Valve Assembly and Fluid Injector

1 . A valve assembly for a fluid injector comprising: a valve body having a longitudinal axis and comprising a wall which forms a recess that enables a streaming fluid to pass through the assembly during an operation, an armature, a valve needle having a needle tip, and a damping element, wherein the armature and the damping element comprise penetrating first openings, in which the valve needle is arranged, the armature, the valve needle and the damping element are arranged axially movable in the recess with respect to the longitudinal axis and relative to the valve body, and the damping element is fixed to the valve needle and arranged between the armature and the needle tip with respect to the longitudinal axis to attenuate a movement of the valve needle relative to the valve body during the operation of the assembly. 2 . The valve assembly according to claim 1 , wherein the damping element substantially fills in the recess of the valve body in a radial direction to generate a fluid friction for attenuating the movement of the valve needle. 3 . The valve assembly according to claim 1 , wherein an outer circumferential outline of the damping element is arranged flush with an outer circumferential outline of the armature. 4 . The valve assembly according to claim 1 , wherein the damping element has an upper surface and the armature has a lower surface which face towards each other and which are spaced apart from one another apart from a region where the upper surface of the damping element has a substantially ring-shaped protrusion which is engageable with the armature so that the protrusion enters into a form-fit connection with the lower surface of the armature. 5 . The valve assembly according to claim 1 , wherein the damping element comprises at least one penetrating second opening to enable the fluid to pass through the valve assembly during the operation. 6 . The valve assembly according to claim 5 , wherein the armature comprises at least one penetrating second opening to enable the fluid to pass through the valve assembly during the operation. 7 . The valve assembly according to claim 6 , wherein an outlet aperture of the at least one second opening of the armature no more than partially overlaps an inlet aperture of the at least one second opening of the damping element from a top view along the longitudinal axis. 8 . The valve assembly according to claim 7 , wherein a number of second openings of the damping element differs from a number of second openings of the armature. 9 . The valve assembly according to claim 1 , wherein the valve needle comprises an axial channel to enable the fluid passing the assembly during the operation. 10 . The valve assembly according to claim 1 , wherein the damping element has the shape of a disc. 11 . The valve assembly according to claim 1 , wherein the valve assembly forms part of the fluid injector. 12 . A valve assembly for a fluid injector, comprising: a valve body having a longitudinal axis and including a wall which forms a recess that enables fluid to flow through the assembly during an operation of the fluid injector; an armature; a valve needle having a needle tip; and a damping element; wherein each of the armature and the damping element includes a first opening through which the valve needle is arranged, wherein the armature, the valve needle and the damping element are axially movable in the recess with respect to the longitudinal axis and relative to the valve body, and wherein the damping element is fixed to the valve needle and arranged between the armature and the needle tip with respect to the longitudinal axis to attenuate a movement of the valve needle relative to the valve body during the operation of the assembly. 13 . The valve assembly of claim 12 , wherein the damping element has an upper surface and the armature has a lower surface which faces the upper surface of the damping element, a first portion of the upper surface and a first portion of the lower surface are spaced apart from one another, the damping element further including a protrusion disposed radially outwardly from the first portion of the upper surface, the protrusion is engageable with the lower surface of the armature so that the protrusion enters into a form-fit connection therewith. 14 . The valve assembly of claim 12 , wherein the damping element comprises at least one second opening defined through the damping element, the at least one second opening enabling the fluid to flow through the valve assembly during the operation. 15 . The valve assembly according to claim 14 , wherein the armature comprises at least one second opening defined through the armature, the at least one second opening enabling the fluid to flow through the valve assembly during the operation. 16 . The valve assembly according to claim 15 , wherein a number of the second openings of the armature is different from a number of the second openings of the damping element. 17 . The valve assembly according to claim 16 , wherein the number of the second openings of the armature is greater than the number of the second openings of the damping element such that during at least a portion of the operation, a first fluid flow path through the valve assembly is defined in a direction that is lateral to the longitudinal axis in a space between an upper surface of the damping element and a lower surface of the armature. 18 . The valve assembly according to claim 15 , wherein the at least one second opening of the armature no more than partially overlaps the at least one second opening of the damping element.