Fluid line assembly

The invention claimed is: 1. A fluid line assembly, such as for charge air to be supplied to an internal combustion engine, the fluid line assembly comprising a fluid conduit, extending along a longitudinal axis which defines an axial direction, for the passage of a fluid and comprising a sound attenuation assembly received in an axial receiving portion of the fluid conduit which includes at least two piping components, the sound attenuation assembly at least contributing to an attenuation of sound propagated in the fluid, the connection of the at least two piping components of the axial receiving portion with one another, as well as the connection of the sound attenuation assembly with the axial receiving portion of the fluid conduit, being free of adhesive and melt connections, wherein the at least two piping components includes a peripheral wall and a shoulder portion, the peripheral wall extending more strongly in the axial than the radial direction in a reference longitudinal sectional view of the fluid conduit containing the longitudinal axis, the shoulder portion provided on at least one axial end portion of the peripheral wall, which shoulder portion extends more strongly in the radial direction than in the axial direction in the reference longitudinal sectional view; the fluid line assembly further including an axial projection on at least an axial end portion of the peripheral wall on one component of the shoulder portion and the sound attenuation assembly, and a recess on the other component of the shoulder portion and the sound attenuation assembly, wherein the axial projection and the recess positively engage in an assembled state of the fluid line assembly. 2. The fluid line assembly according to claim 1 , wherein the sound attenuation assembly comprises a sound attenuation conduit, wherein at least an axial portion of the sound attenuation conduit is enclosed by the fluid conduit, such that at least one resonator cavity is provided radially between the fluid conduit and the sound attenuation conduit. 3. The fluid line assembly according to claim 2 , further including a plurality of resonator cavities, the plurality of resonator cavities being separated from one another in the axial direction by at least one separating element, the at least one separating element being arranged radially between the fluid conduit and the sound attenuation assembly, the at least one separating element having a first radial end attached to one of the fluid conduit and the sound attenuation conduit and a second radial end engaging the other of the fluid conduit and the sound attenuation conduit; the second end having at least one of a friction and a form locking connection with the other of the fluid conduit and the sound attenuation conduit such that the second end is fixed relative to the other of the fluid conduit and the sound attenuation conduit and is free of adhesive and melt connections. 4. The fluid line assembly according to claim 3 , wherein the at least one separating element is at least one of radially inwardly and radially outwardly tapered to at least one of a radially inner peripheral edge and a radially outer peripheral edge. 5. The fluid line assembly according to claim 3 , wherein the first radial end of the at least one separating element is integrally formed with the one of the fluid conduit and the sound attenuation conduit. 6. The fluid line assembly according to claim 2 , further including at least one opening in the sound attenuation conduit, the at least one opening leading to the at least one resonator cavity. 7. The fluid line assembly according to claim 6 , wherein the at least one opening in the sound attenuation conduit is a plurality of openings leading to the at least one resonator cavity. 8. The fluid line assembly according to claim 2 wherein the entire sound attenuation conduit is enclosed by the fluid conduit. 9. The fluid line assembly according to claim 3 , wherein the at least one separating element is continuous in the circumferential direction. 10. The fluid line assembly according to claim 1 , wherein at least one of the peripheral wall is rotationally symmetrical and the at least one shoulder portion is rotationally symmetrical. 11. The fluid line assembly according to claim 1 , wherein on at least one axial end portion of the peripheral wall, the shoulder portion is nondestructively releasably connected with the peripheral wall. 12. The fluid line assembly according to claim 1 , wherein a connecting fluid conduit is connected to at least one shoulder portion on a side opposite the receiving portion, whereby a cross-sectional area of the connecting fluid conduit orthogonal to the longitudinal axis is smaller than a cross-sectional area of the receiving portion orthogonal to the longitudinal axis. 13. The fluid line assembly according to claim 12 , wherein the connecting fluid conduit and the sound attenuation conduit have generally the same cross-sectional shape orthogonal to the longitudinal axis, and that the cross-sectional areas of the connecting fluid conduit and the sound attenuation conduit orthogonal to the longitudinal axis do not differ by more than 10%. 14. The fluid line assembly according to claim 12 , wherein the connecting fluid conduit and the sound attenuation conduit have generally the same cross-sectional shape orthogonal to the longitudinal axis, and connecting fluid conduit and the sound attenuation conduit have generally the same cross-sectional areas orthogonal to the longitudinal axis. 15. The fluid line assembly according to claim 13 , wherein the cross-sectional areas of the connecting fluid conduit and the sound attenuation conduit orthogonal to the longitudinal axis do not differ by more than 5%. 16. The fluid line assembly according to claim 13 , wherein the cross-sectional areas of the connecting fluid conduit and the sound attenuation conduit orthogonal to the longitudinal axis are generally equal. 17. A method for producing a fluid line assembly, the method comprising the steps of: a) Providing a fluid conduit having at least two piping components to form an axial receiving portion, b) Providing a sound attenuation assembly, c) Introducing at least a portion of the sound attenuation assembly into at least one piping component of the axial receiving portion of the fluid conduit, d) Attaching the sound attenuation assembly to at least one piping component of the receiving portion of the fluid conduit without adhesive and melt connections wherein the attaching comprises a production of at least a form locking connection between the fluid conduit and the sound attenuation assembly, brought about between a shoulder portion of the receiving portion of the fluid conduit and the sound attenuation assembly. 18. The method for producing a fluid line assembly according to claim 17 , wherein the at least two piping components includes a peripheral wall and a shoulder portion, the peripheral wall extending more strongly in the axial direction than the radial direction in a reference longitudinal sectional view of the fluid conduit containing the longitudinal axis, the shoulder portion provided on at least one axial end portion of the peripheral wall, which shoulder portion extends more strongly in the radial direction than in the axial direction in the reference longitudinal sectional view, the peripheral wall having an inner application surface, the sound attenuation assembly having a sound attenuation conduit and at least one separating element, the sound attenuation assembly being tubular and extending along a linear