Nonwoven fabric comprising a high loft spunbond layer

The invention claimed is: 1. A fabric comprising at least one high loft spunbond nonwoven layer (S H ) having crimped multicomponent fibers, wherein a first component of the multicomponent fibers comprises a first polymer A and a second component of the multicomponent fibers comprises a blend of the first polymer A and a second polymer B, wherein the melt flow rate of polymer A is at least 25% higher than the melt flow rate of polymer B and wherein the second component comprises at least 20 wt.-% of polymer B and wherein both polymer A and polymer B are selected from the group consisting of polypropylene (PP) homopolymers, polyethylene (PE) homopolymers, polyethylene-polypropylene (PP-PE) copolymers consisting of ethylene and propylene units, and blends of polypropylene (PP) homopolymers and polyethylene (PE) homopolymers. 2. The fabric of claim 1 , wherein the melt flow rate of polymer A is at least 35% higher than the melt flow rate of polymer B and/or wherein the melt flow rate of polymer B is smaller or equal 26 g/10 min and the melt flow rate of polymer A is 34 g/10 min or greater, the melt flow rate obtained according to ISO 1133-1 at 230° C. under 2160 g load. 3. The fabric of claim 1 , wherein the fabric further comprises at least one meltblown layer (M) or at least one standard loft spunbond layer (S S ) or both, where these additional layers form a nonwoven laminate with the at least one high loft layer spunbond layer (S H ). 4. The fabric of claim 3 , wherein the melt blown layer (M) or the standard loft spunbond layer (S S ) or both are made of a thermoplastic polymer. 5. A method of manufacturing an SMS-type nonwoven laminate according to claim 3 , which comprises the steps of: (a) providing the at least one standard loft spunbond layer (S S ) or high loft spunbond layer (S H ); (b) forming the at least one meltblown layer (M) upon depositing meltblown fibers on the surface of the standard loft spunbond layer (S S ) or high loft spunbond layer (S H ) provided under (a); and (c) forming the at least one high loft spunbond layer (S H ) or standard loft spunbond layer (S S ) upon depositing spunbond fibers on the surface of the meltblown layer (M) formed under (b). 6. A method of manufacturing an S H S S S H -type nonwoven laminate according to claim 3 , which comprises the steps of: (a) providing the at least one high loft spunbond layer (S H ); (b) forming the at least one standard loft spunbond layer (S S ) upon depositing spunbond fibers on the surface of the high loft spunbond layer (S H ) provided under (a); and (c) forming the at least one high loft spunbond layer (S H ) upon depositing spunbond fibers on the surface of the standard loft spunbond layer (S S ) formed under (b). 7. A method of manufacturing an S H S S -type nonwoven laminate according to claim 3 , which comprises the steps of: (a) providing the at least one standard loft spunbond layer (S S ); (b) forming the at least one high loft spunbond layer (S H ) upon depositing spunbond fibers on the surface of the standard loft spunbond layer (S S ) formed under (a). 8. The fabric of claim 1 , wherein the second polymer B has a different molecular weight distribution than the first polymer A. 9. The fabric of claim 1 , wherein the difference in polydispersity indices between the polymers A and B is greater than 0.5. 10. The fabric of claim 1 , wherein the polydispersity index of polymer A is between 4.0 and 6.0. 11. The fabric of claim 1 , wherein the weight ratio of the first to second component in the multicomponent fibers is 40/60 to 90/10. 12. The fabric of claim 1 , wherein the polymer of the first component or the polymer blend of the second component or the polymer of the S S layer or the polymer of the M layer or any combination thereof comprises an additive which is capable of enhancing the softness of the fiber. 13. The fabric of claim 1 , wherein the linear mass density of the crimped multicomponent fibers is 1.4 to 2.6 or wherein the average crimp diameter of the crimped multicomponent fibers is 50 to 500 μm or both. 14. The fabric of claim 1 , wherein the density of the high loft spunbond layer (S H ) is 0.02 to 0.08 g/cm 3 . 15. A hygiene product comprising the fabric of claim 1 and optionally further comprising granular absorbent material. 16. The fabric claim 1 , wherein the fabric further comprises at least one meltblown layer (M) or at least one standard loft spunbond layer (S S ) or both, where these additional layers form an S H MS S -type nonwoven laminate. 17. The fabric claim 1 , wherein the fabric further comprises at least one meltblown layer (M) or at least one standard loft spunbond layer (S S ) or both, where these additional layers form an S H S S S H -type nonwoven laminate. 18. The fabric claim 1 , wherein the fabric further comprises at least one meltblown layer (M) or at least one standard loft spunbond layer (S S ) or both, where these additional layers form an S H S S -type nonwoven laminate. 19. The fabric of claim 1 , wherein the second component comprises at least 40 wt.-% of said polymer B.