Method of manufacturing an injector for injecting fluid and injector for injecting fluid

The invention claimed is: 1. A method of manufacturing an injector for injecting fluid, the method comprising: providing a valve assembly having a valve body, a valve needle and an armature, the valve body defining a longitudinal axis and being formed with a cavity configured to receive therein the valve needle and the armature, the valve needle and the armature being mounted for axial movement relative to the valve body and being operable to control a flow rate of injected fluid from the cavity to an exterior of the injector; providing an actuator assembly surrounding the valve assembly, the actuator assembly including a housing and a magnetic coil, the coil being energizeable to induce a force for axially displacing the armature; providing a further magnetic element disposed axially next to the magnetic coil along the longitudinal axis and radially surrounding the valve assembly in a position between the housing and the magnetic coil, the further magnetic element being a permanent magnet or an electromagnet; and adjusting a flow characteristic of the fluid to be injected by the injector by axially shifting the valve body and the actuator assembly relative to one another. 2. The method according to claim 1 , wherein the further magnetic element is operable to induce a force for axially displacing the armature. 3. The method according to claim 1 , which further comprises: providing a physical model having an input parameter; operating the injector for determining a value of the input parameter; determining a shifting value by using the physical model with the determined value of the input parameter; and axially shifting the valve assembly and the actuator assembly relative to one another depending on the shifting value thus determined. 4. The method according to claim 1 , which further comprises a step of fixedly coupling the valve assembly and the actuator assembly to one another after the adjusting step. 5. The method according to claim 4 , which comprises welding the valve assembly and the actuator assembly to one another. 6. The method according to claim 1 , wherein the fluid is a gas. 7. The method according to claim 6 , wherein the fluid is air or nitrogen. 8. The method according to claim 1 , wherein the fluid is a liquid. 9. The method according to claim 8 , wherein the fluid is N-heptane. 10. An injector for injecting fluid, the injector comprising: a valve assembly having a valve body, a valve needle and an armature, said valve body defining a longitudinal axis and being formed with a cavity configured to receive therein said valve needle and said armature, said valve needle and said armature being mounted for axial movement relative to said valve body and being operable to control a flow rate of injected fluid from the cavity to an exterior of said injector; an actuator assembly surrounding said valve assembly, said actuator assembly having a housing and a magnetic coil, said magnetic coil being energizeable to induce a force for axially displacing the armature; a further magnetic element disposed axially next to said magnetic coil along the longitudinal axis and radially surrounding said valve assembly in a position between said housing and said magnetic coil, said further magnetic element being a permanent magnet or an electromagnet; and wherein said valve assembly and said actuator assembly are shaped and disposed to enable an adjustment of a flow characteristic of fluid to be injected by the injector by axially shifting said valve body and said actuator assembly relative to one another during an assembly of the injector. 11. The injector according to the claim 10 , wherein said valve assembly and said actuator assembly are friction-locked to one another, but said valve assembly and said actuator assembly are not positively engaged so as to block a relative axial movement of said valve assembly and said actuator assembly. 12. The injector according to the claim 10 , wherein said valve assembly comprises a valve spring disposed to axially bias said valve needle, said valve spring being received in said cavity and having a stiffness equal to 25 N/mm or higher. 13. The injector according to the claim 10 , wherein a rigid connection is established between said valve assembly and said actuator assembly. 14. The injector according to the claim 13 , wherein said rigid connection is a welded connection. 15. The injector according to the claim 10 , wherein said further magnetic element is arranged with poles thereof oriented radially with respect to the longitudinal axis. 16. The injector according to the claim 10 , wherein said magnetic coil and said further magnetic element are disposed in said housing. 17. The injector according to the claim 10 , wherein said further magnetic element is oriented radially with respect to the longitudinal axis with both magnetic poles thereof in a plane that is orthogonal to the longitudinal axis. 18. An injector for injecting fluid, the injector comprising: a valve assembly having a valve body, a valve needle and an armature, said valve body defining a longitudinal axis and being formed with a cavity configured to receive therein said valve needle and said armature, said valve needle and said armature being mounted for axial movement relative to said valve body and being operable to control a flow rate of injected fluid from the cavity to an exterior of said injector; an actuator assembly surrounding said valve assembly, said actuator assembly having a housing and a magnetic coil, said magnetic coil being energizeable to induce a force for axially displacing the armature, said actuator assembly does not laterally overlap any portion of said valve assembly which said actuator assembly overlaps axially; a further magnetic element disposed axially next to said magnetic coil along the longitudinal axis and radially surrounding said valve assembly, said further magnetic element being a permanent magnet or an electromagnet; and wherein said valve assembly and said actuator assembly are shaped and disposed to enable an adjustment of a flow characteristic of fluid to be injected by the injector by axially shifting said valve assembly and said actuator assembly relative to one another during an assembly of the injector.