstream section comprising cascades vanes movable relative to the fan casing between a first retracted position wherein the cascades vanes are housed in said annular envelope of the median section and a first deployed position wherein said cascades vanes are displaced downstream of said annular envelope, said D-shaped structure downstream section comprising two D-shaped half-structures each comprising: an outer half-cowl movable in translation during activation of an actuator along a substantially longitudinal axis of a propulsion unit between a second retracted position providing aerodynamic continuity with the fan cowl and an annular flow path for an operation of the nacelle in direct jet and a second deployed position opening an annular passage in the nacelle for an operation of the nacelle in reverse jet; a connector between the cascades vane and said outer half-cowl, arranged such that the cascades vanes are displaced simultaneously with said outer half-cowl during the activation of said actuator; a twelve o'clock half-bifurcation; an inner half-structure defining an inner portion of the annular flow path of the nacelle when the nacelle is in operation, said inner half-structure being connected to said outer half-cowl by said twelve o'clock half-bifurcation; and a twelve o'clock half-beam mounted on said twelve o'clock half-bifurcation, said twelve o'clock half-beam supporting a translational sliding rail of the outer half-cowl and articulated on said suspension pylon, wherein the nacelle includes an axial retention device for axial retention of the D-shaped structure downstream section of the nacelle, with respect to the turbojet engine, said axial retention device being configured to provide a connection defining an axial retention between at least one of said respective twelve-o'clock half-beams of the D-shaped half-structures and a fixed element of the fan casing of the turbojet engine, wherein said twelve o'clock half-beam is articulated on said suspension pylon by a set of hinges, said set of hinges including yokes on said twelve o'clock half-beams, wherein the axial retention device includes at least one retention tie rod, which first end is mounted on at least one of said twelve o'clock half-beams and which second end is mounted on the fixed element of the fan casing of the turbojet engine. 10. The nacelle according to claim 9 , wherein