Device for dispensing a fluid, which device can be arranged in a reactor comprising a fixed catalytic bed

The invention claimed is: 1. A device (D) for distributing a fluid, wherein the device feeds a fixed catalytic bed (C 1 , C 2 ; C′ 1 , C′ 2 ) of a reactor (R) with a reactant, said device comprising: an upstream fluid conveyer comprising a plurality of pipes ( 1 ) each directly receiving a distinct share of said fluid, a downstream fluid distributer ( 3 ), a pressure reducing member, wherein the device comprises a manifold ( 2 a ; 2 b ) for collecting said fluid together, and providing a direct fluidic connection between the pipes of said fluid conveyer ( 1 ) and said fluid distributer ( 3 ), wherein said pressure reducing member is added on to said fluid conveyer ( 1 ) or fluid distributer ( 3 ) or manifold ( 2 a ; 2 b ). 2. The device of claim 1 , additionally comprising a plurality of fluid distributers ( 3 ), a plurality of manifolds ( 2 a ; 2 b ), and a fluid connector ( 10 ); wherein said manifolds ( 2 a ; 2 b ) are arranged one below the other, wherein said fluid connector ( 10 ) provide a fluidic connection between the plurality of the manifolds ( 2 a ; 2 b ). 3. The device of claim 1 , wherein the manifold for collecting said fluid comprise at least one tube or an array of tubes ( 2 b ), to which the pipes of the fluid conveyer ( 1 ) are connected, said tube or tubes ( 2 b ) being closed at their ends. 4. The device of claim 1 , wherein said array of tubes ( 2 b ) is arranged in the form of a cross, a network, a grid or a star. 5. The device of claim 1 , wherein the manifold for collecting said fluid comprise at least one ring ( 2 a ), to which the pipes ( 1 ) of the fluid conveyer are connected. 6. The device of claim 1 , wherein said fluid conveyer ( 1 ) and/or a fluid connector ( 10 ) extend along an axis (z) and each of said fluid-collecting manifolds ( 2 a ; 2 b ) extend in a plane (P), such that the axis (z) and the plane (P) form an angle (α) comprised between 60 and 120 degrees. 7. The device of claim 1 , wherein said pressure reducing member comprises a restriction in the cross section for passage of the fluid of the restriction orifice ( 5 ), local narrowing or bellows type. 8. The device of claim 1 , wherein said fluid distributer comprises a plurality of nozzles ( 3 ), connected to said manifold ( 2 a ; 2 b ). 9. The device of claim 1 , wherein the angle of connection (β) of the body of said nozzles with respect to the manifold is comprised between 60 and 120 degrees. 10. The device of claim 1 , wherein the pressure reducing member ( 5 ) is added on to the fluid distributer in the vicinity of the region of connection to said manifold ( 2 a ; 2 b ). 11. A reactor (R), comprising: a fixed catalytic bed (C 1 , C 2 ; C′ 1 , C′ 2 ) a distribution device (D) as claimed in claim 1 , arranged in said bed in such a way that the inlet or at least one of the inlets of the pipes ( 1 ) of the fluid conveyer of said device are upstream of or flush with said bed, and the manifold ( 2 a ; 2 b ), fluid distributer ( 3 ) and optionally fluid connector ( 10 ) of said device are in said bed. 12. The reactor (R) of claim 11 , wherein said manifold of said device extend in a plane (P) orthogonal to the axis (z) of said reactor (R). 13. The reactor of claim 11 , wherein said fixed catalytic bed supports the device. 14. The reactor of claim 11 , wherein the catalytic bed contains catalytic elements and wherein the dimensions of the outlets of each of said fluid distributers are strictly smaller than the smallest dimension of said elements at the level of which the fluid is distributed. 15. A process wherein the device (D) of claim 1 is/are implemented, wherein a feedstock comprising naphtha, is hydrotreated, or wherein a cracked petroleum feedstock is selectively hydrogenated, or wherein a gas is cleaned of its impurities by adsorption. 16. The device of claim 2 wherein the plurality of manifolds comprise at least two superposed rings. 17. The device of claim 16 wherein the at least two superposed rings comprise an upper and lower ring wherein the upper ring extends in a plane (P 1 ) orthogonal to the axis (z), and the lower ring extends in a plane (P 2 ) which is parallel to (P 1 ). 18. The device of claim 17 wherein the upper and lower rings are connected by the fluid connector, wherein said fluid connector comprises cylindrical pipes extending along the axis (z). 19. A process wherein the reactor (R) of claim 11 is/are implemented, wherein a feedstock comprising naphtha, is hydrotreated, or wherein a cracked petroleum feedstock is selectively hydrogenated, or wherein a gas is cleaned of its impurities by adsorption.