Valve for metering a fluid

What is claimed is: 1. A valve for metering a fluid, comprising: a valve housing, in which an internal pole is stationary-mounted; an electromagnetic actuator which includes an armature situated in an armature space and positioned on a valve needle, wherein the valve needle is operable by the actuator using the armature, the armature being guided on the valve needle, wherein the valve needle is situated inside of the valve housing and is guided along a longitudinal axis of the valve needle and/or the armature, relative to the valve housing; a first stop element that interacts with a first end face of a first stop element of the armature during operation, and a second stop element that interacts with a second end face of a second stop element of the armature during operation, situated on the valve needle, the first stop element and the second stop element limiting a movement of the armature relative to the valve needle, the armature having a spring receptacle which is open towards the first end face of the armature, and into which a spring supported at the first stop element is inserted, wherein the first stop element and the second stop element are positioned on the valve needle; a valve-closure member, which interacts with a valve-seat surface to form a sealing seat, is formed on the valve needle, wherein upon actuation of the armature, the valve-closure member is accelerated in a direction of the internal pole, and wherein when the armature strikes against the first stop element, which is a limit stop, to actuate the valve needle, the fluid is then injected through the sealing seat in an open configuration, and at least one nozzle opening, into a space; wherein the armature has at least one fluid channel, which, during operation, allows the fluid to pass through between a first region of the armature space bordering on the first end face of the armature and a second region of the armature space bordering on the second end face of the armature, the at least one fluid channel incorporating at least a portion of the spring receptacle, and wherein the at least one fluid channel runs radially outwardly in sections, along a direction, which is oriented from the first end face towards the second end face and is coaxial relative to the longitudinal axis, wherein the at least one fluid channel includes an oblique bore hole, wherein the at least one fluid channel leads through the oblique bore hole and at least a portion of the spring receptacle, wherein a coaxial direction with regard to the longitudinal axis results, which is oriented from the first end face to the second end face, wherein the oblique bore hole is formed in the armature so that it runs radially outwards along the coaxial direction and away from the longitudinal axis, so that there is an angle of inclination between the coaxial direction and an axis of oblique bore hole, and wherein the at least one fluid channel includes a first coaxial blind-end bore, which runs in the coaxial direction, starting from the first end face of the armature, and a second coaxial blind-end bore, which runs contrary to the coaxial direction, starting from the second end face of the armature. 2. The valve as recited in claim 1 , wherein the valve includes a fuel injector for an internal combustion engine. 3. The valve as recited in claim 1 , wherein a point of a first opening of the at least one fluid channel, away from the longitudinal axis, lying radially inwards to a maximum extent, is located closer to the longitudinal axis than a point of a second opening of the at least one fluid channel, away from the longitudinal axis, lying radially inwards to a maximum extent. 4. The valve as recited in claim 1 , wherein the at least one fluid channel goes out to the second region of the armature space at an outlet face of the armature, and an axis of the at least one fluid channel, along which the at least one fluid channel emerges at the outlet face of the armature, is oriented perpendicularly to the outlet face. 5. The valve as recited in claim 1 , wherein an outlet face lies in an annular surface running about the longitudinal axis, and the annular surface is in the form of a partial surface of a conical envelope axially symmetric with regard to the longitudinal axis, or is in the form of a partial surface of a circular disk oriented perpendicularly to the longitudinal axis. 6. The valve as recited in claim 1 , wherein the at least one fluid channel runs continuously radially outwards along the coaxial direction. 7. The valve as recited in claim 1 , wherein the at least one fluid channel includes the at least one oblique bore hole, which runs at least radially outwards along the coaxial direction. 8. The valve as recited in claim 7 , wherein the oblique bore hole runs from the first end face of the armature to the second end face of the armature. 9. The valve as recited in claim 7 , wherein the oblique bore hole is intersected by the spring receptacle. 10. The valve as recited in claim 7 , wherein the oblique bore hole is intersected by the spring receptacle so that a base of the spring receptacle is cut by the oblique bore hole. 11. The valve as recited in claim 1 , wherein the first coaxial blind-end bore and the second coaxial blind-end bore intersect each other inside of the armature, and with regard to the longitudinal axis, the second blind-end bore is situated radially further outwards than the first blind-end bore. 12. The valve as recited in claim 1 , wherein the armature has a cylindrical form having a through-hole, wherein the armature is guided at the through-hole, on the valve needle, wherein the cylinder form of the armature has a length between the first end face of the first stop element of the armature facing the internal pole and the second end face of the second stop element of the armature facing away from the internal pole, wherein the armature is positioned in the armature space, in which the first end face borders on a first region of the armature space and in which the second end face borders on a second region of the armature space, and wherein during operation, the fuel passes through the armature over at least a portion of its length by the at least one fluid channel. 13. The valve as recited in claim 12 , wherein the armature includes the spring receptacle, wherein the at least one fluid channel also includes the spring receptacle, wherein the at least one fluid channel leads through at least a portion of the spring receptacle, wherein the spring receptacle is open, wherein a spring support surface, at which the spring partially situated in the spring receptacle is supported, is formed by a base of the spring receptacle, and wherein upon actuation of the armature, the spring is shortened with respect to its starting length; so that it is insertable completely into the spring receptacle. 14. The valve as recited in claim 1 , wherein the armature includes the a spring receptacle, wherein the at least one fluid channel also includes the spring receptacle, wherein the at least one fluid channel leads through at least a portion of the spring receptacle, wherein the spring receptacle is open, wherein a spring support surface, at which the spring partially situated in the spring receptacle is supported, is formed by a base of the spring receptacle, and wherein upon actuation of the armature, the spring is shortened with respect to its starting length; so that it is insertable completely into the spring receptacle. 15. A valve for metering a fluid, which is a fuel injection valve for an internal combustion engine, comprising: an electromagnetic actuator, which has an armature